extern void __VERIFIER_error() __attribute__ ((__noreturn__)); /* Generated by CIL v. 1.5.1 */ /* print_CIL_Input is false */ typedef unsigned char __u8; typedef short __s16; typedef unsigned short __u16; typedef int __s32; typedef unsigned int __u32; typedef unsigned long long __u64; typedef signed char s8; typedef unsigned char u8; typedef unsigned short u16; typedef int s32; typedef unsigned int u32; typedef long long s64; typedef unsigned long long u64; typedef long __kernel_long_t; typedef unsigned long __kernel_ulong_t; typedef int __kernel_pid_t; typedef unsigned int __kernel_uid32_t; typedef unsigned int __kernel_gid32_t; typedef __kernel_ulong_t __kernel_size_t; typedef __kernel_long_t __kernel_ssize_t; typedef long long __kernel_loff_t; typedef __kernel_long_t __kernel_time_t; typedef __kernel_long_t __kernel_clock_t; typedef int __kernel_timer_t; typedef int __kernel_clockid_t; typedef __u16 __le16; typedef __u16 __be16; typedef __u32 __le32; typedef __u32 __be32; typedef __u32 __wsum; struct kernel_symbol { unsigned long value ; char const *name ; }; struct module; typedef __u32 __kernel_dev_t; typedef __kernel_dev_t dev_t; typedef unsigned short umode_t; typedef __kernel_pid_t pid_t; typedef __kernel_clockid_t clockid_t; typedef _Bool bool; typedef __kernel_uid32_t uid_t; typedef __kernel_gid32_t gid_t; typedef __kernel_loff_t loff_t; typedef __kernel_size_t size_t; typedef __kernel_ssize_t ssize_t; typedef __kernel_time_t time_t; typedef unsigned char u_char; typedef __s32 int32_t; typedef __u8 uint8_t; typedef __u32 uint32_t; typedef __u64 uint64_t; typedef unsigned long sector_t; typedef unsigned long blkcnt_t; typedef u64 dma_addr_t; typedef unsigned int gfp_t; typedef unsigned int fmode_t; typedef unsigned int oom_flags_t; typedef u64 phys_addr_t; typedef phys_addr_t resource_size_t; struct __anonstruct_atomic_t_6 { int counter ; }; typedef struct __anonstruct_atomic_t_6 atomic_t; struct __anonstruct_atomic64_t_7 { long counter ; }; typedef struct __anonstruct_atomic64_t_7 atomic64_t; struct list_head { struct list_head *next ; struct list_head *prev ; }; struct hlist_node; struct hlist_head { struct hlist_node *first ; }; struct hlist_node { struct hlist_node *next ; struct hlist_node **pprev ; }; struct callback_head { struct callback_head *next ; void (*func)(struct callback_head * ) ; }; struct pt_regs { unsigned long r15 ; unsigned long r14 ; unsigned long r13 ; unsigned long r12 ; unsigned long bp ; unsigned long bx ; unsigned long r11 ; unsigned long r10 ; unsigned long r9 ; unsigned long r8 ; unsigned long ax ; unsigned long cx ; unsigned long dx ; unsigned long si ; unsigned long di ; unsigned long orig_ax ; unsigned long ip ; unsigned long cs ; unsigned long flags ; unsigned long sp ; unsigned long ss ; }; struct __anonstruct____missing_field_name_9 { unsigned int a ; unsigned int b ; }; struct __anonstruct____missing_field_name_10 { u16 limit0 ; u16 base0 ; unsigned char base1 ; unsigned char type : 4 ; unsigned char s : 1 ; unsigned char dpl : 2 ; unsigned char p : 1 ; unsigned char limit : 4 ; unsigned char avl : 1 ; unsigned char l : 1 ; unsigned char d : 1 ; unsigned char g : 1 ; unsigned char base2 ; }; union __anonunion____missing_field_name_8 { struct __anonstruct____missing_field_name_9 __annonCompField4 ; struct __anonstruct____missing_field_name_10 __annonCompField5 ; }; struct desc_struct { union __anonunion____missing_field_name_8 __annonCompField6 ; }; typedef unsigned long pteval_t; typedef unsigned long pgdval_t; typedef unsigned long pgprotval_t; struct __anonstruct_pte_t_11 { pteval_t pte ; }; typedef struct __anonstruct_pte_t_11 pte_t; struct pgprot { pgprotval_t pgprot ; }; typedef struct pgprot pgprot_t; struct __anonstruct_pgd_t_12 { pgdval_t pgd ; }; typedef struct __anonstruct_pgd_t_12 pgd_t; struct page; typedef struct page *pgtable_t; struct file; struct seq_file; struct thread_struct; struct mm_struct; struct task_struct; struct cpumask; struct qspinlock { atomic_t val ; }; typedef struct qspinlock arch_spinlock_t; struct qrwlock { atomic_t cnts ; arch_spinlock_t lock ; }; typedef struct qrwlock arch_rwlock_t; typedef void (*ctor_fn_t)(void); struct device; struct net_device; struct file_operations; struct completion; struct bug_entry { int bug_addr_disp ; int file_disp ; unsigned short line ; unsigned short flags ; }; struct timespec; struct compat_timespec; struct __anonstruct_futex_16 { u32 *uaddr ; u32 val ; u32 flags ; u32 bitset ; u64 time ; u32 *uaddr2 ; }; struct __anonstruct_nanosleep_17 { clockid_t clockid ; struct timespec *rmtp ; struct compat_timespec *compat_rmtp ; u64 expires ; }; struct pollfd; struct __anonstruct_poll_18 { struct pollfd *ufds ; int nfds ; int has_timeout ; unsigned long tv_sec ; unsigned long tv_nsec ; }; union __anonunion____missing_field_name_15 { struct __anonstruct_futex_16 futex ; struct __anonstruct_nanosleep_17 nanosleep ; struct __anonstruct_poll_18 poll ; }; struct restart_block { long (*fn)(struct restart_block * ) ; union __anonunion____missing_field_name_15 __annonCompField7 ; }; struct kernel_vm86_regs { struct pt_regs pt ; unsigned short es ; unsigned short __esh ; unsigned short ds ; unsigned short __dsh ; unsigned short fs ; unsigned short __fsh ; unsigned short gs ; unsigned short __gsh ; }; union __anonunion____missing_field_name_19 { struct pt_regs *regs ; struct kernel_vm86_regs *vm86 ; }; struct math_emu_info { long ___orig_eip ; union __anonunion____missing_field_name_19 __annonCompField8 ; }; struct cpumask { unsigned long bits[128U] ; }; typedef struct cpumask cpumask_t; typedef struct cpumask *cpumask_var_t; struct fregs_state { u32 cwd ; u32 swd ; u32 twd ; u32 fip ; u32 fcs ; u32 foo ; u32 fos ; u32 st_space[20U] ; u32 status ; }; struct __anonstruct____missing_field_name_29 { u64 rip ; u64 rdp ; }; struct __anonstruct____missing_field_name_30 { u32 fip ; u32 fcs ; u32 foo ; u32 fos ; }; union __anonunion____missing_field_name_28 { struct __anonstruct____missing_field_name_29 __annonCompField12 ; struct __anonstruct____missing_field_name_30 __annonCompField13 ; }; union __anonunion____missing_field_name_31 { u32 padding1[12U] ; u32 sw_reserved[12U] ; }; struct fxregs_state { u16 cwd ; u16 swd ; u16 twd ; u16 fop ; union __anonunion____missing_field_name_28 __annonCompField14 ; u32 mxcsr ; u32 mxcsr_mask ; u32 st_space[32U] ; u32 xmm_space[64U] ; u32 padding[12U] ; union __anonunion____missing_field_name_31 __annonCompField15 ; }; struct swregs_state { u32 cwd ; u32 swd ; u32 twd ; u32 fip ; u32 fcs ; u32 foo ; u32 fos ; u32 st_space[20U] ; u8 ftop ; u8 changed ; u8 lookahead ; u8 no_update ; u8 rm ; u8 alimit ; struct math_emu_info *info ; u32 entry_eip ; }; struct xstate_header { u64 xfeatures ; u64 xcomp_bv ; u64 reserved[6U] ; }; struct xregs_state { struct fxregs_state i387 ; struct xstate_header header ; u8 __reserved[464U] ; }; union fpregs_state { struct fregs_state fsave ; struct fxregs_state fxsave ; struct swregs_state soft ; struct xregs_state xsave ; }; struct fpu { union fpregs_state state ; unsigned int last_cpu ; unsigned char fpstate_active ; unsigned char fpregs_active ; unsigned char counter ; }; struct seq_operations; struct perf_event; struct thread_struct { struct desc_struct tls_array[3U] ; unsigned long sp0 ; unsigned long sp ; unsigned short es ; unsigned short ds ; unsigned short fsindex ; unsigned short gsindex ; unsigned long fs ; unsigned long gs ; struct fpu fpu ; struct perf_event *ptrace_bps[4U] ; unsigned long debugreg6 ; unsigned long ptrace_dr7 ; unsigned long cr2 ; unsigned long trap_nr ; unsigned long error_code ; unsigned long *io_bitmap_ptr ; unsigned long iopl ; unsigned int io_bitmap_max ; }; typedef atomic64_t atomic_long_t; struct lockdep_map; struct stack_trace { unsigned int nr_entries ; unsigned int max_entries ; unsigned long *entries ; int skip ; }; struct lockdep_subclass_key { char __one_byte ; }; struct lock_class_key { struct lockdep_subclass_key subkeys[8U] ; }; struct lock_class { struct list_head hash_entry ; struct list_head lock_entry ; struct lockdep_subclass_key *key ; unsigned int subclass ; unsigned int dep_gen_id ; unsigned long usage_mask ; struct stack_trace usage_traces[13U] ; struct list_head locks_after ; struct list_head locks_before ; unsigned int version ; unsigned long ops ; char const *name ; int name_version ; unsigned long contention_point[4U] ; unsigned long contending_point[4U] ; }; struct lockdep_map { struct lock_class_key *key ; struct lock_class *class_cache[2U] ; char const *name ; int cpu ; unsigned long ip ; }; struct held_lock { u64 prev_chain_key ; unsigned long acquire_ip ; struct lockdep_map *instance ; struct lockdep_map *nest_lock ; u64 waittime_stamp ; u64 holdtime_stamp ; unsigned short class_idx : 13 ; unsigned char irq_context : 2 ; unsigned char trylock : 1 ; unsigned char read : 2 ; unsigned char check : 1 ; unsigned char hardirqs_off : 1 ; unsigned short references : 12 ; unsigned int pin_count ; }; struct raw_spinlock { arch_spinlock_t raw_lock ; unsigned int magic ; unsigned int owner_cpu ; void *owner ; struct lockdep_map dep_map ; }; typedef struct raw_spinlock raw_spinlock_t; struct __anonstruct____missing_field_name_35 { u8 __padding[24U] ; struct lockdep_map dep_map ; }; union __anonunion____missing_field_name_34 { struct raw_spinlock rlock ; struct __anonstruct____missing_field_name_35 __annonCompField17 ; }; struct spinlock { union __anonunion____missing_field_name_34 __annonCompField18 ; }; typedef struct spinlock spinlock_t; struct __anonstruct_rwlock_t_36 { arch_rwlock_t raw_lock ; unsigned int magic ; unsigned int owner_cpu ; void *owner ; struct lockdep_map dep_map ; }; typedef struct __anonstruct_rwlock_t_36 rwlock_t; struct seqcount { unsigned int sequence ; struct lockdep_map dep_map ; }; typedef struct seqcount seqcount_t; struct __anonstruct_seqlock_t_45 { struct seqcount seqcount ; spinlock_t lock ; }; typedef struct __anonstruct_seqlock_t_45 seqlock_t; struct timespec { __kernel_time_t tv_sec ; long tv_nsec ; }; struct user_namespace; struct __anonstruct_kuid_t_46 { uid_t val ; }; typedef struct __anonstruct_kuid_t_46 kuid_t; struct __anonstruct_kgid_t_47 { gid_t val ; }; typedef struct __anonstruct_kgid_t_47 kgid_t; struct kstat { u64 ino ; dev_t dev ; umode_t mode ; unsigned int nlink ; kuid_t uid ; kgid_t gid ; dev_t rdev ; loff_t size ; struct timespec atime ; struct timespec mtime ; struct timespec ctime ; unsigned long blksize ; unsigned long long blocks ; }; struct vm_area_struct; struct __wait_queue; typedef struct __wait_queue wait_queue_t; struct __wait_queue { unsigned int flags ; void *private ; int (*func)(wait_queue_t * , unsigned int , int , void * ) ; struct list_head task_list ; }; struct __wait_queue_head { spinlock_t lock ; struct list_head task_list ; }; typedef struct __wait_queue_head wait_queue_head_t; struct __anonstruct_nodemask_t_48 { unsigned long bits[16U] ; }; typedef struct __anonstruct_nodemask_t_48 nodemask_t; struct optimistic_spin_queue { atomic_t tail ; }; struct mutex { atomic_t count ; spinlock_t wait_lock ; struct list_head wait_list ; struct task_struct *owner ; void *magic ; struct lockdep_map dep_map ; }; struct mutex_waiter { struct list_head list ; struct task_struct *task ; void *magic ; }; struct rw_semaphore; struct rw_semaphore { long count ; struct list_head wait_list ; raw_spinlock_t wait_lock ; struct optimistic_spin_queue osq ; struct task_struct *owner ; struct lockdep_map dep_map ; }; struct completion { unsigned int done ; wait_queue_head_t wait ; }; union ktime { s64 tv64 ; }; typedef union ktime ktime_t; struct notifier_block; struct timer_list { struct hlist_node entry ; unsigned long expires ; void (*function)(unsigned long ) ; unsigned long data ; u32 flags ; int slack ; int start_pid ; void *start_site ; char start_comm[16U] ; struct lockdep_map lockdep_map ; }; struct hrtimer; enum hrtimer_restart; struct rb_node { unsigned long __rb_parent_color ; struct rb_node *rb_right ; struct rb_node *rb_left ; }; struct rb_root { struct rb_node *rb_node ; }; struct ctl_table; struct nsproxy; struct ctl_table_root; struct ctl_table_header; struct ctl_dir; typedef int proc_handler(struct ctl_table * , int , void * , size_t * , loff_t * ); struct ctl_table_poll { atomic_t event ; wait_queue_head_t wait ; }; struct ctl_table { char const *procname ; void *data ; int maxlen ; umode_t mode ; struct ctl_table *child ; proc_handler *proc_handler ; struct ctl_table_poll *poll ; void *extra1 ; void *extra2 ; }; struct ctl_node { struct rb_node node ; struct ctl_table_header *header ; }; struct __anonstruct____missing_field_name_50 { struct ctl_table *ctl_table ; int used ; int count ; int nreg ; }; union __anonunion____missing_field_name_49 { struct __anonstruct____missing_field_name_50 __annonCompField19 ; struct callback_head rcu ; }; struct ctl_table_set; struct ctl_table_header { union __anonunion____missing_field_name_49 __annonCompField20 ; struct completion *unregistering ; struct ctl_table *ctl_table_arg ; struct ctl_table_root *root ; struct ctl_table_set *set ; struct ctl_dir *parent ; struct ctl_node *node ; }; struct ctl_dir { struct ctl_table_header header ; struct rb_root root ; }; struct ctl_table_set { int (*is_seen)(struct ctl_table_set * ) ; struct ctl_dir dir ; }; struct ctl_table_root { struct ctl_table_set default_set ; struct ctl_table_set *(*lookup)(struct ctl_table_root * , struct nsproxy * ) ; int (*permissions)(struct ctl_table_header * , struct ctl_table * ) ; }; struct workqueue_struct; struct work_struct; struct work_struct { atomic_long_t data ; struct list_head entry ; void (*func)(struct work_struct * ) ; struct lockdep_map lockdep_map ; }; struct delayed_work { struct work_struct work ; struct timer_list timer ; struct workqueue_struct *wq ; int cpu ; }; struct notifier_block { int (*notifier_call)(struct notifier_block * , unsigned long , void * ) ; struct notifier_block *next ; int priority ; }; struct blocking_notifier_head { struct rw_semaphore rwsem ; struct notifier_block *head ; }; struct resource { resource_size_t start ; resource_size_t end ; char const *name ; unsigned long flags ; struct resource *parent ; struct resource *sibling ; struct resource *child ; }; struct pci_dev; struct pm_message { int event ; }; typedef struct pm_message pm_message_t; struct dev_pm_ops { int (*prepare)(struct device * ) ; void (*complete)(struct device * ) ; int (*suspend)(struct device * ) ; int (*resume)(struct device * ) ; int (*freeze)(struct device * ) ; int (*thaw)(struct device * ) ; int (*poweroff)(struct device * ) ; int (*restore)(struct device * ) ; int (*suspend_late)(struct device * ) ; int (*resume_early)(struct device * ) ; int (*freeze_late)(struct device * ) ; int (*thaw_early)(struct device * ) ; int (*poweroff_late)(struct device * ) ; int (*restore_early)(struct device * ) ; int (*suspend_noirq)(struct device * ) ; int (*resume_noirq)(struct device * ) ; int (*freeze_noirq)(struct device * ) ; int (*thaw_noirq)(struct device * ) ; int (*poweroff_noirq)(struct device * ) ; int (*restore_noirq)(struct device * ) ; int (*runtime_suspend)(struct device * ) ; int (*runtime_resume)(struct device * ) ; int (*runtime_idle)(struct device * ) ; }; enum rpm_status { RPM_ACTIVE = 0, RPM_RESUMING = 1, RPM_SUSPENDED = 2, RPM_SUSPENDING = 3 } ; enum rpm_request { RPM_REQ_NONE = 0, RPM_REQ_IDLE = 1, RPM_REQ_SUSPEND = 2, RPM_REQ_AUTOSUSPEND = 3, RPM_REQ_RESUME = 4 } ; struct wakeup_source; struct wake_irq; struct pm_subsys_data { spinlock_t lock ; unsigned int refcount ; struct list_head clock_list ; }; struct dev_pm_qos; struct dev_pm_info { pm_message_t power_state ; unsigned char can_wakeup : 1 ; unsigned char async_suspend : 1 ; bool is_prepared ; bool is_suspended ; bool is_noirq_suspended ; bool is_late_suspended ; bool ignore_children ; bool early_init ; bool direct_complete ; spinlock_t lock ; struct list_head entry ; struct completion completion ; struct wakeup_source *wakeup ; bool wakeup_path ; bool syscore ; struct timer_list suspend_timer ; unsigned long timer_expires ; struct work_struct work ; wait_queue_head_t wait_queue ; struct wake_irq *wakeirq ; atomic_t usage_count ; atomic_t child_count ; unsigned char disable_depth : 3 ; unsigned char idle_notification : 1 ; unsigned char request_pending : 1 ; unsigned char deferred_resume : 1 ; unsigned char run_wake : 1 ; unsigned char runtime_auto : 1 ; unsigned char no_callbacks : 1 ; unsigned char irq_safe : 1 ; unsigned char use_autosuspend : 1 ; unsigned char timer_autosuspends : 1 ; unsigned char memalloc_noio : 1 ; enum rpm_request request ; enum rpm_status runtime_status ; int runtime_error ; int autosuspend_delay ; unsigned long last_busy ; unsigned long active_jiffies ; unsigned long suspended_jiffies ; unsigned long accounting_timestamp ; struct pm_subsys_data *subsys_data ; void (*set_latency_tolerance)(struct device * , s32 ) ; struct dev_pm_qos *qos ; }; struct dev_pm_domain { struct dev_pm_ops ops ; void (*detach)(struct device * , bool ) ; int (*activate)(struct device * ) ; void (*sync)(struct device * ) ; void (*dismiss)(struct device * ) ; }; struct pci_bus; struct __anonstruct_mm_context_t_115 { void *ldt ; int size ; unsigned short ia32_compat ; struct mutex lock ; void *vdso ; atomic_t perf_rdpmc_allowed ; }; typedef struct __anonstruct_mm_context_t_115 mm_context_t; struct bio_vec; struct llist_node; struct llist_node { struct llist_node *next ; }; struct cred; struct inode; struct arch_uprobe_task { unsigned long saved_scratch_register ; unsigned int saved_trap_nr ; unsigned int saved_tf ; }; enum uprobe_task_state { UTASK_RUNNING = 0, UTASK_SSTEP = 1, UTASK_SSTEP_ACK = 2, UTASK_SSTEP_TRAPPED = 3 } ; struct __anonstruct____missing_field_name_148 { struct arch_uprobe_task autask ; unsigned long vaddr ; }; struct __anonstruct____missing_field_name_149 { struct callback_head dup_xol_work ; unsigned long dup_xol_addr ; }; union __anonunion____missing_field_name_147 { struct __anonstruct____missing_field_name_148 __annonCompField33 ; struct __anonstruct____missing_field_name_149 __annonCompField34 ; }; struct uprobe; struct return_instance; struct uprobe_task { enum uprobe_task_state state ; union __anonunion____missing_field_name_147 __annonCompField35 ; struct uprobe *active_uprobe ; unsigned long xol_vaddr ; struct return_instance *return_instances ; unsigned int depth ; }; struct xol_area; struct uprobes_state { struct xol_area *xol_area ; }; struct address_space; struct mem_cgroup; typedef void compound_page_dtor(struct page * ); union __anonunion____missing_field_name_150 { struct address_space *mapping ; void *s_mem ; }; union __anonunion____missing_field_name_152 { unsigned long index ; void *freelist ; bool pfmemalloc ; }; struct __anonstruct____missing_field_name_156 { unsigned short inuse ; unsigned short objects : 15 ; unsigned char frozen : 1 ; }; union __anonunion____missing_field_name_155 { atomic_t _mapcount ; struct __anonstruct____missing_field_name_156 __annonCompField38 ; int units ; }; struct __anonstruct____missing_field_name_154 { union __anonunion____missing_field_name_155 __annonCompField39 ; atomic_t _count ; }; union __anonunion____missing_field_name_153 { unsigned long counters ; struct __anonstruct____missing_field_name_154 __annonCompField40 ; unsigned int active ; }; struct __anonstruct____missing_field_name_151 { union __anonunion____missing_field_name_152 __annonCompField37 ; union __anonunion____missing_field_name_153 __annonCompField41 ; }; struct __anonstruct____missing_field_name_158 { struct page *next ; int pages ; int pobjects ; }; struct slab; struct __anonstruct____missing_field_name_159 { compound_page_dtor *compound_dtor ; unsigned long compound_order ; }; union __anonunion____missing_field_name_157 { struct list_head lru ; struct __anonstruct____missing_field_name_158 __annonCompField43 ; struct slab *slab_page ; struct callback_head callback_head ; struct __anonstruct____missing_field_name_159 __annonCompField44 ; pgtable_t pmd_huge_pte ; }; struct kmem_cache; union __anonunion____missing_field_name_160 { unsigned long private ; spinlock_t *ptl ; struct kmem_cache *slab_cache ; struct page *first_page ; }; struct page { unsigned long flags ; union __anonunion____missing_field_name_150 __annonCompField36 ; struct __anonstruct____missing_field_name_151 __annonCompField42 ; union __anonunion____missing_field_name_157 __annonCompField45 ; union __anonunion____missing_field_name_160 __annonCompField46 ; struct mem_cgroup *mem_cgroup ; }; struct page_frag { struct page *page ; __u32 offset ; __u32 size ; }; struct __anonstruct_shared_161 { struct rb_node rb ; unsigned long rb_subtree_last ; }; struct anon_vma; struct vm_operations_struct; struct mempolicy; struct vm_area_struct { unsigned long vm_start ; unsigned long vm_end ; struct vm_area_struct *vm_next ; struct vm_area_struct *vm_prev ; struct rb_node vm_rb ; unsigned long rb_subtree_gap ; struct mm_struct *vm_mm ; pgprot_t vm_page_prot ; unsigned long vm_flags ; struct __anonstruct_shared_161 shared ; struct list_head anon_vma_chain ; struct anon_vma *anon_vma ; struct vm_operations_struct const *vm_ops ; unsigned long vm_pgoff ; struct file *vm_file ; void *vm_private_data ; struct mempolicy *vm_policy ; }; struct core_thread { struct task_struct *task ; struct core_thread *next ; }; struct core_state { atomic_t nr_threads ; struct core_thread dumper ; struct completion startup ; }; struct task_rss_stat { int events ; int count[3U] ; }; struct mm_rss_stat { atomic_long_t count[3U] ; }; struct kioctx_table; struct linux_binfmt; struct mmu_notifier_mm; struct mm_struct { struct vm_area_struct *mmap ; struct rb_root mm_rb ; u32 vmacache_seqnum ; unsigned long (*get_unmapped_area)(struct file * , unsigned long , unsigned long , unsigned long , unsigned long ) ; unsigned long mmap_base ; unsigned long mmap_legacy_base ; unsigned long task_size ; unsigned long highest_vm_end ; pgd_t *pgd ; atomic_t mm_users ; atomic_t mm_count ; atomic_long_t nr_ptes ; atomic_long_t nr_pmds ; int map_count ; spinlock_t page_table_lock ; struct rw_semaphore mmap_sem ; struct list_head mmlist ; unsigned long hiwater_rss ; unsigned long hiwater_vm ; unsigned long total_vm ; unsigned long locked_vm ; unsigned long pinned_vm ; unsigned long shared_vm ; unsigned long exec_vm ; unsigned long stack_vm ; unsigned long def_flags ; unsigned long start_code ; unsigned long end_code ; unsigned long start_data ; unsigned long end_data ; unsigned long start_brk ; unsigned long brk ; unsigned long start_stack ; unsigned long arg_start ; unsigned long arg_end ; unsigned long env_start ; unsigned long env_end ; unsigned long saved_auxv[46U] ; struct mm_rss_stat rss_stat ; struct linux_binfmt *binfmt ; cpumask_var_t cpu_vm_mask_var ; mm_context_t context ; unsigned long flags ; struct core_state *core_state ; spinlock_t ioctx_lock ; struct kioctx_table *ioctx_table ; struct task_struct *owner ; struct file *exe_file ; struct mmu_notifier_mm *mmu_notifier_mm ; struct cpumask cpumask_allocation ; unsigned long numa_next_scan ; unsigned long numa_scan_offset ; int numa_scan_seq ; bool tlb_flush_pending ; struct uprobes_state uprobes_state ; void *bd_addr ; }; typedef __u64 Elf64_Addr; typedef __u16 Elf64_Half; typedef __u32 Elf64_Word; typedef __u64 Elf64_Xword; struct elf64_sym { Elf64_Word st_name ; unsigned char st_info ; unsigned char st_other ; Elf64_Half st_shndx ; Elf64_Addr st_value ; Elf64_Xword st_size ; }; typedef struct elf64_sym Elf64_Sym; union __anonunion____missing_field_name_166 { unsigned long bitmap[4U] ; struct callback_head callback_head ; }; struct idr_layer { int prefix ; int layer ; struct idr_layer *ary[256U] ; int count ; union __anonunion____missing_field_name_166 __annonCompField47 ; }; struct idr { struct idr_layer *hint ; struct idr_layer *top ; int layers ; int cur ; spinlock_t lock ; int id_free_cnt ; struct idr_layer *id_free ; }; struct ida_bitmap { long nr_busy ; unsigned long bitmap[15U] ; }; struct ida { struct idr idr ; struct ida_bitmap *free_bitmap ; }; struct dentry; struct iattr; struct super_block; struct file_system_type; struct kernfs_open_node; struct kernfs_iattrs; struct kernfs_root; struct kernfs_elem_dir { unsigned long subdirs ; struct rb_root children ; struct kernfs_root *root ; }; struct kernfs_node; struct kernfs_elem_symlink { struct kernfs_node *target_kn ; }; struct kernfs_ops; struct kernfs_elem_attr { struct kernfs_ops const *ops ; struct kernfs_open_node *open ; loff_t size ; struct kernfs_node *notify_next ; }; union __anonunion____missing_field_name_171 { struct kernfs_elem_dir dir ; struct kernfs_elem_symlink symlink ; struct kernfs_elem_attr attr ; }; struct kernfs_node { atomic_t count ; atomic_t active ; struct lockdep_map dep_map ; struct kernfs_node *parent ; char const *name ; struct rb_node rb ; void const *ns ; unsigned int hash ; union __anonunion____missing_field_name_171 __annonCompField48 ; void *priv ; unsigned short flags ; umode_t mode ; unsigned int ino ; struct kernfs_iattrs *iattr ; }; struct kernfs_syscall_ops { int (*remount_fs)(struct kernfs_root * , int * , char * ) ; int (*show_options)(struct seq_file * , struct kernfs_root * ) ; int (*mkdir)(struct kernfs_node * , char const * , umode_t ) ; int (*rmdir)(struct kernfs_node * ) ; int (*rename)(struct kernfs_node * , struct kernfs_node * , char const * ) ; }; struct kernfs_root { struct kernfs_node *kn ; unsigned int flags ; struct ida ino_ida ; struct kernfs_syscall_ops *syscall_ops ; struct list_head supers ; wait_queue_head_t deactivate_waitq ; }; struct kernfs_open_file { struct kernfs_node *kn ; struct file *file ; void *priv ; struct mutex mutex ; int event ; struct list_head list ; char *prealloc_buf ; size_t atomic_write_len ; bool mmapped ; struct vm_operations_struct const *vm_ops ; }; struct kernfs_ops { int (*seq_show)(struct seq_file * , void * ) ; void *(*seq_start)(struct seq_file * , loff_t * ) ; void *(*seq_next)(struct seq_file * , void * , loff_t * ) ; void (*seq_stop)(struct seq_file * , void * ) ; ssize_t (*read)(struct kernfs_open_file * , char * , size_t , loff_t ) ; size_t atomic_write_len ; bool prealloc ; ssize_t (*write)(struct kernfs_open_file * , char * , size_t , loff_t ) ; int (*mmap)(struct kernfs_open_file * , struct vm_area_struct * ) ; struct lock_class_key lockdep_key ; }; struct sock; struct kobject; enum kobj_ns_type { KOBJ_NS_TYPE_NONE = 0, KOBJ_NS_TYPE_NET = 1, KOBJ_NS_TYPES = 2 } ; struct kobj_ns_type_operations { enum kobj_ns_type type ; bool (*current_may_mount)(void) ; void *(*grab_current_ns)(void) ; void const *(*netlink_ns)(struct sock * ) ; void const *(*initial_ns)(void) ; void (*drop_ns)(void * ) ; }; struct bin_attribute; struct attribute { char const *name ; umode_t mode ; bool ignore_lockdep ; struct lock_class_key *key ; struct lock_class_key skey ; }; struct attribute_group { char const *name ; umode_t (*is_visible)(struct kobject * , struct attribute * , int ) ; struct attribute **attrs ; struct bin_attribute **bin_attrs ; }; struct bin_attribute { struct attribute attr ; size_t size ; void *private ; ssize_t (*read)(struct file * , struct kobject * , struct bin_attribute * , char * , loff_t , size_t ) ; ssize_t (*write)(struct file * , struct kobject * , struct bin_attribute * , char * , loff_t , size_t ) ; int (*mmap)(struct file * , struct kobject * , struct bin_attribute * , struct vm_area_struct * ) ; }; struct sysfs_ops { ssize_t (*show)(struct kobject * , struct attribute * , char * ) ; ssize_t (*store)(struct kobject * , struct attribute * , char const * , size_t ) ; }; struct kref { atomic_t refcount ; }; struct kset; struct kobj_type; struct kobject { char const *name ; struct list_head entry ; struct kobject *parent ; struct kset *kset ; struct kobj_type *ktype ; struct kernfs_node *sd ; struct kref kref ; struct delayed_work release ; unsigned char state_initialized : 1 ; unsigned char state_in_sysfs : 1 ; unsigned char state_add_uevent_sent : 1 ; unsigned char state_remove_uevent_sent : 1 ; unsigned char uevent_suppress : 1 ; }; struct kobj_type { void (*release)(struct kobject * ) ; struct sysfs_ops const *sysfs_ops ; struct attribute **default_attrs ; struct kobj_ns_type_operations const *(*child_ns_type)(struct kobject * ) ; void const *(*namespace)(struct kobject * ) ; }; struct kobj_uevent_env { char *argv[3U] ; char *envp[32U] ; int envp_idx ; char buf[2048U] ; int buflen ; }; struct kset_uevent_ops { int (* const filter)(struct kset * , struct kobject * ) ; char const *(* const name)(struct kset * , struct kobject * ) ; int (* const uevent)(struct kset * , struct kobject * , struct kobj_uevent_env * ) ; }; struct kset { struct list_head list ; spinlock_t list_lock ; struct kobject kobj ; struct kset_uevent_ops const *uevent_ops ; }; struct kernel_param; struct kernel_param_ops { unsigned int flags ; int (*set)(char const * , struct kernel_param const * ) ; int (*get)(char * , struct kernel_param const * ) ; void (*free)(void * ) ; }; struct kparam_string; struct kparam_array; union __anonunion____missing_field_name_172 { void *arg ; struct kparam_string const *str ; struct kparam_array const *arr ; }; struct kernel_param { char const *name ; struct module *mod ; struct kernel_param_ops const *ops ; u16 const perm ; s8 level ; u8 flags ; union __anonunion____missing_field_name_172 __annonCompField49 ; }; struct kparam_string { unsigned int maxlen ; char *string ; }; struct kparam_array { unsigned int max ; unsigned int elemsize ; unsigned int *num ; struct kernel_param_ops const *ops ; void *elem ; }; struct latch_tree_node { struct rb_node node[2U] ; }; struct mod_arch_specific { }; struct module_param_attrs; struct module_kobject { struct kobject kobj ; struct module *mod ; struct kobject *drivers_dir ; struct module_param_attrs *mp ; struct completion *kobj_completion ; }; struct module_attribute { struct attribute attr ; ssize_t (*show)(struct module_attribute * , struct module_kobject * , char * ) ; ssize_t (*store)(struct module_attribute * , struct module_kobject * , char const * , size_t ) ; void (*setup)(struct module * , char const * ) ; int (*test)(struct module * ) ; void (*free)(struct module * ) ; }; struct exception_table_entry; enum module_state { MODULE_STATE_LIVE = 0, MODULE_STATE_COMING = 1, MODULE_STATE_GOING = 2, MODULE_STATE_UNFORMED = 3 } ; struct mod_tree_node { struct module *mod ; struct latch_tree_node node ; }; struct module_sect_attrs; struct module_notes_attrs; struct tracepoint; struct trace_event_call; struct trace_enum_map; struct module { enum module_state state ; struct list_head list ; char name[56U] ; struct module_kobject mkobj ; struct module_attribute *modinfo_attrs ; char const *version ; char const *srcversion ; struct kobject *holders_dir ; struct kernel_symbol const *syms ; unsigned long const *crcs ; unsigned int num_syms ; struct mutex param_lock ; struct kernel_param *kp ; unsigned int num_kp ; unsigned int num_gpl_syms ; struct kernel_symbol const *gpl_syms ; unsigned long const *gpl_crcs ; struct kernel_symbol const *unused_syms ; unsigned long const *unused_crcs ; unsigned int num_unused_syms ; unsigned int num_unused_gpl_syms ; struct kernel_symbol const *unused_gpl_syms ; unsigned long const *unused_gpl_crcs ; bool sig_ok ; bool async_probe_requested ; struct kernel_symbol const *gpl_future_syms ; unsigned long const *gpl_future_crcs ; unsigned int num_gpl_future_syms ; unsigned int num_exentries ; struct exception_table_entry *extable ; int (*init)(void) ; void *module_init ; void *module_core ; unsigned int init_size ; unsigned int core_size ; unsigned int init_text_size ; unsigned int core_text_size ; struct mod_tree_node mtn_core ; struct mod_tree_node mtn_init ; unsigned int init_ro_size ; unsigned int core_ro_size ; struct mod_arch_specific arch ; unsigned int taints ; unsigned int num_bugs ; struct list_head bug_list ; struct bug_entry *bug_table ; Elf64_Sym *symtab ; Elf64_Sym *core_symtab ; unsigned int num_symtab ; unsigned int core_num_syms ; char *strtab ; char *core_strtab ; struct module_sect_attrs *sect_attrs ; struct module_notes_attrs *notes_attrs ; char *args ; void *percpu ; unsigned int percpu_size ; unsigned int num_tracepoints ; struct tracepoint * const *tracepoints_ptrs ; unsigned int num_trace_bprintk_fmt ; char const **trace_bprintk_fmt_start ; struct trace_event_call **trace_events ; unsigned int num_trace_events ; struct trace_enum_map **trace_enums ; unsigned int num_trace_enums ; unsigned int num_ftrace_callsites ; unsigned long *ftrace_callsites ; bool klp_alive ; struct list_head source_list ; struct list_head target_list ; void (*exit)(void) ; atomic_t refcnt ; ctor_fn_t (**ctors)(void) ; unsigned int num_ctors ; }; struct kernel_cap_struct { __u32 cap[2U] ; }; typedef struct kernel_cap_struct kernel_cap_t; struct plist_head { struct list_head node_list ; }; struct plist_node { int prio ; struct list_head prio_list ; struct list_head node_list ; }; typedef unsigned long cputime_t; struct sem_undo_list; struct sysv_sem { struct sem_undo_list *undo_list ; }; struct user_struct; struct sysv_shm { struct list_head shm_clist ; }; struct __anonstruct_sigset_t_180 { unsigned long sig[1U] ; }; typedef struct __anonstruct_sigset_t_180 sigset_t; struct siginfo; typedef void __signalfn_t(int ); typedef __signalfn_t *__sighandler_t; typedef void __restorefn_t(void); typedef __restorefn_t *__sigrestore_t; union sigval { int sival_int ; void *sival_ptr ; }; typedef union sigval sigval_t; struct __anonstruct__kill_182 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; }; struct __anonstruct__timer_183 { __kernel_timer_t _tid ; int _overrun ; char _pad[0U] ; sigval_t _sigval ; int _sys_private ; }; struct __anonstruct__rt_184 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; sigval_t _sigval ; }; struct __anonstruct__sigchld_185 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; int _status ; __kernel_clock_t _utime ; __kernel_clock_t _stime ; }; struct __anonstruct__addr_bnd_187 { void *_lower ; void *_upper ; }; struct __anonstruct__sigfault_186 { void *_addr ; short _addr_lsb ; struct __anonstruct__addr_bnd_187 _addr_bnd ; }; struct __anonstruct__sigpoll_188 { long _band ; int _fd ; }; struct __anonstruct__sigsys_189 { void *_call_addr ; int _syscall ; unsigned int _arch ; }; union __anonunion__sifields_181 { int _pad[28U] ; struct __anonstruct__kill_182 _kill ; struct __anonstruct__timer_183 _timer ; struct __anonstruct__rt_184 _rt ; struct __anonstruct__sigchld_185 _sigchld ; struct __anonstruct__sigfault_186 _sigfault ; struct __anonstruct__sigpoll_188 _sigpoll ; struct __anonstruct__sigsys_189 _sigsys ; }; struct siginfo { int si_signo ; int si_errno ; int si_code ; union __anonunion__sifields_181 _sifields ; }; typedef struct siginfo siginfo_t; struct sigpending { struct list_head list ; sigset_t signal ; }; struct sigaction { __sighandler_t sa_handler ; unsigned long sa_flags ; __sigrestore_t sa_restorer ; sigset_t sa_mask ; }; struct k_sigaction { struct sigaction sa ; }; enum pid_type { PIDTYPE_PID = 0, PIDTYPE_PGID = 1, PIDTYPE_SID = 2, PIDTYPE_MAX = 3 } ; struct pid_namespace; struct upid { int nr ; struct pid_namespace *ns ; struct hlist_node pid_chain ; }; struct pid { atomic_t count ; unsigned int level ; struct hlist_head tasks[3U] ; struct callback_head rcu ; struct upid numbers[1U] ; }; struct pid_link { struct hlist_node node ; struct pid *pid ; }; struct percpu_counter { raw_spinlock_t lock ; s64 count ; struct list_head list ; s32 *counters ; }; struct seccomp_filter; struct seccomp { int mode ; struct seccomp_filter *filter ; }; struct rt_mutex_waiter; struct rlimit { __kernel_ulong_t rlim_cur ; __kernel_ulong_t rlim_max ; }; struct timerqueue_node { struct rb_node node ; ktime_t expires ; }; struct timerqueue_head { struct rb_root head ; struct timerqueue_node *next ; }; struct hrtimer_clock_base; struct hrtimer_cpu_base; enum hrtimer_restart { HRTIMER_NORESTART = 0, HRTIMER_RESTART = 1 } ; struct hrtimer { struct timerqueue_node node ; ktime_t _softexpires ; enum hrtimer_restart (*function)(struct hrtimer * ) ; struct hrtimer_clock_base *base ; unsigned long state ; int start_pid ; void *start_site ; char start_comm[16U] ; }; struct hrtimer_clock_base { struct hrtimer_cpu_base *cpu_base ; int index ; clockid_t clockid ; struct timerqueue_head active ; ktime_t (*get_time)(void) ; ktime_t offset ; }; struct hrtimer_cpu_base { raw_spinlock_t lock ; seqcount_t seq ; struct hrtimer *running ; unsigned int cpu ; unsigned int active_bases ; unsigned int clock_was_set_seq ; bool migration_enabled ; bool nohz_active ; unsigned char in_hrtirq : 1 ; unsigned char hres_active : 1 ; unsigned char hang_detected : 1 ; ktime_t expires_next ; struct hrtimer *next_timer ; unsigned int nr_events ; unsigned int nr_retries ; unsigned int nr_hangs ; unsigned int max_hang_time ; struct hrtimer_clock_base clock_base[4U] ; }; struct task_io_accounting { u64 rchar ; u64 wchar ; u64 syscr ; u64 syscw ; u64 read_bytes ; u64 write_bytes ; u64 cancelled_write_bytes ; }; struct latency_record { unsigned long backtrace[12U] ; unsigned int count ; unsigned long time ; unsigned long max ; }; struct assoc_array_ptr; struct assoc_array { struct assoc_array_ptr *root ; unsigned long nr_leaves_on_tree ; }; typedef int32_t key_serial_t; typedef uint32_t key_perm_t; struct key; struct signal_struct; struct key_type; struct keyring_index_key { struct key_type *type ; char const *description ; size_t desc_len ; }; union __anonunion____missing_field_name_196 { struct list_head graveyard_link ; struct rb_node serial_node ; }; struct key_user; union __anonunion____missing_field_name_197 { time_t expiry ; time_t revoked_at ; }; struct __anonstruct____missing_field_name_199 { struct key_type *type ; char *description ; }; union __anonunion____missing_field_name_198 { struct keyring_index_key index_key ; struct __anonstruct____missing_field_name_199 __annonCompField52 ; }; union __anonunion_type_data_200 { struct list_head link ; unsigned long x[2U] ; void *p[2U] ; int reject_error ; }; union __anonunion_payload_202 { unsigned long value ; void *rcudata ; void *data ; void *data2[2U] ; }; union __anonunion____missing_field_name_201 { union __anonunion_payload_202 payload ; struct assoc_array keys ; }; struct key { atomic_t usage ; key_serial_t serial ; union __anonunion____missing_field_name_196 __annonCompField50 ; struct rw_semaphore sem ; struct key_user *user ; void *security ; union __anonunion____missing_field_name_197 __annonCompField51 ; time_t last_used_at ; kuid_t uid ; kgid_t gid ; key_perm_t perm ; unsigned short quotalen ; unsigned short datalen ; unsigned long flags ; union __anonunion____missing_field_name_198 __annonCompField53 ; union __anonunion_type_data_200 type_data ; union __anonunion____missing_field_name_201 __annonCompField54 ; }; struct audit_context; struct group_info { atomic_t usage ; int ngroups ; int nblocks ; kgid_t small_block[32U] ; kgid_t *blocks[0U] ; }; struct cred { atomic_t usage ; atomic_t subscribers ; void *put_addr ; unsigned int magic ; kuid_t uid ; kgid_t gid ; kuid_t suid ; kgid_t sgid ; kuid_t euid ; kgid_t egid ; kuid_t fsuid ; kgid_t fsgid ; unsigned int securebits ; kernel_cap_t cap_inheritable ; kernel_cap_t cap_permitted ; kernel_cap_t cap_effective ; kernel_cap_t cap_bset ; unsigned char jit_keyring ; struct key *session_keyring ; struct key *process_keyring ; struct key *thread_keyring ; struct key *request_key_auth ; void *security ; struct user_struct *user ; struct user_namespace *user_ns ; struct group_info *group_info ; struct callback_head rcu ; }; struct percpu_ref; typedef void percpu_ref_func_t(struct percpu_ref * ); struct percpu_ref { atomic_long_t count ; unsigned long percpu_count_ptr ; percpu_ref_func_t *release ; percpu_ref_func_t *confirm_switch ; bool force_atomic ; struct callback_head rcu ; }; struct cgroup; struct cgroup_root; struct cgroup_subsys; struct cgroup_taskset; struct cgroup_subsys_state { struct cgroup *cgroup ; struct cgroup_subsys *ss ; struct percpu_ref refcnt ; struct cgroup_subsys_state *parent ; struct list_head sibling ; struct list_head children ; int id ; unsigned int flags ; u64 serial_nr ; struct callback_head callback_head ; struct work_struct destroy_work ; }; struct css_set { atomic_t refcount ; struct hlist_node hlist ; struct list_head tasks ; struct list_head mg_tasks ; struct list_head cgrp_links ; struct cgroup *dfl_cgrp ; struct cgroup_subsys_state *subsys[12U] ; struct list_head mg_preload_node ; struct list_head mg_node ; struct cgroup *mg_src_cgrp ; struct css_set *mg_dst_cset ; struct list_head e_cset_node[12U] ; struct callback_head callback_head ; }; struct cgroup { struct cgroup_subsys_state self ; unsigned long flags ; int id ; int populated_cnt ; struct kernfs_node *kn ; struct kernfs_node *procs_kn ; struct kernfs_node *populated_kn ; unsigned int subtree_control ; unsigned int child_subsys_mask ; struct cgroup_subsys_state *subsys[12U] ; struct cgroup_root *root ; struct list_head cset_links ; struct list_head e_csets[12U] ; struct list_head pidlists ; struct mutex pidlist_mutex ; wait_queue_head_t offline_waitq ; struct work_struct release_agent_work ; }; struct cgroup_root { struct kernfs_root *kf_root ; unsigned int subsys_mask ; int hierarchy_id ; struct cgroup cgrp ; atomic_t nr_cgrps ; struct list_head root_list ; unsigned int flags ; struct idr cgroup_idr ; char release_agent_path[4096U] ; char name[64U] ; }; struct cftype { char name[64U] ; int private ; umode_t mode ; size_t max_write_len ; unsigned int flags ; struct cgroup_subsys *ss ; struct list_head node ; struct kernfs_ops *kf_ops ; u64 (*read_u64)(struct cgroup_subsys_state * , struct cftype * ) ; s64 (*read_s64)(struct cgroup_subsys_state * , struct cftype * ) ; int (*seq_show)(struct seq_file * , void * ) ; void *(*seq_start)(struct seq_file * , loff_t * ) ; void *(*seq_next)(struct seq_file * , void * , loff_t * ) ; void (*seq_stop)(struct seq_file * , void * ) ; int (*write_u64)(struct cgroup_subsys_state * , struct cftype * , u64 ) ; int (*write_s64)(struct cgroup_subsys_state * , struct cftype * , s64 ) ; ssize_t (*write)(struct kernfs_open_file * , char * , size_t , loff_t ) ; struct lock_class_key lockdep_key ; }; struct cgroup_subsys { struct cgroup_subsys_state *(*css_alloc)(struct cgroup_subsys_state * ) ; int (*css_online)(struct cgroup_subsys_state * ) ; void (*css_offline)(struct cgroup_subsys_state * ) ; void (*css_released)(struct cgroup_subsys_state * ) ; void (*css_free)(struct cgroup_subsys_state * ) ; void (*css_reset)(struct cgroup_subsys_state * ) ; void (*css_e_css_changed)(struct cgroup_subsys_state * ) ; int (*can_attach)(struct cgroup_subsys_state * , struct cgroup_taskset * ) ; void (*cancel_attach)(struct cgroup_subsys_state * , struct cgroup_taskset * ) ; void (*attach)(struct cgroup_subsys_state * , struct cgroup_taskset * ) ; void (*fork)(struct task_struct * ) ; void (*exit)(struct cgroup_subsys_state * , struct cgroup_subsys_state * , struct task_struct * ) ; void (*bind)(struct cgroup_subsys_state * ) ; int disabled ; int early_init ; bool broken_hierarchy ; bool warned_broken_hierarchy ; int id ; char const *name ; struct cgroup_root *root ; struct idr css_idr ; struct list_head cfts ; struct cftype *dfl_cftypes ; struct cftype *legacy_cftypes ; unsigned int depends_on ; }; struct futex_pi_state; struct robust_list_head; struct bio_list; struct fs_struct; struct perf_event_context; struct blk_plug; struct nameidata; struct cfs_rq; struct task_group; struct sighand_struct { atomic_t count ; struct k_sigaction action[64U] ; spinlock_t siglock ; wait_queue_head_t signalfd_wqh ; }; struct pacct_struct { int ac_flag ; long ac_exitcode ; unsigned long ac_mem ; cputime_t ac_utime ; cputime_t ac_stime ; unsigned long ac_minflt ; unsigned long ac_majflt ; }; struct cpu_itimer { cputime_t expires ; cputime_t incr ; u32 error ; u32 incr_error ; }; struct cputime { cputime_t utime ; cputime_t stime ; }; struct task_cputime { cputime_t utime ; cputime_t stime ; unsigned long long sum_exec_runtime ; }; struct task_cputime_atomic { atomic64_t utime ; atomic64_t stime ; atomic64_t sum_exec_runtime ; }; struct thread_group_cputimer { struct task_cputime_atomic cputime_atomic ; int running ; }; struct autogroup; struct tty_struct; struct taskstats; struct tty_audit_buf; struct signal_struct { atomic_t sigcnt ; atomic_t live ; int nr_threads ; struct list_head thread_head ; wait_queue_head_t wait_chldexit ; struct task_struct *curr_target ; struct sigpending shared_pending ; int group_exit_code ; int notify_count ; struct task_struct *group_exit_task ; int group_stop_count ; unsigned int flags ; unsigned char is_child_subreaper : 1 ; unsigned char has_child_subreaper : 1 ; int posix_timer_id ; struct list_head posix_timers ; struct hrtimer real_timer ; struct pid *leader_pid ; ktime_t it_real_incr ; struct cpu_itimer it[2U] ; struct thread_group_cputimer cputimer ; struct task_cputime cputime_expires ; struct list_head cpu_timers[3U] ; struct pid *tty_old_pgrp ; int leader ; struct tty_struct *tty ; struct autogroup *autogroup ; seqlock_t stats_lock ; cputime_t utime ; cputime_t stime ; cputime_t cutime ; cputime_t cstime ; cputime_t gtime ; cputime_t cgtime ; struct cputime prev_cputime ; unsigned long nvcsw ; unsigned long nivcsw ; unsigned long cnvcsw ; unsigned long cnivcsw ; unsigned long min_flt ; unsigned long maj_flt ; unsigned long cmin_flt ; unsigned long cmaj_flt ; unsigned long inblock ; unsigned long oublock ; unsigned long cinblock ; unsigned long coublock ; unsigned long maxrss ; unsigned long cmaxrss ; struct task_io_accounting ioac ; unsigned long long sum_sched_runtime ; struct rlimit rlim[16U] ; struct pacct_struct pacct ; struct taskstats *stats ; unsigned int audit_tty ; unsigned int audit_tty_log_passwd ; struct tty_audit_buf *tty_audit_buf ; oom_flags_t oom_flags ; short oom_score_adj ; short oom_score_adj_min ; struct mutex cred_guard_mutex ; }; struct user_struct { atomic_t __count ; atomic_t processes ; atomic_t sigpending ; atomic_t inotify_watches ; atomic_t inotify_devs ; atomic_t fanotify_listeners ; atomic_long_t epoll_watches ; unsigned long mq_bytes ; unsigned long locked_shm ; struct key *uid_keyring ; struct key *session_keyring ; struct hlist_node uidhash_node ; kuid_t uid ; atomic_long_t locked_vm ; }; struct backing_dev_info; struct reclaim_state; struct sched_info { unsigned long pcount ; unsigned long long run_delay ; unsigned long long last_arrival ; unsigned long long last_queued ; }; struct task_delay_info { spinlock_t lock ; unsigned int flags ; u64 blkio_start ; u64 blkio_delay ; u64 swapin_delay ; u32 blkio_count ; u32 swapin_count ; u64 freepages_start ; u64 freepages_delay ; u32 freepages_count ; }; struct wake_q_node { struct wake_q_node *next ; }; struct io_context; struct pipe_inode_info; struct uts_namespace; struct load_weight { unsigned long weight ; u32 inv_weight ; }; struct sched_avg { u64 last_runnable_update ; s64 decay_count ; unsigned long load_avg_contrib ; unsigned long utilization_avg_contrib ; u32 runnable_avg_sum ; u32 avg_period ; u32 running_avg_sum ; }; struct sched_statistics { u64 wait_start ; u64 wait_max ; u64 wait_count ; u64 wait_sum ; u64 iowait_count ; u64 iowait_sum ; u64 sleep_start ; u64 sleep_max ; s64 sum_sleep_runtime ; u64 block_start ; u64 block_max ; u64 exec_max ; u64 slice_max ; u64 nr_migrations_cold ; u64 nr_failed_migrations_affine ; u64 nr_failed_migrations_running ; u64 nr_failed_migrations_hot ; u64 nr_forced_migrations ; u64 nr_wakeups ; u64 nr_wakeups_sync ; u64 nr_wakeups_migrate ; u64 nr_wakeups_local ; u64 nr_wakeups_remote ; u64 nr_wakeups_affine ; u64 nr_wakeups_affine_attempts ; u64 nr_wakeups_passive ; u64 nr_wakeups_idle ; }; struct sched_entity { struct load_weight load ; struct rb_node run_node ; struct list_head group_node ; unsigned int on_rq ; u64 exec_start ; u64 sum_exec_runtime ; u64 vruntime ; u64 prev_sum_exec_runtime ; u64 nr_migrations ; struct sched_statistics statistics ; int depth ; struct sched_entity *parent ; struct cfs_rq *cfs_rq ; struct cfs_rq *my_q ; struct sched_avg avg ; }; struct rt_rq; struct sched_rt_entity { struct list_head run_list ; unsigned long timeout ; unsigned long watchdog_stamp ; unsigned int time_slice ; struct sched_rt_entity *back ; struct sched_rt_entity *parent ; struct rt_rq *rt_rq ; struct rt_rq *my_q ; }; struct sched_dl_entity { struct rb_node rb_node ; u64 dl_runtime ; u64 dl_deadline ; u64 dl_period ; u64 dl_bw ; s64 runtime ; u64 deadline ; unsigned int flags ; int dl_throttled ; int dl_new ; int dl_boosted ; int dl_yielded ; struct hrtimer dl_timer ; }; struct memcg_oom_info { struct mem_cgroup *memcg ; gfp_t gfp_mask ; int order ; unsigned char may_oom : 1 ; }; struct sched_class; struct files_struct; struct compat_robust_list_head; struct numa_group; struct ftrace_ret_stack; struct task_struct { long volatile state ; void *stack ; atomic_t usage ; unsigned int flags ; unsigned int ptrace ; struct llist_node wake_entry ; int on_cpu ; struct task_struct *last_wakee ; unsigned long wakee_flips ; unsigned long wakee_flip_decay_ts ; int wake_cpu ; int on_rq ; int prio ; int static_prio ; int normal_prio ; unsigned int rt_priority ; struct sched_class const *sched_class ; struct sched_entity se ; struct sched_rt_entity rt ; struct task_group *sched_task_group ; struct sched_dl_entity dl ; struct hlist_head preempt_notifiers ; unsigned int btrace_seq ; unsigned int policy ; int nr_cpus_allowed ; cpumask_t cpus_allowed ; unsigned long rcu_tasks_nvcsw ; bool rcu_tasks_holdout ; struct list_head rcu_tasks_holdout_list ; int rcu_tasks_idle_cpu ; struct sched_info sched_info ; struct list_head tasks ; struct plist_node pushable_tasks ; struct rb_node pushable_dl_tasks ; struct mm_struct *mm ; struct mm_struct *active_mm ; u32 vmacache_seqnum ; struct vm_area_struct *vmacache[4U] ; struct task_rss_stat rss_stat ; int exit_state ; int exit_code ; int exit_signal ; int pdeath_signal ; unsigned long jobctl ; unsigned int personality ; unsigned char in_execve : 1 ; unsigned char in_iowait : 1 ; unsigned char sched_reset_on_fork : 1 ; unsigned char sched_contributes_to_load : 1 ; unsigned char sched_migrated : 1 ; unsigned char memcg_kmem_skip_account : 1 ; unsigned char brk_randomized : 1 ; unsigned long atomic_flags ; struct restart_block restart_block ; pid_t pid ; pid_t tgid ; struct task_struct *real_parent ; struct task_struct *parent ; struct list_head children ; struct list_head sibling ; struct task_struct *group_leader ; struct list_head ptraced ; struct list_head ptrace_entry ; struct pid_link pids[3U] ; struct list_head thread_group ; struct list_head thread_node ; struct completion *vfork_done ; int *set_child_tid ; int *clear_child_tid ; cputime_t utime ; cputime_t stime ; cputime_t utimescaled ; cputime_t stimescaled ; cputime_t gtime ; struct cputime prev_cputime ; unsigned long nvcsw ; unsigned long nivcsw ; u64 start_time ; u64 real_start_time ; unsigned long min_flt ; unsigned long maj_flt ; struct task_cputime cputime_expires ; struct list_head cpu_timers[3U] ; struct cred const *real_cred ; struct cred const *cred ; char comm[16U] ; struct nameidata *nameidata ; struct sysv_sem sysvsem ; struct sysv_shm sysvshm ; unsigned long last_switch_count ; struct thread_struct thread ; struct fs_struct *fs ; struct files_struct *files ; struct nsproxy *nsproxy ; struct signal_struct *signal ; struct sighand_struct *sighand ; sigset_t blocked ; sigset_t real_blocked ; sigset_t saved_sigmask ; struct sigpending pending ; unsigned long sas_ss_sp ; size_t sas_ss_size ; int (*notifier)(void * ) ; void *notifier_data ; sigset_t *notifier_mask ; struct callback_head *task_works ; struct audit_context *audit_context ; kuid_t loginuid ; unsigned int sessionid ; struct seccomp seccomp ; u32 parent_exec_id ; u32 self_exec_id ; spinlock_t alloc_lock ; raw_spinlock_t pi_lock ; struct wake_q_node wake_q ; struct rb_root pi_waiters ; struct rb_node *pi_waiters_leftmost ; struct rt_mutex_waiter *pi_blocked_on ; struct mutex_waiter *blocked_on ; unsigned int irq_events ; unsigned long hardirq_enable_ip ; unsigned long hardirq_disable_ip ; unsigned int hardirq_enable_event ; unsigned int hardirq_disable_event ; int hardirqs_enabled ; int hardirq_context ; unsigned long softirq_disable_ip ; unsigned long softirq_enable_ip ; unsigned int softirq_disable_event ; unsigned int softirq_enable_event ; int softirqs_enabled ; int softirq_context ; u64 curr_chain_key ; int lockdep_depth ; unsigned int lockdep_recursion ; struct held_lock held_locks[48U] ; gfp_t lockdep_reclaim_gfp ; void *journal_info ; struct bio_list *bio_list ; struct blk_plug *plug ; struct reclaim_state *reclaim_state ; struct backing_dev_info *backing_dev_info ; struct io_context *io_context ; unsigned long ptrace_message ; siginfo_t *last_siginfo ; struct task_io_accounting ioac ; u64 acct_rss_mem1 ; u64 acct_vm_mem1 ; cputime_t acct_timexpd ; nodemask_t mems_allowed ; seqcount_t mems_allowed_seq ; int cpuset_mem_spread_rotor ; int cpuset_slab_spread_rotor ; struct css_set *cgroups ; struct list_head cg_list ; struct robust_list_head *robust_list ; struct compat_robust_list_head *compat_robust_list ; struct list_head pi_state_list ; struct futex_pi_state *pi_state_cache ; struct perf_event_context *perf_event_ctxp[2U] ; struct mutex perf_event_mutex ; struct list_head perf_event_list ; struct mempolicy *mempolicy ; short il_next ; short pref_node_fork ; int numa_scan_seq ; unsigned int numa_scan_period ; unsigned int numa_scan_period_max ; int numa_preferred_nid ; unsigned long numa_migrate_retry ; u64 node_stamp ; u64 last_task_numa_placement ; u64 last_sum_exec_runtime ; struct callback_head numa_work ; struct list_head numa_entry ; struct numa_group *numa_group ; unsigned long *numa_faults ; unsigned long total_numa_faults ; unsigned long numa_faults_locality[3U] ; unsigned long numa_pages_migrated ; struct callback_head rcu ; struct pipe_inode_info *splice_pipe ; struct page_frag task_frag ; struct task_delay_info *delays ; int make_it_fail ; int nr_dirtied ; int nr_dirtied_pause ; unsigned long dirty_paused_when ; int latency_record_count ; struct latency_record latency_record[32U] ; unsigned long timer_slack_ns ; unsigned long default_timer_slack_ns ; unsigned int kasan_depth ; int curr_ret_stack ; struct ftrace_ret_stack *ret_stack ; unsigned long long ftrace_timestamp ; atomic_t trace_overrun ; atomic_t tracing_graph_pause ; unsigned long trace ; unsigned long trace_recursion ; struct memcg_oom_info memcg_oom ; struct uprobe_task *utask ; unsigned int sequential_io ; unsigned int sequential_io_avg ; unsigned long task_state_change ; int pagefault_disabled ; }; enum irqreturn { IRQ_NONE = 0, IRQ_HANDLED = 1, IRQ_WAKE_THREAD = 2 } ; typedef enum irqreturn irqreturn_t; struct device_attribute; struct device_driver; struct iovec { void *iov_base ; __kernel_size_t iov_len ; }; struct kvec { void *iov_base ; size_t iov_len ; }; union __anonunion____missing_field_name_217 { struct iovec const *iov ; struct kvec const *kvec ; struct bio_vec const *bvec ; }; struct iov_iter { int type ; size_t iov_offset ; size_t count ; union __anonunion____missing_field_name_217 __annonCompField58 ; unsigned long nr_segs ; }; typedef unsigned short __kernel_sa_family_t; typedef __kernel_sa_family_t sa_family_t; struct sockaddr { sa_family_t sa_family ; char sa_data[14U] ; }; struct kiocb; struct msghdr { void *msg_name ; int msg_namelen ; struct iov_iter msg_iter ; void *msg_control ; __kernel_size_t msg_controllen ; unsigned int msg_flags ; struct kiocb *msg_iocb ; }; enum ldv_17692 { SS_FREE = 0, SS_UNCONNECTED = 1, SS_CONNECTING = 2, SS_CONNECTED = 3, SS_DISCONNECTING = 4 } ; typedef enum ldv_17692 socket_state; struct poll_table_struct; struct net; struct fasync_struct; struct socket_wq { wait_queue_head_t wait ; struct fasync_struct *fasync_list ; struct callback_head rcu ; }; struct proto_ops; struct socket { socket_state state ; short type ; unsigned long flags ; struct socket_wq *wq ; struct file *file ; struct sock *sk ; struct proto_ops const *ops ; }; struct proto_ops { int family ; struct module *owner ; int (*release)(struct socket * ) ; int (*bind)(struct socket * , struct sockaddr * , int ) ; int (*connect)(struct socket * , struct sockaddr * , int , int ) ; int (*socketpair)(struct socket * , struct socket * ) ; int (*accept)(struct socket * , struct socket * , int ) ; int (*getname)(struct socket * , struct sockaddr * , int * , int ) ; unsigned int (*poll)(struct file * , struct socket * , struct poll_table_struct * ) ; int (*ioctl)(struct socket * , unsigned int , unsigned long ) ; int (*compat_ioctl)(struct socket * , unsigned int , unsigned long ) ; int (*listen)(struct socket * , int ) ; int (*shutdown)(struct socket * , int ) ; int (*setsockopt)(struct socket * , int , int , char * , unsigned int ) ; int (*getsockopt)(struct socket * , int , int , char * , int * ) ; int (*compat_setsockopt)(struct socket * , int , int , char * , unsigned int ) ; int (*compat_getsockopt)(struct socket * , int , int , char * , int * ) ; int (*sendmsg)(struct socket * , struct msghdr * , size_t ) ; int (*recvmsg)(struct socket * , struct msghdr * , size_t , int ) ; int (*mmap)(struct file * , struct socket * , struct vm_area_struct * ) ; ssize_t (*sendpage)(struct socket * , struct page * , int , size_t , int ) ; ssize_t (*splice_read)(struct socket * , loff_t * , struct pipe_inode_info * , size_t , unsigned int ) ; int (*set_peek_off)(struct sock * , int ) ; }; struct exception_table_entry { int insn ; int fixup ; }; struct in6_addr; struct sk_buff; struct klist_node; struct klist_node { void *n_klist ; struct list_head n_node ; struct kref n_ref ; }; struct path; struct seq_file { char *buf ; size_t size ; size_t from ; size_t count ; size_t pad_until ; loff_t index ; loff_t read_pos ; u64 version ; struct mutex lock ; struct seq_operations const *op ; int poll_event ; struct user_namespace *user_ns ; void *private ; }; struct seq_operations { void *(*start)(struct seq_file * , loff_t * ) ; void (*stop)(struct seq_file * , void * ) ; void *(*next)(struct seq_file * , void * , loff_t * ) ; int (*show)(struct seq_file * , void * ) ; }; struct pinctrl; struct pinctrl_state; struct dev_pin_info { struct pinctrl *p ; struct pinctrl_state *default_state ; struct pinctrl_state *sleep_state ; struct pinctrl_state *idle_state ; }; struct dma_map_ops; struct dev_archdata { struct dma_map_ops *dma_ops ; void *iommu ; }; struct device_private; struct driver_private; struct class; struct subsys_private; struct bus_type; struct device_node; struct fwnode_handle; struct iommu_ops; struct iommu_group; struct bus_type { char const *name ; char const *dev_name ; struct device *dev_root ; struct device_attribute *dev_attrs ; struct attribute_group const **bus_groups ; struct attribute_group const **dev_groups ; struct attribute_group const **drv_groups ; int (*match)(struct device * , struct device_driver * ) ; int (*uevent)(struct device * , struct kobj_uevent_env * ) ; int (*probe)(struct device * ) ; int (*remove)(struct device * ) ; void (*shutdown)(struct device * ) ; int (*online)(struct device * ) ; int (*offline)(struct device * ) ; int (*suspend)(struct device * , pm_message_t ) ; int (*resume)(struct device * ) ; struct dev_pm_ops const *pm ; struct iommu_ops const *iommu_ops ; struct subsys_private *p ; struct lock_class_key lock_key ; }; struct device_type; enum probe_type { PROBE_DEFAULT_STRATEGY = 0, PROBE_PREFER_ASYNCHRONOUS = 1, PROBE_FORCE_SYNCHRONOUS = 2 } ; struct of_device_id; struct acpi_device_id; struct device_driver { char const *name ; struct bus_type *bus ; struct module *owner ; char const *mod_name ; bool suppress_bind_attrs ; enum probe_type probe_type ; struct of_device_id const *of_match_table ; struct acpi_device_id const *acpi_match_table ; int (*probe)(struct device * ) ; int (*remove)(struct device * ) ; void (*shutdown)(struct device * ) ; int (*suspend)(struct device * , pm_message_t ) ; int (*resume)(struct device * ) ; struct attribute_group const **groups ; struct dev_pm_ops const *pm ; struct driver_private *p ; }; struct driver_attribute { struct attribute attr ; ssize_t (*show)(struct device_driver * , char * ) ; ssize_t (*store)(struct device_driver * , char const * , size_t ) ; }; struct class_attribute; struct class { char const *name ; struct module *owner ; struct class_attribute *class_attrs ; struct attribute_group const **dev_groups ; struct kobject *dev_kobj ; int (*dev_uevent)(struct device * , struct kobj_uevent_env * ) ; char *(*devnode)(struct device * , umode_t * ) ; void (*class_release)(struct class * ) ; void (*dev_release)(struct device * ) ; int (*suspend)(struct device * , pm_message_t ) ; int (*resume)(struct device * ) ; struct kobj_ns_type_operations const *ns_type ; void const *(*namespace)(struct device * ) ; struct dev_pm_ops const *pm ; struct subsys_private *p ; }; struct class_attribute { struct attribute attr ; ssize_t (*show)(struct class * , struct class_attribute * , char * ) ; ssize_t (*store)(struct class * , struct class_attribute * , char const * , size_t ) ; }; struct device_type { char const *name ; struct attribute_group const **groups ; int (*uevent)(struct device * , struct kobj_uevent_env * ) ; char *(*devnode)(struct device * , umode_t * , kuid_t * , kgid_t * ) ; void (*release)(struct device * ) ; struct dev_pm_ops const *pm ; }; struct device_attribute { struct attribute attr ; ssize_t (*show)(struct device * , struct device_attribute * , char * ) ; ssize_t (*store)(struct device * , struct device_attribute * , char const * , size_t ) ; }; struct device_dma_parameters { unsigned int max_segment_size ; unsigned long segment_boundary_mask ; }; struct dma_coherent_mem; struct cma; struct device { struct device *parent ; struct device_private *p ; struct kobject kobj ; char const *init_name ; struct device_type const *type ; struct mutex mutex ; struct bus_type *bus ; struct device_driver *driver ; void *platform_data ; void *driver_data ; struct dev_pm_info power ; struct dev_pm_domain *pm_domain ; struct dev_pin_info *pins ; int numa_node ; u64 *dma_mask ; u64 coherent_dma_mask ; unsigned long dma_pfn_offset ; struct device_dma_parameters *dma_parms ; struct list_head dma_pools ; struct dma_coherent_mem *dma_mem ; struct cma *cma_area ; struct dev_archdata archdata ; struct device_node *of_node ; struct fwnode_handle *fwnode ; dev_t devt ; u32 id ; spinlock_t devres_lock ; struct list_head devres_head ; struct klist_node knode_class ; struct class *class ; struct attribute_group const **groups ; void (*release)(struct device * ) ; struct iommu_group *iommu_group ; bool offline_disabled ; bool offline ; }; struct wakeup_source { char const *name ; struct list_head entry ; spinlock_t lock ; struct wake_irq *wakeirq ; struct timer_list timer ; unsigned long timer_expires ; ktime_t total_time ; ktime_t max_time ; ktime_t last_time ; ktime_t start_prevent_time ; ktime_t prevent_sleep_time ; unsigned long event_count ; unsigned long active_count ; unsigned long relax_count ; unsigned long expire_count ; unsigned long wakeup_count ; bool active ; bool autosleep_enabled ; }; struct dma_attrs { unsigned long flags[1U] ; }; enum dma_data_direction { DMA_BIDIRECTIONAL = 0, DMA_TO_DEVICE = 1, DMA_FROM_DEVICE = 2, DMA_NONE = 3 } ; struct shrink_control { gfp_t gfp_mask ; unsigned long nr_to_scan ; int nid ; struct mem_cgroup *memcg ; }; struct shrinker { unsigned long (*count_objects)(struct shrinker * , struct shrink_control * ) ; unsigned long (*scan_objects)(struct shrinker * , struct shrink_control * ) ; int seeks ; long batch ; unsigned long flags ; struct list_head list ; atomic_long_t *nr_deferred ; }; struct file_ra_state; struct writeback_control; struct bdi_writeback; struct vm_fault { unsigned int flags ; unsigned long pgoff ; void *virtual_address ; struct page *cow_page ; struct page *page ; unsigned long max_pgoff ; pte_t *pte ; }; struct vm_operations_struct { void (*open)(struct vm_area_struct * ) ; void (*close)(struct vm_area_struct * ) ; int (*fault)(struct vm_area_struct * , struct vm_fault * ) ; void (*map_pages)(struct vm_area_struct * , struct vm_fault * ) ; int (*page_mkwrite)(struct vm_area_struct * , struct vm_fault * ) ; int (*pfn_mkwrite)(struct vm_area_struct * , struct vm_fault * ) ; int (*access)(struct vm_area_struct * , unsigned long , void * , int , int ) ; char const *(*name)(struct vm_area_struct * ) ; int (*set_policy)(struct vm_area_struct * , struct mempolicy * ) ; struct mempolicy *(*get_policy)(struct vm_area_struct * , unsigned long ) ; struct page *(*find_special_page)(struct vm_area_struct * , unsigned long ) ; }; struct scatterlist { unsigned long sg_magic ; unsigned long page_link ; unsigned int offset ; unsigned int length ; dma_addr_t dma_address ; unsigned int dma_length ; }; struct sg_table { struct scatterlist *sgl ; unsigned int nents ; unsigned int orig_nents ; }; struct dma_map_ops { void *(*alloc)(struct device * , size_t , dma_addr_t * , gfp_t , struct dma_attrs * ) ; void (*free)(struct device * , size_t , void * , dma_addr_t , struct dma_attrs * ) ; int (*mmap)(struct device * , struct vm_area_struct * , void * , dma_addr_t , size_t , struct dma_attrs * ) ; int (*get_sgtable)(struct device * , struct sg_table * , void * , dma_addr_t , size_t , struct dma_attrs * ) ; dma_addr_t (*map_page)(struct device * , struct page * , unsigned long , size_t , enum dma_data_direction , struct dma_attrs * ) ; void (*unmap_page)(struct device * , dma_addr_t , size_t , enum dma_data_direction , struct dma_attrs * ) ; int (*map_sg)(struct device * , struct scatterlist * , int , enum dma_data_direction , struct dma_attrs * ) ; void (*unmap_sg)(struct device * , struct scatterlist * , int , enum dma_data_direction , struct dma_attrs * ) ; void (*sync_single_for_cpu)(struct device * , dma_addr_t , size_t , enum dma_data_direction ) ; void (*sync_single_for_device)(struct device * , dma_addr_t , size_t , enum dma_data_direction ) ; void (*sync_sg_for_cpu)(struct device * , struct scatterlist * , int , enum dma_data_direction ) ; void (*sync_sg_for_device)(struct device * , struct scatterlist * , int , enum dma_data_direction ) ; int (*mapping_error)(struct device * , dma_addr_t ) ; int (*dma_supported)(struct device * , u64 ) ; int (*set_dma_mask)(struct device * , u64 ) ; int is_phys ; }; typedef u64 netdev_features_t; union __anonunion_in6_u_218 { __u8 u6_addr8[16U] ; __be16 u6_addr16[8U] ; __be32 u6_addr32[4U] ; }; struct in6_addr { union __anonunion_in6_u_218 in6_u ; }; struct ethhdr { unsigned char h_dest[6U] ; unsigned char h_source[6U] ; __be16 h_proto ; }; struct pipe_buf_operations; struct pipe_buffer { struct page *page ; unsigned int offset ; unsigned int len ; struct pipe_buf_operations const *ops ; unsigned int flags ; unsigned long private ; }; struct pipe_inode_info { struct mutex mutex ; wait_queue_head_t wait ; unsigned int nrbufs ; unsigned int curbuf ; unsigned int buffers ; unsigned int readers ; unsigned int writers ; unsigned int files ; unsigned int waiting_writers ; unsigned int r_counter ; unsigned int w_counter ; struct page *tmp_page ; struct fasync_struct *fasync_readers ; struct fasync_struct *fasync_writers ; struct pipe_buffer *bufs ; }; struct pipe_buf_operations { int can_merge ; int (*confirm)(struct pipe_inode_info * , struct pipe_buffer * ) ; void (*release)(struct pipe_inode_info * , struct pipe_buffer * ) ; int (*steal)(struct pipe_inode_info * , struct pipe_buffer * ) ; void (*get)(struct pipe_inode_info * , struct pipe_buffer * ) ; }; struct napi_struct; struct nf_conntrack { atomic_t use ; }; union __anonunion____missing_field_name_223 { struct net_device *physoutdev ; char neigh_header[8U] ; }; union __anonunion____missing_field_name_224 { __be32 ipv4_daddr ; struct in6_addr ipv6_daddr ; }; struct nf_bridge_info { atomic_t use ; unsigned char orig_proto ; bool pkt_otherhost ; __u16 frag_max_size ; unsigned int mask ; struct net_device *physindev ; union __anonunion____missing_field_name_223 __annonCompField62 ; union __anonunion____missing_field_name_224 __annonCompField63 ; }; struct sk_buff_head { struct sk_buff *next ; struct sk_buff *prev ; __u32 qlen ; spinlock_t lock ; }; typedef unsigned int sk_buff_data_t; struct __anonstruct____missing_field_name_227 { u32 stamp_us ; u32 stamp_jiffies ; }; union __anonunion____missing_field_name_226 { u64 v64 ; struct __anonstruct____missing_field_name_227 __annonCompField64 ; }; struct skb_mstamp { union __anonunion____missing_field_name_226 __annonCompField65 ; }; union __anonunion____missing_field_name_230 { ktime_t tstamp ; struct skb_mstamp skb_mstamp ; }; struct __anonstruct____missing_field_name_229 { struct sk_buff *next ; struct sk_buff *prev ; union __anonunion____missing_field_name_230 __annonCompField66 ; }; union __anonunion____missing_field_name_228 { struct __anonstruct____missing_field_name_229 __annonCompField67 ; struct rb_node rbnode ; }; struct sec_path; struct __anonstruct____missing_field_name_232 { __u16 csum_start ; __u16 csum_offset ; }; union __anonunion____missing_field_name_231 { __wsum csum ; struct __anonstruct____missing_field_name_232 __annonCompField69 ; }; union __anonunion____missing_field_name_233 { unsigned int napi_id ; unsigned int sender_cpu ; }; union __anonunion____missing_field_name_234 { __u32 mark ; __u32 reserved_tailroom ; }; union __anonunion____missing_field_name_235 { __be16 inner_protocol ; __u8 inner_ipproto ; }; struct sk_buff { union __anonunion____missing_field_name_228 __annonCompField68 ; struct sock *sk ; struct net_device *dev ; char cb[48U] ; unsigned long _skb_refdst ; void (*destructor)(struct sk_buff * ) ; struct sec_path *sp ; struct nf_conntrack *nfct ; struct nf_bridge_info *nf_bridge ; unsigned int len ; unsigned int data_len ; __u16 mac_len ; __u16 hdr_len ; __u16 queue_mapping ; unsigned char cloned : 1 ; unsigned char nohdr : 1 ; unsigned char fclone : 2 ; unsigned char peeked : 1 ; unsigned char head_frag : 1 ; unsigned char xmit_more : 1 ; __u32 headers_start[0U] ; __u8 __pkt_type_offset[0U] ; unsigned char pkt_type : 3 ; unsigned char pfmemalloc : 1 ; unsigned char ignore_df : 1 ; unsigned char nfctinfo : 3 ; unsigned char nf_trace : 1 ; unsigned char ip_summed : 2 ; unsigned char ooo_okay : 1 ; unsigned char l4_hash : 1 ; unsigned char sw_hash : 1 ; unsigned char wifi_acked_valid : 1 ; unsigned char wifi_acked : 1 ; unsigned char no_fcs : 1 ; unsigned char encapsulation : 1 ; unsigned char encap_hdr_csum : 1 ; unsigned char csum_valid : 1 ; unsigned char csum_complete_sw : 1 ; unsigned char csum_level : 2 ; unsigned char csum_bad : 1 ; unsigned char ndisc_nodetype : 2 ; unsigned char ipvs_property : 1 ; unsigned char inner_protocol_type : 1 ; unsigned char remcsum_offload : 1 ; __u16 tc_index ; __u16 tc_verd ; union __anonunion____missing_field_name_231 __annonCompField70 ; __u32 priority ; int skb_iif ; __u32 hash ; __be16 vlan_proto ; __u16 vlan_tci ; union __anonunion____missing_field_name_233 __annonCompField71 ; __u32 secmark ; union __anonunion____missing_field_name_234 __annonCompField72 ; union __anonunion____missing_field_name_235 __annonCompField73 ; __u16 inner_transport_header ; __u16 inner_network_header ; __u16 inner_mac_header ; __be16 protocol ; __u16 transport_header ; __u16 network_header ; __u16 mac_header ; __u32 headers_end[0U] ; sk_buff_data_t tail ; sk_buff_data_t end ; unsigned char *head ; unsigned char *data ; unsigned int truesize ; atomic_t users ; }; struct dst_entry; struct rtable; struct dql { unsigned int num_queued ; unsigned int adj_limit ; unsigned int last_obj_cnt ; unsigned int limit ; unsigned int num_completed ; unsigned int prev_ovlimit ; unsigned int prev_num_queued ; unsigned int prev_last_obj_cnt ; unsigned int lowest_slack ; unsigned long slack_start_time ; unsigned int max_limit ; unsigned int min_limit ; unsigned int slack_hold_time ; }; struct __anonstruct_sync_serial_settings_237 { unsigned int clock_rate ; unsigned int clock_type ; unsigned short loopback ; }; typedef struct __anonstruct_sync_serial_settings_237 sync_serial_settings; struct __anonstruct_te1_settings_238 { unsigned int clock_rate ; unsigned int clock_type ; unsigned short loopback ; unsigned int slot_map ; }; typedef struct __anonstruct_te1_settings_238 te1_settings; struct __anonstruct_raw_hdlc_proto_239 { unsigned short encoding ; unsigned short parity ; }; typedef struct __anonstruct_raw_hdlc_proto_239 raw_hdlc_proto; struct __anonstruct_fr_proto_240 { unsigned int t391 ; unsigned int t392 ; unsigned int n391 ; unsigned int n392 ; unsigned int n393 ; unsigned short lmi ; unsigned short dce ; }; typedef struct __anonstruct_fr_proto_240 fr_proto; struct __anonstruct_fr_proto_pvc_241 { unsigned int dlci ; }; typedef struct __anonstruct_fr_proto_pvc_241 fr_proto_pvc; struct __anonstruct_fr_proto_pvc_info_242 { unsigned int dlci ; char master[16U] ; }; typedef struct __anonstruct_fr_proto_pvc_info_242 fr_proto_pvc_info; struct __anonstruct_cisco_proto_243 { unsigned int interval ; unsigned int timeout ; }; typedef struct __anonstruct_cisco_proto_243 cisco_proto; struct ifmap { unsigned long mem_start ; unsigned long mem_end ; unsigned short base_addr ; unsigned char irq ; unsigned char dma ; unsigned char port ; }; union __anonunion_ifs_ifsu_244 { raw_hdlc_proto *raw_hdlc ; cisco_proto *cisco ; fr_proto *fr ; fr_proto_pvc *fr_pvc ; fr_proto_pvc_info *fr_pvc_info ; sync_serial_settings *sync ; te1_settings *te1 ; }; struct if_settings { unsigned int type ; unsigned int size ; union __anonunion_ifs_ifsu_244 ifs_ifsu ; }; union __anonunion_ifr_ifrn_245 { char ifrn_name[16U] ; }; union __anonunion_ifr_ifru_246 { struct sockaddr ifru_addr ; struct sockaddr ifru_dstaddr ; struct sockaddr ifru_broadaddr ; struct sockaddr ifru_netmask ; struct sockaddr ifru_hwaddr ; short ifru_flags ; int ifru_ivalue ; int ifru_mtu ; struct ifmap ifru_map ; char ifru_slave[16U] ; char ifru_newname[16U] ; void *ifru_data ; struct if_settings ifru_settings ; }; struct ifreq { union __anonunion_ifr_ifrn_245 ifr_ifrn ; union __anonunion_ifr_ifru_246 ifr_ifru ; }; struct hlist_bl_node; struct hlist_bl_head { struct hlist_bl_node *first ; }; struct hlist_bl_node { struct hlist_bl_node *next ; struct hlist_bl_node **pprev ; }; struct __anonstruct____missing_field_name_251 { spinlock_t lock ; int count ; }; union __anonunion____missing_field_name_250 { struct __anonstruct____missing_field_name_251 __annonCompField74 ; }; struct lockref { union __anonunion____missing_field_name_250 __annonCompField75 ; }; struct vfsmount; struct __anonstruct____missing_field_name_253 { u32 hash ; u32 len ; }; union __anonunion____missing_field_name_252 { struct __anonstruct____missing_field_name_253 __annonCompField76 ; u64 hash_len ; }; struct qstr { union __anonunion____missing_field_name_252 __annonCompField77 ; unsigned char const *name ; }; struct dentry_operations; union __anonunion_d_u_254 { struct hlist_node d_alias ; struct callback_head d_rcu ; }; struct dentry { unsigned int d_flags ; seqcount_t d_seq ; struct hlist_bl_node d_hash ; struct dentry *d_parent ; struct qstr d_name ; struct inode *d_inode ; unsigned char d_iname[32U] ; struct lockref d_lockref ; struct dentry_operations const *d_op ; struct super_block *d_sb ; unsigned long d_time ; void *d_fsdata ; struct list_head d_lru ; struct list_head d_child ; struct list_head d_subdirs ; union __anonunion_d_u_254 d_u ; }; struct dentry_operations { int (*d_revalidate)(struct dentry * , unsigned int ) ; int (*d_weak_revalidate)(struct dentry * , unsigned int ) ; int (*d_hash)(struct dentry const * , struct qstr * ) ; int (*d_compare)(struct dentry const * , struct dentry const * , unsigned int , char const * , struct qstr const * ) ; int (*d_delete)(struct dentry const * ) ; void (*d_release)(struct dentry * ) ; void (*d_prune)(struct dentry * ) ; void (*d_iput)(struct dentry * , struct inode * ) ; char *(*d_dname)(struct dentry * , char * , int ) ; struct vfsmount *(*d_automount)(struct path * ) ; int (*d_manage)(struct dentry * , bool ) ; struct inode *(*d_select_inode)(struct dentry * , unsigned int ) ; }; struct path { struct vfsmount *mnt ; struct dentry *dentry ; }; struct list_lru_one { struct list_head list ; long nr_items ; }; struct list_lru_memcg { struct list_lru_one *lru[0U] ; }; struct list_lru_node { spinlock_t lock ; struct list_lru_one lru ; struct list_lru_memcg *memcg_lrus ; }; struct list_lru { struct list_lru_node *node ; struct list_head list ; }; struct __anonstruct____missing_field_name_258 { struct radix_tree_node *parent ; void *private_data ; }; union __anonunion____missing_field_name_257 { struct __anonstruct____missing_field_name_258 __annonCompField78 ; struct callback_head callback_head ; }; struct radix_tree_node { unsigned int path ; unsigned int count ; union __anonunion____missing_field_name_257 __annonCompField79 ; struct list_head private_list ; void *slots[64U] ; unsigned long tags[3U][1U] ; }; struct radix_tree_root { unsigned int height ; gfp_t gfp_mask ; struct radix_tree_node *rnode ; }; struct fiemap_extent { __u64 fe_logical ; __u64 fe_physical ; __u64 fe_length ; __u64 fe_reserved64[2U] ; __u32 fe_flags ; __u32 fe_reserved[3U] ; }; enum migrate_mode { MIGRATE_ASYNC = 0, MIGRATE_SYNC_LIGHT = 1, MIGRATE_SYNC = 2 } ; struct block_device; struct bio_vec { struct page *bv_page ; unsigned int bv_len ; unsigned int bv_offset ; }; struct export_operations; struct kstatfs; struct swap_info_struct; struct iattr { unsigned int ia_valid ; umode_t ia_mode ; kuid_t ia_uid ; kgid_t ia_gid ; loff_t ia_size ; struct timespec ia_atime ; struct timespec ia_mtime ; struct timespec ia_ctime ; struct file *ia_file ; }; struct dquot; typedef __kernel_uid32_t projid_t; struct __anonstruct_kprojid_t_262 { projid_t val ; }; typedef struct __anonstruct_kprojid_t_262 kprojid_t; enum quota_type { USRQUOTA = 0, GRPQUOTA = 1, PRJQUOTA = 2 } ; typedef long long qsize_t; union __anonunion____missing_field_name_263 { kuid_t uid ; kgid_t gid ; kprojid_t projid ; }; struct kqid { union __anonunion____missing_field_name_263 __annonCompField81 ; enum quota_type type ; }; struct mem_dqblk { qsize_t dqb_bhardlimit ; qsize_t dqb_bsoftlimit ; qsize_t dqb_curspace ; qsize_t dqb_rsvspace ; qsize_t dqb_ihardlimit ; qsize_t dqb_isoftlimit ; qsize_t dqb_curinodes ; time_t dqb_btime ; time_t dqb_itime ; }; struct quota_format_type; struct mem_dqinfo { struct quota_format_type *dqi_format ; int dqi_fmt_id ; struct list_head dqi_dirty_list ; unsigned long dqi_flags ; unsigned int dqi_bgrace ; unsigned int dqi_igrace ; qsize_t dqi_max_spc_limit ; qsize_t dqi_max_ino_limit ; void *dqi_priv ; }; struct dquot { struct hlist_node dq_hash ; struct list_head dq_inuse ; struct list_head dq_free ; struct list_head dq_dirty ; struct mutex dq_lock ; atomic_t dq_count ; wait_queue_head_t dq_wait_unused ; struct super_block *dq_sb ; struct kqid dq_id ; loff_t dq_off ; unsigned long dq_flags ; struct mem_dqblk dq_dqb ; }; struct quota_format_ops { int (*check_quota_file)(struct super_block * , int ) ; int (*read_file_info)(struct super_block * , int ) ; int (*write_file_info)(struct super_block * , int ) ; int (*free_file_info)(struct super_block * , int ) ; int (*read_dqblk)(struct dquot * ) ; int (*commit_dqblk)(struct dquot * ) ; int (*release_dqblk)(struct dquot * ) ; }; struct dquot_operations { int (*write_dquot)(struct dquot * ) ; struct dquot *(*alloc_dquot)(struct super_block * , int ) ; void (*destroy_dquot)(struct dquot * ) ; int (*acquire_dquot)(struct dquot * ) ; int (*release_dquot)(struct dquot * ) ; int (*mark_dirty)(struct dquot * ) ; int (*write_info)(struct super_block * , int ) ; qsize_t *(*get_reserved_space)(struct inode * ) ; int (*get_projid)(struct inode * , kprojid_t * ) ; }; struct qc_dqblk { int d_fieldmask ; u64 d_spc_hardlimit ; u64 d_spc_softlimit ; u64 d_ino_hardlimit ; u64 d_ino_softlimit ; u64 d_space ; u64 d_ino_count ; s64 d_ino_timer ; s64 d_spc_timer ; int d_ino_warns ; int d_spc_warns ; u64 d_rt_spc_hardlimit ; u64 d_rt_spc_softlimit ; u64 d_rt_space ; s64 d_rt_spc_timer ; int d_rt_spc_warns ; }; struct qc_type_state { unsigned int flags ; unsigned int spc_timelimit ; unsigned int ino_timelimit ; unsigned int rt_spc_timelimit ; unsigned int spc_warnlimit ; unsigned int ino_warnlimit ; unsigned int rt_spc_warnlimit ; unsigned long long ino ; blkcnt_t blocks ; blkcnt_t nextents ; }; struct qc_state { unsigned int s_incoredqs ; struct qc_type_state s_state[3U] ; }; struct qc_info { int i_fieldmask ; unsigned int i_flags ; unsigned int i_spc_timelimit ; unsigned int i_ino_timelimit ; unsigned int i_rt_spc_timelimit ; unsigned int i_spc_warnlimit ; unsigned int i_ino_warnlimit ; unsigned int i_rt_spc_warnlimit ; }; struct quotactl_ops { int (*quota_on)(struct super_block * , int , int , struct path * ) ; int (*quota_off)(struct super_block * , int ) ; int (*quota_enable)(struct super_block * , unsigned int ) ; int (*quota_disable)(struct super_block * , unsigned int ) ; int (*quota_sync)(struct super_block * , int ) ; int (*set_info)(struct super_block * , int , struct qc_info * ) ; int (*get_dqblk)(struct super_block * , struct kqid , struct qc_dqblk * ) ; int (*set_dqblk)(struct super_block * , struct kqid , struct qc_dqblk * ) ; int (*get_state)(struct super_block * , struct qc_state * ) ; int (*rm_xquota)(struct super_block * , unsigned int ) ; }; struct quota_format_type { int qf_fmt_id ; struct quota_format_ops const *qf_ops ; struct module *qf_owner ; struct quota_format_type *qf_next ; }; struct quota_info { unsigned int flags ; struct mutex dqio_mutex ; struct mutex dqonoff_mutex ; struct inode *files[3U] ; struct mem_dqinfo info[3U] ; struct quota_format_ops const *ops[3U] ; }; struct kiocb { struct file *ki_filp ; loff_t ki_pos ; void (*ki_complete)(struct kiocb * , long , long ) ; void *private ; int ki_flags ; }; struct address_space_operations { int (*writepage)(struct page * , struct writeback_control * ) ; int (*readpage)(struct file * , struct page * ) ; int (*writepages)(struct address_space * , struct writeback_control * ) ; int (*set_page_dirty)(struct page * ) ; int (*readpages)(struct file * , struct address_space * , struct list_head * , unsigned int ) ; int (*write_begin)(struct file * , struct address_space * , loff_t , unsigned int , unsigned int , struct page ** , void ** ) ; int (*write_end)(struct file * , struct address_space * , loff_t , unsigned int , unsigned int , struct page * , void * ) ; sector_t (*bmap)(struct address_space * , sector_t ) ; void (*invalidatepage)(struct page * , unsigned int , unsigned int ) ; int (*releasepage)(struct page * , gfp_t ) ; void (*freepage)(struct page * ) ; ssize_t (*direct_IO)(struct kiocb * , struct iov_iter * , loff_t ) ; int (*migratepage)(struct address_space * , struct page * , struct page * , enum migrate_mode ) ; int (*launder_page)(struct page * ) ; int (*is_partially_uptodate)(struct page * , unsigned long , unsigned long ) ; void (*is_dirty_writeback)(struct page * , bool * , bool * ) ; int (*error_remove_page)(struct address_space * , struct page * ) ; int (*swap_activate)(struct swap_info_struct * , struct file * , sector_t * ) ; void (*swap_deactivate)(struct file * ) ; }; struct address_space { struct inode *host ; struct radix_tree_root page_tree ; spinlock_t tree_lock ; atomic_t i_mmap_writable ; struct rb_root i_mmap ; struct rw_semaphore i_mmap_rwsem ; unsigned long nrpages ; unsigned long nrshadows ; unsigned long writeback_index ; struct address_space_operations const *a_ops ; unsigned long flags ; spinlock_t private_lock ; struct list_head private_list ; void *private_data ; }; struct request_queue; struct hd_struct; struct gendisk; struct block_device { dev_t bd_dev ; int bd_openers ; struct inode *bd_inode ; struct super_block *bd_super ; struct mutex bd_mutex ; struct list_head bd_inodes ; void *bd_claiming ; void *bd_holder ; int bd_holders ; bool bd_write_holder ; struct list_head bd_holder_disks ; struct block_device *bd_contains ; unsigned int bd_block_size ; struct hd_struct *bd_part ; unsigned int bd_part_count ; int bd_invalidated ; struct gendisk *bd_disk ; struct request_queue *bd_queue ; struct list_head bd_list ; unsigned long bd_private ; int bd_fsfreeze_count ; struct mutex bd_fsfreeze_mutex ; }; struct posix_acl; struct inode_operations; union __anonunion____missing_field_name_266 { unsigned int const i_nlink ; unsigned int __i_nlink ; }; union __anonunion____missing_field_name_267 { struct hlist_head i_dentry ; struct callback_head i_rcu ; }; struct file_lock_context; struct cdev; union __anonunion____missing_field_name_268 { struct pipe_inode_info *i_pipe ; struct block_device *i_bdev ; struct cdev *i_cdev ; char *i_link ; }; struct inode { umode_t i_mode ; unsigned short i_opflags ; kuid_t i_uid ; kgid_t i_gid ; unsigned int i_flags ; struct posix_acl *i_acl ; struct posix_acl *i_default_acl ; struct inode_operations const *i_op ; struct super_block *i_sb ; struct address_space *i_mapping ; void *i_security ; unsigned long i_ino ; union __anonunion____missing_field_name_266 __annonCompField82 ; dev_t i_rdev ; loff_t i_size ; struct timespec i_atime ; struct timespec i_mtime ; struct timespec i_ctime ; spinlock_t i_lock ; unsigned short i_bytes ; unsigned int i_blkbits ; blkcnt_t i_blocks ; unsigned long i_state ; struct mutex i_mutex ; unsigned long dirtied_when ; unsigned long dirtied_time_when ; struct hlist_node i_hash ; struct list_head i_wb_list ; struct bdi_writeback *i_wb ; int i_wb_frn_winner ; u16 i_wb_frn_avg_time ; u16 i_wb_frn_history ; struct list_head i_lru ; struct list_head i_sb_list ; union __anonunion____missing_field_name_267 __annonCompField83 ; u64 i_version ; atomic_t i_count ; atomic_t i_dio_count ; atomic_t i_writecount ; atomic_t i_readcount ; struct file_operations const *i_fop ; struct file_lock_context *i_flctx ; struct address_space i_data ; struct list_head i_devices ; union __anonunion____missing_field_name_268 __annonCompField84 ; __u32 i_generation ; __u32 i_fsnotify_mask ; struct hlist_head i_fsnotify_marks ; void *i_private ; }; struct fown_struct { rwlock_t lock ; struct pid *pid ; enum pid_type pid_type ; kuid_t uid ; kuid_t euid ; int signum ; }; struct file_ra_state { unsigned long start ; unsigned int size ; unsigned int async_size ; unsigned int ra_pages ; unsigned int mmap_miss ; loff_t prev_pos ; }; union __anonunion_f_u_269 { struct llist_node fu_llist ; struct callback_head fu_rcuhead ; }; struct file { union __anonunion_f_u_269 f_u ; struct path f_path ; struct inode *f_inode ; struct file_operations const *f_op ; spinlock_t f_lock ; atomic_long_t f_count ; unsigned int f_flags ; fmode_t f_mode ; struct mutex f_pos_lock ; loff_t f_pos ; struct fown_struct f_owner ; struct cred const *f_cred ; struct file_ra_state f_ra ; u64 f_version ; void *f_security ; void *private_data ; struct list_head f_ep_links ; struct list_head f_tfile_llink ; struct address_space *f_mapping ; }; typedef void *fl_owner_t; struct file_lock; struct file_lock_operations { void (*fl_copy_lock)(struct file_lock * , struct file_lock * ) ; void (*fl_release_private)(struct file_lock * ) ; }; struct lock_manager_operations { int (*lm_compare_owner)(struct file_lock * , struct file_lock * ) ; unsigned long (*lm_owner_key)(struct file_lock * ) ; fl_owner_t (*lm_get_owner)(fl_owner_t ) ; void (*lm_put_owner)(fl_owner_t ) ; void (*lm_notify)(struct file_lock * ) ; int (*lm_grant)(struct file_lock * , int ) ; bool (*lm_break)(struct file_lock * ) ; int (*lm_change)(struct file_lock * , int , struct list_head * ) ; void (*lm_setup)(struct file_lock * , void ** ) ; }; struct nlm_lockowner; struct nfs_lock_info { u32 state ; struct nlm_lockowner *owner ; struct list_head list ; }; struct nfs4_lock_state; struct nfs4_lock_info { struct nfs4_lock_state *owner ; }; struct __anonstruct_afs_271 { struct list_head link ; int state ; }; union __anonunion_fl_u_270 { struct nfs_lock_info nfs_fl ; struct nfs4_lock_info nfs4_fl ; struct __anonstruct_afs_271 afs ; }; struct file_lock { struct file_lock *fl_next ; struct list_head fl_list ; struct hlist_node fl_link ; struct list_head fl_block ; fl_owner_t fl_owner ; unsigned int fl_flags ; unsigned char fl_type ; unsigned int fl_pid ; int fl_link_cpu ; struct pid *fl_nspid ; wait_queue_head_t fl_wait ; struct file *fl_file ; loff_t fl_start ; loff_t fl_end ; struct fasync_struct *fl_fasync ; unsigned long fl_break_time ; unsigned long fl_downgrade_time ; struct file_lock_operations const *fl_ops ; struct lock_manager_operations const *fl_lmops ; union __anonunion_fl_u_270 fl_u ; }; struct file_lock_context { spinlock_t flc_lock ; struct list_head flc_flock ; struct list_head flc_posix ; struct list_head flc_lease ; }; struct fasync_struct { spinlock_t fa_lock ; int magic ; int fa_fd ; struct fasync_struct *fa_next ; struct file *fa_file ; struct callback_head fa_rcu ; }; struct sb_writers { struct percpu_counter counter[3U] ; wait_queue_head_t wait ; int frozen ; wait_queue_head_t wait_unfrozen ; struct lockdep_map lock_map[3U] ; }; struct super_operations; struct xattr_handler; struct mtd_info; struct super_block { struct list_head s_list ; dev_t s_dev ; unsigned char s_blocksize_bits ; unsigned long s_blocksize ; loff_t s_maxbytes ; struct file_system_type *s_type ; struct super_operations const *s_op ; struct dquot_operations const *dq_op ; struct quotactl_ops const *s_qcop ; struct export_operations const *s_export_op ; unsigned long s_flags ; unsigned long s_iflags ; unsigned long s_magic ; struct dentry *s_root ; struct rw_semaphore s_umount ; int s_count ; atomic_t s_active ; void *s_security ; struct xattr_handler const **s_xattr ; struct list_head s_inodes ; struct hlist_bl_head s_anon ; struct list_head s_mounts ; struct block_device *s_bdev ; struct backing_dev_info *s_bdi ; struct mtd_info *s_mtd ; struct hlist_node s_instances ; unsigned int s_quota_types ; struct quota_info s_dquot ; struct sb_writers s_writers ; char s_id[32U] ; u8 s_uuid[16U] ; void *s_fs_info ; unsigned int s_max_links ; fmode_t s_mode ; u32 s_time_gran ; struct mutex s_vfs_rename_mutex ; char *s_subtype ; char *s_options ; struct dentry_operations const *s_d_op ; int cleancache_poolid ; struct shrinker s_shrink ; atomic_long_t s_remove_count ; int s_readonly_remount ; struct workqueue_struct *s_dio_done_wq ; struct hlist_head s_pins ; struct list_lru s_dentry_lru ; struct list_lru s_inode_lru ; struct callback_head rcu ; int s_stack_depth ; }; struct fiemap_extent_info { unsigned int fi_flags ; unsigned int fi_extents_mapped ; unsigned int fi_extents_max ; struct fiemap_extent *fi_extents_start ; }; struct dir_context; struct dir_context { int (*actor)(struct dir_context * , char const * , int , loff_t , u64 , unsigned int ) ; loff_t pos ; }; struct file_operations { struct module *owner ; loff_t (*llseek)(struct file * , loff_t , int ) ; ssize_t (*read)(struct file * , char * , size_t , loff_t * ) ; ssize_t (*write)(struct file * , char const * , size_t , loff_t * ) ; ssize_t (*read_iter)(struct kiocb * , struct iov_iter * ) ; ssize_t (*write_iter)(struct kiocb * , struct iov_iter * ) ; int (*iterate)(struct file * , struct dir_context * ) ; unsigned int (*poll)(struct file * , struct poll_table_struct * ) ; long (*unlocked_ioctl)(struct file * , unsigned int , unsigned long ) ; long (*compat_ioctl)(struct file * , unsigned int , unsigned long ) ; int (*mmap)(struct file * , struct vm_area_struct * ) ; int (*mremap)(struct file * , struct vm_area_struct * ) ; int (*open)(struct inode * , struct file * ) ; int (*flush)(struct file * , fl_owner_t ) ; int (*release)(struct inode * , struct file * ) ; int (*fsync)(struct file * , loff_t , loff_t , int ) ; int (*aio_fsync)(struct kiocb * , int ) ; int (*fasync)(int , struct file * , int ) ; int (*lock)(struct file * , int , struct file_lock * ) ; ssize_t (*sendpage)(struct file * , struct page * , int , size_t , loff_t * , int ) ; unsigned long (*get_unmapped_area)(struct file * , unsigned long , unsigned long , unsigned long , unsigned long ) ; int (*check_flags)(int ) ; int (*flock)(struct file * , int , struct file_lock * ) ; ssize_t (*splice_write)(struct pipe_inode_info * , struct file * , loff_t * , size_t , unsigned int ) ; ssize_t (*splice_read)(struct file * , loff_t * , struct pipe_inode_info * , size_t , unsigned int ) ; int (*setlease)(struct file * , long , struct file_lock ** , void ** ) ; long (*fallocate)(struct file * , int , loff_t , loff_t ) ; void (*show_fdinfo)(struct seq_file * , struct file * ) ; }; struct inode_operations { struct dentry *(*lookup)(struct inode * , struct dentry * , unsigned int ) ; char const *(*follow_link)(struct dentry * , void ** ) ; int (*permission)(struct inode * , int ) ; struct posix_acl *(*get_acl)(struct inode * , int ) ; int (*readlink)(struct dentry * , char * , int ) ; void (*put_link)(struct inode * , void * ) ; int (*create)(struct inode * , struct dentry * , umode_t , bool ) ; int (*link)(struct dentry * , struct inode * , struct dentry * ) ; int (*unlink)(struct inode * , struct dentry * ) ; int (*symlink)(struct inode * , struct dentry * , char const * ) ; int (*mkdir)(struct inode * , struct dentry * , umode_t ) ; int (*rmdir)(struct inode * , struct dentry * ) ; int (*mknod)(struct inode * , struct dentry * , umode_t , dev_t ) ; int (*rename)(struct inode * , struct dentry * , struct inode * , struct dentry * ) ; int (*rename2)(struct inode * , struct dentry * , struct inode * , struct dentry * , unsigned int ) ; int (*setattr)(struct dentry * , struct iattr * ) ; int (*getattr)(struct vfsmount * , struct dentry * , struct kstat * ) ; int (*setxattr)(struct dentry * , char const * , void const * , size_t , int ) ; ssize_t (*getxattr)(struct dentry * , char const * , void * , size_t ) ; ssize_t (*listxattr)(struct dentry * , char * , size_t ) ; int (*removexattr)(struct dentry * , char const * ) ; int (*fiemap)(struct inode * , struct fiemap_extent_info * , u64 , u64 ) ; int (*update_time)(struct inode * , struct timespec * , int ) ; int (*atomic_open)(struct inode * , struct dentry * , struct file * , unsigned int , umode_t , int * ) ; int (*tmpfile)(struct inode * , struct dentry * , umode_t ) ; int (*set_acl)(struct inode * , struct posix_acl * , int ) ; }; struct super_operations { struct inode *(*alloc_inode)(struct super_block * ) ; void (*destroy_inode)(struct inode * ) ; void (*dirty_inode)(struct inode * , int ) ; int (*write_inode)(struct inode * , struct writeback_control * ) ; int (*drop_inode)(struct inode * ) ; void (*evict_inode)(struct inode * ) ; void (*put_super)(struct super_block * ) ; int (*sync_fs)(struct super_block * , int ) ; int (*freeze_super)(struct super_block * ) ; int (*freeze_fs)(struct super_block * ) ; int (*thaw_super)(struct super_block * ) ; int (*unfreeze_fs)(struct super_block * ) ; int (*statfs)(struct dentry * , struct kstatfs * ) ; int (*remount_fs)(struct super_block * , int * , char * ) ; void (*umount_begin)(struct super_block * ) ; int (*show_options)(struct seq_file * , struct dentry * ) ; int (*show_devname)(struct seq_file * , struct dentry * ) ; int (*show_path)(struct seq_file * , struct dentry * ) ; int (*show_stats)(struct seq_file * , struct dentry * ) ; ssize_t (*quota_read)(struct super_block * , int , char * , size_t , loff_t ) ; ssize_t (*quota_write)(struct super_block * , int , char const * , size_t , loff_t ) ; struct dquot **(*get_dquots)(struct inode * ) ; int (*bdev_try_to_free_page)(struct super_block * , struct page * , gfp_t ) ; long (*nr_cached_objects)(struct super_block * , struct shrink_control * ) ; long (*free_cached_objects)(struct super_block * , struct shrink_control * ) ; }; struct file_system_type { char const *name ; int fs_flags ; struct dentry *(*mount)(struct file_system_type * , int , char const * , void * ) ; void (*kill_sb)(struct super_block * ) ; struct module *owner ; struct file_system_type *next ; struct hlist_head fs_supers ; struct lock_class_key s_lock_key ; struct lock_class_key s_umount_key ; struct lock_class_key s_vfs_rename_key ; struct lock_class_key s_writers_key[3U] ; struct lock_class_key i_lock_key ; struct lock_class_key i_mutex_key ; struct lock_class_key i_mutex_dir_key ; }; typedef s32 compat_time_t; typedef s32 compat_long_t; typedef u32 compat_uptr_t; struct compat_timespec { compat_time_t tv_sec ; s32 tv_nsec ; }; struct compat_robust_list { compat_uptr_t next ; }; struct compat_robust_list_head { struct compat_robust_list list ; compat_long_t futex_offset ; compat_uptr_t list_op_pending ; }; struct ethtool_cmd { __u32 cmd ; __u32 supported ; __u32 advertising ; __u16 speed ; __u8 duplex ; __u8 port ; __u8 phy_address ; __u8 transceiver ; __u8 autoneg ; __u8 mdio_support ; __u32 maxtxpkt ; __u32 maxrxpkt ; __u16 speed_hi ; __u8 eth_tp_mdix ; __u8 eth_tp_mdix_ctrl ; __u32 lp_advertising ; __u32 reserved[2U] ; }; struct ethtool_drvinfo { __u32 cmd ; char driver[32U] ; char version[32U] ; char fw_version[32U] ; char bus_info[32U] ; char erom_version[32U] ; char reserved2[12U] ; __u32 n_priv_flags ; __u32 n_stats ; __u32 testinfo_len ; __u32 eedump_len ; __u32 regdump_len ; }; struct ethtool_wolinfo { __u32 cmd ; __u32 supported ; __u32 wolopts ; __u8 sopass[6U] ; }; struct ethtool_tunable { __u32 cmd ; __u32 id ; __u32 type_id ; __u32 len ; void *data[0U] ; }; struct ethtool_regs { __u32 cmd ; __u32 version ; __u32 len ; __u8 data[0U] ; }; struct ethtool_eeprom { __u32 cmd ; __u32 magic ; __u32 offset ; __u32 len ; __u8 data[0U] ; }; struct ethtool_eee { __u32 cmd ; __u32 supported ; __u32 advertised ; __u32 lp_advertised ; __u32 eee_active ; __u32 eee_enabled ; __u32 tx_lpi_enabled ; __u32 tx_lpi_timer ; __u32 reserved[2U] ; }; struct ethtool_modinfo { __u32 cmd ; __u32 type ; __u32 eeprom_len ; __u32 reserved[8U] ; }; struct ethtool_coalesce { __u32 cmd ; __u32 rx_coalesce_usecs ; __u32 rx_max_coalesced_frames ; __u32 rx_coalesce_usecs_irq ; __u32 rx_max_coalesced_frames_irq ; __u32 tx_coalesce_usecs ; __u32 tx_max_coalesced_frames ; __u32 tx_coalesce_usecs_irq ; __u32 tx_max_coalesced_frames_irq ; __u32 stats_block_coalesce_usecs ; __u32 use_adaptive_rx_coalesce ; __u32 use_adaptive_tx_coalesce ; __u32 pkt_rate_low ; __u32 rx_coalesce_usecs_low ; __u32 rx_max_coalesced_frames_low ; __u32 tx_coalesce_usecs_low ; __u32 tx_max_coalesced_frames_low ; __u32 pkt_rate_high ; __u32 rx_coalesce_usecs_high ; __u32 rx_max_coalesced_frames_high ; __u32 tx_coalesce_usecs_high ; __u32 tx_max_coalesced_frames_high ; __u32 rate_sample_interval ; }; struct ethtool_ringparam { __u32 cmd ; __u32 rx_max_pending ; __u32 rx_mini_max_pending ; __u32 rx_jumbo_max_pending ; __u32 tx_max_pending ; __u32 rx_pending ; __u32 rx_mini_pending ; __u32 rx_jumbo_pending ; __u32 tx_pending ; }; struct ethtool_channels { __u32 cmd ; __u32 max_rx ; __u32 max_tx ; __u32 max_other ; __u32 max_combined ; __u32 rx_count ; __u32 tx_count ; __u32 other_count ; __u32 combined_count ; }; struct ethtool_pauseparam { __u32 cmd ; __u32 autoneg ; __u32 rx_pause ; __u32 tx_pause ; }; struct ethtool_test { __u32 cmd ; __u32 flags ; __u32 reserved ; __u32 len ; __u64 data[0U] ; }; struct ethtool_stats { __u32 cmd ; __u32 n_stats ; __u64 data[0U] ; }; struct ethtool_tcpip4_spec { __be32 ip4src ; __be32 ip4dst ; __be16 psrc ; __be16 pdst ; __u8 tos ; }; struct ethtool_ah_espip4_spec { __be32 ip4src ; __be32 ip4dst ; __be32 spi ; __u8 tos ; }; struct ethtool_usrip4_spec { __be32 ip4src ; __be32 ip4dst ; __be32 l4_4_bytes ; __u8 tos ; __u8 ip_ver ; __u8 proto ; }; union ethtool_flow_union { struct ethtool_tcpip4_spec tcp_ip4_spec ; struct ethtool_tcpip4_spec udp_ip4_spec ; struct ethtool_tcpip4_spec sctp_ip4_spec ; struct ethtool_ah_espip4_spec ah_ip4_spec ; struct ethtool_ah_espip4_spec esp_ip4_spec ; struct ethtool_usrip4_spec usr_ip4_spec ; struct ethhdr ether_spec ; __u8 hdata[52U] ; }; struct ethtool_flow_ext { __u8 padding[2U] ; unsigned char h_dest[6U] ; __be16 vlan_etype ; __be16 vlan_tci ; __be32 data[2U] ; }; struct ethtool_rx_flow_spec { __u32 flow_type ; union ethtool_flow_union h_u ; struct ethtool_flow_ext h_ext ; union ethtool_flow_union m_u ; struct ethtool_flow_ext m_ext ; __u64 ring_cookie ; __u32 location ; }; struct ethtool_rxnfc { __u32 cmd ; __u32 flow_type ; __u64 data ; struct ethtool_rx_flow_spec fs ; __u32 rule_cnt ; __u32 rule_locs[0U] ; }; struct ethtool_flash { __u32 cmd ; __u32 region ; char data[128U] ; }; struct ethtool_dump { __u32 cmd ; __u32 version ; __u32 flag ; __u32 len ; __u8 data[0U] ; }; struct ethtool_ts_info { __u32 cmd ; __u32 so_timestamping ; __s32 phc_index ; __u32 tx_types ; __u32 tx_reserved[3U] ; __u32 rx_filters ; __u32 rx_reserved[3U] ; }; enum ethtool_phys_id_state { ETHTOOL_ID_INACTIVE = 0, ETHTOOL_ID_ACTIVE = 1, ETHTOOL_ID_ON = 2, ETHTOOL_ID_OFF = 3 } ; struct ethtool_ops { int (*get_settings)(struct net_device * , struct ethtool_cmd * ) ; int (*set_settings)(struct net_device * , struct ethtool_cmd * ) ; void (*get_drvinfo)(struct net_device * , struct ethtool_drvinfo * ) ; int (*get_regs_len)(struct net_device * ) ; void (*get_regs)(struct net_device * , struct ethtool_regs * , void * ) ; void (*get_wol)(struct net_device * , struct ethtool_wolinfo * ) ; int (*set_wol)(struct net_device * , struct ethtool_wolinfo * ) ; u32 (*get_msglevel)(struct net_device * ) ; void (*set_msglevel)(struct net_device * , u32 ) ; int (*nway_reset)(struct net_device * ) ; u32 (*get_link)(struct net_device * ) ; int (*get_eeprom_len)(struct net_device * ) ; int (*get_eeprom)(struct net_device * , struct ethtool_eeprom * , u8 * ) ; int (*set_eeprom)(struct net_device * , struct ethtool_eeprom * , u8 * ) ; int (*get_coalesce)(struct net_device * , struct ethtool_coalesce * ) ; int (*set_coalesce)(struct net_device * , struct ethtool_coalesce * ) ; void (*get_ringparam)(struct net_device * , struct ethtool_ringparam * ) ; int (*set_ringparam)(struct net_device * , struct ethtool_ringparam * ) ; void (*get_pauseparam)(struct net_device * , struct ethtool_pauseparam * ) ; int (*set_pauseparam)(struct net_device * , struct ethtool_pauseparam * ) ; void (*self_test)(struct net_device * , struct ethtool_test * , u64 * ) ; void (*get_strings)(struct net_device * , u32 , u8 * ) ; int (*set_phys_id)(struct net_device * , enum ethtool_phys_id_state ) ; void (*get_ethtool_stats)(struct net_device * , struct ethtool_stats * , u64 * ) ; int (*begin)(struct net_device * ) ; void (*complete)(struct net_device * ) ; u32 (*get_priv_flags)(struct net_device * ) ; int (*set_priv_flags)(struct net_device * , u32 ) ; int (*get_sset_count)(struct net_device * , int ) ; int (*get_rxnfc)(struct net_device * , struct ethtool_rxnfc * , u32 * ) ; int (*set_rxnfc)(struct net_device * , struct ethtool_rxnfc * ) ; int (*flash_device)(struct net_device * , struct ethtool_flash * ) ; int (*reset)(struct net_device * , u32 * ) ; u32 (*get_rxfh_key_size)(struct net_device * ) ; u32 (*get_rxfh_indir_size)(struct net_device * ) ; int (*get_rxfh)(struct net_device * , u32 * , u8 * , u8 * ) ; int (*set_rxfh)(struct net_device * , u32 const * , u8 const * , u8 const ) ; void (*get_channels)(struct net_device * , struct ethtool_channels * ) ; int (*set_channels)(struct net_device * , struct ethtool_channels * ) ; int (*get_dump_flag)(struct net_device * , struct ethtool_dump * ) ; int (*get_dump_data)(struct net_device * , struct ethtool_dump * , void * ) ; int (*set_dump)(struct net_device * , struct ethtool_dump * ) ; int (*get_ts_info)(struct net_device * , struct ethtool_ts_info * ) ; int (*get_module_info)(struct net_device * , struct ethtool_modinfo * ) ; int (*get_module_eeprom)(struct net_device * , struct ethtool_eeprom * , u8 * ) ; int (*get_eee)(struct net_device * , struct ethtool_eee * ) ; int (*set_eee)(struct net_device * , struct ethtool_eee * ) ; int (*get_tunable)(struct net_device * , struct ethtool_tunable const * , void * ) ; int (*set_tunable)(struct net_device * , struct ethtool_tunable const * , void const * ) ; }; struct prot_inuse; struct netns_core { struct ctl_table_header *sysctl_hdr ; int sysctl_somaxconn ; struct prot_inuse *inuse ; }; struct u64_stats_sync { }; struct ipstats_mib { u64 mibs[36U] ; struct u64_stats_sync syncp ; }; struct icmp_mib { unsigned long mibs[28U] ; }; struct icmpmsg_mib { atomic_long_t mibs[512U] ; }; struct icmpv6_mib { unsigned long mibs[6U] ; }; struct icmpv6msg_mib { atomic_long_t mibs[512U] ; }; struct tcp_mib { unsigned long mibs[16U] ; }; struct udp_mib { unsigned long mibs[9U] ; }; struct linux_mib { unsigned long mibs[115U] ; }; struct linux_xfrm_mib { unsigned long mibs[29U] ; }; struct proc_dir_entry; struct netns_mib { struct tcp_mib *tcp_statistics ; struct ipstats_mib *ip_statistics ; struct linux_mib *net_statistics ; struct udp_mib *udp_statistics ; struct udp_mib *udplite_statistics ; struct icmp_mib *icmp_statistics ; struct icmpmsg_mib *icmpmsg_statistics ; struct proc_dir_entry *proc_net_devsnmp6 ; struct udp_mib *udp_stats_in6 ; struct udp_mib *udplite_stats_in6 ; struct ipstats_mib *ipv6_statistics ; struct icmpv6_mib *icmpv6_statistics ; struct icmpv6msg_mib *icmpv6msg_statistics ; struct linux_xfrm_mib *xfrm_statistics ; }; struct netns_unix { int sysctl_max_dgram_qlen ; struct ctl_table_header *ctl ; }; struct netns_packet { struct mutex sklist_lock ; struct hlist_head sklist ; }; struct netns_frags { struct percpu_counter mem ; int timeout ; int high_thresh ; int low_thresh ; }; struct ipv4_devconf; struct fib_rules_ops; struct fib_table; struct local_ports { seqlock_t lock ; int range[2U] ; bool warned ; }; struct ping_group_range { seqlock_t lock ; kgid_t range[2U] ; }; struct inet_peer_base; struct xt_table; struct netns_ipv4 { struct ctl_table_header *forw_hdr ; struct ctl_table_header *frags_hdr ; struct ctl_table_header *ipv4_hdr ; struct ctl_table_header *route_hdr ; struct ctl_table_header *xfrm4_hdr ; struct ipv4_devconf *devconf_all ; struct ipv4_devconf *devconf_dflt ; struct fib_rules_ops *rules_ops ; bool fib_has_custom_rules ; struct fib_table *fib_local ; struct fib_table *fib_main ; struct fib_table *fib_default ; int fib_num_tclassid_users ; struct hlist_head *fib_table_hash ; bool fib_offload_disabled ; struct sock *fibnl ; struct sock **icmp_sk ; struct sock *mc_autojoin_sk ; struct inet_peer_base *peers ; struct sock **tcp_sk ; struct netns_frags frags ; struct xt_table *iptable_filter ; struct xt_table *iptable_mangle ; struct xt_table *iptable_raw ; struct xt_table *arptable_filter ; struct xt_table *iptable_security ; struct xt_table *nat_table ; int sysctl_icmp_echo_ignore_all ; int sysctl_icmp_echo_ignore_broadcasts ; int sysctl_icmp_ignore_bogus_error_responses ; int sysctl_icmp_ratelimit ; int sysctl_icmp_ratemask ; int sysctl_icmp_errors_use_inbound_ifaddr ; struct local_ports ip_local_ports ; int sysctl_tcp_ecn ; int sysctl_tcp_ecn_fallback ; int sysctl_ip_no_pmtu_disc ; int sysctl_ip_fwd_use_pmtu ; int sysctl_ip_nonlocal_bind ; int sysctl_fwmark_reflect ; int sysctl_tcp_fwmark_accept ; int sysctl_tcp_mtu_probing ; int sysctl_tcp_base_mss ; int sysctl_tcp_probe_threshold ; u32 sysctl_tcp_probe_interval ; struct ping_group_range ping_group_range ; atomic_t dev_addr_genid ; unsigned long *sysctl_local_reserved_ports ; struct list_head mr_tables ; struct fib_rules_ops *mr_rules_ops ; atomic_t rt_genid ; }; struct neighbour; struct dst_ops { unsigned short family ; unsigned int gc_thresh ; int (*gc)(struct dst_ops * ) ; struct dst_entry *(*check)(struct dst_entry * , __u32 ) ; unsigned int (*default_advmss)(struct dst_entry const * ) ; unsigned int (*mtu)(struct dst_entry const * ) ; u32 *(*cow_metrics)(struct dst_entry * , unsigned long ) ; void (*destroy)(struct dst_entry * ) ; void (*ifdown)(struct dst_entry * , struct net_device * , int ) ; struct dst_entry *(*negative_advice)(struct dst_entry * ) ; void (*link_failure)(struct sk_buff * ) ; void (*update_pmtu)(struct dst_entry * , struct sock * , struct sk_buff * , u32 ) ; void (*redirect)(struct dst_entry * , struct sock * , struct sk_buff * ) ; int (*local_out)(struct sk_buff * ) ; struct neighbour *(*neigh_lookup)(struct dst_entry const * , struct sk_buff * , void const * ) ; struct kmem_cache *kmem_cachep ; struct percpu_counter pcpuc_entries ; }; struct netns_sysctl_ipv6 { struct ctl_table_header *hdr ; struct ctl_table_header *route_hdr ; struct ctl_table_header *icmp_hdr ; struct ctl_table_header *frags_hdr ; struct ctl_table_header *xfrm6_hdr ; int bindv6only ; int flush_delay ; int ip6_rt_max_size ; int ip6_rt_gc_min_interval ; int ip6_rt_gc_timeout ; int ip6_rt_gc_interval ; int ip6_rt_gc_elasticity ; int ip6_rt_mtu_expires ; int ip6_rt_min_advmss ; int flowlabel_consistency ; int auto_flowlabels ; int icmpv6_time ; int anycast_src_echo_reply ; int fwmark_reflect ; int idgen_retries ; int idgen_delay ; int flowlabel_state_ranges ; }; struct ipv6_devconf; struct rt6_info; struct rt6_statistics; struct fib6_table; struct netns_ipv6 { struct netns_sysctl_ipv6 sysctl ; struct ipv6_devconf *devconf_all ; struct ipv6_devconf *devconf_dflt ; struct inet_peer_base *peers ; struct netns_frags frags ; struct xt_table *ip6table_filter ; struct xt_table *ip6table_mangle ; struct xt_table *ip6table_raw ; struct xt_table *ip6table_security ; struct xt_table *ip6table_nat ; struct rt6_info *ip6_null_entry ; struct rt6_statistics *rt6_stats ; struct timer_list ip6_fib_timer ; struct hlist_head *fib_table_hash ; struct fib6_table *fib6_main_tbl ; struct dst_ops ip6_dst_ops ; unsigned int ip6_rt_gc_expire ; unsigned long ip6_rt_last_gc ; struct rt6_info *ip6_prohibit_entry ; struct rt6_info *ip6_blk_hole_entry ; struct fib6_table *fib6_local_tbl ; struct fib_rules_ops *fib6_rules_ops ; struct sock **icmp_sk ; struct sock *ndisc_sk ; struct sock *tcp_sk ; struct sock *igmp_sk ; struct sock *mc_autojoin_sk ; struct list_head mr6_tables ; struct fib_rules_ops *mr6_rules_ops ; atomic_t dev_addr_genid ; atomic_t fib6_sernum ; }; struct netns_nf_frag { struct netns_sysctl_ipv6 sysctl ; struct netns_frags frags ; }; struct netns_sysctl_lowpan { struct ctl_table_header *frags_hdr ; }; struct netns_ieee802154_lowpan { struct netns_sysctl_lowpan sysctl ; struct netns_frags frags ; }; struct sctp_mib; struct netns_sctp { struct sctp_mib *sctp_statistics ; struct proc_dir_entry *proc_net_sctp ; struct ctl_table_header *sysctl_header ; struct sock *ctl_sock ; struct list_head local_addr_list ; struct list_head addr_waitq ; struct timer_list addr_wq_timer ; struct list_head auto_asconf_splist ; spinlock_t addr_wq_lock ; spinlock_t local_addr_lock ; unsigned int rto_initial ; unsigned int rto_min ; unsigned int rto_max ; int rto_alpha ; int rto_beta ; int max_burst ; int cookie_preserve_enable ; char *sctp_hmac_alg ; unsigned int valid_cookie_life ; unsigned int sack_timeout ; unsigned int hb_interval ; int max_retrans_association ; int max_retrans_path ; int max_retrans_init ; int pf_retrans ; int sndbuf_policy ; int rcvbuf_policy ; int default_auto_asconf ; int addip_enable ; int addip_noauth ; int prsctp_enable ; int auth_enable ; int scope_policy ; int rwnd_upd_shift ; unsigned long max_autoclose ; }; struct netns_dccp { struct sock *v4_ctl_sk ; struct sock *v6_ctl_sk ; }; struct nf_logger; struct netns_nf { struct proc_dir_entry *proc_netfilter ; struct nf_logger const *nf_loggers[13U] ; struct ctl_table_header *nf_log_dir_header ; }; struct ebt_table; struct netns_xt { struct list_head tables[13U] ; bool notrack_deprecated_warning ; bool clusterip_deprecated_warning ; struct ebt_table *broute_table ; struct ebt_table *frame_filter ; struct ebt_table *frame_nat ; }; struct hlist_nulls_node; struct hlist_nulls_head { struct hlist_nulls_node *first ; }; struct hlist_nulls_node { struct hlist_nulls_node *next ; struct hlist_nulls_node **pprev ; }; struct nf_proto_net { struct ctl_table_header *ctl_table_header ; struct ctl_table *ctl_table ; struct ctl_table_header *ctl_compat_header ; struct ctl_table *ctl_compat_table ; unsigned int users ; }; struct nf_generic_net { struct nf_proto_net pn ; unsigned int timeout ; }; struct nf_tcp_net { struct nf_proto_net pn ; unsigned int timeouts[14U] ; unsigned int tcp_loose ; unsigned int tcp_be_liberal ; unsigned int tcp_max_retrans ; }; struct nf_udp_net { struct nf_proto_net pn ; unsigned int timeouts[2U] ; }; struct nf_icmp_net { struct nf_proto_net pn ; unsigned int timeout ; }; struct nf_ip_net { struct nf_generic_net generic ; struct nf_tcp_net tcp ; struct nf_udp_net udp ; struct nf_icmp_net icmp ; struct nf_icmp_net icmpv6 ; struct ctl_table_header *ctl_table_header ; struct ctl_table *ctl_table ; }; struct ct_pcpu { spinlock_t lock ; struct hlist_nulls_head unconfirmed ; struct hlist_nulls_head dying ; struct hlist_nulls_head tmpl ; }; struct ip_conntrack_stat; struct nf_ct_event_notifier; struct nf_exp_event_notifier; struct netns_ct { atomic_t count ; unsigned int expect_count ; struct delayed_work ecache_dwork ; bool ecache_dwork_pending ; struct ctl_table_header *sysctl_header ; struct ctl_table_header *acct_sysctl_header ; struct ctl_table_header *tstamp_sysctl_header ; struct ctl_table_header *event_sysctl_header ; struct ctl_table_header *helper_sysctl_header ; char *slabname ; unsigned int sysctl_log_invalid ; int sysctl_events ; int sysctl_acct ; int sysctl_auto_assign_helper ; bool auto_assign_helper_warned ; int sysctl_tstamp ; int sysctl_checksum ; unsigned int htable_size ; seqcount_t generation ; struct kmem_cache *nf_conntrack_cachep ; struct hlist_nulls_head *hash ; struct hlist_head *expect_hash ; struct ct_pcpu *pcpu_lists ; struct ip_conntrack_stat *stat ; struct nf_ct_event_notifier *nf_conntrack_event_cb ; struct nf_exp_event_notifier *nf_expect_event_cb ; struct nf_ip_net nf_ct_proto ; unsigned int labels_used ; u8 label_words ; struct hlist_head *nat_bysource ; unsigned int nat_htable_size ; }; struct nft_af_info; struct netns_nftables { struct list_head af_info ; struct list_head commit_list ; struct nft_af_info *ipv4 ; struct nft_af_info *ipv6 ; struct nft_af_info *inet ; struct nft_af_info *arp ; struct nft_af_info *bridge ; struct nft_af_info *netdev ; unsigned int base_seq ; u8 gencursor ; }; struct tasklet_struct { struct tasklet_struct *next ; unsigned long state ; atomic_t count ; void (*func)(unsigned long ) ; unsigned long data ; }; struct flow_cache_percpu { struct hlist_head *hash_table ; int hash_count ; u32 hash_rnd ; int hash_rnd_recalc ; struct tasklet_struct flush_tasklet ; }; struct flow_cache { u32 hash_shift ; struct flow_cache_percpu *percpu ; struct notifier_block hotcpu_notifier ; int low_watermark ; int high_watermark ; struct timer_list rnd_timer ; }; struct xfrm_policy_hash { struct hlist_head *table ; unsigned int hmask ; u8 dbits4 ; u8 sbits4 ; u8 dbits6 ; u8 sbits6 ; }; struct xfrm_policy_hthresh { struct work_struct work ; seqlock_t lock ; u8 lbits4 ; u8 rbits4 ; u8 lbits6 ; u8 rbits6 ; }; struct netns_xfrm { struct list_head state_all ; struct hlist_head *state_bydst ; struct hlist_head *state_bysrc ; struct hlist_head *state_byspi ; unsigned int state_hmask ; unsigned int state_num ; struct work_struct state_hash_work ; struct hlist_head state_gc_list ; struct work_struct state_gc_work ; struct list_head policy_all ; struct hlist_head *policy_byidx ; unsigned int policy_idx_hmask ; struct hlist_head policy_inexact[3U] ; struct xfrm_policy_hash policy_bydst[3U] ; unsigned int policy_count[6U] ; struct work_struct policy_hash_work ; struct xfrm_policy_hthresh policy_hthresh ; struct sock *nlsk ; struct sock *nlsk_stash ; u32 sysctl_aevent_etime ; u32 sysctl_aevent_rseqth ; int sysctl_larval_drop ; u32 sysctl_acq_expires ; struct ctl_table_header *sysctl_hdr ; struct dst_ops xfrm4_dst_ops ; struct dst_ops xfrm6_dst_ops ; spinlock_t xfrm_state_lock ; rwlock_t xfrm_policy_lock ; struct mutex xfrm_cfg_mutex ; struct flow_cache flow_cache_global ; atomic_t flow_cache_genid ; struct list_head flow_cache_gc_list ; spinlock_t flow_cache_gc_lock ; struct work_struct flow_cache_gc_work ; struct work_struct flow_cache_flush_work ; struct mutex flow_flush_sem ; }; struct mpls_route; struct netns_mpls { size_t platform_labels ; struct mpls_route **platform_label ; struct ctl_table_header *ctl ; }; struct proc_ns_operations; struct ns_common { atomic_long_t stashed ; struct proc_ns_operations const *ops ; unsigned int inum ; }; struct net_generic; struct netns_ipvs; struct net { atomic_t passive ; atomic_t count ; spinlock_t rules_mod_lock ; atomic64_t cookie_gen ; struct list_head list ; struct list_head cleanup_list ; struct list_head exit_list ; struct user_namespace *user_ns ; spinlock_t nsid_lock ; struct idr netns_ids ; struct ns_common ns ; struct proc_dir_entry *proc_net ; struct proc_dir_entry *proc_net_stat ; struct ctl_table_set sysctls ; struct sock *rtnl ; struct sock *genl_sock ; struct list_head dev_base_head ; struct hlist_head *dev_name_head ; struct hlist_head *dev_index_head ; unsigned int dev_base_seq ; int ifindex ; unsigned int dev_unreg_count ; struct list_head rules_ops ; struct net_device *loopback_dev ; struct netns_core core ; struct netns_mib mib ; struct netns_packet packet ; struct netns_unix unx ; struct netns_ipv4 ipv4 ; struct netns_ipv6 ipv6 ; struct netns_ieee802154_lowpan ieee802154_lowpan ; struct netns_sctp sctp ; struct netns_dccp dccp ; struct netns_nf nf ; struct netns_xt xt ; struct netns_ct ct ; struct netns_nftables nft ; struct netns_nf_frag nf_frag ; struct sock *nfnl ; struct sock *nfnl_stash ; struct sk_buff_head wext_nlevents ; struct net_generic *gen ; struct netns_xfrm xfrm ; struct netns_ipvs *ipvs ; struct netns_mpls mpls ; struct sock *diag_nlsk ; atomic_t fnhe_genid ; }; struct __anonstruct_possible_net_t_302 { struct net *net ; }; typedef struct __anonstruct_possible_net_t_302 possible_net_t; typedef unsigned long kernel_ulong_t; struct pci_device_id { __u32 vendor ; __u32 device ; __u32 subvendor ; __u32 subdevice ; __u32 class ; __u32 class_mask ; kernel_ulong_t driver_data ; }; struct acpi_device_id { __u8 id[9U] ; kernel_ulong_t driver_data ; }; struct of_device_id { char name[32U] ; char type[32U] ; char compatible[128U] ; void const *data ; }; enum fwnode_type { FWNODE_INVALID = 0, FWNODE_OF = 1, FWNODE_ACPI = 2, FWNODE_PDATA = 3 } ; struct fwnode_handle { enum fwnode_type type ; struct fwnode_handle *secondary ; }; typedef u32 phandle; struct property { char *name ; int length ; void *value ; struct property *next ; unsigned long _flags ; unsigned int unique_id ; struct bin_attribute attr ; }; struct device_node { char const *name ; char const *type ; phandle phandle ; char const *full_name ; struct fwnode_handle fwnode ; struct property *properties ; struct property *deadprops ; struct device_node *parent ; struct device_node *child ; struct device_node *sibling ; struct kobject kobj ; unsigned long _flags ; void *data ; }; enum ldv_27821 { PHY_INTERFACE_MODE_NA = 0, PHY_INTERFACE_MODE_MII = 1, PHY_INTERFACE_MODE_GMII = 2, PHY_INTERFACE_MODE_SGMII = 3, PHY_INTERFACE_MODE_TBI = 4, PHY_INTERFACE_MODE_REVMII = 5, PHY_INTERFACE_MODE_RMII = 6, PHY_INTERFACE_MODE_RGMII = 7, PHY_INTERFACE_MODE_RGMII_ID = 8, PHY_INTERFACE_MODE_RGMII_RXID = 9, PHY_INTERFACE_MODE_RGMII_TXID = 10, PHY_INTERFACE_MODE_RTBI = 11, PHY_INTERFACE_MODE_SMII = 12, PHY_INTERFACE_MODE_XGMII = 13, PHY_INTERFACE_MODE_MOCA = 14, PHY_INTERFACE_MODE_QSGMII = 15, PHY_INTERFACE_MODE_MAX = 16 } ; typedef enum ldv_27821 phy_interface_t; enum ldv_27875 { MDIOBUS_ALLOCATED = 1, MDIOBUS_REGISTERED = 2, MDIOBUS_UNREGISTERED = 3, MDIOBUS_RELEASED = 4 } ; struct phy_device; struct mii_bus { char const *name ; char id[17U] ; void *priv ; int (*read)(struct mii_bus * , int , int ) ; int (*write)(struct mii_bus * , int , int , u16 ) ; int (*reset)(struct mii_bus * ) ; struct mutex mdio_lock ; struct device *parent ; enum ldv_27875 state ; struct device dev ; struct phy_device *phy_map[32U] ; u32 phy_mask ; u32 phy_ignore_ta_mask ; int *irq ; }; enum phy_state { PHY_DOWN = 0, PHY_STARTING = 1, PHY_READY = 2, PHY_PENDING = 3, PHY_UP = 4, PHY_AN = 5, PHY_RUNNING = 6, PHY_NOLINK = 7, PHY_FORCING = 8, PHY_CHANGELINK = 9, PHY_HALTED = 10, PHY_RESUMING = 11 } ; struct phy_c45_device_ids { u32 devices_in_package ; u32 device_ids[8U] ; }; struct phy_driver; struct phy_device { struct phy_driver *drv ; struct mii_bus *bus ; struct device dev ; u32 phy_id ; struct phy_c45_device_ids c45_ids ; bool is_c45 ; bool is_internal ; bool has_fixups ; bool suspended ; enum phy_state state ; u32 dev_flags ; phy_interface_t interface ; int addr ; int speed ; int duplex ; int pause ; int asym_pause ; int link ; u32 interrupts ; u32 supported ; u32 advertising ; u32 lp_advertising ; int autoneg ; int link_timeout ; int irq ; void *priv ; struct work_struct phy_queue ; struct delayed_work state_queue ; atomic_t irq_disable ; struct mutex lock ; struct net_device *attached_dev ; void (*adjust_link)(struct net_device * ) ; }; struct phy_driver { u32 phy_id ; char *name ; unsigned int phy_id_mask ; u32 features ; u32 flags ; void const *driver_data ; int (*soft_reset)(struct phy_device * ) ; int (*config_init)(struct phy_device * ) ; int (*probe)(struct phy_device * ) ; int (*suspend)(struct phy_device * ) ; int (*resume)(struct phy_device * ) ; int (*config_aneg)(struct phy_device * ) ; int (*aneg_done)(struct phy_device * ) ; int (*read_status)(struct phy_device * ) ; int (*ack_interrupt)(struct phy_device * ) ; int (*config_intr)(struct phy_device * ) ; int (*did_interrupt)(struct phy_device * ) ; void (*remove)(struct phy_device * ) ; int (*match_phy_device)(struct phy_device * ) ; int (*ts_info)(struct phy_device * , struct ethtool_ts_info * ) ; int (*hwtstamp)(struct phy_device * , struct ifreq * ) ; bool (*rxtstamp)(struct phy_device * , struct sk_buff * , int ) ; void (*txtstamp)(struct phy_device * , struct sk_buff * , int ) ; int (*set_wol)(struct phy_device * , struct ethtool_wolinfo * ) ; void (*get_wol)(struct phy_device * , struct ethtool_wolinfo * ) ; void (*link_change_notify)(struct phy_device * ) ; int (*read_mmd_indirect)(struct phy_device * , int , int , int ) ; void (*write_mmd_indirect)(struct phy_device * , int , int , int , u32 ) ; int (*module_info)(struct phy_device * , struct ethtool_modinfo * ) ; int (*module_eeprom)(struct phy_device * , struct ethtool_eeprom * , u8 * ) ; struct device_driver driver ; }; struct fixed_phy_status { int link ; int speed ; int duplex ; int pause ; int asym_pause ; }; enum dsa_tag_protocol { DSA_TAG_PROTO_NONE = 0, DSA_TAG_PROTO_DSA = 1, DSA_TAG_PROTO_TRAILER = 2, DSA_TAG_PROTO_EDSA = 3, DSA_TAG_PROTO_BRCM = 4 } ; struct dsa_chip_data { struct device *host_dev ; int sw_addr ; int eeprom_len ; struct device_node *of_node ; char *port_names[12U] ; struct device_node *port_dn[12U] ; s8 *rtable ; }; struct dsa_platform_data { struct device *netdev ; struct net_device *of_netdev ; int nr_chips ; struct dsa_chip_data *chip ; }; struct packet_type; struct dsa_switch; struct dsa_switch_tree { struct dsa_platform_data *pd ; struct net_device *master_netdev ; int (*rcv)(struct sk_buff * , struct net_device * , struct packet_type * , struct net_device * ) ; enum dsa_tag_protocol tag_protocol ; s8 cpu_switch ; s8 cpu_port ; int link_poll_needed ; struct work_struct link_poll_work ; struct timer_list link_poll_timer ; struct dsa_switch *ds[4U] ; }; struct dsa_switch_driver; struct dsa_switch { struct dsa_switch_tree *dst ; int index ; enum dsa_tag_protocol tag_protocol ; struct dsa_chip_data *pd ; struct dsa_switch_driver *drv ; struct device *master_dev ; char hwmon_name[24U] ; struct device *hwmon_dev ; u32 dsa_port_mask ; u32 phys_port_mask ; u32 phys_mii_mask ; struct mii_bus *slave_mii_bus ; struct net_device *ports[12U] ; }; struct dsa_switch_driver { struct list_head list ; enum dsa_tag_protocol tag_protocol ; int priv_size ; char *(*probe)(struct device * , int ) ; int (*setup)(struct dsa_switch * ) ; int (*set_addr)(struct dsa_switch * , u8 * ) ; u32 (*get_phy_flags)(struct dsa_switch * , int ) ; int (*phy_read)(struct dsa_switch * , int , int ) ; int (*phy_write)(struct dsa_switch * , int , int , u16 ) ; void (*poll_link)(struct dsa_switch * ) ; void (*adjust_link)(struct dsa_switch * , int , struct phy_device * ) ; void (*fixed_link_update)(struct dsa_switch * , int , struct fixed_phy_status * ) ; void (*get_strings)(struct dsa_switch * , int , uint8_t * ) ; void (*get_ethtool_stats)(struct dsa_switch * , int , uint64_t * ) ; int (*get_sset_count)(struct dsa_switch * ) ; void (*get_wol)(struct dsa_switch * , int , struct ethtool_wolinfo * ) ; int (*set_wol)(struct dsa_switch * , int , struct ethtool_wolinfo * ) ; int (*suspend)(struct dsa_switch * ) ; int (*resume)(struct dsa_switch * ) ; int (*port_enable)(struct dsa_switch * , int , struct phy_device * ) ; void (*port_disable)(struct dsa_switch * , int , struct phy_device * ) ; int (*set_eee)(struct dsa_switch * , int , struct phy_device * , struct ethtool_eee * ) ; int (*get_eee)(struct dsa_switch * , int , struct ethtool_eee * ) ; int (*get_temp)(struct dsa_switch * , int * ) ; int (*get_temp_limit)(struct dsa_switch * , int * ) ; int (*set_temp_limit)(struct dsa_switch * , int ) ; int (*get_temp_alarm)(struct dsa_switch * , bool * ) ; int (*get_eeprom_len)(struct dsa_switch * ) ; int (*get_eeprom)(struct dsa_switch * , struct ethtool_eeprom * , u8 * ) ; int (*set_eeprom)(struct dsa_switch * , struct ethtool_eeprom * , u8 * ) ; int (*get_regs_len)(struct dsa_switch * , int ) ; void (*get_regs)(struct dsa_switch * , int , struct ethtool_regs * , void * ) ; int (*port_join_bridge)(struct dsa_switch * , int , u32 ) ; int (*port_leave_bridge)(struct dsa_switch * , int , u32 ) ; int (*port_stp_update)(struct dsa_switch * , int , u8 ) ; int (*fdb_add)(struct dsa_switch * , int , unsigned char const * , u16 ) ; int (*fdb_del)(struct dsa_switch * , int , unsigned char const * , u16 ) ; int (*fdb_getnext)(struct dsa_switch * , int , unsigned char * , bool * ) ; }; struct ieee_ets { __u8 willing ; __u8 ets_cap ; __u8 cbs ; __u8 tc_tx_bw[8U] ; __u8 tc_rx_bw[8U] ; __u8 tc_tsa[8U] ; __u8 prio_tc[8U] ; __u8 tc_reco_bw[8U] ; __u8 tc_reco_tsa[8U] ; __u8 reco_prio_tc[8U] ; }; struct ieee_maxrate { __u64 tc_maxrate[8U] ; }; struct ieee_qcn { __u8 rpg_enable[8U] ; __u32 rppp_max_rps[8U] ; __u32 rpg_time_reset[8U] ; __u32 rpg_byte_reset[8U] ; __u32 rpg_threshold[8U] ; __u32 rpg_max_rate[8U] ; __u32 rpg_ai_rate[8U] ; __u32 rpg_hai_rate[8U] ; __u32 rpg_gd[8U] ; __u32 rpg_min_dec_fac[8U] ; __u32 rpg_min_rate[8U] ; __u32 cndd_state_machine[8U] ; }; struct ieee_qcn_stats { __u64 rppp_rp_centiseconds[8U] ; __u32 rppp_created_rps[8U] ; }; struct ieee_pfc { __u8 pfc_cap ; __u8 pfc_en ; __u8 mbc ; __u16 delay ; __u64 requests[8U] ; __u64 indications[8U] ; }; struct cee_pg { __u8 willing ; __u8 error ; __u8 pg_en ; __u8 tcs_supported ; __u8 pg_bw[8U] ; __u8 prio_pg[8U] ; }; struct cee_pfc { __u8 willing ; __u8 error ; __u8 pfc_en ; __u8 tcs_supported ; }; struct dcb_app { __u8 selector ; __u8 priority ; __u16 protocol ; }; struct dcb_peer_app_info { __u8 willing ; __u8 error ; }; struct dcbnl_rtnl_ops { int (*ieee_getets)(struct net_device * , struct ieee_ets * ) ; int (*ieee_setets)(struct net_device * , struct ieee_ets * ) ; int (*ieee_getmaxrate)(struct net_device * , struct ieee_maxrate * ) ; int (*ieee_setmaxrate)(struct net_device * , struct ieee_maxrate * ) ; int (*ieee_getqcn)(struct net_device * , struct ieee_qcn * ) ; int (*ieee_setqcn)(struct net_device * , struct ieee_qcn * ) ; int (*ieee_getqcnstats)(struct net_device * , struct ieee_qcn_stats * ) ; int (*ieee_getpfc)(struct net_device * , struct ieee_pfc * ) ; int (*ieee_setpfc)(struct net_device * , struct ieee_pfc * ) ; int (*ieee_getapp)(struct net_device * , struct dcb_app * ) ; int (*ieee_setapp)(struct net_device * , struct dcb_app * ) ; int (*ieee_delapp)(struct net_device * , struct dcb_app * ) ; int (*ieee_peer_getets)(struct net_device * , struct ieee_ets * ) ; int (*ieee_peer_getpfc)(struct net_device * , struct ieee_pfc * ) ; u8 (*getstate)(struct net_device * ) ; u8 (*setstate)(struct net_device * , u8 ) ; void (*getpermhwaddr)(struct net_device * , u8 * ) ; void (*setpgtccfgtx)(struct net_device * , int , u8 , u8 , u8 , u8 ) ; void (*setpgbwgcfgtx)(struct net_device * , int , u8 ) ; void (*setpgtccfgrx)(struct net_device * , int , u8 , u8 , u8 , u8 ) ; void (*setpgbwgcfgrx)(struct net_device * , int , u8 ) ; void (*getpgtccfgtx)(struct net_device * , int , u8 * , u8 * , u8 * , u8 * ) ; void (*getpgbwgcfgtx)(struct net_device * , int , u8 * ) ; void (*getpgtccfgrx)(struct net_device * , int , u8 * , u8 * , u8 * , u8 * ) ; void (*getpgbwgcfgrx)(struct net_device * , int , u8 * ) ; void (*setpfccfg)(struct net_device * , int , u8 ) ; void (*getpfccfg)(struct net_device * , int , u8 * ) ; u8 (*setall)(struct net_device * ) ; u8 (*getcap)(struct net_device * , int , u8 * ) ; int (*getnumtcs)(struct net_device * , int , u8 * ) ; int (*setnumtcs)(struct net_device * , int , u8 ) ; u8 (*getpfcstate)(struct net_device * ) ; void (*setpfcstate)(struct net_device * , u8 ) ; void (*getbcncfg)(struct net_device * , int , u32 * ) ; void (*setbcncfg)(struct net_device * , int , u32 ) ; void (*getbcnrp)(struct net_device * , int , u8 * ) ; void (*setbcnrp)(struct net_device * , int , u8 ) ; int (*setapp)(struct net_device * , u8 , u16 , u8 ) ; int (*getapp)(struct net_device * , u8 , u16 ) ; u8 (*getfeatcfg)(struct net_device * , int , u8 * ) ; u8 (*setfeatcfg)(struct net_device * , int , u8 ) ; u8 (*getdcbx)(struct net_device * ) ; u8 (*setdcbx)(struct net_device * , u8 ) ; int (*peer_getappinfo)(struct net_device * , struct dcb_peer_app_info * , u16 * ) ; int (*peer_getapptable)(struct net_device * , struct dcb_app * ) ; int (*cee_peer_getpg)(struct net_device * , struct cee_pg * ) ; int (*cee_peer_getpfc)(struct net_device * , struct cee_pfc * ) ; }; struct taskstats { __u16 version ; __u32 ac_exitcode ; __u8 ac_flag ; __u8 ac_nice ; __u64 cpu_count ; __u64 cpu_delay_total ; __u64 blkio_count ; __u64 blkio_delay_total ; __u64 swapin_count ; __u64 swapin_delay_total ; __u64 cpu_run_real_total ; __u64 cpu_run_virtual_total ; char ac_comm[32U] ; __u8 ac_sched ; __u8 ac_pad[3U] ; __u32 ac_uid ; __u32 ac_gid ; __u32 ac_pid ; __u32 ac_ppid ; __u32 ac_btime ; __u64 ac_etime ; __u64 ac_utime ; __u64 ac_stime ; __u64 ac_minflt ; __u64 ac_majflt ; __u64 coremem ; __u64 virtmem ; __u64 hiwater_rss ; __u64 hiwater_vm ; __u64 read_char ; __u64 write_char ; __u64 read_syscalls ; __u64 write_syscalls ; __u64 read_bytes ; __u64 write_bytes ; __u64 cancelled_write_bytes ; __u64 nvcsw ; __u64 nivcsw ; __u64 ac_utimescaled ; __u64 ac_stimescaled ; __u64 cpu_scaled_run_real_total ; __u64 freepages_count ; __u64 freepages_delay_total ; }; struct netprio_map { struct callback_head rcu ; u32 priomap_len ; u32 priomap[] ; }; struct xfrm_policy; struct xfrm_state; struct request_sock; struct mnt_namespace; struct ipc_namespace; struct nsproxy { atomic_t count ; struct uts_namespace *uts_ns ; struct ipc_namespace *ipc_ns ; struct mnt_namespace *mnt_ns ; struct pid_namespace *pid_ns_for_children ; struct net *net_ns ; }; struct nlmsghdr { __u32 nlmsg_len ; __u16 nlmsg_type ; __u16 nlmsg_flags ; __u32 nlmsg_seq ; __u32 nlmsg_pid ; }; struct nlattr { __u16 nla_len ; __u16 nla_type ; }; struct netlink_callback { struct sk_buff *skb ; struct nlmsghdr const *nlh ; int (*dump)(struct sk_buff * , struct netlink_callback * ) ; int (*done)(struct netlink_callback * ) ; void *data ; struct module *module ; u16 family ; u16 min_dump_alloc ; unsigned int prev_seq ; unsigned int seq ; long args[6U] ; }; struct ndmsg { __u8 ndm_family ; __u8 ndm_pad1 ; __u16 ndm_pad2 ; __s32 ndm_ifindex ; __u16 ndm_state ; __u8 ndm_flags ; __u8 ndm_type ; }; struct rtnl_link_stats64 { __u64 rx_packets ; __u64 tx_packets ; __u64 rx_bytes ; __u64 tx_bytes ; __u64 rx_errors ; __u64 tx_errors ; __u64 rx_dropped ; __u64 tx_dropped ; __u64 multicast ; __u64 collisions ; __u64 rx_length_errors ; __u64 rx_over_errors ; __u64 rx_crc_errors ; __u64 rx_frame_errors ; __u64 rx_fifo_errors ; __u64 rx_missed_errors ; __u64 tx_aborted_errors ; __u64 tx_carrier_errors ; __u64 tx_fifo_errors ; __u64 tx_heartbeat_errors ; __u64 tx_window_errors ; __u64 rx_compressed ; __u64 tx_compressed ; }; struct ifla_vf_stats { __u64 rx_packets ; __u64 tx_packets ; __u64 rx_bytes ; __u64 tx_bytes ; __u64 broadcast ; __u64 multicast ; }; struct ifla_vf_info { __u32 vf ; __u8 mac[32U] ; __u32 vlan ; __u32 qos ; __u32 spoofchk ; __u32 linkstate ; __u32 min_tx_rate ; __u32 max_tx_rate ; __u32 rss_query_en ; }; struct netpoll_info; struct wireless_dev; struct wpan_dev; struct mpls_dev; enum netdev_tx { __NETDEV_TX_MIN = (-0x7FFFFFFF-1), NETDEV_TX_OK = 0, NETDEV_TX_BUSY = 16, NETDEV_TX_LOCKED = 32 } ; typedef enum netdev_tx netdev_tx_t; struct net_device_stats { unsigned long rx_packets ; unsigned long tx_packets ; unsigned long rx_bytes ; unsigned long tx_bytes ; unsigned long rx_errors ; unsigned long tx_errors ; unsigned long rx_dropped ; unsigned long tx_dropped ; unsigned long multicast ; unsigned long collisions ; unsigned long rx_length_errors ; unsigned long rx_over_errors ; unsigned long rx_crc_errors ; unsigned long rx_frame_errors ; unsigned long rx_fifo_errors ; unsigned long rx_missed_errors ; unsigned long tx_aborted_errors ; unsigned long tx_carrier_errors ; unsigned long tx_fifo_errors ; unsigned long tx_heartbeat_errors ; unsigned long tx_window_errors ; unsigned long rx_compressed ; unsigned long tx_compressed ; }; struct neigh_parms; struct netdev_hw_addr_list { struct list_head list ; int count ; }; struct hh_cache { u16 hh_len ; u16 __pad ; seqlock_t hh_lock ; unsigned long hh_data[16U] ; }; struct header_ops { int (*create)(struct sk_buff * , struct net_device * , unsigned short , void const * , void const * , unsigned int ) ; int (*parse)(struct sk_buff const * , unsigned char * ) ; int (*cache)(struct neighbour const * , struct hh_cache * , __be16 ) ; void (*cache_update)(struct hh_cache * , struct net_device const * , unsigned char const * ) ; }; struct napi_struct { struct list_head poll_list ; unsigned long state ; int weight ; unsigned int gro_count ; int (*poll)(struct napi_struct * , int ) ; spinlock_t poll_lock ; int poll_owner ; struct net_device *dev ; struct sk_buff *gro_list ; struct sk_buff *skb ; struct hrtimer timer ; struct list_head dev_list ; struct hlist_node napi_hash_node ; unsigned int napi_id ; }; enum rx_handler_result { RX_HANDLER_CONSUMED = 0, RX_HANDLER_ANOTHER = 1, RX_HANDLER_EXACT = 2, RX_HANDLER_PASS = 3 } ; typedef enum rx_handler_result rx_handler_result_t; typedef rx_handler_result_t rx_handler_func_t(struct sk_buff ** ); struct Qdisc; struct netdev_queue { struct net_device *dev ; struct Qdisc *qdisc ; struct Qdisc *qdisc_sleeping ; struct kobject kobj ; int numa_node ; spinlock_t _xmit_lock ; int xmit_lock_owner ; unsigned long trans_start ; unsigned long trans_timeout ; unsigned long state ; struct dql dql ; unsigned long tx_maxrate ; }; struct rps_map { unsigned int len ; struct callback_head rcu ; u16 cpus[0U] ; }; struct rps_dev_flow { u16 cpu ; u16 filter ; unsigned int last_qtail ; }; struct rps_dev_flow_table { unsigned int mask ; struct callback_head rcu ; struct rps_dev_flow flows[0U] ; }; struct netdev_rx_queue { struct rps_map *rps_map ; struct rps_dev_flow_table *rps_flow_table ; struct kobject kobj ; struct net_device *dev ; }; struct xps_map { unsigned int len ; unsigned int alloc_len ; struct callback_head rcu ; u16 queues[0U] ; }; struct xps_dev_maps { struct callback_head rcu ; struct xps_map *cpu_map[0U] ; }; struct netdev_tc_txq { u16 count ; u16 offset ; }; struct netdev_fcoe_hbainfo { char manufacturer[64U] ; char serial_number[64U] ; char hardware_version[64U] ; char driver_version[64U] ; char optionrom_version[64U] ; char firmware_version[64U] ; char model[256U] ; char model_description[256U] ; }; struct netdev_phys_item_id { unsigned char id[32U] ; unsigned char id_len ; }; struct net_device_ops { int (*ndo_init)(struct net_device * ) ; void (*ndo_uninit)(struct net_device * ) ; int (*ndo_open)(struct net_device * ) ; int (*ndo_stop)(struct net_device * ) ; netdev_tx_t (*ndo_start_xmit)(struct sk_buff * , struct net_device * ) ; u16 (*ndo_select_queue)(struct net_device * , struct sk_buff * , void * , u16 (*)(struct net_device * , struct sk_buff * ) ) ; void (*ndo_change_rx_flags)(struct net_device * , int ) ; void (*ndo_set_rx_mode)(struct net_device * ) ; int (*ndo_set_mac_address)(struct net_device * , void * ) ; int (*ndo_validate_addr)(struct net_device * ) ; int (*ndo_do_ioctl)(struct net_device * , struct ifreq * , int ) ; int (*ndo_set_config)(struct net_device * , struct ifmap * ) ; int (*ndo_change_mtu)(struct net_device * , int ) ; int (*ndo_neigh_setup)(struct net_device * , struct neigh_parms * ) ; void (*ndo_tx_timeout)(struct net_device * ) ; struct rtnl_link_stats64 *(*ndo_get_stats64)(struct net_device * , struct rtnl_link_stats64 * ) ; struct net_device_stats *(*ndo_get_stats)(struct net_device * ) ; int (*ndo_vlan_rx_add_vid)(struct net_device * , __be16 , u16 ) ; int (*ndo_vlan_rx_kill_vid)(struct net_device * , __be16 , u16 ) ; void (*ndo_poll_controller)(struct net_device * ) ; int (*ndo_netpoll_setup)(struct net_device * , struct netpoll_info * ) ; void (*ndo_netpoll_cleanup)(struct net_device * ) ; int (*ndo_busy_poll)(struct napi_struct * ) ; int (*ndo_set_vf_mac)(struct net_device * , int , u8 * ) ; int (*ndo_set_vf_vlan)(struct net_device * , int , u16 , u8 ) ; int (*ndo_set_vf_rate)(struct net_device * , int , int , int ) ; int (*ndo_set_vf_spoofchk)(struct net_device * , int , bool ) ; int (*ndo_get_vf_config)(struct net_device * , int , struct ifla_vf_info * ) ; int (*ndo_set_vf_link_state)(struct net_device * , int , int ) ; int (*ndo_get_vf_stats)(struct net_device * , int , struct ifla_vf_stats * ) ; int (*ndo_set_vf_port)(struct net_device * , int , struct nlattr ** ) ; int (*ndo_get_vf_port)(struct net_device * , int , struct sk_buff * ) ; int (*ndo_set_vf_rss_query_en)(struct net_device * , int , bool ) ; int (*ndo_setup_tc)(struct net_device * , u8 ) ; int (*ndo_fcoe_enable)(struct net_device * ) ; int (*ndo_fcoe_disable)(struct net_device * ) ; int (*ndo_fcoe_ddp_setup)(struct net_device * , u16 , struct scatterlist * , unsigned int ) ; int (*ndo_fcoe_ddp_done)(struct net_device * , u16 ) ; int (*ndo_fcoe_ddp_target)(struct net_device * , u16 , struct scatterlist * , unsigned int ) ; int (*ndo_fcoe_get_hbainfo)(struct net_device * , struct netdev_fcoe_hbainfo * ) ; int (*ndo_fcoe_get_wwn)(struct net_device * , u64 * , int ) ; int (*ndo_rx_flow_steer)(struct net_device * , struct sk_buff const * , u16 , u32 ) ; int (*ndo_add_slave)(struct net_device * , struct net_device * ) ; int (*ndo_del_slave)(struct net_device * , struct net_device * ) ; netdev_features_t (*ndo_fix_features)(struct net_device * , netdev_features_t ) ; int (*ndo_set_features)(struct net_device * , netdev_features_t ) ; int (*ndo_neigh_construct)(struct neighbour * ) ; void (*ndo_neigh_destroy)(struct neighbour * ) ; int (*ndo_fdb_add)(struct ndmsg * , struct nlattr ** , struct net_device * , unsigned char const * , u16 , u16 ) ; int (*ndo_fdb_del)(struct ndmsg * , struct nlattr ** , struct net_device * , unsigned char const * , u16 ) ; int (*ndo_fdb_dump)(struct sk_buff * , struct netlink_callback * , struct net_device * , struct net_device * , int ) ; int (*ndo_bridge_setlink)(struct net_device * , struct nlmsghdr * , u16 ) ; int (*ndo_bridge_getlink)(struct sk_buff * , u32 , u32 , struct net_device * , u32 , int ) ; int (*ndo_bridge_dellink)(struct net_device * , struct nlmsghdr * , u16 ) ; int (*ndo_change_carrier)(struct net_device * , bool ) ; int (*ndo_get_phys_port_id)(struct net_device * , struct netdev_phys_item_id * ) ; int (*ndo_get_phys_port_name)(struct net_device * , char * , size_t ) ; void (*ndo_add_vxlan_port)(struct net_device * , sa_family_t , __be16 ) ; void (*ndo_del_vxlan_port)(struct net_device * , sa_family_t , __be16 ) ; void *(*ndo_dfwd_add_station)(struct net_device * , struct net_device * ) ; void (*ndo_dfwd_del_station)(struct net_device * , void * ) ; netdev_tx_t (*ndo_dfwd_start_xmit)(struct sk_buff * , struct net_device * , void * ) ; int (*ndo_get_lock_subclass)(struct net_device * ) ; netdev_features_t (*ndo_features_check)(struct sk_buff * , struct net_device * , netdev_features_t ) ; int (*ndo_set_tx_maxrate)(struct net_device * , int , u32 ) ; int (*ndo_get_iflink)(struct net_device const * ) ; }; struct __anonstruct_adj_list_315 { struct list_head upper ; struct list_head lower ; }; struct __anonstruct_all_adj_list_316 { struct list_head upper ; struct list_head lower ; }; struct iw_handler_def; struct iw_public_data; struct switchdev_ops; struct vlan_info; struct tipc_bearer; struct in_device; struct dn_dev; struct inet6_dev; struct tcf_proto; struct cpu_rmap; struct pcpu_lstats; struct pcpu_sw_netstats; struct pcpu_dstats; struct pcpu_vstats; union __anonunion____missing_field_name_317 { void *ml_priv ; struct pcpu_lstats *lstats ; struct pcpu_sw_netstats *tstats ; struct pcpu_dstats *dstats ; struct pcpu_vstats *vstats ; }; struct garp_port; struct mrp_port; struct rtnl_link_ops; struct net_device { char name[16U] ; struct hlist_node name_hlist ; char *ifalias ; unsigned long mem_end ; unsigned long mem_start ; unsigned long base_addr ; int irq ; atomic_t carrier_changes ; unsigned long state ; struct list_head dev_list ; struct list_head napi_list ; struct list_head unreg_list ; struct list_head close_list ; struct list_head ptype_all ; struct list_head ptype_specific ; struct __anonstruct_adj_list_315 adj_list ; struct __anonstruct_all_adj_list_316 all_adj_list ; netdev_features_t features ; netdev_features_t hw_features ; netdev_features_t wanted_features ; netdev_features_t vlan_features ; netdev_features_t hw_enc_features ; netdev_features_t mpls_features ; int ifindex ; int group ; struct net_device_stats stats ; atomic_long_t rx_dropped ; atomic_long_t tx_dropped ; struct iw_handler_def const *wireless_handlers ; struct iw_public_data *wireless_data ; struct net_device_ops const *netdev_ops ; struct ethtool_ops const *ethtool_ops ; struct switchdev_ops const *switchdev_ops ; struct header_ops const *header_ops ; unsigned int flags ; unsigned int priv_flags ; unsigned short gflags ; unsigned short padded ; unsigned char operstate ; unsigned char link_mode ; unsigned char if_port ; unsigned char dma ; unsigned int mtu ; unsigned short type ; unsigned short hard_header_len ; unsigned short needed_headroom ; unsigned short needed_tailroom ; unsigned char perm_addr[32U] ; unsigned char addr_assign_type ; unsigned char addr_len ; unsigned short neigh_priv_len ; unsigned short dev_id ; unsigned short dev_port ; spinlock_t addr_list_lock ; unsigned char name_assign_type ; bool uc_promisc ; struct netdev_hw_addr_list uc ; struct netdev_hw_addr_list mc ; struct netdev_hw_addr_list dev_addrs ; struct kset *queues_kset ; unsigned int promiscuity ; unsigned int allmulti ; struct vlan_info *vlan_info ; struct dsa_switch_tree *dsa_ptr ; struct tipc_bearer *tipc_ptr ; void *atalk_ptr ; struct in_device *ip_ptr ; struct dn_dev *dn_ptr ; struct inet6_dev *ip6_ptr ; void *ax25_ptr ; struct wireless_dev *ieee80211_ptr ; struct wpan_dev *ieee802154_ptr ; struct mpls_dev *mpls_ptr ; unsigned long last_rx ; unsigned char *dev_addr ; struct netdev_rx_queue *_rx ; unsigned int num_rx_queues ; unsigned int real_num_rx_queues ; unsigned long gro_flush_timeout ; rx_handler_func_t *rx_handler ; void *rx_handler_data ; struct tcf_proto *ingress_cl_list ; struct netdev_queue *ingress_queue ; struct list_head nf_hooks_ingress ; unsigned char broadcast[32U] ; struct cpu_rmap *rx_cpu_rmap ; struct hlist_node index_hlist ; struct netdev_queue *_tx ; unsigned int num_tx_queues ; unsigned int real_num_tx_queues ; struct Qdisc *qdisc ; unsigned long tx_queue_len ; spinlock_t tx_global_lock ; int watchdog_timeo ; struct xps_dev_maps *xps_maps ; unsigned long trans_start ; struct timer_list watchdog_timer ; int *pcpu_refcnt ; struct list_head todo_list ; struct list_head link_watch_list ; unsigned char reg_state ; bool dismantle ; unsigned short rtnl_link_state ; void (*destructor)(struct net_device * ) ; struct netpoll_info *npinfo ; possible_net_t nd_net ; union __anonunion____missing_field_name_317 __annonCompField94 ; struct garp_port *garp_port ; struct mrp_port *mrp_port ; struct device dev ; struct attribute_group const *sysfs_groups[4U] ; struct attribute_group const *sysfs_rx_queue_group ; struct rtnl_link_ops const *rtnl_link_ops ; unsigned int gso_max_size ; u16 gso_max_segs ; u16 gso_min_segs ; struct dcbnl_rtnl_ops const *dcbnl_ops ; u8 num_tc ; struct netdev_tc_txq tc_to_txq[16U] ; u8 prio_tc_map[16U] ; unsigned int fcoe_ddp_xid ; struct netprio_map *priomap ; struct phy_device *phydev ; struct lock_class_key *qdisc_tx_busylock ; }; struct packet_type { __be16 type ; struct net_device *dev ; int (*func)(struct sk_buff * , struct net_device * , struct packet_type * , struct net_device * ) ; bool (*id_match)(struct packet_type * , struct sock * ) ; void *af_packet_priv ; struct list_head list ; }; struct pcpu_sw_netstats { u64 rx_packets ; u64 rx_bytes ; u64 tx_packets ; u64 tx_bytes ; struct u64_stats_sync syncp ; }; enum skb_free_reason { SKB_REASON_CONSUMED = 0, SKB_REASON_DROPPED = 1 } ; struct hotplug_slot; struct pci_slot { struct pci_bus *bus ; struct list_head list ; struct hotplug_slot *hotplug ; unsigned char number ; struct kobject kobj ; }; typedef int pci_power_t; typedef unsigned int pci_channel_state_t; enum pci_channel_state { pci_channel_io_normal = 1, pci_channel_io_frozen = 2, pci_channel_io_perm_failure = 3 } ; typedef unsigned short pci_dev_flags_t; typedef unsigned short pci_bus_flags_t; struct pcie_link_state; struct pci_vpd; struct pci_sriov; struct pci_ats; struct pci_driver; union __anonunion____missing_field_name_322 { struct pci_sriov *sriov ; struct pci_dev *physfn ; }; struct pci_dev { struct list_head bus_list ; struct pci_bus *bus ; struct pci_bus *subordinate ; void *sysdata ; struct proc_dir_entry *procent ; struct pci_slot *slot ; unsigned int devfn ; unsigned short vendor ; unsigned short device ; unsigned short subsystem_vendor ; unsigned short subsystem_device ; unsigned int class ; u8 revision ; u8 hdr_type ; u8 pcie_cap ; u8 msi_cap ; u8 msix_cap ; unsigned char pcie_mpss : 3 ; u8 rom_base_reg ; u8 pin ; u16 pcie_flags_reg ; u8 dma_alias_devfn ; struct pci_driver *driver ; u64 dma_mask ; struct device_dma_parameters dma_parms ; pci_power_t current_state ; u8 pm_cap ; unsigned char pme_support : 5 ; unsigned char pme_interrupt : 1 ; unsigned char pme_poll : 1 ; unsigned char d1_support : 1 ; unsigned char d2_support : 1 ; unsigned char no_d1d2 : 1 ; unsigned char no_d3cold : 1 ; unsigned char d3cold_allowed : 1 ; unsigned char mmio_always_on : 1 ; unsigned char wakeup_prepared : 1 ; unsigned char runtime_d3cold : 1 ; unsigned char ignore_hotplug : 1 ; unsigned int d3_delay ; unsigned int d3cold_delay ; struct pcie_link_state *link_state ; pci_channel_state_t error_state ; struct device dev ; int cfg_size ; unsigned int irq ; struct resource resource[17U] ; bool match_driver ; unsigned char transparent : 1 ; unsigned char multifunction : 1 ; unsigned char is_added : 1 ; unsigned char is_busmaster : 1 ; unsigned char no_msi : 1 ; unsigned char no_64bit_msi : 1 ; unsigned char block_cfg_access : 1 ; unsigned char broken_parity_status : 1 ; unsigned char irq_reroute_variant : 2 ; unsigned char msi_enabled : 1 ; unsigned char msix_enabled : 1 ; unsigned char ari_enabled : 1 ; unsigned char is_managed : 1 ; unsigned char needs_freset : 1 ; unsigned char state_saved : 1 ; unsigned char is_physfn : 1 ; unsigned char is_virtfn : 1 ; unsigned char reset_fn : 1 ; unsigned char is_hotplug_bridge : 1 ; unsigned char __aer_firmware_first_valid : 1 ; unsigned char __aer_firmware_first : 1 ; unsigned char broken_intx_masking : 1 ; unsigned char io_window_1k : 1 ; unsigned char irq_managed : 1 ; unsigned char has_secondary_link : 1 ; pci_dev_flags_t dev_flags ; atomic_t enable_cnt ; u32 saved_config_space[16U] ; struct hlist_head saved_cap_space ; struct bin_attribute *rom_attr ; int rom_attr_enabled ; struct bin_attribute *res_attr[17U] ; struct bin_attribute *res_attr_wc[17U] ; struct list_head msi_list ; struct attribute_group const **msi_irq_groups ; struct pci_vpd *vpd ; union __anonunion____missing_field_name_322 __annonCompField95 ; struct pci_ats *ats ; phys_addr_t rom ; size_t romlen ; char *driver_override ; }; struct pci_ops; struct msi_controller; struct pci_bus { struct list_head node ; struct pci_bus *parent ; struct list_head children ; struct list_head devices ; struct pci_dev *self ; struct list_head slots ; struct resource *resource[4U] ; struct list_head resources ; struct resource busn_res ; struct pci_ops *ops ; struct msi_controller *msi ; void *sysdata ; struct proc_dir_entry *procdir ; unsigned char number ; unsigned char primary ; unsigned char max_bus_speed ; unsigned char cur_bus_speed ; char name[48U] ; unsigned short bridge_ctl ; pci_bus_flags_t bus_flags ; struct device *bridge ; struct device dev ; struct bin_attribute *legacy_io ; struct bin_attribute *legacy_mem ; unsigned char is_added : 1 ; }; struct pci_ops { void *(*map_bus)(struct pci_bus * , unsigned int , int ) ; int (*read)(struct pci_bus * , unsigned int , int , int , u32 * ) ; int (*write)(struct pci_bus * , unsigned int , int , int , u32 ) ; }; struct pci_dynids { spinlock_t lock ; struct list_head list ; }; typedef unsigned int pci_ers_result_t; struct pci_error_handlers { pci_ers_result_t (*error_detected)(struct pci_dev * , enum pci_channel_state ) ; pci_ers_result_t (*mmio_enabled)(struct pci_dev * ) ; pci_ers_result_t (*link_reset)(struct pci_dev * ) ; pci_ers_result_t (*slot_reset)(struct pci_dev * ) ; void (*reset_notify)(struct pci_dev * , bool ) ; void (*resume)(struct pci_dev * ) ; }; struct pci_driver { struct list_head node ; char const *name ; struct pci_device_id const *id_table ; int (*probe)(struct pci_dev * , struct pci_device_id const * ) ; void (*remove)(struct pci_dev * ) ; int (*suspend)(struct pci_dev * , pm_message_t ) ; int (*suspend_late)(struct pci_dev * , pm_message_t ) ; int (*resume_early)(struct pci_dev * ) ; int (*resume)(struct pci_dev * ) ; void (*shutdown)(struct pci_dev * ) ; int (*sriov_configure)(struct pci_dev * , int ) ; struct pci_error_handlers const *err_handler ; struct device_driver driver ; struct pci_dynids dynids ; }; struct page_counter { atomic_long_t count ; unsigned long limit ; struct page_counter *parent ; unsigned long watermark ; unsigned long failcnt ; }; struct sock_filter { __u16 code ; __u8 jt ; __u8 jf ; __u32 k ; }; struct bpf_insn { __u8 code ; unsigned char dst_reg : 4 ; unsigned char src_reg : 4 ; __s16 off ; __s32 imm ; }; enum bpf_prog_type { BPF_PROG_TYPE_UNSPEC = 0, BPF_PROG_TYPE_SOCKET_FILTER = 1, BPF_PROG_TYPE_KPROBE = 2, BPF_PROG_TYPE_SCHED_CLS = 3, BPF_PROG_TYPE_SCHED_ACT = 4 } ; struct bpf_prog_aux; struct sock_fprog_kern { u16 len ; struct sock_filter *filter ; }; union __anonunion____missing_field_name_329 { struct sock_filter insns[0U] ; struct bpf_insn insnsi[0U] ; }; struct bpf_prog { u16 pages ; bool jited ; bool gpl_compatible ; u32 len ; enum bpf_prog_type type ; struct bpf_prog_aux *aux ; struct sock_fprog_kern *orig_prog ; unsigned int (*bpf_func)(struct sk_buff const * , struct bpf_insn const * ) ; union __anonunion____missing_field_name_329 __annonCompField100 ; }; struct sk_filter { atomic_t refcnt ; struct callback_head rcu ; struct bpf_prog *prog ; }; struct pollfd { int fd ; short events ; short revents ; }; struct poll_table_struct { void (*_qproc)(struct file * , wait_queue_head_t * , struct poll_table_struct * ) ; unsigned long _key ; }; struct nla_policy { u16 type ; u16 len ; }; struct rtnl_link_ops { struct list_head list ; char const *kind ; size_t priv_size ; void (*setup)(struct net_device * ) ; int maxtype ; struct nla_policy const *policy ; int (*validate)(struct nlattr ** , struct nlattr ** ) ; int (*newlink)(struct net * , struct net_device * , struct nlattr ** , struct nlattr ** ) ; int (*changelink)(struct net_device * , struct nlattr ** , struct nlattr ** ) ; void (*dellink)(struct net_device * , struct list_head * ) ; size_t (*get_size)(struct net_device const * ) ; int (*fill_info)(struct sk_buff * , struct net_device const * ) ; size_t (*get_xstats_size)(struct net_device const * ) ; int (*fill_xstats)(struct sk_buff * , struct net_device const * ) ; unsigned int (*get_num_tx_queues)(void) ; unsigned int (*get_num_rx_queues)(void) ; int slave_maxtype ; struct nla_policy const *slave_policy ; int (*slave_validate)(struct nlattr ** , struct nlattr ** ) ; int (*slave_changelink)(struct net_device * , struct net_device * , struct nlattr ** , struct nlattr ** ) ; size_t (*get_slave_size)(struct net_device const * , struct net_device const * ) ; int (*fill_slave_info)(struct sk_buff * , struct net_device const * , struct net_device const * ) ; struct net *(*get_link_net)(struct net_device const * ) ; }; struct neigh_table; struct neigh_parms { possible_net_t net ; struct net_device *dev ; struct list_head list ; int (*neigh_setup)(struct neighbour * ) ; void (*neigh_cleanup)(struct neighbour * ) ; struct neigh_table *tbl ; void *sysctl_table ; int dead ; atomic_t refcnt ; struct callback_head callback_head ; int reachable_time ; int data[13U] ; unsigned long data_state[1U] ; }; struct neigh_statistics { unsigned long allocs ; unsigned long destroys ; unsigned long hash_grows ; unsigned long res_failed ; unsigned long lookups ; unsigned long hits ; unsigned long rcv_probes_mcast ; unsigned long rcv_probes_ucast ; unsigned long periodic_gc_runs ; unsigned long forced_gc_runs ; unsigned long unres_discards ; }; struct neigh_ops; struct neighbour { struct neighbour *next ; struct neigh_table *tbl ; struct neigh_parms *parms ; unsigned long confirmed ; unsigned long updated ; rwlock_t lock ; atomic_t refcnt ; struct sk_buff_head arp_queue ; unsigned int arp_queue_len_bytes ; struct timer_list timer ; unsigned long used ; atomic_t probes ; __u8 flags ; __u8 nud_state ; __u8 type ; __u8 dead ; seqlock_t ha_lock ; unsigned char ha[32U] ; struct hh_cache hh ; int (*output)(struct neighbour * , struct sk_buff * ) ; struct neigh_ops const *ops ; struct callback_head rcu ; struct net_device *dev ; u8 primary_key[0U] ; }; struct neigh_ops { int family ; void (*solicit)(struct neighbour * , struct sk_buff * ) ; void (*error_report)(struct neighbour * , struct sk_buff * ) ; int (*output)(struct neighbour * , struct sk_buff * ) ; int (*connected_output)(struct neighbour * , struct sk_buff * ) ; }; struct pneigh_entry { struct pneigh_entry *next ; possible_net_t net ; struct net_device *dev ; u8 flags ; u8 key[0U] ; }; struct neigh_hash_table { struct neighbour **hash_buckets ; unsigned int hash_shift ; __u32 hash_rnd[4U] ; struct callback_head rcu ; }; struct neigh_table { int family ; int entry_size ; int key_len ; __be16 protocol ; __u32 (*hash)(void const * , struct net_device const * , __u32 * ) ; bool (*key_eq)(struct neighbour const * , void const * ) ; int (*constructor)(struct neighbour * ) ; int (*pconstructor)(struct pneigh_entry * ) ; void (*pdestructor)(struct pneigh_entry * ) ; void (*proxy_redo)(struct sk_buff * ) ; char *id ; struct neigh_parms parms ; struct list_head parms_list ; int gc_interval ; int gc_thresh1 ; int gc_thresh2 ; int gc_thresh3 ; unsigned long last_flush ; struct delayed_work gc_work ; struct timer_list proxy_timer ; struct sk_buff_head proxy_queue ; atomic_t entries ; rwlock_t lock ; unsigned long last_rand ; struct neigh_statistics *stats ; struct neigh_hash_table *nht ; struct pneigh_entry **phash_buckets ; }; struct dn_route; union __anonunion____missing_field_name_340 { struct dst_entry *next ; struct rtable *rt_next ; struct rt6_info *rt6_next ; struct dn_route *dn_next ; }; struct dst_entry { struct callback_head callback_head ; struct dst_entry *child ; struct net_device *dev ; struct dst_ops *ops ; unsigned long _metrics ; unsigned long expires ; struct dst_entry *path ; struct dst_entry *from ; struct xfrm_state *xfrm ; int (*input)(struct sk_buff * ) ; int (*output)(struct sock * , struct sk_buff * ) ; unsigned short flags ; unsigned short pending_confirm ; short error ; short obsolete ; unsigned short header_len ; unsigned short trailer_len ; __u32 tclassid ; long __pad_to_align_refcnt[2U] ; atomic_t __refcnt ; int __use ; unsigned long lastuse ; union __anonunion____missing_field_name_340 __annonCompField101 ; }; struct __anonstruct_socket_lock_t_341 { spinlock_t slock ; int owned ; wait_queue_head_t wq ; struct lockdep_map dep_map ; }; typedef struct __anonstruct_socket_lock_t_341 socket_lock_t; struct proto; typedef __u32 __portpair; typedef __u64 __addrpair; struct __anonstruct____missing_field_name_343 { __be32 skc_daddr ; __be32 skc_rcv_saddr ; }; union __anonunion____missing_field_name_342 { __addrpair skc_addrpair ; struct __anonstruct____missing_field_name_343 __annonCompField102 ; }; union __anonunion____missing_field_name_344 { unsigned int skc_hash ; __u16 skc_u16hashes[2U] ; }; struct __anonstruct____missing_field_name_346 { __be16 skc_dport ; __u16 skc_num ; }; union __anonunion____missing_field_name_345 { __portpair skc_portpair ; struct __anonstruct____missing_field_name_346 __annonCompField105 ; }; union __anonunion____missing_field_name_347 { struct hlist_node skc_bind_node ; struct hlist_nulls_node skc_portaddr_node ; }; union __anonunion____missing_field_name_348 { struct hlist_node skc_node ; struct hlist_nulls_node skc_nulls_node ; }; struct sock_common { union __anonunion____missing_field_name_342 __annonCompField103 ; union __anonunion____missing_field_name_344 __annonCompField104 ; union __anonunion____missing_field_name_345 __annonCompField106 ; unsigned short skc_family ; unsigned char volatile skc_state ; unsigned char skc_reuse : 4 ; unsigned char skc_reuseport : 1 ; unsigned char skc_ipv6only : 1 ; unsigned char skc_net_refcnt : 1 ; int skc_bound_dev_if ; union __anonunion____missing_field_name_347 __annonCompField107 ; struct proto *skc_prot ; possible_net_t skc_net ; struct in6_addr skc_v6_daddr ; struct in6_addr skc_v6_rcv_saddr ; atomic64_t skc_cookie ; int skc_dontcopy_begin[0U] ; union __anonunion____missing_field_name_348 __annonCompField108 ; int skc_tx_queue_mapping ; atomic_t skc_refcnt ; int skc_dontcopy_end[0U] ; }; struct cg_proto; struct __anonstruct_sk_backlog_349 { atomic_t rmem_alloc ; int len ; struct sk_buff *head ; struct sk_buff *tail ; }; struct sock { struct sock_common __sk_common ; socket_lock_t sk_lock ; struct sk_buff_head sk_receive_queue ; struct __anonstruct_sk_backlog_349 sk_backlog ; int sk_forward_alloc ; __u32 sk_rxhash ; u16 sk_incoming_cpu ; __u32 sk_txhash ; unsigned int sk_napi_id ; unsigned int sk_ll_usec ; atomic_t sk_drops ; int sk_rcvbuf ; struct sk_filter *sk_filter ; struct socket_wq *sk_wq ; struct xfrm_policy *sk_policy[2U] ; unsigned long sk_flags ; struct dst_entry *sk_rx_dst ; struct dst_entry *sk_dst_cache ; spinlock_t sk_dst_lock ; atomic_t sk_wmem_alloc ; atomic_t sk_omem_alloc ; int sk_sndbuf ; struct sk_buff_head sk_write_queue ; unsigned char sk_shutdown : 2 ; unsigned char sk_no_check_tx : 1 ; unsigned char sk_no_check_rx : 1 ; unsigned char sk_userlocks : 4 ; unsigned char sk_protocol ; unsigned short sk_type ; int sk_wmem_queued ; gfp_t sk_allocation ; u32 sk_pacing_rate ; u32 sk_max_pacing_rate ; netdev_features_t sk_route_caps ; netdev_features_t sk_route_nocaps ; int sk_gso_type ; unsigned int sk_gso_max_size ; u16 sk_gso_max_segs ; int sk_rcvlowat ; unsigned long sk_lingertime ; struct sk_buff_head sk_error_queue ; struct proto *sk_prot_creator ; rwlock_t sk_callback_lock ; int sk_err ; int sk_err_soft ; u32 sk_ack_backlog ; u32 sk_max_ack_backlog ; __u32 sk_priority ; __u32 sk_cgrp_prioidx ; struct pid *sk_peer_pid ; struct cred const *sk_peer_cred ; long sk_rcvtimeo ; long sk_sndtimeo ; struct timer_list sk_timer ; ktime_t sk_stamp ; u16 sk_tsflags ; u32 sk_tskey ; struct socket *sk_socket ; void *sk_user_data ; struct page_frag sk_frag ; struct sk_buff *sk_send_head ; __s32 sk_peek_off ; int sk_write_pending ; void *sk_security ; __u32 sk_mark ; u32 sk_classid ; struct cg_proto *sk_cgrp ; void (*sk_state_change)(struct sock * ) ; void (*sk_data_ready)(struct sock * ) ; void (*sk_write_space)(struct sock * ) ; void (*sk_error_report)(struct sock * ) ; int (*sk_backlog_rcv)(struct sock * , struct sk_buff * ) ; void (*sk_destruct)(struct sock * ) ; }; struct request_sock_ops; struct timewait_sock_ops; struct inet_hashinfo; struct raw_hashinfo; struct udp_table; union __anonunion_h_352 { struct inet_hashinfo *hashinfo ; struct udp_table *udp_table ; struct raw_hashinfo *raw_hash ; }; struct proto { void (*close)(struct sock * , long ) ; int (*connect)(struct sock * , struct sockaddr * , int ) ; int (*disconnect)(struct sock * , int ) ; struct sock *(*accept)(struct sock * , int , int * ) ; int (*ioctl)(struct sock * , int , unsigned long ) ; int (*init)(struct sock * ) ; void (*destroy)(struct sock * ) ; void (*shutdown)(struct sock * , int ) ; int (*setsockopt)(struct sock * , int , int , char * , unsigned int ) ; int (*getsockopt)(struct sock * , int , int , char * , int * ) ; int (*compat_setsockopt)(struct sock * , int , int , char * , unsigned int ) ; int (*compat_getsockopt)(struct sock * , int , int , char * , int * ) ; int (*compat_ioctl)(struct sock * , unsigned int , unsigned long ) ; int (*sendmsg)(struct sock * , struct msghdr * , size_t ) ; int (*recvmsg)(struct sock * , struct msghdr * , size_t , int , int , int * ) ; int (*sendpage)(struct sock * , struct page * , int , size_t , int ) ; int (*bind)(struct sock * , struct sockaddr * , int ) ; int (*backlog_rcv)(struct sock * , struct sk_buff * ) ; void (*release_cb)(struct sock * ) ; void (*hash)(struct sock * ) ; void (*unhash)(struct sock * ) ; void (*rehash)(struct sock * ) ; int (*get_port)(struct sock * , unsigned short ) ; void (*clear_sk)(struct sock * , int ) ; unsigned int inuse_idx ; bool (*stream_memory_free)(struct sock const * ) ; void (*enter_memory_pressure)(struct sock * ) ; atomic_long_t *memory_allocated ; struct percpu_counter *sockets_allocated ; int *memory_pressure ; long *sysctl_mem ; int *sysctl_wmem ; int *sysctl_rmem ; int max_header ; bool no_autobind ; struct kmem_cache *slab ; unsigned int obj_size ; int slab_flags ; struct percpu_counter *orphan_count ; struct request_sock_ops *rsk_prot ; struct timewait_sock_ops *twsk_prot ; union __anonunion_h_352 h ; struct module *owner ; char name[32U] ; struct list_head node ; int (*init_cgroup)(struct mem_cgroup * , struct cgroup_subsys * ) ; void (*destroy_cgroup)(struct mem_cgroup * ) ; struct cg_proto *(*proto_cgroup)(struct mem_cgroup * ) ; }; struct cg_proto { struct page_counter memory_allocated ; struct percpu_counter sockets_allocated ; int memory_pressure ; long sysctl_mem[3U] ; unsigned long flags ; struct mem_cgroup *memcg ; }; struct request_sock_ops { int family ; int obj_size ; struct kmem_cache *slab ; char *slab_name ; int (*rtx_syn_ack)(struct sock * , struct request_sock * ) ; void (*send_ack)(struct sock * , struct sk_buff * , struct request_sock * ) ; void (*send_reset)(struct sock * , struct sk_buff * ) ; void (*destructor)(struct request_sock * ) ; void (*syn_ack_timeout)(struct request_sock const * ) ; }; struct request_sock { struct sock_common __req_common ; struct request_sock *dl_next ; struct sock *rsk_listener ; u16 mss ; u8 num_retrans ; unsigned char cookie_ts : 1 ; unsigned char num_timeout : 7 ; u32 window_clamp ; u32 rcv_wnd ; u32 ts_recent ; struct timer_list rsk_timer ; struct request_sock_ops const *rsk_ops ; struct sock *sk ; u32 *saved_syn ; u32 secid ; u32 peer_secid ; }; struct timewait_sock_ops { struct kmem_cache *twsk_slab ; char *twsk_slab_name ; unsigned int twsk_obj_size ; int (*twsk_unique)(struct sock * , struct sock * , void * ) ; void (*twsk_destructor)(struct sock * ) ; }; struct firmware { size_t size ; u8 const *data ; struct page **pages ; void *priv ; }; struct pm_qos_request { struct plist_node node ; int pm_qos_class ; struct delayed_work work ; }; struct pm_qos_flags_request { struct list_head node ; s32 flags ; }; enum dev_pm_qos_req_type { DEV_PM_QOS_RESUME_LATENCY = 1, DEV_PM_QOS_LATENCY_TOLERANCE = 2, DEV_PM_QOS_FLAGS = 3 } ; union __anonunion_data_377 { struct plist_node pnode ; struct pm_qos_flags_request flr ; }; struct dev_pm_qos_request { enum dev_pm_qos_req_type type ; union __anonunion_data_377 data ; struct device *dev ; }; enum pm_qos_type { PM_QOS_UNITIALIZED = 0, PM_QOS_MAX = 1, PM_QOS_MIN = 2, PM_QOS_SUM = 3 } ; struct pm_qos_constraints { struct plist_head list ; s32 target_value ; s32 default_value ; s32 no_constraint_value ; enum pm_qos_type type ; struct blocking_notifier_head *notifiers ; }; struct pm_qos_flags { struct list_head list ; s32 effective_flags ; }; struct dev_pm_qos { struct pm_qos_constraints resume_latency ; struct pm_qos_constraints latency_tolerance ; struct pm_qos_flags flags ; struct dev_pm_qos_request *resume_latency_req ; struct dev_pm_qos_request *latency_tolerance_req ; struct dev_pm_qos_request *flags_req ; }; struct ieee80211_mcs_info { u8 rx_mask[10U] ; __le16 rx_highest ; u8 tx_params ; u8 reserved[3U] ; }; struct ieee80211_ht_cap { __le16 cap_info ; u8 ampdu_params_info ; struct ieee80211_mcs_info mcs ; __le16 extended_ht_cap_info ; __le32 tx_BF_cap_info ; u8 antenna_selection_info ; }; struct ieee80211_vht_mcs_info { __le16 rx_mcs_map ; __le16 rx_highest ; __le16 tx_mcs_map ; __le16 tx_highest ; }; struct ieee80211_vht_cap { __le32 vht_cap_info ; struct ieee80211_vht_mcs_info supp_mcs ; }; struct lib80211_crypto_ops { char const *name ; struct list_head list ; void *(*init)(int ) ; void (*deinit)(void * ) ; int (*encrypt_mpdu)(struct sk_buff * , int , void * ) ; int (*decrypt_mpdu)(struct sk_buff * , int , void * ) ; int (*encrypt_msdu)(struct sk_buff * , int , void * ) ; int (*decrypt_msdu)(struct sk_buff * , int , int , void * ) ; int (*set_key)(void * , int , u8 * , void * ) ; int (*get_key)(void * , int , u8 * , void * ) ; void (*print_stats)(struct seq_file * , void * ) ; unsigned long (*get_flags)(void * ) ; unsigned long (*set_flags)(unsigned long , void * ) ; int extra_mpdu_prefix_len ; int extra_mpdu_postfix_len ; int extra_msdu_prefix_len ; int extra_msdu_postfix_len ; struct module *owner ; }; struct lib80211_crypt_data { struct list_head list ; struct lib80211_crypto_ops *ops ; void *priv ; atomic_t refcnt ; }; struct lib80211_crypt_info { char *name ; spinlock_t *lock ; struct lib80211_crypt_data *crypt[4U] ; int tx_keyidx ; struct list_head crypt_deinit_list ; struct timer_list crypt_deinit_timer ; int crypt_quiesced ; }; struct iw_param { __s32 value ; __u8 fixed ; __u8 disabled ; __u16 flags ; }; struct iw_point { void *pointer ; __u16 length ; __u16 flags ; }; struct iw_freq { __s32 m ; __s16 e ; __u8 i ; __u8 flags ; }; struct iw_quality { __u8 qual ; __u8 level ; __u8 noise ; __u8 updated ; }; struct iw_discarded { __u32 nwid ; __u32 code ; __u32 fragment ; __u32 retries ; __u32 misc ; }; struct iw_missed { __u32 beacon ; }; struct iw_mlme { __u16 cmd ; __u16 reason_code ; struct sockaddr addr ; }; struct iw_statistics { __u16 status ; struct iw_quality qual ; struct iw_discarded discard ; struct iw_missed miss ; }; union iwreq_data { char name[16U] ; struct iw_point essid ; struct iw_param nwid ; struct iw_freq freq ; struct iw_param sens ; struct iw_param bitrate ; struct iw_param txpower ; struct iw_param rts ; struct iw_param frag ; __u32 mode ; struct iw_param retry ; struct iw_point encoding ; struct iw_param power ; struct iw_quality qual ; struct sockaddr ap_addr ; struct sockaddr addr ; struct iw_param param ; struct iw_point data ; }; struct iw_range { __u32 throughput ; __u32 min_nwid ; __u32 max_nwid ; __u16 old_num_channels ; __u8 old_num_frequency ; __u8 scan_capa ; __u32 event_capa[6U] ; __s32 sensitivity ; struct iw_quality max_qual ; struct iw_quality avg_qual ; __u8 num_bitrates ; __s32 bitrate[32U] ; __s32 min_rts ; __s32 max_rts ; __s32 min_frag ; __s32 max_frag ; __s32 min_pmp ; __s32 max_pmp ; __s32 min_pmt ; __s32 max_pmt ; __u16 pmp_flags ; __u16 pmt_flags ; __u16 pm_capa ; __u16 encoding_size[8U] ; __u8 num_encoding_sizes ; __u8 max_encoding_tokens ; __u8 encoding_login_index ; __u16 txpower_capa ; __u8 num_txpower ; __s32 txpower[8U] ; __u8 we_version_compiled ; __u8 we_version_source ; __u16 retry_capa ; __u16 retry_flags ; __u16 r_time_flags ; __s32 min_retry ; __s32 max_retry ; __s32 min_r_time ; __s32 max_r_time ; __u16 num_channels ; __u8 num_frequency ; struct iw_freq freq[32U] ; __u32 enc_capa ; }; struct iw_priv_args { __u32 cmd ; __u16 set_args ; __u16 get_args ; char name[16U] ; }; struct iw_request_info { __u16 cmd ; __u16 flags ; }; typedef int (*iw_handler)(struct net_device * , struct iw_request_info * , union iwreq_data * , char * ); struct iw_handler_def { iw_handler (* const *standard)(struct net_device * , struct iw_request_info * , union iwreq_data * , char * ) ; __u16 num_standard ; __u16 num_private ; __u16 num_private_args ; iw_handler (* const *private)(struct net_device * , struct iw_request_info * , union iwreq_data * , char * ) ; struct iw_priv_args const *private_args ; struct iw_statistics *(*get_wireless_stats)(struct net_device * ) ; }; struct iw_spy_data { int spy_number ; u_char spy_address[8U][6U] ; struct iw_quality spy_stat[8U] ; struct iw_quality spy_thr_low ; struct iw_quality spy_thr_high ; u_char spy_thr_under[8U] ; }; struct libipw_device; struct iw_public_data { struct iw_spy_data *spy_data ; struct libipw_device *libipw ; }; struct ieee80211_radiotap_header { u8 it_version ; u8 it_pad ; __le16 it_len ; __le32 it_present ; }; enum nl80211_iftype { NL80211_IFTYPE_UNSPECIFIED = 0, NL80211_IFTYPE_ADHOC = 1, NL80211_IFTYPE_STATION = 2, NL80211_IFTYPE_AP = 3, NL80211_IFTYPE_AP_VLAN = 4, NL80211_IFTYPE_WDS = 5, NL80211_IFTYPE_MONITOR = 6, NL80211_IFTYPE_MESH_POINT = 7, NL80211_IFTYPE_P2P_CLIENT = 8, NL80211_IFTYPE_P2P_GO = 9, NL80211_IFTYPE_P2P_DEVICE = 10, NL80211_IFTYPE_OCB = 11, NUM_NL80211_IFTYPES = 12, NL80211_IFTYPE_MAX = 11 } ; enum nl80211_reg_initiator { NL80211_REGDOM_SET_BY_CORE = 0, NL80211_REGDOM_SET_BY_USER = 1, NL80211_REGDOM_SET_BY_DRIVER = 2, NL80211_REGDOM_SET_BY_COUNTRY_IE = 3 } ; enum nl80211_dfs_regions { NL80211_DFS_UNSET = 0, NL80211_DFS_FCC = 1, NL80211_DFS_ETSI = 2, NL80211_DFS_JP = 3 } ; enum nl80211_user_reg_hint_type { NL80211_USER_REG_HINT_USER = 0, NL80211_USER_REG_HINT_CELL_BASE = 1, NL80211_USER_REG_HINT_INDOOR = 2 } ; enum nl80211_chan_width { NL80211_CHAN_WIDTH_20_NOHT = 0, NL80211_CHAN_WIDTH_20 = 1, NL80211_CHAN_WIDTH_40 = 2, NL80211_CHAN_WIDTH_80 = 3, NL80211_CHAN_WIDTH_80P80 = 4, NL80211_CHAN_WIDTH_160 = 5, NL80211_CHAN_WIDTH_5 = 6, NL80211_CHAN_WIDTH_10 = 7 } ; enum nl80211_bss_scan_width { NL80211_BSS_CHAN_WIDTH_20 = 0, NL80211_BSS_CHAN_WIDTH_10 = 1, NL80211_BSS_CHAN_WIDTH_5 = 2 } ; enum nl80211_auth_type { NL80211_AUTHTYPE_OPEN_SYSTEM = 0, NL80211_AUTHTYPE_SHARED_KEY = 1, NL80211_AUTHTYPE_FT = 2, NL80211_AUTHTYPE_NETWORK_EAP = 3, NL80211_AUTHTYPE_SAE = 4, __NL80211_AUTHTYPE_NUM = 5, NL80211_AUTHTYPE_MAX = 4, NL80211_AUTHTYPE_AUTOMATIC = 5 } ; enum nl80211_mfp { NL80211_MFP_NO = 0, NL80211_MFP_REQUIRED = 1 } ; struct nl80211_wowlan_tcp_data_seq { __u32 start ; __u32 offset ; __u32 len ; }; struct nl80211_wowlan_tcp_data_token { __u32 offset ; __u32 len ; __u8 token_stream[] ; }; struct nl80211_wowlan_tcp_data_token_feature { __u32 min_len ; __u32 max_len ; __u32 bufsize ; }; enum nl80211_dfs_state { NL80211_DFS_USABLE = 0, NL80211_DFS_UNAVAILABLE = 1, NL80211_DFS_AVAILABLE = 2 } ; struct nl80211_vendor_cmd_info { __u32 vendor_id ; __u32 subcmd ; }; enum environment_cap { ENVIRON_ANY = 0, ENVIRON_INDOOR = 1, ENVIRON_OUTDOOR = 2 } ; struct regulatory_request { struct callback_head callback_head ; int wiphy_idx ; enum nl80211_reg_initiator initiator ; enum nl80211_user_reg_hint_type user_reg_hint_type ; char alpha2[2U] ; enum nl80211_dfs_regions dfs_region ; bool intersect ; bool processed ; enum environment_cap country_ie_env ; struct list_head list ; }; struct ieee80211_freq_range { u32 start_freq_khz ; u32 end_freq_khz ; u32 max_bandwidth_khz ; }; struct ieee80211_power_rule { u32 max_antenna_gain ; u32 max_eirp ; }; struct ieee80211_reg_rule { struct ieee80211_freq_range freq_range ; struct ieee80211_power_rule power_rule ; u32 flags ; u32 dfs_cac_ms ; }; struct ieee80211_regdomain { struct callback_head callback_head ; u32 n_reg_rules ; char alpha2[3U] ; enum nl80211_dfs_regions dfs_region ; struct ieee80211_reg_rule reg_rules[] ; }; struct wiphy; enum ieee80211_band { IEEE80211_BAND_2GHZ = 0, IEEE80211_BAND_5GHZ = 1, IEEE80211_BAND_60GHZ = 2, IEEE80211_NUM_BANDS = 3 } ; struct ieee80211_channel { enum ieee80211_band band ; u16 center_freq ; u16 hw_value ; u32 flags ; int max_antenna_gain ; int max_power ; int max_reg_power ; bool beacon_found ; u32 orig_flags ; int orig_mag ; int orig_mpwr ; enum nl80211_dfs_state dfs_state ; unsigned long dfs_state_entered ; unsigned int dfs_cac_ms ; }; struct ieee80211_rate { u32 flags ; u16 bitrate ; u16 hw_value ; u16 hw_value_short ; }; struct ieee80211_sta_ht_cap { u16 cap ; bool ht_supported ; u8 ampdu_factor ; u8 ampdu_density ; struct ieee80211_mcs_info mcs ; }; struct ieee80211_sta_vht_cap { bool vht_supported ; u32 cap ; struct ieee80211_vht_mcs_info vht_mcs ; }; struct ieee80211_supported_band { struct ieee80211_channel *channels ; struct ieee80211_rate *bitrates ; enum ieee80211_band band ; int n_channels ; int n_bitrates ; struct ieee80211_sta_ht_cap ht_cap ; struct ieee80211_sta_vht_cap vht_cap ; }; struct cfg80211_chan_def { struct ieee80211_channel *chan ; enum nl80211_chan_width width ; u32 center_freq1 ; u32 center_freq2 ; }; struct cfg80211_crypto_settings { u32 wpa_versions ; u32 cipher_group ; int n_ciphers_pairwise ; u32 ciphers_pairwise[5U] ; int n_akm_suites ; u32 akm_suites[2U] ; bool control_port ; __be16 control_port_ethertype ; bool control_port_no_encrypt ; }; struct mac_address { u8 addr[6U] ; }; struct cfg80211_ssid { u8 ssid[32U] ; u8 ssid_len ; }; struct cfg80211_match_set { struct cfg80211_ssid ssid ; s32 rssi_thold ; }; struct cfg80211_sched_scan_request { struct cfg80211_ssid *ssids ; int n_ssids ; u32 n_channels ; enum nl80211_bss_scan_width scan_width ; u32 interval ; u8 const *ie ; size_t ie_len ; u32 flags ; struct cfg80211_match_set *match_sets ; int n_match_sets ; s32 min_rssi_thold ; u32 delay ; u8 mac_addr[6U] ; u8 mac_addr_mask[6U] ; struct wiphy *wiphy ; struct net_device *dev ; unsigned long scan_start ; struct callback_head callback_head ; u32 owner_nlportid ; struct ieee80211_channel *channels[0U] ; }; enum cfg80211_signal_type { CFG80211_SIGNAL_TYPE_NONE = 0, CFG80211_SIGNAL_TYPE_MBM = 1, CFG80211_SIGNAL_TYPE_UNSPEC = 2 } ; struct cfg80211_ibss_params { u8 const *ssid ; u8 const *bssid ; struct cfg80211_chan_def chandef ; u8 const *ie ; u8 ssid_len ; u8 ie_len ; u16 beacon_interval ; u32 basic_rates ; bool channel_fixed ; bool privacy ; bool control_port ; bool userspace_handles_dfs ; int mcast_rate[3U] ; struct ieee80211_ht_cap ht_capa ; struct ieee80211_ht_cap ht_capa_mask ; }; struct cfg80211_connect_params { struct ieee80211_channel *channel ; struct ieee80211_channel *channel_hint ; u8 const *bssid ; u8 const *bssid_hint ; u8 const *ssid ; size_t ssid_len ; enum nl80211_auth_type auth_type ; u8 const *ie ; size_t ie_len ; bool privacy ; enum nl80211_mfp mfp ; struct cfg80211_crypto_settings crypto ; u8 const *key ; u8 key_len ; u8 key_idx ; u32 flags ; int bg_scan_period ; struct ieee80211_ht_cap ht_capa ; struct ieee80211_ht_cap ht_capa_mask ; struct ieee80211_vht_cap vht_capa ; struct ieee80211_vht_cap vht_capa_mask ; }; struct cfg80211_pkt_pattern { u8 const *mask ; u8 const *pattern ; int pattern_len ; int pkt_offset ; }; struct cfg80211_wowlan_tcp { struct socket *sock ; __be32 src ; __be32 dst ; u16 src_port ; u16 dst_port ; u8 dst_mac[6U] ; int payload_len ; u8 const *payload ; struct nl80211_wowlan_tcp_data_seq payload_seq ; u32 data_interval ; u32 wake_len ; u8 const *wake_data ; u8 const *wake_mask ; u32 tokens_size ; struct nl80211_wowlan_tcp_data_token payload_tok ; }; struct cfg80211_wowlan { bool any ; bool disconnect ; bool magic_pkt ; bool gtk_rekey_failure ; bool eap_identity_req ; bool four_way_handshake ; bool rfkill_release ; struct cfg80211_pkt_pattern *patterns ; struct cfg80211_wowlan_tcp *tcp ; int n_patterns ; struct cfg80211_sched_scan_request *nd_config ; }; struct ieee80211_iface_limit { u16 max ; u16 types ; }; struct ieee80211_iface_combination { struct ieee80211_iface_limit const *limits ; u32 num_different_channels ; u16 max_interfaces ; u8 n_limits ; bool beacon_int_infra_match ; u8 radar_detect_widths ; u8 radar_detect_regions ; }; struct ieee80211_txrx_stypes { u16 tx ; u16 rx ; }; struct wiphy_wowlan_tcp_support { struct nl80211_wowlan_tcp_data_token_feature const *tok ; u32 data_payload_max ; u32 data_interval_max ; u32 wake_payload_max ; bool seq ; }; struct wiphy_wowlan_support { u32 flags ; int n_patterns ; int pattern_max_len ; int pattern_min_len ; int max_pkt_offset ; int max_nd_match_sets ; struct wiphy_wowlan_tcp_support const *tcp ; }; struct wiphy_coalesce_support { int n_rules ; int max_delay ; int n_patterns ; int pattern_max_len ; int pattern_min_len ; int max_pkt_offset ; }; struct wiphy_vendor_command { struct nl80211_vendor_cmd_info info ; u32 flags ; int (*doit)(struct wiphy * , struct wireless_dev * , void const * , int ) ; }; struct wiphy { u8 perm_addr[6U] ; u8 addr_mask[6U] ; struct mac_address *addresses ; struct ieee80211_txrx_stypes const *mgmt_stypes ; struct ieee80211_iface_combination const *iface_combinations ; int n_iface_combinations ; u16 software_iftypes ; u16 n_addresses ; u16 interface_modes ; u16 max_acl_mac_addrs ; u32 flags ; u32 regulatory_flags ; u32 features ; u8 ext_features[1U] ; u32 ap_sme_capa ; enum cfg80211_signal_type signal_type ; int bss_priv_size ; u8 max_scan_ssids ; u8 max_sched_scan_ssids ; u8 max_match_sets ; u16 max_scan_ie_len ; u16 max_sched_scan_ie_len ; int n_cipher_suites ; u32 const *cipher_suites ; u8 retry_short ; u8 retry_long ; u32 frag_threshold ; u32 rts_threshold ; u8 coverage_class ; char fw_version[32U] ; u32 hw_version ; struct wiphy_wowlan_support const *wowlan ; struct cfg80211_wowlan *wowlan_config ; u16 max_remain_on_channel_duration ; u8 max_num_pmkids ; u32 available_antennas_tx ; u32 available_antennas_rx ; u32 probe_resp_offload ; u8 const *extended_capabilities ; u8 const *extended_capabilities_mask ; u8 extended_capabilities_len ; void const *privid ; struct ieee80211_supported_band *bands[3U] ; void (*reg_notifier)(struct wiphy * , struct regulatory_request * ) ; struct ieee80211_regdomain const *regd ; struct device dev ; bool registered ; struct dentry *debugfsdir ; struct ieee80211_ht_cap const *ht_capa_mod_mask ; struct ieee80211_vht_cap const *vht_capa_mod_mask ; possible_net_t _net ; struct iw_handler_def const *wext ; struct wiphy_coalesce_support const *coalesce ; struct wiphy_vendor_command const *vendor_commands ; struct nl80211_vendor_cmd_info const *vendor_events ; int n_vendor_commands ; int n_vendor_events ; u16 max_ap_assoc_sta ; u8 max_num_csa_counters ; u8 max_adj_channel_rssi_comp ; char priv[0U] ; }; struct cfg80211_conn; struct cfg80211_internal_bss; struct cfg80211_cached_keys; struct __anonstruct_wext_423 { struct cfg80211_ibss_params ibss ; struct cfg80211_connect_params connect ; struct cfg80211_cached_keys *keys ; u8 const *ie ; size_t ie_len ; u8 bssid[6U] ; u8 prev_bssid[6U] ; u8 ssid[32U] ; s8 default_key ; s8 default_mgmt_key ; bool prev_bssid_valid ; }; struct wireless_dev { struct wiphy *wiphy ; enum nl80211_iftype iftype ; struct list_head list ; struct net_device *netdev ; u32 identifier ; struct list_head mgmt_registrations ; spinlock_t mgmt_registrations_lock ; struct mutex mtx ; bool use_4addr ; bool p2p_started ; u8 address[6U] ; u8 ssid[32U] ; u8 ssid_len ; u8 mesh_id_len ; u8 mesh_id_up_len ; struct cfg80211_conn *conn ; struct cfg80211_cached_keys *connect_keys ; struct list_head event_list ; spinlock_t event_lock ; struct cfg80211_internal_bss *current_bss ; struct cfg80211_chan_def preset_chandef ; struct cfg80211_chan_def chandef ; bool ibss_fixed ; bool ibss_dfs_possible ; bool ps ; int ps_timeout ; int beacon_interval ; u32 ap_unexpected_nlportid ; bool cac_started ; unsigned long cac_start_time ; unsigned int cac_time_ms ; u32 owner_nlportid ; struct __anonstruct_wext_423 wext ; }; struct libipw_rx_stats { u32 mac_time ; s8 rssi ; u8 signal ; u8 noise ; u16 rate ; u8 received_channel ; u8 control ; u8 mask ; u8 freq ; u16 len ; u64 tsf ; u32 beacon_time ; }; struct libipw_frag_entry { unsigned long first_frag_time ; unsigned int seq ; unsigned int last_frag ; struct sk_buff *skb ; u8 src_addr[6U] ; u8 dst_addr[6U] ; }; struct libipw_stats { unsigned int tx_unicast_frames ; unsigned int tx_multicast_frames ; unsigned int tx_fragments ; unsigned int tx_unicast_octets ; unsigned int tx_multicast_octets ; unsigned int tx_deferred_transmissions ; unsigned int tx_single_retry_frames ; unsigned int tx_multiple_retry_frames ; unsigned int tx_retry_limit_exceeded ; unsigned int tx_discards ; unsigned int rx_unicast_frames ; unsigned int rx_multicast_frames ; unsigned int rx_fragments ; unsigned int rx_unicast_octets ; unsigned int rx_multicast_octets ; unsigned int rx_fcs_errors ; unsigned int rx_discards_no_buffer ; unsigned int tx_discards_wrong_sa ; unsigned int rx_discards_undecryptable ; unsigned int rx_message_in_msg_fragments ; unsigned int rx_message_in_bad_msg_fragments ; }; struct libipw_security { unsigned char active_key : 2 ; unsigned char enabled : 1 ; unsigned char unicast_uses_group : 1 ; unsigned char encrypt : 1 ; u8 auth_mode ; u8 encode_alg[4U] ; u8 key_sizes[4U] ; u8 keys[4U][32U] ; u8 level ; u16 flags ; }; struct libipw_hdr_3addr { __le16 frame_ctl ; __le16 duration_id ; u8 addr1[6U] ; u8 addr2[6U] ; u8 addr3[6U] ; __le16 seq_ctl ; u8 payload[0U] ; }; struct libipw_hdr_4addr { __le16 frame_ctl ; __le16 duration_id ; u8 addr1[6U] ; u8 addr2[6U] ; u8 addr3[6U] ; __le16 seq_ctl ; u8 addr4[6U] ; u8 payload[0U] ; }; struct libipw_info_element { u8 id ; u8 len ; u8 data[0U] ; }; struct libipw_auth { struct libipw_hdr_3addr header ; __le16 algorithm ; __le16 transaction ; __le16 status ; struct libipw_info_element info_element[0U] ; }; struct libipw_channel_switch { u8 id ; u8 len ; u8 mode ; u8 channel ; u8 count ; }; struct libipw_action_exchange { u8 token ; struct libipw_info_element info_element[0U] ; }; union __anonunion_format_424 { struct libipw_action_exchange exchange ; struct libipw_channel_switch channel_switch ; }; struct libipw_action { struct libipw_hdr_3addr header ; u8 category ; u8 action ; union __anonunion_format_424 format ; }; struct libipw_disassoc { struct libipw_hdr_3addr header ; __le16 reason ; }; struct libipw_probe_request { struct libipw_hdr_3addr header ; struct libipw_info_element info_element[0U] ; }; struct libipw_probe_response { struct libipw_hdr_3addr header ; __le32 time_stamp[2U] ; __le16 beacon_interval ; __le16 capability ; struct libipw_info_element info_element[0U] ; }; struct libipw_reassoc_request { struct libipw_hdr_3addr header ; __le16 capability ; __le16 listen_interval ; u8 current_ap[6U] ; struct libipw_info_element info_element[0U] ; }; struct libipw_assoc_response { struct libipw_hdr_3addr header ; __le16 capability ; __le16 status ; __le16 aid ; struct libipw_info_element info_element[0U] ; }; struct libipw_txb { u8 nr_frags ; u8 encrypted ; u8 rts_included ; u8 reserved ; u16 frag_size ; u16 payload_size ; struct sk_buff *fragments[0U] ; }; struct libipw_qos_parameters { __le16 cw_min[4U] ; __le16 cw_max[4U] ; u8 aifs[4U] ; u8 flag[4U] ; __le16 tx_op_limit[4U] ; }; struct libipw_qos_data { struct libipw_qos_parameters parameters ; int active ; int supported ; u8 param_count ; u8 old_param_count ; }; struct libipw_tim_parameters { u8 tim_count ; u8 tim_period ; }; struct libipw_tpc_report { u8 transmit_power ; u8 link_margin ; }; struct libipw_csa { u8 mode ; u8 channel ; u8 count ; }; struct libipw_quiet { u8 count ; u8 period ; u8 duration ; u8 offset ; }; struct libipw_network { u8 bssid[6U] ; u8 channel ; u8 ssid[33U] ; u8 ssid_len ; struct libipw_qos_data qos_data ; struct libipw_rx_stats stats ; u16 capability ; u8 rates[12U] ; u8 rates_len ; u8 rates_ex[16U] ; u8 rates_ex_len ; unsigned long last_scanned ; u8 mode ; u32 flags ; u32 last_associate ; u32 time_stamp[2U] ; u16 beacon_interval ; u16 listen_interval ; u16 atim_window ; u8 erp_value ; u8 wpa_ie[64U] ; size_t wpa_ie_len ; u8 rsn_ie[64U] ; size_t rsn_ie_len ; struct libipw_tim_parameters tim ; u8 power_constraint ; struct libipw_tpc_report tpc_report ; struct libipw_csa csa ; struct libipw_quiet quiet ; struct list_head list ; }; enum libipw_state { LIBIPW_UNINITIALIZED = 0, LIBIPW_INITIALIZED = 1, LIBIPW_ASSOCIATING = 2, LIBIPW_ASSOCIATED = 3, LIBIPW_AUTHENTICATING = 4, LIBIPW_AUTHENTICATED = 5, LIBIPW_SHUTDOWN = 6 } ; struct libipw_channel { u32 freq ; u8 channel ; u8 flags ; u8 max_power ; }; struct libipw_geo { u8 name[4U] ; u8 bg_channels ; u8 a_channels ; struct libipw_channel bg[14U] ; struct libipw_channel a[132U] ; }; struct libipw_device { struct net_device *dev ; struct wireless_dev wdev ; struct libipw_security sec ; struct libipw_stats ieee_stats ; struct libipw_geo geo ; struct ieee80211_supported_band bg_band ; struct ieee80211_supported_band a_band ; struct list_head network_free_list ; struct list_head network_list ; struct libipw_network *networks[128U] ; int scans ; int scan_age ; int iw_mode ; struct iw_spy_data spy_data ; spinlock_t lock ; int tx_headroom ; u32 config ; int open_wep ; int host_encrypt ; int host_encrypt_msdu ; int host_decrypt ; int host_mc_decrypt ; int host_strip_iv_icv ; int host_open_frag ; int ieee802_1x ; int wpa_enabled ; int drop_unencrypted ; int privacy_invoked ; size_t wpa_ie_len ; u8 *wpa_ie ; struct lib80211_crypt_info crypt_info ; int bcrx_sta_key ; struct libipw_frag_entry frag_cache[4U] ; unsigned int frag_next_idx ; u16 fts ; u16 rts ; u8 bssid[6U] ; enum libipw_state state ; int mode ; int modulation ; int freq_band ; int abg_true ; int perfect_rssi ; int worst_rssi ; u16 prev_seq_ctl ; void (*set_security)(struct net_device * , struct libipw_security * ) ; netdev_tx_t (*hard_start_xmit)(struct libipw_txb * , struct net_device * , int ) ; int (*is_queue_full)(struct net_device * , int ) ; int (*handle_management)(struct net_device * , struct libipw_network * , u16 ) ; int (*is_qos_active)(struct net_device * , struct sk_buff * ) ; int (*handle_auth)(struct net_device * , struct libipw_auth * ) ; int (*handle_deauth)(struct net_device * , struct libipw_disassoc * ) ; int (*handle_action)(struct net_device * , struct libipw_action * , struct libipw_rx_stats * ) ; int (*handle_disassoc)(struct net_device * , struct libipw_disassoc * ) ; int (*handle_beacon)(struct net_device * , struct libipw_probe_response * , struct libipw_network * ) ; int (*handle_probe_response)(struct net_device * , struct libipw_probe_response * , struct libipw_network * ) ; int (*handle_probe_request)(struct net_device * , struct libipw_probe_request * , struct libipw_rx_stats * ) ; int (*handle_assoc_response)(struct net_device * , struct libipw_assoc_response * , struct libipw_network * ) ; int (*handle_assoc_request)(struct net_device * ) ; int (*handle_reassoc_request)(struct net_device * , struct libipw_reassoc_request * ) ; u8 priv[0U] ; }; struct ipw2100_priv; struct ipw2100_tx_packet; struct ipw2100_rx_packet; struct __anonstruct_fields_426 { unsigned char nlf : 1 ; unsigned char txType : 2 ; unsigned char intEnabled : 1 ; unsigned char reserved : 4 ; }; union __anonunion_info_425 { struct __anonstruct_fields_426 fields ; u8 field ; }; struct bd_status { union __anonunion_info_425 info ; }; struct ipw2100_bd { u32 host_addr ; u32 buf_length ; struct bd_status status ; u8 num_fragments ; u8 reserved[6U] ; }; struct ipw2100_bd_queue { struct ipw2100_bd *drv ; dma_addr_t nic ; u32 size ; u32 entries ; u32 available ; u32 oldest ; u32 next ; }; struct ipw2100_status { u32 frame_size ; u16 status_fields ; u8 flags ; u8 rssi ; }; struct ipw2100_status_queue { struct ipw2100_status *drv ; dma_addr_t nic ; u32 size ; }; struct __anonstruct_fixed_ies_427 { u16 capab_info ; u16 listen_interval ; u8 current_ap[6U] ; }; struct ipw2100_wpa_assoc_frame { u16 fixed_ie_mask ; struct __anonstruct_fixed_ies_427 fixed_ies ; u32 var_ie_len ; u8 var_ie[384U] ; }; struct ipw2100_cmd_header { u32 host_command_reg ; u32 host_command_reg1 ; u32 sequence ; u32 host_command_len_reg ; u32 host_command_params_reg[100U] ; u32 cmd_status_reg ; u32 cmd_status_params_reg[3U] ; u32 rxq_base_ptr ; u32 rxq_next_ptr ; u32 rxq_host_ptr ; u32 txq_base_ptr ; u32 txq_next_ptr ; u32 txq_host_ptr ; u32 tx_status_reg ; u32 reserved ; u32 status_change_reg ; u32 reserved1[3U] ; u32 *ordinal1_ptr ; u32 *ordinal2_ptr ; }; struct ipw2100_data_header { u32 host_command_reg ; u32 host_command_reg1 ; u8 encrypted ; u8 needs_encryption ; u8 wep_index ; u8 key_size ; u8 key[16U] ; u8 reserved[10U] ; u8 src_addr[6U] ; u8 dst_addr[6U] ; u16 fragment_size ; }; struct host_command { u32 host_command ; u32 host_command1 ; u32 host_command_sequence ; u32 host_command_length ; u32 host_command_parameters[100U] ; }; struct __anonstruct_c_struct_429 { struct ipw2100_cmd_header *cmd ; dma_addr_t cmd_phys ; }; struct __anonstruct_d_struct_430 { struct ipw2100_data_header *data ; dma_addr_t data_phys ; struct libipw_txb *txb ; }; union __anonunion_info_428 { struct __anonstruct_c_struct_429 c_struct ; struct __anonstruct_d_struct_430 d_struct ; }; struct ipw2100_tx_packet { int type ; int index ; union __anonunion_info_428 info ; int jiffy_start ; struct list_head list ; }; struct ipw2100_rx; struct ipw2100_rx_packet { struct ipw2100_rx *rxp ; dma_addr_t dma_addr ; int jiffy_start ; struct sk_buff *skb ; struct list_head list ; }; struct ipw2100_ordinals { u32 table1_addr ; u32 table2_addr ; u32 table1_size ; u32 table2_size ; }; struct ipw2100_notification { u32 hnhdr_subtype ; u32 hnhdr_size ; }; struct statistic { int value ; int hi ; int lo ; }; struct ipw2100_priv { void *ioaddr ; int stop_hang_check ; int stop_rf_kill ; struct libipw_device *ieee ; unsigned long status ; unsigned long config ; unsigned long capability ; int resets ; int reset_backoff ; u8 essid[32U] ; u8 essid_len ; u8 bssid[6U] ; u8 channel ; int last_mode ; unsigned long connect_start ; unsigned long last_reset ; u32 channel_mask ; u32 fatal_error ; u32 fatal_errors[5U] ; u32 fatal_index ; int eeprom_version ; int firmware_version ; unsigned long hw_features ; int hangs ; u32 last_rtc ; int dump_raw ; u8 *snapshot[48U] ; u8 mandatory_bssid_mac[6U] ; u8 mac_addr[6U] ; int power_mode ; int messages_sent ; int short_retry_limit ; int long_retry_limit ; u32 rts_threshold ; u32 frag_threshold ; int in_isr ; u32 tx_rates ; int tx_power ; u32 beacon_interval ; char nick[33U] ; struct ipw2100_status_queue status_queue ; struct statistic txq_stat ; struct statistic rxq_stat ; struct ipw2100_bd_queue rx_queue ; struct ipw2100_bd_queue tx_queue ; struct ipw2100_rx_packet *rx_buffers ; struct statistic fw_pend_stat ; struct list_head fw_pend_list ; struct statistic msg_free_stat ; struct statistic msg_pend_stat ; struct list_head msg_free_list ; struct list_head msg_pend_list ; struct ipw2100_tx_packet *msg_buffers ; struct statistic tx_free_stat ; struct statistic tx_pend_stat ; struct list_head tx_free_list ; struct list_head tx_pend_list ; struct ipw2100_tx_packet *tx_buffers ; struct ipw2100_ordinals ordinals ; struct pci_dev *pci_dev ; struct proc_dir_entry *dir_dev ; struct net_device *net_dev ; struct iw_statistics wstats ; struct iw_public_data wireless_data ; struct tasklet_struct irq_tasklet ; struct delayed_work reset_work ; struct delayed_work security_work ; struct delayed_work wx_event_work ; struct delayed_work hang_check ; struct delayed_work rf_kill ; struct delayed_work scan_event ; int user_requested_scan ; unsigned long suspend_at ; unsigned long suspend_time ; u32 interrupts ; int tx_interrupts ; int rx_interrupts ; int inta_other ; spinlock_t low_lock ; struct mutex action_mutex ; struct mutex adapter_mutex ; wait_queue_head_t wait_command_queue ; }; union __anonunion_rx_data_431 { unsigned char payload[2340U] ; struct libipw_hdr_4addr header ; u32 status ; struct ipw2100_notification notification ; struct ipw2100_cmd_header command ; }; struct ipw2100_rx { union __anonunion_rx_data_431 rx_data ; }; struct ipw2100_fw_chunk_set { void const *data ; unsigned long size ; }; struct ipw2100_fw { int version ; struct ipw2100_fw_chunk_set fw ; struct ipw2100_fw_chunk_set uc ; struct firmware const *fw_entry ; }; struct ipw2100_status_indicator { int status ; void (*cb)(struct ipw2100_priv * , u32 ) ; char *name ; }; struct ipw_rt_hdr { struct ieee80211_radiotap_header rt_hdr ; s8 rt_dbmsignal ; }; struct __anonstruct_hw_data_436 { u32 addr ; char const *name ; }; struct __anonstruct_nic_data_437 { u32 addr ; char const *name ; size_t size ; }; struct __anonstruct_ord_data_438 { u8 index ; char const *name ; char const *desc ; }; struct security_info_params { u32 allowed_ciphers ; u16 version ; u8 auth_mode ; u8 replay_counters_number ; u8 unicast_using_group ; }; struct ipw2100_wep_key { u8 idx ; u8 len ; u8 key[13U] ; }; struct ipw2100_fw_header { short version ; short mode ; unsigned int fw_size ; unsigned int uc_size ; }; struct symbol_alive_response { u8 cmd_id ; u8 seq_num ; u8 ucode_rev ; u8 eeprom_valid ; u16 valid_flags ; u8 IEEE_addr[6U] ; u16 flags ; u16 pcb_rev ; u16 clock_settle_time ; u16 powerup_settle_time ; u16 hop_settle_time ; u8 date[3U] ; u8 time[2U] ; u8 ucode_valid ; }; typedef bool ldv_func_ret_type; typedef bool ldv_func_ret_type___0; typedef bool ldv_func_ret_type___1; typedef bool ldv_func_ret_type___2; typedef bool ldv_func_ret_type___3; typedef bool ldv_func_ret_type___4; typedef bool ldv_func_ret_type___5; typedef bool ldv_func_ret_type___6; typedef bool ldv_func_ret_type___7; typedef bool ldv_func_ret_type___8; typedef bool ldv_func_ret_type___9; typedef bool ldv_func_ret_type___10; typedef bool ldv_func_ret_type___11; typedef bool ldv_func_ret_type___12; typedef bool ldv_func_ret_type___13; typedef bool ldv_func_ret_type___14; typedef int ldv_func_ret_type___15; typedef int ldv_func_ret_type___16; typedef int ldv_func_ret_type___17; __inline static long ldv__builtin_expect(long exp , long c ) ; extern struct module __this_module ; __inline static void set_bit(long nr , unsigned long volatile *addr ) { { __asm__ volatile (".pushsection .smp_locks,\"a\"\n.balign 4\n.long 671f - .\n.popsection\n671:\n\tlock; bts %1,%0": "+m" (*((long volatile *)addr)): "Ir" (nr): "memory"); return; } } __inline static void clear_bit(long nr , unsigned long volatile *addr ) { { __asm__ volatile (".pushsection .smp_locks,\"a\"\n.balign 4\n.long 671f - .\n.popsection\n671:\n\tlock; btr %1,%0": "+m" (*((long volatile *)addr)): "Ir" (nr)); return; } } __inline static int test_and_set_bit(long nr , unsigned long volatile *addr ) { char c ; { __asm__ volatile (".pushsection .smp_locks,\"a\"\n.balign 4\n.long 671f - .\n.popsection\n671:\n\tlock; bts %2, %0; setc %1": "+m" (*addr), "=qm" (c): "Ir" (nr): "memory"); return ((int )((signed char )c) != 0); } } __inline static int constant_test_bit(long nr , unsigned long const volatile *addr ) { { return ((int )((unsigned long )*(addr + (unsigned long )(nr >> 6)) >> ((int )nr & 63)) & 1); } } extern int printk(char const * , ...) ; extern void __might_sleep(char const * , int , int ) ; extern int kstrtoull(char const * , unsigned int , unsigned long long * ) ; __inline static int kstrtoul(char const *s , unsigned int base , unsigned long *res ) { int tmp ; { tmp = kstrtoull(s, base, (unsigned long long *)res); return (tmp); } } extern int kstrtouint(char const * , unsigned int , unsigned int * ) ; __inline static int kstrtou32(char const *s , unsigned int base , u32 *res ) { int tmp ; { tmp = kstrtouint(s, base, res); return (tmp); } } extern int sprintf(char * , char const * , ...) ; extern int snprintf(char * , size_t , char const * , ...) ; __inline static void INIT_LIST_HEAD(struct list_head *list ) { { list->next = list; list->prev = list; return; } } extern void __list_add(struct list_head * , struct list_head * , struct list_head * ) ; __inline static void list_add_tail(struct list_head *new , struct list_head *head ) { { __list_add(new, head->prev, head); return; } } extern void list_del(struct list_head * ) ; __inline static int list_empty(struct list_head const *head ) { { return ((unsigned long )((struct list_head const *)head->next) == (unsigned long )head); } } extern void __bad_percpu_size(void) ; extern unsigned long __phys_addr(unsigned long ) ; extern void *memcpy(void * , void const * , size_t ) ; extern void *memset(void * , int , size_t ) ; extern void *__memmove(void * , void const * , size_t ) ; extern int memcmp(void const * , void const * , size_t ) ; extern size_t strlen(char const * ) ; extern char *strcpy(char * , char const * ) ; extern size_t strlcpy(char * , char const * , size_t ) ; extern __kernel_size_t strnlen(char const * , __kernel_size_t ) ; extern void *kmemdup(void const * , size_t , gfp_t ) ; extern int __preempt_count ; __inline static int preempt_count(void) { int pfo_ret__ ; { switch (4UL) { case 1UL: __asm__ ("movb %%gs:%1,%0": "=q" (pfo_ret__): "m" (__preempt_count)); goto ldv_6002; case 2UL: __asm__ ("movw %%gs:%1,%0": "=r" (pfo_ret__): "m" (__preempt_count)); goto ldv_6002; case 4UL: __asm__ ("movl %%gs:%1,%0": "=r" (pfo_ret__): "m" (__preempt_count)); goto ldv_6002; case 8UL: __asm__ ("movq %%gs:%1,%0": "=r" (pfo_ret__): "m" (__preempt_count)); goto ldv_6002; default: __bad_percpu_size(); } ldv_6002: ; return (pfo_ret__ & 2147483647); } } extern void lockdep_init_map(struct lockdep_map * , char const * , struct lock_class_key * , int ) ; extern void __raw_spin_lock_init(raw_spinlock_t * , char const * , struct lock_class_key * ) ; extern void _raw_spin_lock(raw_spinlock_t * ) ; extern unsigned long _raw_spin_lock_irqsave(raw_spinlock_t * ) ; extern void _raw_spin_unlock(raw_spinlock_t * ) ; extern void _raw_spin_unlock_irqrestore(raw_spinlock_t * , unsigned long ) ; __inline static raw_spinlock_t *spinlock_check(spinlock_t *lock ) { { return (& lock->__annonCompField18.rlock); } } __inline static void spin_lock(spinlock_t *lock ) { { _raw_spin_lock(& lock->__annonCompField18.rlock); return; } } __inline static void spin_unlock(spinlock_t *lock ) { { _raw_spin_unlock(& lock->__annonCompField18.rlock); return; } } __inline static void spin_unlock_irqrestore(spinlock_t *lock , unsigned long flags ) { { _raw_spin_unlock_irqrestore(& lock->__annonCompField18.rlock, flags); return; } } extern void __init_waitqueue_head(wait_queue_head_t * , char const * , struct lock_class_key * ) ; extern void __wake_up(wait_queue_head_t * , unsigned int , int , void * ) ; extern long prepare_to_wait_event(wait_queue_head_t * , wait_queue_t * , int ) ; extern void finish_wait(wait_queue_head_t * , wait_queue_t * ) ; extern void __mutex_init(struct mutex * , char const * , struct lock_class_key * ) ; extern void mutex_lock_nested(struct mutex * , unsigned int ) ; extern void mutex_unlock(struct mutex * ) ; extern unsigned long volatile jiffies ; extern unsigned long __msecs_to_jiffies(unsigned int const ) ; __inline static unsigned long msecs_to_jiffies(unsigned int const m ) { unsigned long tmp___0 ; { tmp___0 = __msecs_to_jiffies(m); return (tmp___0); } } extern unsigned long get_seconds(void) ; extern void init_timer_key(struct timer_list * , unsigned int , char const * , struct lock_class_key * ) ; extern unsigned long round_jiffies_relative(unsigned long ) ; extern void delayed_work_timer_fn(unsigned long ) ; extern void __init_work(struct work_struct * , int ) ; extern struct workqueue_struct *system_wq ; extern bool queue_work_on(int , struct workqueue_struct * , struct work_struct * ) ; bool ldv_queue_work_on_5(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct work_struct *ldv_func_arg3 ) ; bool ldv_queue_work_on_7(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct work_struct *ldv_func_arg3 ) ; extern bool queue_delayed_work_on(int , struct workqueue_struct * , struct delayed_work * , unsigned long ) ; bool ldv_queue_delayed_work_on_6(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct delayed_work *ldv_func_arg3 , unsigned long ldv_func_arg4 ) ; bool ldv_queue_delayed_work_on_9(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct delayed_work *ldv_func_arg3 , unsigned long ldv_func_arg4 ) ; extern bool mod_delayed_work_on(int , struct workqueue_struct * , struct delayed_work * , unsigned long ) ; extern void flush_workqueue(struct workqueue_struct * ) ; void ldv_flush_workqueue_8(struct workqueue_struct *ldv_func_arg1 ) ; extern bool cancel_delayed_work(struct delayed_work * ) ; bool ldv_cancel_delayed_work_10(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_11(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_12(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_13(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_14(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_15(struct delayed_work *ldv_func_arg1 ) ; extern bool cancel_delayed_work_sync(struct delayed_work * ) ; bool ldv_cancel_delayed_work_sync_16(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_sync_17(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_sync_18(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_sync_19(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_sync_20(struct delayed_work *ldv_func_arg1 ) ; bool ldv_cancel_delayed_work_sync_21(struct delayed_work *ldv_func_arg1 ) ; __inline static bool queue_delayed_work(struct workqueue_struct *wq , struct delayed_work *dwork , unsigned long delay ) { bool tmp ; { tmp = ldv_queue_delayed_work_on_6(8192, wq, dwork, delay); return (tmp); } } __inline static bool mod_delayed_work(struct workqueue_struct *wq , struct delayed_work *dwork , unsigned long delay ) { bool tmp ; { tmp = mod_delayed_work_on(8192, wq, dwork, delay); return (tmp); } } __inline static bool schedule_delayed_work(struct delayed_work *dwork , unsigned long delay ) { bool tmp ; { tmp = queue_delayed_work(system_wq, dwork, delay); return (tmp); } } __inline static unsigned int readl(void const volatile *addr ) { unsigned int ret ; { __asm__ volatile ("movl %1,%0": "=r" (ret): "m" (*((unsigned int volatile *)addr)): "memory"); return (ret); } } extern unsigned int ioread8(void * ) ; extern unsigned int ioread16(void * ) ; extern unsigned int ioread32(void * ) ; extern void iowrite8(u8 , void * ) ; extern void iowrite16(u16 , void * ) ; extern void iowrite32(u32 , void * ) ; extern void pci_iounmap(struct pci_dev * , void * ) ; extern void *pci_iomap(struct pci_dev * , int , unsigned long ) ; extern int sysfs_create_group(struct kobject * , struct attribute_group const * ) ; extern void sysfs_remove_group(struct kobject * , struct attribute_group const * ) ; __inline static char const *kobject_name(struct kobject const *kobj ) { { return ((char const *)kobj->name); } } extern long schedule_timeout(long ) ; extern long schedule_timeout_uninterruptible(long ) ; extern void kfree(void const * ) ; extern void *__kmalloc(size_t , gfp_t ) ; __inline static void *kmalloc(size_t size , gfp_t flags ) { void *tmp___2 ; { tmp___2 = __kmalloc(size, flags); return (tmp___2); } } __inline static void *kmalloc_array(size_t n , size_t size , gfp_t flags ) { void *tmp ; { if (size != 0UL && 0xffffffffffffffffUL / size < n) { return ((void *)0); } else { } tmp = __kmalloc(n * size, flags); return (tmp); } } __inline static void *kcalloc(size_t n , size_t size , gfp_t flags ) { void *tmp ; { tmp = kmalloc_array(n, size, flags | 32768U); return (tmp); } } extern void *malloc(size_t ) ; extern void *calloc(size_t , size_t ) ; extern int __VERIFIER_nondet_int(void) ; extern unsigned long __VERIFIER_nondet_ulong(void) ; extern void *__VERIFIER_nondet_pointer(void) ; extern void __VERIFIER_assume(int ) ; void *ldv_malloc(size_t size ) { void *p ; void *tmp ; int tmp___0 ; { tmp___0 = __VERIFIER_nondet_int(); if (tmp___0 != 0) { return ((void *)0); } else { tmp = malloc(size); p = tmp; __VERIFIER_assume((unsigned long )p != (unsigned long )((void *)0)); return (p); } } } void *ldv_zalloc(size_t size ) { void *p ; void *tmp ; int tmp___0 ; { tmp___0 = __VERIFIER_nondet_int(); if (tmp___0 != 0) { return ((void *)0); } else { tmp = calloc(1UL, size); p = tmp; __VERIFIER_assume((unsigned long )p != (unsigned long )((void *)0)); return (p); } } } void *ldv_init_zalloc(size_t size ) { void *p ; void *tmp ; { tmp = calloc(1UL, size); p = tmp; __VERIFIER_assume((unsigned long )p != (unsigned long )((void *)0)); return (p); } } void *ldv_memset(void *s , int c , size_t n ) { void *tmp ; { tmp = memset(s, c, n); return (tmp); } } int ldv_undef_int(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); return (tmp); } } void *ldv_undef_ptr(void) { void *tmp ; { tmp = __VERIFIER_nondet_pointer(); return (tmp); } } unsigned long ldv_undef_ulong(void) { unsigned long tmp ; { tmp = __VERIFIER_nondet_ulong(); return (tmp); } } __inline static void ldv_stop(void) { { LDV_STOP: ; goto LDV_STOP; } } __inline static long ldv__builtin_expect(long exp , long c ) { { return (exp); } } struct device *dev_attr_rf_kill_group1 ; int ldv_state_variable_20 ; int pci_counter ; struct work_struct *ldv_work_struct_3_1 ; int ldv_state_variable_0 ; int ldv_state_variable_12 ; struct net_device *ipw2100_netdev_ops_group1 ; int ldv_state_variable_22 ; struct device_attribute *dev_attr_fatal_error_group0 ; int ldv_state_variable_14 ; int ldv_state_variable_17 ; struct work_struct *ldv_work_struct_2_0 ; int ldv_work_7_2 ; int ldv_state_variable_19 ; struct work_struct *ldv_work_struct_4_3 ; int ldv_state_variable_9 ; struct work_struct *ldv_work_struct_7_1 ; int ldv_work_6_0 ; struct work_struct *ldv_work_struct_2_2 ; struct work_struct *ldv_work_struct_6_1 ; int ref_cnt ; int ldv_irq_line_1_1 ; int ldv_work_3_3 ; struct work_struct *ldv_work_struct_4_0 ; int ldv_state_variable_7 ; int ldv_state_variable_23 ; struct work_struct *ldv_work_struct_3_3 ; int ldv_irq_1_3 = 0; struct device *dev_attr_scan_age_group1 ; struct work_struct *ldv_work_struct_2_1 ; int ldv_work_4_0 ; struct work_struct *ldv_work_struct_3_2 ; int ldv_state_variable_6 ; void *ldv_irq_data_1_0 ; void *ldv_irq_data_1_3 ; int ldv_work_5_0 ; struct work_struct *ldv_work_struct_7_2 ; int ldv_state_variable_26 ; struct work_struct *ldv_work_struct_4_2 ; struct work_struct *ldv_work_struct_7_0 ; int LDV_IN_INTERRUPT = 1; struct work_struct *ldv_work_struct_6_0 ; int ldv_irq_1_1 = 0; struct device_attribute *dev_attr_memory_group0 ; struct work_struct *ldv_work_struct_5_1 ; int ldv_work_5_2 ; int ldv_work_7_1 ; int ldv_state_variable_3 ; int ldv_irq_line_1_0 ; struct device_attribute *dev_attr_scan_age_group0 ; int ldv_work_6_2 ; int ldv_state_variable_4 ; int ldv_work_2_1 ; int ldv_state_variable_8 ; struct net_device *ipw2100_ethtool_ops_group0 ; int ldv_state_variable_15 ; struct work_struct *ldv_work_struct_6_3 ; struct work_struct *ldv_work_struct_5_2 ; int ldv_state_variable_21 ; struct work_struct *ldv_work_struct_5_3 ; int ldv_state_variable_5 ; int ldv_state_variable_13 ; struct device_attribute *dev_attr_rf_kill_group0 ; int ldv_work_3_2 ; int ldv_work_3_0 ; struct work_struct *ldv_work_struct_2_3 ; int ldv_state_variable_24 ; int ldv_work_7_3 ; struct device *dev_attr_fatal_error_group1 ; int ldv_state_variable_1 ; int ldv_work_5_3 ; int ldv_irq_line_1_2 ; int ldv_work_6_1 ; void *ldv_irq_data_1_1 ; struct work_struct *ldv_work_struct_6_2 ; int ldv_state_variable_10 ; int ldv_irq_1_0 = 0; int ldv_work_7_0 ; int ldv_work_4_1 ; int ldv_work_4_3 ; int ldv_work_3_1 ; int ldv_state_variable_16 ; struct work_struct *ldv_work_struct_7_3 ; int ldv_state_variable_2 ; int ldv_state_variable_25 ; int ldv_work_2_0 ; int ldv_work_5_1 ; void *ldv_irq_data_1_2 ; int ldv_work_6_3 ; struct device_driver *driver_attr_debug_level_group0 ; struct work_struct *ldv_work_struct_3_0 ; int ldv_work_4_2 ; int ldv_state_variable_11 ; struct pci_dev *ipw2100_pci_driver_group1 ; int ldv_irq_1_2 = 0; int ldv_state_variable_18 ; struct device *dev_attr_memory_group1 ; struct work_struct *ldv_work_struct_5_0 ; int ldv_irq_line_1_3 ; int ldv_work_2_2 ; struct work_struct *ldv_work_struct_4_1 ; int ldv_work_2_3 ; void ldv_initialize_device_attribute_12(void) ; void activate_work_5(struct work_struct *work , int state ) ; void work_init_3(void) ; void call_and_disable_all_7(int state ) ; void invoke_work_6(void) ; void call_and_disable_all_2(int state ) ; int reg_check_1(irqreturn_t (*handler)(int , void * ) ) ; void activate_work_3(struct work_struct *work , int state ) ; void work_init_5(void) ; void call_and_disable_all_4(int state ) ; void work_init_7(void) ; void invoke_work_7(void) ; void disable_work_5(struct work_struct *work ) ; void call_and_disable_work_3(struct work_struct *work ) ; void disable_work_7(struct work_struct *work ) ; void disable_work_3(struct work_struct *work ) ; void call_and_disable_all_6(int state ) ; void disable_suitable_irq_1(int line , void *data ) ; void activate_suitable_irq_1(int line , void *data ) ; void invoke_work_4(void) ; void call_and_disable_work_5(struct work_struct *work ) ; void invoke_work_2(void) ; void activate_work_6(struct work_struct *work , int state ) ; void ldv_initialize_device_attribute_20(void) ; void ldv_initialize_ethtool_ops_11(void) ; void activate_work_4(struct work_struct *work , int state ) ; void call_and_disable_work_7(struct work_struct *work ) ; void call_and_disable_all_5(int state ) ; void ldv_initialize_device_attribute_13(void) ; void work_init_2(void) ; void ldv_initialize_driver_attribute_15(void) ; void ldv_initialize_device_attribute_14(void) ; void activate_work_2(struct work_struct *work , int state ) ; void work_init_6(void) ; void disable_work_6(struct work_struct *work ) ; void choose_interrupt_1(void) ; void invoke_work_5(void) ; void activate_work_7(struct work_struct *work , int state ) ; void ldv_net_device_ops_10(void) ; void disable_work_2(struct work_struct *work ) ; void disable_work_4(struct work_struct *work ) ; void work_init_4(void) ; void ldv_pci_driver_9(void) ; void invoke_work_3(void) ; int ldv_irq_1(int state , int line , void *data ) ; void call_and_disable_all_3(int state ) ; void call_and_disable_work_6(struct work_struct *work ) ; void call_and_disable_work_4(struct work_struct *work ) ; void call_and_disable_work_2(struct work_struct *work ) ; __inline static void kmemcheck_mark_initialized(void *address , unsigned int n ) { { return; } } extern int driver_create_file(struct device_driver * , struct driver_attribute const * ) ; extern void driver_remove_file(struct device_driver * , struct driver_attribute const * ) ; __inline static char const *dev_name(struct device const *dev ) { char const *tmp ; { if ((unsigned long )dev->init_name != (unsigned long )((char const */* const */)0)) { return ((char const *)dev->init_name); } else { } tmp = kobject_name(& dev->kobj); return (tmp); } } __inline static void *dev_get_drvdata(struct device const *dev ) { { return ((void *)dev->driver_data); } } __inline static void dev_set_drvdata(struct device *dev , void *data ) { { dev->driver_data = data; return; } } __inline static int valid_dma_direction(int dma_direction ) { { return ((dma_direction == 0 || dma_direction == 1) || dma_direction == 2); } } extern void debug_dma_map_page(struct device * , struct page * , size_t , size_t , int , dma_addr_t , bool ) ; extern void debug_dma_unmap_page(struct device * , dma_addr_t , size_t , int , bool ) ; extern void debug_dma_sync_single_for_cpu(struct device * , dma_addr_t , size_t , int ) ; extern void debug_dma_sync_single_for_device(struct device * , dma_addr_t , size_t , int ) ; extern struct dma_map_ops *dma_ops ; __inline static struct dma_map_ops *get_dma_ops(struct device *dev ) { long tmp ; { tmp = ldv__builtin_expect((unsigned long )dev == (unsigned long )((struct device *)0), 0L); if (tmp != 0L || (unsigned long )dev->archdata.dma_ops == (unsigned long )((struct dma_map_ops *)0)) { return (dma_ops); } else { return (dev->archdata.dma_ops); } } } __inline static dma_addr_t dma_map_single_attrs(struct device *dev , void *ptr , size_t size , enum dma_data_direction dir , struct dma_attrs *attrs ) { struct dma_map_ops *ops ; struct dma_map_ops *tmp ; dma_addr_t addr ; int tmp___0 ; long tmp___1 ; unsigned long tmp___2 ; unsigned long tmp___3 ; { tmp = get_dma_ops(dev); ops = tmp; kmemcheck_mark_initialized(ptr, (unsigned int )size); tmp___0 = valid_dma_direction((int )dir); tmp___1 = ldv__builtin_expect(tmp___0 == 0, 0L); if (tmp___1 != 0L) { __asm__ volatile ("1:\tud2\n.pushsection __bug_table,\"a\"\n2:\t.long 1b - 2b, %c0 - 2b\n\t.word %c1, 0\n\t.org 2b+%c2\n.popsection": : "i" ((char *)"include/asm-generic/dma-mapping-common.h"), "i" (19), "i" (12UL)); ldv_25965: ; goto ldv_25965; } else { } tmp___2 = __phys_addr((unsigned long )ptr); addr = (*(ops->map_page))(dev, (struct page *)-24189255811072L + (tmp___2 >> 12), (unsigned long )ptr & 4095UL, size, dir, attrs); tmp___3 = __phys_addr((unsigned long )ptr); debug_dma_map_page(dev, (struct page *)-24189255811072L + (tmp___3 >> 12), (unsigned long )ptr & 4095UL, size, (int )dir, addr, 1); return (addr); } } __inline static void dma_unmap_single_attrs(struct device *dev , dma_addr_t addr , size_t size , enum dma_data_direction dir , struct dma_attrs *attrs ) { struct dma_map_ops *ops ; struct dma_map_ops *tmp ; int tmp___0 ; long tmp___1 ; { tmp = get_dma_ops(dev); ops = tmp; tmp___0 = valid_dma_direction((int )dir); tmp___1 = ldv__builtin_expect(tmp___0 == 0, 0L); if (tmp___1 != 0L) { __asm__ volatile ("1:\tud2\n.pushsection __bug_table,\"a\"\n2:\t.long 1b - 2b, %c0 - 2b\n\t.word %c1, 0\n\t.org 2b+%c2\n.popsection": : "i" ((char *)"include/asm-generic/dma-mapping-common.h"), "i" (36), "i" (12UL)); ldv_25974: ; goto ldv_25974; } else { } if ((unsigned long )ops->unmap_page != (unsigned long )((void (*)(struct device * , dma_addr_t , size_t , enum dma_data_direction , struct dma_attrs * ))0)) { (*(ops->unmap_page))(dev, addr, size, dir, attrs); } else { } debug_dma_unmap_page(dev, addr, size, (int )dir, 1); return; } } __inline static void dma_sync_single_for_cpu(struct device *dev , dma_addr_t addr , size_t size , enum dma_data_direction dir ) { struct dma_map_ops *ops ; struct dma_map_ops *tmp ; int tmp___0 ; long tmp___1 ; { tmp = get_dma_ops(dev); ops = tmp; tmp___0 = valid_dma_direction((int )dir); tmp___1 = ldv__builtin_expect(tmp___0 == 0, 0L); if (tmp___1 != 0L) { __asm__ volatile ("1:\tud2\n.pushsection __bug_table,\"a\"\n2:\t.long 1b - 2b, %c0 - 2b\n\t.word %c1, 0\n\t.org 2b+%c2\n.popsection": : "i" ((char *)"include/asm-generic/dma-mapping-common.h"), "i" (108), "i" (12UL)); ldv_26025: ; goto ldv_26025; } else { } if ((unsigned long )ops->sync_single_for_cpu != (unsigned long )((void (*)(struct device * , dma_addr_t , size_t , enum dma_data_direction ))0)) { (*(ops->sync_single_for_cpu))(dev, addr, size, dir); } else { } debug_dma_sync_single_for_cpu(dev, addr, size, (int )dir); return; } } __inline static void dma_sync_single_for_device(struct device *dev , dma_addr_t addr , size_t size , enum dma_data_direction dir ) { struct dma_map_ops *ops ; struct dma_map_ops *tmp ; int tmp___0 ; long tmp___1 ; { tmp = get_dma_ops(dev); ops = tmp; tmp___0 = valid_dma_direction((int )dir); tmp___1 = ldv__builtin_expect(tmp___0 == 0, 0L); if (tmp___1 != 0L) { __asm__ volatile ("1:\tud2\n.pushsection __bug_table,\"a\"\n2:\t.long 1b - 2b, %c0 - 2b\n\t.word %c1, 0\n\t.org 2b+%c2\n.popsection": : "i" ((char *)"include/asm-generic/dma-mapping-common.h"), "i" (120), "i" (12UL)); ldv_26033: ; goto ldv_26033; } else { } if ((unsigned long )ops->sync_single_for_device != (unsigned long )((void (*)(struct device * , dma_addr_t , size_t , enum dma_data_direction ))0)) { (*(ops->sync_single_for_device))(dev, addr, size, dir); } else { } debug_dma_sync_single_for_device(dev, addr, size, (int )dir); return; } } extern int dma_set_mask(struct device * , u64 ) ; extern void *dma_alloc_attrs(struct device * , size_t , dma_addr_t * , gfp_t , struct dma_attrs * ) ; extern void dma_free_attrs(struct device * , size_t , void * , dma_addr_t , struct dma_attrs * ) ; __inline static void *dma_zalloc_coherent(struct device *dev , size_t size , dma_addr_t *dma_handle , gfp_t flag ) { void *ret ; void *tmp ; { tmp = dma_alloc_attrs(dev, size, dma_handle, flag | 32768U, (struct dma_attrs *)0); ret = tmp; return (ret); } } extern void consume_skb(struct sk_buff * ) ; __inline static bool skb_is_nonlinear(struct sk_buff const *skb ) { { return ((unsigned int )skb->data_len != 0U); } } extern unsigned char *skb_put(struct sk_buff * , unsigned int ) ; __inline static int skb_tailroom(struct sk_buff const *skb ) { bool tmp ; { tmp = skb_is_nonlinear(skb); return ((int )tmp ? 0 : (int )((unsigned int )skb->end - (unsigned int )skb->tail)); } } extern struct sk_buff *__netdev_alloc_skb(struct net_device * , unsigned int , gfp_t ) ; __inline static struct sk_buff *netdev_alloc_skb(struct net_device *dev , unsigned int length ) { struct sk_buff *tmp ; { tmp = __netdev_alloc_skb(dev, length, 32U); return (tmp); } } __inline static struct sk_buff *dev_alloc_skb(unsigned int length ) { struct sk_buff *tmp ; { tmp = netdev_alloc_skb((struct net_device *)0, length); return (tmp); } } __inline static void skb_copy_from_linear_data(struct sk_buff const *skb , void *to , unsigned int const len ) { { memcpy(to, (void const *)skb->data, (size_t )len); return; } } extern void __const_udelay(unsigned long ) ; extern int request_threaded_irq(unsigned int , irqreturn_t (*)(int , void * ) , irqreturn_t (*)(int , void * ) , unsigned long , char const * , void * ) ; __inline static int request_irq(unsigned int irq , irqreturn_t (*handler)(int , void * ) , unsigned long flags , char const *name , void *dev ) { int tmp ; { tmp = request_threaded_irq(irq, handler, (irqreturn_t (*)(int , void * ))0, flags, name, dev); return (tmp); } } __inline static int ldv_request_irq_22(unsigned int irq , irqreturn_t (*handler)(int , void * ) , unsigned long flags , char const *name , void *dev ) ; extern void free_irq(unsigned int , void * ) ; void ldv_free_irq_25(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) ; void ldv_free_irq_27(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) ; extern void __tasklet_schedule(struct tasklet_struct * ) ; __inline static void tasklet_schedule(struct tasklet_struct *t ) { int tmp ; { tmp = test_and_set_bit(0L, (unsigned long volatile *)(& t->state)); if (tmp == 0) { __tasklet_schedule(t); } else { } return; } } extern void tasklet_init(struct tasklet_struct * , void (*)(unsigned long ) , unsigned long ) ; __inline static struct netdev_queue *netdev_get_tx_queue(struct net_device const *dev , unsigned int index ) { { return ((struct netdev_queue *)dev->_tx + (unsigned long )index); } } __inline static void *netdev_priv(struct net_device const *dev ) { { return ((void *)dev + 3008U); } } __inline static void netif_tx_start_queue(struct netdev_queue *dev_queue ) { { clear_bit(0L, (unsigned long volatile *)(& dev_queue->state)); return; } } __inline static void netif_start_queue(struct net_device *dev ) { struct netdev_queue *tmp ; { tmp = netdev_get_tx_queue((struct net_device const *)dev, 0U); netif_tx_start_queue(tmp); return; } } extern void netif_tx_wake_queue(struct netdev_queue * ) ; __inline static void netif_wake_queue(struct net_device *dev ) { struct netdev_queue *tmp ; { tmp = netdev_get_tx_queue((struct net_device const *)dev, 0U); netif_tx_wake_queue(tmp); return; } } __inline static void netif_tx_stop_queue(struct netdev_queue *dev_queue ) { { set_bit(0L, (unsigned long volatile *)(& dev_queue->state)); return; } } __inline static void netif_stop_queue(struct net_device *dev ) { struct netdev_queue *tmp ; { tmp = netdev_get_tx_queue((struct net_device const *)dev, 0U); netif_tx_stop_queue(tmp); return; } } __inline static bool netif_running(struct net_device const *dev ) { int tmp ; { tmp = constant_test_bit(0L, (unsigned long const volatile *)(& dev->state)); return (tmp != 0); } } extern void __dev_kfree_skb_any(struct sk_buff * , enum skb_free_reason ) ; __inline static void dev_kfree_skb_any(struct sk_buff *skb ) { { __dev_kfree_skb_any(skb, 1); return; } } extern void netif_carrier_on(struct net_device * ) ; extern void netif_carrier_off(struct net_device * ) ; extern void netif_device_detach(struct net_device * ) ; extern void netif_device_attach(struct net_device * ) ; extern int register_netdev(struct net_device * ) ; int ldv_register_netdev_23(struct net_device *dev ) ; extern void unregister_netdev(struct net_device * ) ; void ldv_unregister_netdev_24(struct net_device *dev ) ; void ldv_unregister_netdev_26(struct net_device *dev ) ; extern int pci_bus_read_config_dword(struct pci_bus * , unsigned int , int , u32 * ) ; extern int pci_bus_write_config_dword(struct pci_bus * , unsigned int , int , u32 ) ; __inline static int pci_read_config_dword(struct pci_dev const *dev , int where , u32 *val ) { int tmp ; { tmp = pci_bus_read_config_dword(dev->bus, dev->devfn, where, val); return (tmp); } } __inline static int pci_write_config_dword(struct pci_dev const *dev , int where , u32 val ) { int tmp ; { tmp = pci_bus_write_config_dword(dev->bus, dev->devfn, where, val); return (tmp); } } extern int pci_enable_device(struct pci_dev * ) ; extern void pci_disable_device(struct pci_dev * ) ; extern void pci_set_master(struct pci_dev * ) ; extern int pci_save_state(struct pci_dev * ) ; extern void pci_restore_state(struct pci_dev * ) ; extern int pci_set_power_state(struct pci_dev * , pci_power_t ) ; extern int pci_request_regions(struct pci_dev * , char const * ) ; extern void pci_release_regions(struct pci_dev * ) ; extern int __pci_register_driver(struct pci_driver * , struct module * , char const * ) ; int ldv___pci_register_driver_28(struct pci_driver *ldv_func_arg1 , struct module *ldv_func_arg2 , char const *ldv_func_arg3 ) ; extern void pci_unregister_driver(struct pci_driver * ) ; void ldv_pci_unregister_driver_29(struct pci_driver *ldv_func_arg1 ) ; __inline static void *pci_alloc_consistent(struct pci_dev *hwdev , size_t size , dma_addr_t *dma_handle ) { void *tmp ; { tmp = dma_alloc_attrs((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, size, dma_handle, 32U, (struct dma_attrs *)0); return (tmp); } } __inline static void *pci_zalloc_consistent(struct pci_dev *hwdev , size_t size , dma_addr_t *dma_handle ) { void *tmp ; { tmp = dma_zalloc_coherent((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, size, dma_handle, 32U); return (tmp); } } __inline static void pci_free_consistent(struct pci_dev *hwdev , size_t size , void *vaddr , dma_addr_t dma_handle ) { { dma_free_attrs((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, size, vaddr, dma_handle, (struct dma_attrs *)0); return; } } __inline static dma_addr_t pci_map_single(struct pci_dev *hwdev , void *ptr , size_t size , int direction ) { dma_addr_t tmp ; { tmp = dma_map_single_attrs((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, ptr, size, (enum dma_data_direction )direction, (struct dma_attrs *)0); return (tmp); } } __inline static void pci_unmap_single(struct pci_dev *hwdev , dma_addr_t dma_addr , size_t size , int direction ) { { dma_unmap_single_attrs((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, dma_addr, size, (enum dma_data_direction )direction, (struct dma_attrs *)0); return; } } __inline static void pci_dma_sync_single_for_cpu(struct pci_dev *hwdev , dma_addr_t dma_handle , size_t size , int direction ) { { dma_sync_single_for_cpu((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, dma_handle, size, (enum dma_data_direction )direction); return; } } __inline static void pci_dma_sync_single_for_device(struct pci_dev *hwdev , dma_addr_t dma_handle , size_t size , int direction ) { { dma_sync_single_for_device((unsigned long )hwdev != (unsigned long )((struct pci_dev *)0) ? & hwdev->dev : (struct device *)0, dma_handle, size, (enum dma_data_direction )direction); return; } } __inline static int pci_set_dma_mask(struct pci_dev *dev , u64 mask ) { int tmp ; { tmp = dma_set_mask(& dev->dev, mask); return (tmp); } } __inline static void *pci_get_drvdata(struct pci_dev *pdev ) { void *tmp ; { tmp = dev_get_drvdata((struct device const *)(& pdev->dev)); return (tmp); } } __inline static void pci_set_drvdata(struct pci_dev *pdev , void *data ) { { dev_set_drvdata(& pdev->dev, data); return; } } __inline static char const *pci_name(struct pci_dev const *pdev ) { char const *tmp ; { tmp = dev_name(& pdev->dev); return (tmp); } } extern int request_firmware(struct firmware const ** , char const * , struct device * ) ; extern void release_firmware(struct firmware const * ) ; extern unsigned char const _ctype[] ; __inline static unsigned char __tolower(unsigned char c ) { { if ((int )_ctype[(int )c] & 1) { c = (unsigned int )c + 32U; } else { } return (c); } } extern void pm_qos_add_request(struct pm_qos_request * , int , s32 ) ; extern void pm_qos_update_request(struct pm_qos_request * , s32 ) ; extern void pm_qos_remove_request(struct pm_qos_request * ) ; extern int eth_validate_addr(struct net_device * ) ; __inline static bool is_zero_ether_addr(u8 const *addr ) { { return (((unsigned int )*((u32 const *)addr) | (unsigned int )*((u16 const *)addr + 4U)) == 0U); } } __inline static bool is_multicast_ether_addr(u8 const *addr ) { u32 a ; { a = *((u32 const *)addr); return ((a & 1U) != 0U); } } __inline static bool is_broadcast_ether_addr(u8 const *addr ) { { return ((unsigned int )(((int )((unsigned short )*((u16 const *)addr)) & (int )((unsigned short )*((u16 const *)addr + 2U))) & (int )((unsigned short )*((u16 const *)addr + 4U))) == 65535U); } } __inline static bool is_valid_ether_addr(u8 const *addr ) { bool tmp ; int tmp___0 ; bool tmp___1 ; int tmp___2 ; int tmp___3 ; { tmp = is_multicast_ether_addr(addr); if (tmp) { tmp___0 = 0; } else { tmp___0 = 1; } if (tmp___0) { tmp___1 = is_zero_ether_addr(addr); if (tmp___1) { tmp___2 = 0; } else { tmp___2 = 1; } if (tmp___2) { tmp___3 = 1; } else { tmp___3 = 0; } } else { tmp___3 = 0; } return ((bool )tmp___3); } } __inline static void eth_zero_addr(u8 *addr ) { { memset((void *)addr, 0, 6UL); return; } } extern void wireless_send_event(struct net_device * , unsigned int , union iwreq_data * , char const * ) ; __inline static void set_wiphy_dev(struct wiphy *wiphy , struct device *dev ) { { wiphy->dev.parent = dev; return; } } extern int wiphy_register(struct wiphy * ) ; extern void wiphy_unregister(struct wiphy * ) ; extern void wiphy_rfkill_set_hw_state(struct wiphy * , bool ) ; __inline static void *libipw_priv(struct net_device *dev ) { void *tmp ; { tmp = netdev_priv((struct net_device const *)dev); return ((void *)(& ((struct libipw_device *)tmp)->priv)); } } extern void free_libipw(struct net_device * , int ) ; extern struct net_device *alloc_libipw(int , int ) ; extern int libipw_change_mtu(struct net_device * , int ) ; extern void libipw_networks_age(struct libipw_device * , unsigned long ) ; extern netdev_tx_t libipw_xmit(struct sk_buff * , struct net_device * ) ; extern void libipw_txb_free(struct libipw_txb * ) ; extern int libipw_rx(struct libipw_device * , struct sk_buff * , struct libipw_rx_stats * ) ; extern void libipw_rx_mgt(struct libipw_device * , struct libipw_hdr_4addr * , struct libipw_rx_stats * ) ; extern struct libipw_geo const *libipw_get_geo(struct libipw_device * ) ; extern void libipw_set_geo(struct libipw_device * , struct libipw_geo const * ) ; extern int libipw_wx_get_scan(struct libipw_device * , struct iw_request_info * , union iwreq_data * , char * ) ; extern int libipw_wx_set_encode(struct libipw_device * , struct iw_request_info * , union iwreq_data * , char * ) ; extern int libipw_wx_get_encode(struct libipw_device * , struct iw_request_info * , union iwreq_data * , char * ) ; extern int libipw_wx_set_encodeext(struct libipw_device * , struct iw_request_info * , union iwreq_data * , char * ) ; extern int libipw_wx_get_encodeext(struct libipw_device * , struct iw_request_info * , union iwreq_data * , char * ) ; static u32 const ipw_cipher_suites[4U] = { 1027073U, 1027077U, 1027074U, 1027076U}; static struct pm_qos_request ipw2100_pm_qos_req ; static int debug = 0; static int network_mode = 0; static int channel = 0; static int associate = 0; static int disable = 0; static struct ipw2100_fw ipw2100_firmware ; static u32 ipw2100_debug_level = 0U; static char const *command_types[70U] = { "undefined", "unused", "HOST_COMPLETE", "unused", "unused", "unused", "SYSTEM_CONFIG", "unused", "SSID", "MANDATORY_BSSID", "AUTHENTICATION_TYPE", "ADAPTER_ADDRESS", "PORT_TYPE", "INTERNATIONAL_MODE", "CHANNEL", "RTS_THRESHOLD", "FRAG_THRESHOLD", "POWER_MODE", "TX_RATES", "BASIC_TX_RATES", "WEP_KEY_INFO", "unused", "unused", "unused", "unused", "WEP_KEY_INDEX", "WEP_FLAGS", "ADD_MULTICAST", "CLEAR_ALL_MULTICAST", "BEACON_INTERVAL", "ATIM_WINDOW", "CLEAR_STATISTICS", "undefined", "undefined", "undefined", "undefined", "TX_POWER_INDEX", "undefined", "undefined", "undefined", "undefined", "undefined", "undefined", "BROADCAST_SCAN", "CARD_DISABLE", "PREFERRED_BSSID", "SET_SCAN_OPTIONS", "SCAN_DWELL_TIME", "SWEEP_TABLE", "AP_OR_STATION_TABLE", "GROUP_ORDINALS", "SHORT_RETRY_LIMIT", "LONG_RETRY_LIMIT", "unused", "unused", "undefined", "undefined", "undefined", "HOST_PRE_POWER_DOWN", "unused", "undefined", "CARD_DISABLE_PHY_OFF", "MSDU_TX_RATES", "undefined", "SET_STATION_STAT_BITS", "CLEAR_STATIONS_STAT_BITS", "LEAP_ROGUE_MODE", "SET_SECURITY_INFORMATION", "DISASSOCIATION_BSSID", "SET_WPA_ASS_IE"}; static long const ipw2100_frequencies[14U] = { 2412L, 2417L, 2422L, 2427L, 2432L, 2437L, 2442L, 2447L, 2452L, 2457L, 2462L, 2467L, 2472L, 2484L}; static struct ieee80211_rate ipw2100_bg_rates[4U] = { {0U, 10U, (unsigned short)0, (unsigned short)0}, {1U, 20U, (unsigned short)0, (unsigned short)0}, {1U, 55U, (unsigned short)0, (unsigned short)0}, {1U, 110U, (unsigned short)0, (unsigned short)0}}; static void ipw2100_tx_send_commands(struct ipw2100_priv *priv ) ; static void ipw2100_tx_send_data(struct ipw2100_priv *priv ) ; static int ipw2100_adapter_setup(struct ipw2100_priv *priv ) ; static void ipw2100_queues_initialize(struct ipw2100_priv *priv ) ; static void ipw2100_queues_free(struct ipw2100_priv *priv ) ; static int ipw2100_queues_allocate(struct ipw2100_priv *priv ) ; static int ipw2100_fw_download(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) ; static int ipw2100_get_firmware(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) ; static int ipw2100_get_fwversion(struct ipw2100_priv *priv , char *buf , size_t max ) ; static int ipw2100_get_ucodeversion(struct ipw2100_priv *priv , char *buf , size_t max ) ; static void ipw2100_release_firmware(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) ; static int ipw2100_ucode_download(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) ; static void ipw2100_wx_event_work(struct work_struct *work ) ; static struct iw_statistics *ipw2100_wx_wireless_stats(struct net_device *dev ) ; static struct iw_handler_def ipw2100_wx_handler_def ; __inline static void read_register(struct net_device *dev , u32 reg , u32 *val ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; *val = ioread32(priv->ioaddr + (unsigned long )reg); if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "read_register"); printk("r: 0x%08X => 0x%08X\n", reg, *val); } else { } return; } } __inline static void write_register(struct net_device *dev , u32 reg , u32 val ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; iowrite32(val, priv->ioaddr + (unsigned long )reg); if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "write_register"); printk("w: 0x%08X <= 0x%08X\n", reg, val); } else { } return; } } __inline static void read_register_word(struct net_device *dev , u32 reg , u16 *val ) { struct ipw2100_priv *priv ; void *tmp ; unsigned int tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = ioread16(priv->ioaddr + (unsigned long )reg); *val = (u16 )tmp___0; if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "read_register_word"); printk("r: 0x%08X => %04X\n", reg, (int )*val); } else { } return; } } __inline static void read_register_byte(struct net_device *dev , u32 reg , u8 *val ) { struct ipw2100_priv *priv ; void *tmp ; unsigned int tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = ioread8(priv->ioaddr + (unsigned long )reg); *val = (u8 )tmp___0; if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "read_register_byte"); printk("r: 0x%08X => %02X\n", reg, (int )*val); } else { } return; } } __inline static void write_register_word(struct net_device *dev , u32 reg , u16 val ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; iowrite16((int )val, priv->ioaddr + (unsigned long )reg); if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "write_register_word"); printk("w: 0x%08X <= %04X\n", reg, (int )val); } else { } return; } } __inline static void write_register_byte(struct net_device *dev , u32 reg , u8 val ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; iowrite8((int )val, priv->ioaddr + (unsigned long )reg); if ((ipw2100_debug_level & 67108864U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "write_register_byte"); printk("w: 0x%08X =< %02X\n", reg, (int )val); } else { } return; } } __inline static void read_nic_dword(struct net_device *dev , u32 addr , u32 *val ) { { write_register(dev, 16U, addr & 16777212U); read_register(dev, 20U, val); return; } } __inline static void write_nic_dword(struct net_device *dev , u32 addr , u32 val ) { { write_register(dev, 16U, addr & 16777212U); write_register(dev, 20U, val); return; } } __inline static void read_nic_word(struct net_device *dev , u32 addr , u16 *val ) { { write_register(dev, 16U, addr & 16777212U); read_register_word(dev, 20U, val); return; } } __inline static void write_nic_word(struct net_device *dev , u32 addr , u16 val ) { { write_register(dev, 16U, addr & 16777212U); write_register_word(dev, 20U, (int )val); return; } } __inline static void read_nic_byte(struct net_device *dev , u32 addr , u8 *val ) { { write_register(dev, 16U, addr & 16777212U); read_register_byte(dev, 20U, val); return; } } __inline static void write_nic_byte(struct net_device *dev , u32 addr , u8 val ) { { write_register(dev, 16U, addr & 16777212U); write_register_byte(dev, 20U, (int )val); return; } } static void write_nic_memory(struct net_device *dev , u32 addr , u32 len , u8 const *buf ) { u32 aligned_addr ; u32 aligned_len ; u32 dif_len ; u32 i ; { aligned_addr = addr & 4294967292U; dif_len = addr - aligned_addr; if (dif_len != 0U) { write_register(dev, 16U, aligned_addr); i = dif_len; goto ldv_59998; ldv_59997: write_register_byte(dev, i + 20U, (int )*buf); i = i + 1U; buf = buf + 1; ldv_59998: ; if (i <= 3U) { goto ldv_59997; } else { } len = len - dif_len; aligned_addr = aligned_addr + 4U; } else { } write_register(dev, 24U, aligned_addr); aligned_len = len & 4294967292U; i = 0U; goto ldv_60001; ldv_60000: write_register(dev, 28U, *((u32 *)buf)); i = i + 4U; buf = buf + 4UL; aligned_addr = aligned_addr + 4U; ldv_60001: ; if (i < aligned_len) { goto ldv_60000; } else { } dif_len = len - aligned_len; write_register(dev, 16U, aligned_addr); i = 0U; goto ldv_60004; ldv_60003: write_register_byte(dev, i + 20U, (int )*buf); i = i + 1U; buf = buf + 1; ldv_60004: ; if (i < dif_len) { goto ldv_60003; } else { } return; } } static void read_nic_memory(struct net_device *dev , u32 addr , u32 len , u8 *buf ) { u32 aligned_addr ; u32 aligned_len ; u32 dif_len ; u32 i ; { aligned_addr = addr & 4294967292U; dif_len = addr - aligned_addr; if (dif_len != 0U) { write_register(dev, 16U, aligned_addr); i = dif_len; goto ldv_60017; ldv_60016: read_register_byte(dev, i + 20U, buf); i = i + 1U; buf = buf + 1; ldv_60017: ; if (i <= 3U) { goto ldv_60016; } else { } len = len - dif_len; aligned_addr = aligned_addr + 4U; } else { } write_register(dev, 24U, aligned_addr); aligned_len = len & 4294967292U; i = 0U; goto ldv_60020; ldv_60019: read_register(dev, 28U, (u32 *)buf); i = i + 4U; buf = buf + 4UL; aligned_addr = aligned_addr + 4U; ldv_60020: ; if (i < aligned_len) { goto ldv_60019; } else { } dif_len = len - aligned_len; write_register(dev, 16U, aligned_addr); i = 0U; goto ldv_60023; ldv_60022: read_register_byte(dev, i + 20U, buf); i = i + 1U; buf = buf + 1; ldv_60023: ; if (i < dif_len) { goto ldv_60022; } else { } return; } } static bool ipw2100_hw_is_adapter_in_system(struct net_device *dev ) { u32 dbg ; { read_register(dev, 144U, & dbg); return (dbg == 3579139541U); } } static int ipw2100_get_ordinal(struct ipw2100_priv *priv , u32 ord , void *val , u32 *len ) { struct ipw2100_ordinals *ordinals ; u32 addr ; u32 field_info ; u16 field_len ; u16 field_count ; u32 total_length ; { ordinals = & priv->ordinals; if (ordinals->table1_addr == 0U) { printk("\fipw2100: attempt to use fw ordinals before they have been loaded.\n"); return (-22); } else { } if (ord != 0U && ordinals->table1_size > ord) { if (*len <= 3U) { *len = 4U; printk("\fipw2100: ordinal buffer length too small, need %zd\n", 4UL); return (-22); } else { } read_nic_dword(priv->net_dev, ordinals->table1_addr + (ord << 2), & addr); read_nic_dword(priv->net_dev, addr, (u32 *)val); *len = 4U; return (0); } else { } if (ord > 999U && ordinals->table2_size + 1000U > ord) { ord = ord - 1000U; read_nic_dword(priv->net_dev, ordinals->table2_addr + (ord << 3), & addr); read_nic_dword(priv->net_dev, (ordinals->table2_addr + (ord << 3)) + 4U, & field_info); field_len = *((u16 *)(& field_info)); field_count = *((u16 *)(& field_info) + 1UL); total_length = (u32 )((int )field_len * (int )field_count); if (*len < total_length) { *len = total_length; return (-22); } else { } *len = total_length; if (total_length == 0U) { return (0); } else { } read_nic_memory(priv->net_dev, addr, total_length, (u8 *)val); return (0); } else { } printk("\fipw2100: ordinal %d neither in table 1 nor in table 2\n", ord); return (-22); } } static int ipw2100_set_ordinal(struct ipw2100_priv *priv , u32 ord , u32 *val , u32 *len ) { struct ipw2100_ordinals *ordinals ; u32 addr ; int tmp ; int tmp___0 ; { ordinals = & priv->ordinals; if (ord != 0U && ordinals->table1_size > ord) { if (*len != 4U) { *len = 4U; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_ordinal"); printk("wrong size\n"); } else { } return (-22); } else { } read_nic_dword(priv->net_dev, ordinals->table1_addr + (ord << 2), & addr); write_nic_dword(priv->net_dev, addr, *val); *len = 4U; return (0); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_ordinal"); printk("wrong table\n"); } else { } if (ord > 999U && ordinals->table2_size + 1000U > ord) { return (-22); } else { } return (-22); } } static char *snprint_line(char *buf , size_t count , u8 const *data , u32 len , u32 ofs ) { int out ; int i ; int j ; int l ; char c ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; { out = snprintf(buf, count, "%08X", ofs); l = 0; i = 0; goto ldv_60069; ldv_60068: tmp = snprintf(buf + (unsigned long )out, count - (size_t )out, " "); out = tmp + out; j = 0; goto ldv_60063; ldv_60062: tmp___0 = snprintf(buf + (unsigned long )out, count - (size_t )out, "%02X ", (int )*(data + (unsigned long )(i * 8 + j))); out = tmp___0 + out; j = j + 1; l = l + 1; ldv_60063: ; if (j <= 7 && (u32 )l < len) { goto ldv_60062; } else { } goto ldv_60066; ldv_60065: tmp___1 = snprintf(buf + (unsigned long )out, count - (size_t )out, " "); out = tmp___1 + out; j = j + 1; ldv_60066: ; if (j <= 7) { goto ldv_60065; } else { } i = i + 1; ldv_60069: ; if (i <= 1) { goto ldv_60068; } else { } tmp___2 = snprintf(buf + (unsigned long )out, count - (size_t )out, " "); out = tmp___2 + out; l = 0; i = 0; goto ldv_60078; ldv_60077: tmp___3 = snprintf(buf + (unsigned long )out, count - (size_t )out, " "); out = tmp___3 + out; j = 0; goto ldv_60072; ldv_60071: c = (char )*(data + (unsigned long )(i * 8 + j)); if ((int )((signed char )c) < 0 || ((int )_ctype[(int )((unsigned char )c)] & 151) == 0) { c = 46; } else { } tmp___4 = snprintf(buf + (unsigned long )out, count - (size_t )out, "%c", (int )c); out = tmp___4 + out; j = j + 1; l = l + 1; ldv_60072: ; if (j <= 7 && (u32 )l < len) { goto ldv_60071; } else { } goto ldv_60075; ldv_60074: tmp___5 = snprintf(buf + (unsigned long )out, count - (size_t )out, " "); out = tmp___5 + out; j = j + 1; ldv_60075: ; if (j <= 7) { goto ldv_60074; } else { } i = i + 1; ldv_60078: ; if (i <= 1) { goto ldv_60077; } else { } return (buf); } } static void printk_buf(int level , u8 const *data , u32 len ) { char line[81U] ; u32 ofs ; u32 _min1 ; unsigned int _min2 ; char *tmp ; u32 _min1___0 ; unsigned int _min2___0 ; { ofs = 0U; if ((ipw2100_debug_level & (u32 )level) == 0U) { return; } else { } goto ldv_60094; ldv_60093: _min1 = len; _min2 = 16U; tmp = snprint_line((char *)(& line), 81UL, data + (unsigned long )ofs, _min1 < _min2 ? _min1 : _min2, ofs); printk("\017%s\n", tmp); ofs = ofs + 16U; _min1___0 = len; _min2___0 = 16U; len = len - (_min1___0 < _min2___0 ? _min1___0 : _min2___0); ldv_60094: ; if (len != 0U) { goto ldv_60093; } else { } return; } } static void schedule_reset(struct ipw2100_priv *priv ) { unsigned long now ; unsigned long tmp ; int tmp___0 ; int tmp___1 ; { tmp = get_seconds(); now = tmp; if (priv->reset_backoff != 0 && now - priv->last_reset > (unsigned long )priv->reset_backoff) { priv->reset_backoff = 0; } else { } priv->last_reset = get_seconds(); if ((priv->status & 536870912UL) == 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "schedule_reset"); printk("%s: Scheduling firmware restart (%ds).\n", (char *)(& (priv->net_dev)->name), priv->reset_backoff); } else { } netif_carrier_off(priv->net_dev); netif_stop_queue(priv->net_dev); priv->status = priv->status | 536870912UL; if (priv->reset_backoff != 0) { schedule_delayed_work(& priv->reset_work, (unsigned long )(priv->reset_backoff * 250)); } else { schedule_delayed_work(& priv->reset_work, 0UL); } if (priv->reset_backoff <= 9) { priv->reset_backoff = priv->reset_backoff + 1; } else { } __wake_up(& priv->wait_command_queue, 1U, 1, (void *)0); } else if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "schedule_reset"); printk("%s: Firmware restart already in progress.\n", (char *)(& (priv->net_dev)->name)); } else { } return; } } static int ipw2100_hw_send_command(struct ipw2100_priv *priv , struct host_command *cmd ) { struct list_head *element ; struct ipw2100_tx_packet *packet ; unsigned long flags ; int err ; int tmp ; raw_spinlock_t *tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; struct list_head const *__mptr ; long __ret ; wait_queue_t __wait ; long __ret___0 ; long __int ; long tmp___6 ; bool __cond ; bool __cond___0 ; int tmp___7 ; unsigned long tmp___8 ; { err = 0; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("Sending %s command (#%d), %d bytes\n", command_types[cmd->host_command], cmd->host_command, cmd->host_command_length); } else { } printk_buf(32, (u8 const *)(& cmd->host_command_parameters), cmd->host_command_length); tmp___0 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___0); if (priv->fatal_error != 0U) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("Attempt to send command while hardware in fatal error condition.\n"); } else { } err = -5; goto fail_unlock; } else { } if ((priv->status & 4UL) == 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("Attempt to send command while hardware is not running.\n"); } else { } err = -5; goto fail_unlock; } else { } if ((priv->status & 2UL) != 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("Attempt to send command while another command is pending.\n"); } else { } err = -16; goto fail_unlock; } else { } tmp___5 = list_empty((struct list_head const *)(& priv->msg_free_list)); if (tmp___5 != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("no available msg buffers\n"); } else { } goto fail_unlock; } else { } priv->status = priv->status | 2UL; priv->messages_sent = priv->messages_sent + 1; element = priv->msg_free_list.next; __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; packet->jiffy_start = (int )jiffies; (packet->info.c_struct.cmd)->host_command_reg = cmd->host_command; (packet->info.c_struct.cmd)->host_command_reg1 = cmd->host_command1; (packet->info.c_struct.cmd)->host_command_len_reg = cmd->host_command_length; (packet->info.c_struct.cmd)->sequence = cmd->host_command_sequence; memcpy((void *)(& (packet->info.c_struct.cmd)->host_command_params_reg), (void const *)(& cmd->host_command_parameters), 400UL); list_del(element); priv->msg_free_stat.value = priv->msg_free_stat.value - 1; if (priv->msg_free_stat.value < priv->msg_free_stat.lo) { priv->msg_free_stat.lo = priv->msg_free_stat.value; } else { } list_add_tail(element, & priv->msg_pend_list); priv->msg_pend_stat.value = priv->msg_pend_stat.value + 1; if (priv->msg_pend_stat.value > priv->msg_pend_stat.hi) { priv->msg_pend_stat.hi = priv->msg_pend_stat.value; } else { } ipw2100_tx_send_commands(priv); ipw2100_tx_send_data(priv); spin_unlock_irqrestore(& priv->low_lock, flags); __ret = 500L; __might_sleep("/work/ldvuser/mutilin/launch/work/current--X--drivers/--X--defaultlinux-4.2-rc1.tar.xz--X--08_1a--X--cpachecker/linux-4.2-rc1.tar.xz/csd_deg_dscv/12333/dscv_tempdir/dscv/ri/08_1a/drivers/net/wireless/ipw2x00/ipw2100.c", 811, 0); __cond___0 = (priv->status & 2UL) == 0UL; if ((int )__cond___0 && __ret == 0L) { __ret = 1L; } else { } if (((int )__cond___0 || __ret == 0L) == 0) { __ret___0 = 500L; INIT_LIST_HEAD(& __wait.task_list); __wait.flags = 0U; ldv_60126: tmp___6 = prepare_to_wait_event(& priv->wait_command_queue, & __wait, 1); __int = tmp___6; __cond = (priv->status & 2UL) == 0UL; if ((int )__cond && __ret___0 == 0L) { __ret___0 = 1L; } else { } if (((int )__cond || __ret___0 == 0L) != 0) { goto ldv_60125; } else { } if (__int != 0L) { __ret___0 = __int; goto ldv_60125; } else { } __ret___0 = schedule_timeout(__ret___0); goto ldv_60126; ldv_60125: finish_wait(& priv->wait_command_queue, & __wait); __ret = __ret___0; } else { } err = (int )__ret; if (err == 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___7 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___7 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_send_command"); printk("Command completion failed out after %dms.\n", 2000); } else { } priv->fatal_error = 285212672U; priv->status = priv->status & 0xfffffffffffffffdUL; schedule_reset(priv); return (-5); } else { } if (priv->fatal_error != 0U) { printk("\fipw2100: %s: firmware fatal error\n", (char *)(& (priv->net_dev)->name)); return (-5); } else { } tmp___8 = msecs_to_jiffies(10U); schedule_timeout_uninterruptible((long )tmp___8); return (0); fail_unlock: spin_unlock_irqrestore(& priv->low_lock, flags); return (err); } } static int ipw2100_verify(struct ipw2100_priv *priv ) { u32 data1 ; u32 data2 ; u32 address ; u32 val1 ; u32 val2 ; { val1 = 1985229328U; val2 = 4275878552U; address = 144U; goto ldv_60138; ldv_60137: read_register(priv->net_dev, address, & data1); if (data1 != 3579139541U) { return (-5); } else { } address = address + 4U; ldv_60138: ; if (address <= 254U) { goto ldv_60137; } else { } address = 0U; goto ldv_60141; ldv_60140: write_register(priv->net_dev, 562U, val1); write_register(priv->net_dev, 566U, val2); read_register(priv->net_dev, 562U, & data1); read_register(priv->net_dev, 566U, & data2); if (val1 == data1 && val2 == data2) { return (0); } else { } address = address + 1U; ldv_60141: ; if (address <= 4U) { goto ldv_60140; } else { } return (-5); } } static int ipw2100_wait_for_card_state(struct ipw2100_priv *priv , int state ) { int i ; u32 card_state ; u32 len ; int err ; int tmp ; int tmp___0 ; { len = 4U; i = 0; goto ldv_60153; ldv_60152: err = ipw2100_get_ordinal(priv, 157U, (void *)(& card_state), & len); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wait_for_card_state"); printk("Query of CARD_DISABLED ordinal failed.\n"); } else { } return (0); } else { } if ((u32 )state == card_state || ((priv->status & 8UL) == 0UL) == state) { if (state == 0) { priv->status = priv->status | 8UL; } else { priv->status = priv->status & 0xfffffffffffffff7UL; } return (0); } else { } __const_udelay(214750UL); i = i + 50; ldv_60153: ; if (i <= 100000) { goto ldv_60152; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wait_for_card_state"); printk("ipw2100_wait_for_card_state to %s state timed out\n", state != 0 ? (char *)"DISABLED" : (char *)"ENABLED"); } else { } return (-5); } } static int sw_reset_and_clock(struct ipw2100_priv *priv ) { int i ; u32 r ; { write_register(priv->net_dev, 32U, 128U); i = 0; goto ldv_60162; ldv_60161: __const_udelay(42950UL); read_register(priv->net_dev, 32U, & r); if ((int )r & 1) { goto ldv_60160; } else { } i = i + 1; ldv_60162: ; if (i <= 999) { goto ldv_60161; } else { } ldv_60160: ; if (i == 1000) { return (-5); } else { } write_register(priv->net_dev, 36U, 4U); i = 0; goto ldv_60165; ldv_60164: __const_udelay(859000UL); read_register(priv->net_dev, 36U, & r); if ((int )r & 1) { goto ldv_60163; } else { } i = i + 1; ldv_60165: ; if (i <= 9999) { goto ldv_60164; } else { } ldv_60163: ; if (i == 10000) { return (-5); } else { } read_register(priv->net_dev, 36U, & r); write_register(priv->net_dev, 36U, r | 2U); return (0); } } static int ipw2100_download_firmware(struct ipw2100_priv *priv ) { u32 address ; int err ; { if (priv->fatal_error != 0U) { printk("\vipw2100: %s: ipw2100_download_firmware called after fatal error %d. Interface must be brought down.\n", (char *)(& (priv->net_dev)->name), priv->fatal_error); return (-22); } else { } if (ipw2100_firmware.version == 0) { err = ipw2100_get_firmware(priv, & ipw2100_firmware); if (err != 0) { printk("\vipw2100: %s: ipw2100_get_firmware failed: %d\n", (char *)(& (priv->net_dev)->name), err); priv->fatal_error = 301989888U; goto fail; } else { } } else { } priv->firmware_version = ipw2100_firmware.version; err = sw_reset_and_clock(priv); if (err != 0) { printk("\vipw2100: %s: sw_reset_and_clock failed: %d\n", (char *)(& (priv->net_dev)->name), err); goto fail; } else { } err = ipw2100_verify(priv); if (err != 0) { printk("\vipw2100: %s: ipw2100_verify failed: %d\n", (char *)(& (priv->net_dev)->name), err); goto fail; } else { } write_nic_dword(priv->net_dev, 3145952U, 2147483648U); write_register(priv->net_dev, 32U, 0U); err = ipw2100_ucode_download(priv, & ipw2100_firmware); if (err != 0) { printk("\vipw2100: %s: Error loading microcode: %d\n", (char *)(& (priv->net_dev)->name), err); goto fail; } else { } write_nic_dword(priv->net_dev, 3145952U, 0U); err = sw_reset_and_clock(priv); if (err != 0) { printk("\vipw2100: %s: sw_reset_and_clock failed: %d\n", (char *)(& (priv->net_dev)->name), err); goto fail; } else { } err = ipw2100_fw_download(priv, & ipw2100_firmware); if (err != 0) { printk("\vipw2100: %s: Error loading firmware: %d\n", (char *)(& (priv->net_dev)->name), err); goto fail; } else { } address = 193024U; goto ldv_60173; ldv_60172: write_nic_dword(priv->net_dev, address, 0U); address = address + 4U; ldv_60173: ; if (address <= 193807U) { goto ldv_60172; } else { } address = 194064U; goto ldv_60176; ldv_60175: write_nic_dword(priv->net_dev, address, 0U); address = address + 4U; ldv_60176: ; if (address <= 194095U) { goto ldv_60175; } else { } address = 195072U; goto ldv_60179; ldv_60178: write_nic_dword(priv->net_dev, address, 0U); address = address + 4U; ldv_60179: ; if (address <= 195103U) { goto ldv_60178; } else { } address = 195584U; goto ldv_60182; ldv_60181: write_nic_dword(priv->net_dev, address, 0U); address = address + 4U; ldv_60182: ; if (address <= 195599U) { goto ldv_60181; } else { } address = 196480U; goto ldv_60185; ldv_60184: write_nic_dword(priv->net_dev, address, 0U); address = address + 4U; ldv_60185: ; if (address <= 196607U) { goto ldv_60184; } else { } return (0); fail: ipw2100_release_firmware(priv, & ipw2100_firmware); return (err); } } __inline static void ipw2100_enable_interrupts(struct ipw2100_priv *priv ) { { if ((priv->status & 2048UL) != 0UL) { return; } else { } priv->status = priv->status | 2048UL; write_register(priv->net_dev, 12U, 3238068243U); return; } } __inline static void ipw2100_disable_interrupts(struct ipw2100_priv *priv ) { { if ((priv->status & 2048UL) == 0UL) { return; } else { } priv->status = priv->status & 0xfffffffffffff7ffUL; write_register(priv->net_dev, 12U, 0U); return; } } static void ipw2100_initialize_ordinals(struct ipw2100_priv *priv ) { struct ipw2100_ordinals *ord ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { ord = & priv->ordinals; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_initialize_ordinals"); printk("enter\n"); } else { } read_register(priv->net_dev, 896U, & ord->table1_addr); read_register(priv->net_dev, 900U, & ord->table2_addr); read_nic_dword(priv->net_dev, ord->table1_addr, & ord->table1_size); read_nic_dword(priv->net_dev, ord->table2_addr, & ord->table2_size); ord->table2_size = ord->table2_size & 65535U; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_initialize_ordinals"); printk("table 1 size: %d\n", ord->table1_size); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_initialize_ordinals"); printk("table 2 size: %d\n", ord->table2_size); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_initialize_ordinals"); printk("exit\n"); } else { } return; } } __inline static void ipw2100_hw_set_gpio(struct ipw2100_priv *priv ) { u32 reg ; { reg = 0U; reg = 8392U; write_register(priv->net_dev, 48U, reg); return; } } static int rf_kill_active(struct ipw2100_priv *priv ) { unsigned short value ; u32 reg ; int i ; { value = 0U; reg = 0U; if ((priv->hw_features & 1UL) == 0UL) { wiphy_rfkill_set_hw_state((priv->ieee)->wdev.wiphy, 0); priv->status = priv->status & 0xffffffffffffefffUL; return (0); } else { } i = 0; goto ldv_60209; ldv_60208: __const_udelay(171800UL); read_register(priv->net_dev, 48U, & reg); value = (unsigned short )((int )((short )((int )value << 1)) | ((reg & 65536U) == 0U)); i = i + 1; ldv_60209: ; if (i <= 4) { goto ldv_60208; } else { } if ((unsigned int )value == 0U) { wiphy_rfkill_set_hw_state((priv->ieee)->wdev.wiphy, 1); priv->status = priv->status | 4096UL; } else { wiphy_rfkill_set_hw_state((priv->ieee)->wdev.wiphy, 0); priv->status = priv->status & 0xffffffffffffefffUL; } return ((unsigned int )value == 0U); } } static int ipw2100_get_hw_features(struct ipw2100_priv *priv ) { u32 addr ; u32 len ; u32 val ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { len = 4U; tmp___0 = ipw2100_get_ordinal(priv, 204U, (void *)(& addr), & len); if (tmp___0 != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_hw_features"); printk("failed querying ordinals at line %d\n", 1210); } else { } return (-5); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_hw_features"); printk("EEPROM address: %08X\n", addr); } else { } read_nic_dword(priv->net_dev, addr + 252U, & val); priv->eeprom_version = (int )(val >> 24); if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_hw_features"); printk("EEPROM version: %d\n", priv->eeprom_version); } else { } read_nic_dword(priv->net_dev, addr + 32U, & val); if ((val & 16777216U) == 0U) { priv->hw_features = priv->hw_features | 1UL; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_hw_features"); printk("HW RF Kill: %ssupported.\n", (int )priv->hw_features & 1 ? (char *)"" : (char *)"not "); } else { } return (0); } } static int ipw2100_start_adapter(struct ipw2100_priv *priv ) { int i ; u32 inta ; u32 inta_mask ; u32 gpio ; int tmp ; int tmp___0 ; int tmp___1 ; unsigned long tmp___2 ; int tmp___3 ; int tmp___4 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_adapter"); printk("enter\n"); } else { } if ((priv->status & 4UL) != 0UL) { return (0); } else { } tmp___0 = ipw2100_download_firmware(priv); if (tmp___0 != 0) { printk("\vipw2100: %s: Failed to power on the adapter.\n", (char *)(& (priv->net_dev)->name)); return (-5); } else { } ipw2100_queues_initialize(priv); ipw2100_hw_set_gpio(priv); write_register(priv->net_dev, 32U, 0U); if ((ipw2100_debug_level & 65536U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_adapter"); printk("Waiting for f/w initialization to complete...\n"); } else { } i = 5000; ldv_60227: tmp___2 = msecs_to_jiffies(40U); schedule_timeout_uninterruptible((long )tmp___2); read_register(priv->net_dev, 8U, & inta); if ((inta & 16777216U) != 0U) { write_register(priv->net_dev, 8U, 16777216U); goto ldv_60226; } else { } if ((inta & 3221225472U) != 0U) { write_register(priv->net_dev, 8U, 3221225472U); } else { } i = i - 1; if (i != 0) { goto ldv_60227; } else { } ldv_60226: read_register(priv->net_dev, 8U, & inta); read_register(priv->net_dev, 12U, & inta_mask); inta = inta & 3238068243U; if ((inta & inta_mask) != 0U) { write_register(priv->net_dev, 8U, inta); } else { } if ((ipw2100_debug_level & 65536U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_adapter"); printk("f/w initialization complete: %s\n", i != 0 ? (char *)"SUCCESS" : (char *)"FAILED"); } else { } if (i == 0) { printk("\fipw2100: %s: Firmware did not initialize.\n", (char *)(& (priv->net_dev)->name)); return (-5); } else { } read_register(priv->net_dev, 48U, & gpio); gpio = gpio | 204U; write_register(priv->net_dev, 48U, gpio); priv->status = priv->status | 4UL; priv->status = priv->status & 0xfffffffffffff9ffUL; if ((ipw2100_debug_level & 4U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_adapter"); printk("exit\n"); } else { } return (0); } } __inline static void ipw2100_reset_fatalerror(struct ipw2100_priv *priv ) { u32 tmp ; { if (priv->fatal_error == 0U) { return; } else { } tmp = priv->fatal_index; priv->fatal_index = priv->fatal_index + 1U; priv->fatal_errors[tmp] = priv->fatal_error; priv->fatal_index = priv->fatal_index % 5U; priv->fatal_error = 0U; return; } } static int ipw2100_power_cycle_adapter(struct ipw2100_priv *priv ) { u32 reg ; int i ; int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_power_cycle_adapter"); printk("Power cycling the hardware.\n"); } else { } ipw2100_hw_set_gpio(priv); write_register(priv->net_dev, 32U, 512U); i = 5; ldv_60238: __const_udelay(42950UL); read_register(priv->net_dev, 32U, & reg); if ((reg & 256U) != 0U) { goto ldv_60237; } else { } i = i - 1; if (i != 0) { goto ldv_60238; } else { } ldv_60237: priv->status = priv->status & 0xffffffffdfffffffUL; if (i == 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_power_cycle_adapter"); printk("exit - waited too long for master assert stop\n"); } else { } return (-5); } else { } write_register(priv->net_dev, 32U, 128U); ipw2100_reset_fatalerror(priv); priv->status = priv->status & 0xfffffffffffff9f3UL; return (0); } } static int ipw2100_hw_phy_off(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int i ; u32 val1 ; u32 val2 ; int tmp ; { cmd.host_command = 61U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 0U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_phy_off"); printk("CARD_DISABLE_PHY_OFF\n"); } else { } err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } i = 0; goto ldv_60249; ldv_60248: read_nic_dword(priv->net_dev, 2228224U, & val1); read_nic_dword(priv->net_dev, 3145732U, & val2); if ((val1 & 8U) != 0U && (int )val2 & 1) { return (0); } else { } schedule_timeout_uninterruptible(0L); i = i + 1; ldv_60249: ; if (i <= 2499) { goto ldv_60248; } else { } return (-5); } } static int ipw2100_enable_adapter(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { cmd.host_command = 2U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 0U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; err = 0; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_enable_adapter"); printk("HOST_COMPLETE\n"); } else { } if ((priv->status & 8UL) != 0UL) { return (0); } else { } mutex_lock_nested(& priv->adapter_mutex, 0U); tmp___1 = rf_kill_active(priv); if (tmp___1 != 0) { if ((ipw2100_debug_level & 32U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_enable_adapter"); printk("Command aborted due to RF kill active.\n"); } else { } goto fail_up; } else { } err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_enable_adapter"); printk("Failed to send HOST_COMPLETE command\n"); } else { } goto fail_up; } else { } err = ipw2100_wait_for_card_state(priv, 0); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_enable_adapter"); printk("%s: card not responding to init command.\n", (char *)(& (priv->net_dev)->name)); } else { } goto fail_up; } else { } if (priv->stop_hang_check != 0) { priv->stop_hang_check = 0; schedule_delayed_work(& priv->hang_check, 125UL); } else { } fail_up: mutex_unlock(& priv->adapter_mutex); return (err); } } static int ipw2100_hw_stop_adapter(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int i ; u32 reg ; int tmp ; unsigned long tmp___0 ; { cmd.host_command = 58U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 0U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((priv->status & 4UL) == 0UL) { return (0); } else { } priv->status = priv->status | 16UL; if (priv->fatal_error == 0U) { ipw2100_enable_adapter(priv); err = ipw2100_hw_phy_off(priv); if (err != 0) { printk("\fipw2100: Error disabling radio %d\n", err); } else { } if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hw_stop_adapter"); printk("HOST_PRE_POWER_DOWN\n"); } else { } err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { printk("\fipw2100: %s: Power down command failed: Error %d\n", (char *)(& (priv->net_dev)->name), err); } else { tmp___0 = msecs_to_jiffies(100U); schedule_timeout_uninterruptible((long )tmp___0); } } else { } priv->status = priv->status & 0xfffffffffffffff7UL; ipw2100_hw_set_gpio(priv); write_register(priv->net_dev, 32U, 512U); i = 5; goto ldv_60268; ldv_60267: __const_udelay(42950UL); read_register(priv->net_dev, 32U, & reg); if ((reg & 256U) != 0U) { goto ldv_60266; } else { } i = i - 1; ldv_60268: ; if (i > 0) { goto ldv_60267; } else { } ldv_60266: ; if (i == 0) { printk("\fipw2100: %s: Could now power down adapter.\n", (char *)(& (priv->net_dev)->name)); } else { } write_register(priv->net_dev, 32U, 128U); priv->status = priv->status & 0xffffffffffffffebUL; return (0); } } static int ipw2100_disable_adapter(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; { cmd.host_command = 44U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 0U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; err = 0; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_disable_adapter"); printk("CARD_DISABLE\n"); } else { } if ((priv->status & 8UL) == 0UL) { return (0); } else { } priv->status = priv->status & 0xfffffffffffff9ffUL; if (priv->stop_hang_check == 0) { priv->stop_hang_check = 1; ldv_cancel_delayed_work_10(& priv->hang_check); } else { } mutex_lock_nested(& priv->adapter_mutex, 0U); err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { printk("\fipw2100: exit - failed to send CARD_DISABLE command\n"); goto fail_up; } else { } err = ipw2100_wait_for_card_state(priv, 1); if (err != 0) { printk("\fipw2100: exit - card failed to change to DISABLED\n"); goto fail_up; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_disable_adapter"); printk("TODO: implement scan state machine\n"); } else { } fail_up: mutex_unlock(& priv->adapter_mutex); return (err); } } static int ipw2100_set_scan_options(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; { cmd.host_command = 46U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 8U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_scan_options"); printk("enter\n"); } else { } if ((ipw2100_debug_level & 2048U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_scan_options"); printk("setting scan options\n"); } else { } cmd.host_command_parameters[0] = 0U; if ((priv->config & 64UL) == 0UL) { cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 1U; } else { } if (((int )(priv->ieee)->sec.flags & 256) != 0 && (unsigned int )*((unsigned char *)priv->ieee + 984UL) != 0U) { cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 2U; } else { } if ((priv->config & 1024UL) != 0UL) { cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 8U; } else { } cmd.host_command_parameters[1] = priv->channel_mask; err = ipw2100_hw_send_command(priv, & cmd); if ((ipw2100_debug_level & 32U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_scan_options"); printk("SET_SCAN_OPTIONS 0x%04X\n", cmd.host_command_parameters[0]); } else { } return (err); } } static int ipw2100_start_scan(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { cmd.host_command = 43U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_scan"); printk("START_SCAN\n"); } else { } cmd.host_command_parameters[0] = 0U; if ((priv->ieee)->iw_mode == 6) { return (1); } else { } if ((priv->status & 16777216UL) != 0UL) { if ((ipw2100_debug_level & 2048U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_scan"); printk("Scan requested while already in scan...\n"); } else { } return (0); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_scan"); printk("enter\n"); } else { } if ((ipw2100_debug_level & 2048U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_scan"); printk("starting scan\n"); } else { } priv->status = priv->status | 16777216UL; err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { priv->status = priv->status & 0xfffffffffeffffffUL; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_start_scan"); printk("exit\n"); } else { } return (err); } } static struct libipw_geo const ipw_geos[1U] = { {{'-', '-', '-', '\000'}, 14U, (unsigned char)0, {{2412U, 1U, (unsigned char)0, (unsigned char)0}, {2417U, 2U, (unsigned char)0, (unsigned char)0}, {2422U, 3U, (unsigned char)0, (unsigned char)0}, {2427U, 4U, (unsigned char)0, (unsigned char)0}, {2432U, 5U, (unsigned char)0, (unsigned char)0}, {2437U, 6U, (unsigned char)0, (unsigned char)0}, {2442U, 7U, (unsigned char)0, (unsigned char)0}, {2447U, 8U, (unsigned char)0, (unsigned char)0}, {2452U, 9U, (unsigned char)0, (unsigned char)0}, {2457U, 10U, (unsigned char)0, (unsigned char)0}, {2462U, 11U, (unsigned char)0, (unsigned char)0}, {2467U, 12U, (unsigned char)0, (unsigned char)0}, {2472U, 13U, (unsigned char)0, (unsigned char)0}, {2484U, 14U, (unsigned char)0, (unsigned char)0}}, {{0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}, {0U, (unsigned char)0, (unsigned char)0, (unsigned char)0}}}}; static int ipw2100_up(struct ipw2100_priv *priv , int deferred ) { unsigned long flags ; int rc ; u32 lock ; u32 ord_len ; int tmp ; raw_spinlock_t *tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; unsigned long tmp___5 ; int tmp___6 ; int tmp___7 ; int tmp___8 ; { rc = 0; ord_len = 4U; if (priv->suspend_time != 0UL) { libipw_networks_age(priv->ieee, priv->suspend_time); priv->suspend_time = 0UL; } else { } if ((priv->status & 8192UL) != 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_up"); printk("%s: Radio is disabled by Manual Disable switch\n", (char *)(& (priv->net_dev)->name)); } else { } return (0); } else { } pm_qos_update_request(& ipw2100_pm_qos_req, 175); tmp___0 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___0); ipw2100_disable_interrupts(priv); ipw2100_reset_fatalerror(priv); spin_unlock_irqrestore(& priv->low_lock, flags); if ((int )priv->status & 1 || (priv->status & 536870912UL) != 0UL) { tmp___1 = ipw2100_power_cycle_adapter(priv); if (tmp___1 != 0) { printk("\fipw2100: %s: Could not cycle adapter.\n", (char *)(& (priv->net_dev)->name)); rc = 1; goto exit; } else { } } else { priv->status = priv->status | 1UL; } tmp___2 = ipw2100_start_adapter(priv); if (tmp___2 != 0) { printk("\vipw2100: %s: Failed to start the firmware.\n", (char *)(& (priv->net_dev)->name)); rc = 1; goto exit; } else { } ipw2100_initialize_ordinals(priv); tmp___3 = ipw2100_get_hw_features(priv); if (tmp___3 != 0) { printk("\vipw2100: %s: Failed to determine HW features.\n", (char *)(& (priv->net_dev)->name)); rc = 1; goto exit; } else { } libipw_set_geo(priv->ieee, (struct libipw_geo const *)(& ipw_geos)); (priv->ieee)->freq_band = 1; lock = 0U; tmp___4 = ipw2100_set_ordinal(priv, 120U, & lock, & ord_len); if (tmp___4 != 0) { printk("\vipw2100: %s: Failed to clear ordinal lock.\n", (char *)(& (priv->net_dev)->name)); rc = 1; goto exit; } else { } priv->status = priv->status & 0xfffffffffeffffffUL; tmp___6 = rf_kill_active(priv); if (tmp___6 != 0) { printk("\016%s: Radio is disabled by RF switch.\n", (char *)(& (priv->net_dev)->name)); if (priv->stop_rf_kill != 0) { priv->stop_rf_kill = 0; tmp___5 = round_jiffies_relative(250UL); schedule_delayed_work(& priv->rf_kill, tmp___5); } else { } deferred = 1; } else { } ipw2100_enable_interrupts(priv); tmp___7 = ipw2100_adapter_setup(priv); if (tmp___7 != 0) { printk("\vipw2100: %s: Failed to start the card.\n", (char *)(& (priv->net_dev)->name)); rc = 1; goto exit; } else { } if (deferred == 0) { tmp___8 = ipw2100_enable_adapter(priv); if (tmp___8 != 0) { printk("\vipw2100: %s: failed in call to enable adapter.\n", (char *)(& (priv->net_dev)->name)); ipw2100_hw_stop_adapter(priv); rc = 1; goto exit; } else { } ipw2100_set_scan_options(priv); ipw2100_start_scan(priv); } else { } exit: ; return (rc); } } static void ipw2100_down(struct ipw2100_priv *priv ) { unsigned long flags ; union iwreq_data wrqu ; int associated ; raw_spinlock_t *tmp ; int tmp___0 ; raw_spinlock_t *tmp___1 ; { wrqu.ap_addr.sa_family = 1U; wrqu.ap_addr.sa_data[0] = (char)0; wrqu.ap_addr.sa_data[1] = (char)0; wrqu.ap_addr.sa_data[2] = (char)0; wrqu.ap_addr.sa_data[3] = (char)0; wrqu.ap_addr.sa_data[4] = (char)0; wrqu.ap_addr.sa_data[5] = (char)0; wrqu.ap_addr.sa_data[6] = (char)0; wrqu.ap_addr.sa_data[7] = (char)0; wrqu.ap_addr.sa_data[8] = (char)0; wrqu.ap_addr.sa_data[9] = (char)0; wrqu.ap_addr.sa_data[10] = (char)0; wrqu.ap_addr.sa_data[11] = (char)0; wrqu.ap_addr.sa_data[12] = (char)0; wrqu.ap_addr.sa_data[13] = (char)0; associated = (int )priv->status & 1024; if (priv->stop_rf_kill == 0) { priv->stop_rf_kill = 1; ldv_cancel_delayed_work_11(& priv->rf_kill); } else { } if (priv->stop_hang_check == 0) { priv->stop_hang_check = 1; ldv_cancel_delayed_work_12(& priv->hang_check); } else { } if ((priv->status & 536870912UL) != 0UL) { ldv_cancel_delayed_work_13(& priv->reset_work); } else { } tmp = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp); ipw2100_enable_interrupts(priv); spin_unlock_irqrestore(& priv->low_lock, flags); tmp___0 = ipw2100_hw_stop_adapter(priv); if (tmp___0 != 0) { printk("\vipw2100: %s: Error stopping adapter.\n", (char *)(& (priv->net_dev)->name)); } else { } tmp___1 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___1); ipw2100_disable_interrupts(priv); spin_unlock_irqrestore(& priv->low_lock, flags); pm_qos_update_request(& ipw2100_pm_qos_req, -1); if (associated != 0) { wireless_send_event(priv->net_dev, 35605U, & wrqu, (char const *)0); } else { } priv->status = priv->status & 0xfffffffffffff9ffUL; netif_carrier_off(priv->net_dev); netif_stop_queue(priv->net_dev); return; } } static int ipw2100_wdev_init(struct net_device *dev ) { struct ipw2100_priv *priv ; void *tmp ; struct libipw_geo const *geo ; struct libipw_geo const *tmp___0 ; struct wireless_dev *wdev ; int i ; struct ieee80211_supported_band *bg_band ; void *tmp___1 ; int tmp___2 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_get_geo(priv->ieee); geo = tmp___0; wdev = & (priv->ieee)->wdev; memcpy((void *)(& (wdev->wiphy)->perm_addr), (void const *)(& priv->mac_addr), 6UL); if ((unsigned int )((unsigned char )geo->bg_channels) != 0U) { bg_band = & (priv->ieee)->bg_band; bg_band->band = 0; bg_band->n_channels = (int )geo->bg_channels; tmp___1 = kcalloc((size_t )geo->bg_channels, 64UL, 208U); bg_band->channels = (struct ieee80211_channel *)tmp___1; if ((unsigned long )bg_band->channels == (unsigned long )((struct ieee80211_channel *)0)) { ipw2100_down(priv); return (-12); } else { } i = 0; goto ldv_60323; ldv_60322: (bg_band->channels + (unsigned long )i)->band = 0; (bg_band->channels + (unsigned long )i)->center_freq = (u16 )geo->bg[i].freq; (bg_band->channels + (unsigned long )i)->hw_value = (u16 )geo->bg[i].channel; (bg_band->channels + (unsigned long )i)->max_power = (int )geo->bg[i].max_power; if ((int )geo->bg[i].flags & 1) { (bg_band->channels + (unsigned long )i)->flags = (bg_band->channels + (unsigned long )i)->flags | 2U; } else { } if (((int )geo->bg[i].flags & 8) != 0) { (bg_band->channels + (unsigned long )i)->flags = (bg_band->channels + (unsigned long )i)->flags | 2U; } else { } if (((int )geo->bg[i].flags & 32) != 0) { (bg_band->channels + (unsigned long )i)->flags = (bg_band->channels + (unsigned long )i)->flags | 8U; } else { } i = i + 1; ldv_60323: ; if ((int )geo->bg_channels > i) { goto ldv_60322; } else { } bg_band->bitrates = (struct ieee80211_rate *)(& ipw2100_bg_rates); bg_band->n_bitrates = 4; (wdev->wiphy)->bands[0] = bg_band; } else { } (wdev->wiphy)->cipher_suites = (u32 const *)(& ipw_cipher_suites); (wdev->wiphy)->n_cipher_suites = 4; set_wiphy_dev(wdev->wiphy, & (priv->pci_dev)->dev); tmp___2 = wiphy_register(wdev->wiphy); if (tmp___2 != 0) { return (-5); } else { } return (0); } } static void ipw2100_reset_adapter(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; unsigned long flags ; union iwreq_data wrqu ; int associated ; raw_spinlock_t *tmp ; int tmp___0 ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffffbc8UL; wrqu.ap_addr.sa_family = 1U; wrqu.ap_addr.sa_data[0] = (char)0; wrqu.ap_addr.sa_data[1] = (char)0; wrqu.ap_addr.sa_data[2] = (char)0; wrqu.ap_addr.sa_data[3] = (char)0; wrqu.ap_addr.sa_data[4] = (char)0; wrqu.ap_addr.sa_data[5] = (char)0; wrqu.ap_addr.sa_data[6] = (char)0; wrqu.ap_addr.sa_data[7] = (char)0; wrqu.ap_addr.sa_data[8] = (char)0; wrqu.ap_addr.sa_data[9] = (char)0; wrqu.ap_addr.sa_data[10] = (char)0; wrqu.ap_addr.sa_data[11] = (char)0; wrqu.ap_addr.sa_data[12] = (char)0; wrqu.ap_addr.sa_data[13] = (char)0; associated = (int )priv->status & 1024; tmp = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp); if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_reset_adapter"); printk(": %s: Restarting adapter.\n", (char *)(& (priv->net_dev)->name)); } else { } priv->resets = priv->resets + 1; priv->status = priv->status & 0xfffffffffffff9ffUL; priv->status = priv->status | 1073741824UL; ldv_cancel_delayed_work_14(& priv->reset_work); priv->status = priv->status | 536870912UL; spin_unlock_irqrestore(& priv->low_lock, flags); mutex_lock_nested(& priv->action_mutex, 0U); priv->stop_hang_check = 1; ldv_cancel_delayed_work_15(& priv->hang_check); if (associated != 0) { wireless_send_event(priv->net_dev, 35605U, & wrqu, (char const *)0); } else { } ipw2100_up(priv, 0); mutex_unlock(& priv->action_mutex); return; } } static void isr_indicate_associated(struct ipw2100_priv *priv , u32 status ) { int ret ; unsigned int len ; unsigned int essid_len ; char essid[32U] ; u32 txrate ; u32 chan ; char *txratename ; u8 bssid[6U] ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; unsigned char _min1 ; unsigned char _min2 ; { essid_len = 32U; ret = ipw2100_get_ordinal(priv, 1006U, (void *)(& essid), & essid_len); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("failed querying ordinals at line %d\n", 2021); } else { } return; } else { } len = 4U; ret = ipw2100_get_ordinal(priv, 192U, (void *)(& txrate), & len); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("failed querying ordinals at line %d\n", 2029); } else { } return; } else { } len = 4U; ret = ipw2100_get_ordinal(priv, 189U, (void *)(& chan), & len); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("failed querying ordinals at line %d\n", 2037); } else { } return; } else { } len = 6U; ret = ipw2100_get_ordinal(priv, 1014U, (void *)(& bssid), & len); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("failed querying ordinals at line %d\n", 2045); } else { } return; } else { } memcpy((void *)(& (priv->ieee)->bssid), (void const *)(& bssid), 6UL); switch (txrate) { case 1U: txratename = (char *)"1Mbps"; goto ldv_60356; case 2U: txratename = (char *)"2Mbsp"; goto ldv_60356; case 4U: txratename = (char *)"5.5Mbps"; goto ldv_60356; case 8U: txratename = (char *)"11Mbps"; goto ldv_60356; default: ; if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("Unknown rate: %d\n", txrate); } else { } txratename = (char *)"unknown rate"; goto ldv_60356; } ldv_60356: ; if ((ipw2100_debug_level & 4U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_associated"); printk("%s: Associated with \'%*pE\' at %s, channel %d (BSSID=%pM)\n", (char *)(& (priv->net_dev)->name), essid_len, (char *)(& essid), txratename, chan, (u8 *)(& bssid)); } else { } if ((priv->config & 2UL) == 0UL) { _min1 = (unsigned char )essid_len; _min2 = 32U; priv->essid_len = (u8 )((int )_min1 < (int )_min2 ? (int )_min1 : (int )_min2); memcpy((void *)(& priv->essid), (void const *)(& essid), (size_t )priv->essid_len); } else { } priv->channel = (u8 )chan; memcpy((void *)(& priv->bssid), (void const *)(& bssid), 6UL); priv->status = priv->status | 512UL; priv->connect_start = get_seconds(); schedule_delayed_work(& priv->wx_event_work, 25UL); return; } } static int ipw2100_set_essid(struct ipw2100_priv *priv , char *essid , int length , int batch_mode ) { int ssid_len ; int _min1 ; int _min2 ; struct host_command cmd ; int err ; int tmp ; int i ; u8 *bogus ; int tmp___0 ; { _min1 = length; _min2 = 32; ssid_len = _min1 < _min2 ? _min1 : _min2; cmd.host_command = 8U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = (unsigned int )ssid_len; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_essid"); printk("SSID: \'%*pE\'\n", ssid_len, essid); } else { } if (ssid_len != 0) { memcpy((void *)(& cmd.host_command_parameters), (void const *)essid, (size_t )ssid_len); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } if (ssid_len == 0 && (priv->config & 64UL) == 0UL) { bogus = (u8 *)(& cmd.host_command_parameters); i = 0; goto ldv_60380; ldv_60379: *(bogus + (unsigned long )i) = (unsigned int )((u8 )i) + 24U; i = i + 1; ldv_60380: ; if (i <= 31) { goto ldv_60379; } else { } cmd.host_command_length = 32U; } else { } err = ipw2100_hw_send_command(priv, & cmd); if (err == 0) { memset((void *)(& priv->essid) + (unsigned long )ssid_len, 0, (size_t )(32 - ssid_len)); memcpy((void *)(& priv->essid), (void const *)essid, (size_t )ssid_len); priv->essid_len = (u8 )ssid_len; } else { } if (batch_mode == 0) { tmp___0 = ipw2100_enable_adapter(priv); if (tmp___0 != 0) { err = -5; } else { } } else { } return (err); } } static void isr_indicate_association_lost(struct ipw2100_priv *priv , u32 status ) { int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 5184U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_association_lost"); printk("disassociated: \'%*pE\' %pM\n", (int )priv->essid_len, (u8 *)(& priv->essid), (u8 *)(& priv->bssid)); } else { } priv->status = priv->status & 0xfffffffffffff9ffUL; if ((priv->status & 16UL) != 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_association_lost"); printk("Card is stopping itself, discard ASSN_LOST.\n"); } else { } return; } else { } eth_zero_addr((u8 *)(& priv->bssid)); eth_zero_addr((u8 *)(& (priv->ieee)->bssid)); netif_carrier_off(priv->net_dev); netif_stop_queue(priv->net_dev); if ((priv->status & 4UL) == 0UL) { return; } else { } if ((priv->status & 1073741824UL) != 0UL) { schedule_delayed_work(& priv->security_work, 0UL); } else { } schedule_delayed_work(& priv->wx_event_work, 0UL); return; } } static void isr_indicate_rf_kill(struct ipw2100_priv *priv , u32 status ) { int tmp ; unsigned long tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_rf_kill"); printk("%s: RF Kill state changed to radio OFF.\n", (char *)(& (priv->net_dev)->name)); } else { } wiphy_rfkill_set_hw_state((priv->ieee)->wdev.wiphy, 1); priv->status = priv->status | 4096UL; priv->stop_rf_kill = 0; tmp___0 = round_jiffies_relative(250UL); mod_delayed_work(system_wq, & priv->rf_kill, tmp___0); return; } } static void ipw2100_scan_event(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; union iwreq_data wrqu ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffff768UL; wrqu.data.length = 0U; wrqu.data.flags = 0U; wireless_send_event(priv->net_dev, 35609U, & wrqu, (char const *)0); return; } } static void isr_scan_complete(struct ipw2100_priv *priv , u32 status ) { int tmp ; unsigned long tmp___0 ; unsigned long tmp___1 ; { if ((ipw2100_debug_level & 2048U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_scan_complete"); printk("scan complete\n"); } else { } (priv->ieee)->scans = (priv->ieee)->scans + 1; priv->status = priv->status & 0xfffffffffeffffffUL; if (priv->user_requested_scan == 0) { tmp___0 = msecs_to_jiffies(4000U); tmp___1 = round_jiffies_relative(tmp___0); schedule_delayed_work(& priv->scan_event, tmp___1); } else { priv->user_requested_scan = 0; mod_delayed_work(system_wq, & priv->scan_event, 0UL); } return; } } static void isr_indicate_scanning(struct ipw2100_priv *priv , u32 status ) { int tmp ; { if ((ipw2100_debug_level & 2048U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_indicate_scanning"); printk("Scanning...\n"); } else { } priv->status = priv->status | 16777216UL; return; } } static struct ipw2100_status_indicator const status_handlers[13U] = { {1, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_INITIALIZED"}, {2, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_COUNTRY_FOUND"}, {4, & isr_indicate_associated, (char *)"IPW_STATE_ASSOCIATED"}, {8, & isr_indicate_association_lost, (char *)"IPW_STATE_ASSN_LOST"}, {16, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_ASSN_CHANGED"}, {32, & isr_scan_complete, (char *)"IPW_STATE_SCAN_COMPLETE"}, {64, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_ENTERED_PSP"}, {128, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_LEFT_PSP"}, {256, & isr_indicate_rf_kill, (char *)"IPW_STATE_RF_KILL"}, {512, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_DISABLED"}, {1024, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"IPW_STATE_POWER_DOWN"}, {2048, & isr_indicate_scanning, (char *)"IPW_STATE_SCANNING"}, {-1, (void (*)(struct ipw2100_priv * , u32 ))0, (char *)"-1"}}; static void isr_status_change(struct ipw2100_priv *priv , int status ) { int i ; int tmp ; int tmp___0 ; int tmp___1 ; { if ((status == 2048 && (priv->status & 1024UL) != 0UL) && (priv->status & 16777216UL) == 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_status_change"); printk("Scan detected while associated, with no scan request. Restarting firmware.\n"); } else { } schedule_reset(priv); } else { } i = 0; goto ldv_60423; ldv_60422: ; if ((int )status_handlers[i].status == status) { if ((ipw2100_debug_level & 1024U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "isr_status_change"); printk("Status change: %s\n", status_handlers[i].name); } else { } if ((unsigned long )status_handlers[i].cb != (unsigned long )((void (*/* const */)(struct ipw2100_priv * , u32 ))0)) { (*(status_handlers[i].cb))(priv, (u32 )status); } else { } priv->wstats.status = (__u16 )status; return; } else { } i = i + 1; ldv_60423: ; if ((int )status_handlers[i].status != -1) { goto ldv_60422; } else { } if ((ipw2100_debug_level & 1024U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "isr_status_change"); printk("unknown status received: %04x\n", status); } else { } return; } } static void isr_rx_complete_command(struct ipw2100_priv *priv , struct ipw2100_cmd_header *cmd ) { int tmp ; { if (cmd->host_command_reg <= 69U) { if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_rx_complete_command"); printk("Command completed \'%s (%d)\'\n", command_types[cmd->host_command_reg], cmd->host_command_reg); } else { } } else { } if (cmd->host_command_reg == 2U) { priv->status = priv->status | 8UL; } else { } if (cmd->host_command_reg == 44U) { priv->status = priv->status & 0xfffffffffffffff7UL; } else { } priv->status = priv->status & 0xfffffffffffffffdUL; __wake_up(& priv->wait_command_queue, 1U, 1, (void *)0); return; } } static char const *frame_types[5U] = { "COMMAND_STATUS_VAL", "STATUS_CHANGE_VAL", "P80211_DATA_VAL", "P8023_DATA_VAL", "HOST_NOTIFICATION_VAL"}; static int ipw2100_alloc_skb(struct ipw2100_priv *priv , struct ipw2100_rx_packet *packet ) { { packet->skb = dev_alloc_skb(2340U); if ((unsigned long )packet->skb == (unsigned long )((struct sk_buff *)0)) { return (-12); } else { } packet->rxp = (struct ipw2100_rx *)(packet->skb)->data; packet->dma_addr = pci_map_single(priv->pci_dev, (void *)(packet->skb)->data, 2340UL, 2); return (0); } } static void ipw2100_snapshot_free(struct ipw2100_priv *priv ) { int i ; { if ((unsigned long )priv->snapshot[0] == (unsigned long )((u8 *)0U)) { return; } else { } i = 0; goto ldv_60442; ldv_60441: kfree((void const *)priv->snapshot[i]); i = i + 1; ldv_60442: ; if (i <= 47) { goto ldv_60441; } else { } priv->snapshot[0] = (u8 *)0U; return; } } static u8 packet_data[2340U] ; static void ipw2100_corruption_detected(struct ipw2100_priv *priv , int i ) { int tmp ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_corruption_detected"); printk(": PCI latency error detected at 0x%04zX.\n", (unsigned long )i * 8UL); } else { } priv->fatal_error = 268435456U; (priv->net_dev)->stats.rx_errors = (priv->net_dev)->stats.rx_errors + 1UL; schedule_reset(priv); return; } } static void isr_rx(struct ipw2100_priv *priv , int i , struct libipw_rx_stats *stats ) { struct net_device *dev ; struct ipw2100_status *status ; struct ipw2100_rx_packet *packet ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; long tmp___3 ; int tmp___4 ; bool tmp___5 ; int tmp___6 ; long tmp___7 ; int tmp___8 ; long tmp___9 ; u32 __min1 ; u32 __min2 ; int tmp___10 ; int tmp___11 ; int tmp___12 ; int tmp___13 ; long tmp___14 ; { dev = priv->net_dev; status = priv->status_queue.drv + (unsigned long )i; packet = priv->rx_buffers + (unsigned long )i; if ((ipw2100_debug_level & 16777216U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); printk("Handler...\n"); } else { } tmp___2 = skb_tailroom((struct sk_buff const *)packet->skb); tmp___3 = ldv__builtin_expect(status->frame_size > (u32 )tmp___2, 0L); if (tmp___3 != 0L) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); tmp___1 = skb_tailroom((struct sk_buff const *)packet->skb); printk("%s: frame_size (%u) > skb_tailroom (%u)! Dropping.\n", (char *)(& dev->name), status->frame_size, tmp___1); } else { } dev->stats.rx_errors = dev->stats.rx_errors + 1UL; return; } else { } tmp___5 = netif_running((struct net_device const *)dev); if (tmp___5) { tmp___6 = 0; } else { tmp___6 = 1; } tmp___7 = ldv__builtin_expect((long )tmp___6, 0L); if (tmp___7 != 0L) { dev->stats.rx_errors = dev->stats.rx_errors + 1UL; priv->wstats.discard.misc = priv->wstats.discard.misc + 1U; if ((ipw2100_debug_level & 8192U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); printk("Dropping packet while interface is not up.\n"); } else { } return; } else { } tmp___9 = ldv__builtin_expect((long )((priv->ieee)->iw_mode != 6 && (priv->status & 1024UL) == 0UL), 0L); if (tmp___9 != 0L) { if ((ipw2100_debug_level & 8192U) != 0U) { tmp___8 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___8 & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); printk("Dropping packet while not associated.\n"); } else { } priv->wstats.discard.misc = priv->wstats.discard.misc + 1U; return; } else { } pci_unmap_single(priv->pci_dev, packet->dma_addr, 2340UL, 2); skb_put(packet->skb, status->frame_size); __min1 = status->frame_size; __min2 = 2340U; skb_copy_from_linear_data((struct sk_buff const *)packet->skb, (void *)(& packet_data), __min1 < __min2 ? __min1 : __min2); tmp___11 = libipw_rx(priv->ieee, packet->skb, stats); if (tmp___11 == 0) { if ((ipw2100_debug_level & 8192U) != 0U) { tmp___10 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___10 & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); printk("%s: Non consumed packet:\n", (char *)(& dev->name)); } else { } printk_buf(8192, (u8 const *)(& packet_data), status->frame_size); dev->stats.rx_errors = dev->stats.rx_errors + 1UL; dev_kfree_skb_any(packet->skb); packet->skb = (struct sk_buff *)0; } else { } tmp___13 = ipw2100_alloc_skb(priv, packet); tmp___14 = ldv__builtin_expect(tmp___13 != 0, 0L); if (tmp___14 != 0L) { printk("\fipw2100: %s: Unable to allocate SKB onto RBD ring - disabling adapter.\n", (char *)(& dev->name)); if ((ipw2100_debug_level & 4U) != 0U) { tmp___12 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___12 & 2096896UL) != 0UL ? 73 : 85, "isr_rx"); printk("TODO: Shutdown adapter...\n"); } else { } } else { } (priv->rx_queue.drv + (unsigned long )i)->host_addr = (u32 )packet->dma_addr; return; } } static void isr_rx_monitor(struct ipw2100_priv *priv , int i , struct libipw_rx_stats *stats ) { struct net_device *dev ; struct ipw2100_status *status ; struct ipw2100_rx_packet *packet ; struct ipw_rt_hdr *ipw_rt ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; long tmp___3 ; int tmp___4 ; bool tmp___5 ; int tmp___6 ; long tmp___7 ; int tmp___8 ; long tmp___9 ; int tmp___10 ; int tmp___11 ; int tmp___12 ; long tmp___13 ; { dev = priv->net_dev; status = priv->status_queue.drv + (unsigned long )i; packet = priv->rx_buffers + (unsigned long )i; if ((ipw2100_debug_level & 16777216U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "isr_rx_monitor"); printk("Handler...\n"); } else { } tmp___2 = skb_tailroom((struct sk_buff const *)packet->skb); tmp___3 = ldv__builtin_expect((unsigned long )status->frame_size > (unsigned long )tmp___2 - 9UL, 0L); if (tmp___3 != 0L) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "isr_rx_monitor"); tmp___1 = skb_tailroom((struct sk_buff const *)packet->skb); printk("%s: frame_size (%u) > skb_tailroom (%u)! Dropping.\n", (char *)(& dev->name), status->frame_size, tmp___1); } else { } dev->stats.rx_errors = dev->stats.rx_errors + 1UL; return; } else { } tmp___5 = netif_running((struct net_device const *)dev); if (tmp___5) { tmp___6 = 0; } else { tmp___6 = 1; } tmp___7 = ldv__builtin_expect((long )tmp___6, 0L); if (tmp___7 != 0L) { dev->stats.rx_errors = dev->stats.rx_errors + 1UL; priv->wstats.discard.misc = priv->wstats.discard.misc + 1U; if ((ipw2100_debug_level & 8192U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "isr_rx_monitor"); printk("Dropping packet while interface is not up.\n"); } else { } return; } else { } tmp___9 = ldv__builtin_expect((long )((priv->config & 2048UL) != 0UL && ((int )status->flags & 4) != 0), 0L); if (tmp___9 != 0L) { if ((ipw2100_debug_level & 16777216U) != 0U) { tmp___8 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___8 & 2096896UL) != 0UL ? 73 : 85, "isr_rx_monitor"); printk("CRC error in packet. Dropping.\n"); } else { } dev->stats.rx_errors = dev->stats.rx_errors + 1UL; return; } else { } pci_unmap_single(priv->pci_dev, packet->dma_addr, 2340UL, 2); __memmove((void *)(packet->skb)->data + 9U, (void const *)(packet->skb)->data, (size_t )status->frame_size); ipw_rt = (struct ipw_rt_hdr *)(packet->skb)->data; ipw_rt->rt_hdr.it_version = 0U; ipw_rt->rt_hdr.it_pad = 0U; ipw_rt->rt_hdr.it_len = 9U; ipw_rt->rt_hdr.it_present = 32U; ipw_rt->rt_dbmsignal = (s8 )((unsigned int )status->rssi + 158U); skb_put(packet->skb, status->frame_size + 9U); tmp___10 = libipw_rx(priv->ieee, packet->skb, stats); if (tmp___10 == 0) { dev->stats.rx_errors = dev->stats.rx_errors + 1UL; dev_kfree_skb_any(packet->skb); packet->skb = (struct sk_buff *)0; } else { } tmp___12 = ipw2100_alloc_skb(priv, packet); tmp___13 = ldv__builtin_expect(tmp___12 != 0, 0L); if (tmp___13 != 0L) { printk("\fipw2100: %s: Unable to allocate SKB onto RBD ring - disabling adapter.\n", (char *)(& dev->name)); if ((ipw2100_debug_level & 4U) != 0U) { tmp___11 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___11 & 2096896UL) != 0UL ? 73 : 85, "isr_rx_monitor"); printk("TODO: Shutdown adapter...\n"); } else { } } else { } (priv->rx_queue.drv + (unsigned long )i)->host_addr = (u32 )packet->dma_addr; return; } } static int ipw2100_corruption_check(struct ipw2100_priv *priv , int i ) { struct ipw2100_status *status ; struct ipw2100_rx *u ; u16 frame_type ; { status = priv->status_queue.drv + (unsigned long )i; u = (priv->rx_buffers + (unsigned long )i)->rxp; frame_type = (unsigned int )status->status_fields & 15U; switch ((int )frame_type) { case 0: ; return (status->frame_size != 496U); case 1: ; return (status->frame_size != 4U); case 4: ; return (status->frame_size <= 7U); case 2: ; case 3: ; return (0); } return (1); } } static void __ipw2100_rx_process(struct ipw2100_priv *priv ) { struct ipw2100_bd_queue *rxq ; struct ipw2100_status_queue *sq ; struct ipw2100_rx_packet *packet ; u16 frame_type ; u32 r ; u32 w ; u32 i ; u32 s ; struct ipw2100_rx *u ; struct libipw_rx_stats stats ; int tmp ; int tmp___0 ; long tmp___1 ; int tmp___2 ; { rxq = & priv->rx_queue; sq = & priv->status_queue; stats.mac_time = (unsigned int )jiffies; stats.rssi = (signed char)0; stats.signal = (unsigned char)0; stats.noise = (unsigned char)0; stats.rate = (unsigned short)0; stats.received_channel = (unsigned char)0; stats.control = (unsigned char)0; stats.mask = (unsigned char)0; stats.freq = (unsigned char)0; stats.len = (unsigned short)0; stats.tsf = 0ULL; stats.beacon_time = 0U; read_register(priv->net_dev, 672U, & r); read_register(priv->net_dev, 4000U, & w); if (rxq->entries <= r) { if ((ipw2100_debug_level & 16777216U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_rx_process"); printk("exit - bad read index\n"); } else { } return; } else { } i = (rxq->next + 1U) % rxq->entries; s = i; goto ldv_60512; ldv_60511: packet = priv->rx_buffers + (unsigned long )i; pci_dma_sync_single_for_cpu(priv->pci_dev, packet->dma_addr, 2340UL, 2); tmp___0 = ipw2100_corruption_check(priv, (int )i); tmp___1 = ldv__builtin_expect(tmp___0 != 0, 0L); if (tmp___1 != 0L) { ipw2100_corruption_detected(priv, (int )i); goto increment; } else { } u = packet->rxp; frame_type = (unsigned int )(sq->drv + (unsigned long )i)->status_fields & 15U; stats.rssi = (s8 )((unsigned int )(sq->drv + (unsigned long )i)->rssi + 158U); stats.len = (u16 )(sq->drv + (unsigned long )i)->frame_size; stats.mask = 0U; if ((int )stats.rssi != 0) { stats.mask = (u8 )((unsigned int )stats.mask | 2U); } else { } stats.freq = 1U; if ((ipw2100_debug_level & 16777216U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_rx_process"); printk("%s: \'%s\' frame type received (%d).\n", (char *)(& (priv->net_dev)->name), frame_types[(int )frame_type], (int )stats.len); } else { } switch ((int )frame_type) { case 0: isr_rx_complete_command(priv, & u->rx_data.command); goto ldv_60503; case 1: isr_status_change(priv, (int )u->rx_data.status); goto ldv_60503; case 2: ; case 3: ; if ((priv->ieee)->iw_mode == 6) { isr_rx_monitor(priv, (int )i, & stats); goto ldv_60503; } else { } if ((unsigned int )stats.len <= 23U) { goto ldv_60503; } else { } switch ((int )u->rx_data.header.frame_ctl & 12) { case 0: libipw_rx_mgt(priv->ieee, & u->rx_data.header, & stats); goto ldv_60508; case 4: ; goto ldv_60508; case 8: isr_rx(priv, (int )i, & stats); goto ldv_60508; } ldv_60508: ; goto ldv_60503; } ldv_60503: ; increment: (rxq->drv + (unsigned long )i)->status.info.field = 0U; i = (i + 1U) % rxq->entries; ldv_60512: ; if (i != r) { goto ldv_60511; } else { } if (i != s) { rxq->next = i == 0U ? rxq->entries - 1U : i - 1U; write_register(priv->net_dev, 4000U, rxq->next); } else { } return; } } static int __ipw2100_tx_process(struct ipw2100_priv *priv ) { struct ipw2100_bd_queue *txq ; struct ipw2100_bd *tbd ; struct list_head *element ; struct ipw2100_tx_packet *packet ; int descriptors_used ; int e ; int i ; u32 r ; u32 w ; u32 frag_num ; int tmp ; struct list_head const *__mptr ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; { txq = & priv->tx_queue; frag_num = 0U; tmp = list_empty((struct list_head const *)(& priv->fw_pend_list)); if (tmp != 0) { return (0); } else { } element = priv->fw_pend_list.next; __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; tbd = txq->drv + (unsigned long )packet->index; switch (packet->type) { case 51966: descriptors_used = 1; e = (int )txq->oldest; goto ldv_60530; case 51967: descriptors_used = (int )tbd->num_fragments; frag_num = (u32 )((int )tbd->num_fragments + -1); e = (int )(txq->oldest + frag_num); e = (int )((u32 )e % txq->entries); goto ldv_60530; default: printk("\fipw2100: %s: Bad fw_pend_list entry!\n", (char *)(& (priv->net_dev)->name)); return (0); } ldv_60530: read_register(priv->net_dev, 640U, & r); read_register(priv->net_dev, 3968U, & w); if (txq->next != w) { printk("\fipw2100: %s: write index mismatch\n", (char *)(& (priv->net_dev)->name)); } else { } if ((r > w || ((u32 )e >= r && (u32 )e < w)) && ((u32 )e >= r || (u32 )e < w)) { if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("exit - no processed packets ready to release.\n"); } else { } return (0); } else { } list_del(element); priv->fw_pend_stat.value = priv->fw_pend_stat.value - 1; if (priv->fw_pend_stat.value < priv->fw_pend_stat.lo) { priv->fw_pend_stat.lo = priv->fw_pend_stat.value; } else { } i = (int )txq->oldest; if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("TX%d V=%p P=%04X T=%04X L=%d\n", i, txq->drv + (unsigned long )i, (unsigned int )txq->nic + (unsigned int )((unsigned long )i) * 16U, (txq->drv + (unsigned long )i)->host_addr, (txq->drv + (unsigned long )i)->buf_length); } else { } if (packet->type == 51967) { i = (int )((u32 )(i + 1) % txq->entries); if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("TX%d V=%p P=%04X T=%04X L=%d\n", i, txq->drv + (unsigned long )i, (unsigned int )txq->nic + (unsigned int )((unsigned long )i) * 16U, (txq->drv + (unsigned long )i)->host_addr, (txq->drv + (unsigned long )i)->buf_length); } else { } } else { } switch (packet->type) { case 51967: ; if ((unsigned int )*((unsigned char *)(txq->drv + (unsigned long )txq->oldest) + 8UL) != 0U) { printk("\fipw2100: %s: Queue mismatch. Expecting DATA TBD but pulled something else: ids %d=%d.\n", (char *)(& (priv->net_dev)->name), txq->oldest, packet->index); } else { } i = 0; goto ldv_60536; ldv_60535: tbd = txq->drv + (unsigned long )((u32 )((packet->index + 1) + i) % txq->entries); if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("TX%d P=%08x L=%d\n", (u32 )((packet->index + 1) + i) % txq->entries, tbd->host_addr, tbd->buf_length); } else { } pci_unmap_single(priv->pci_dev, (dma_addr_t )tbd->host_addr, (size_t )tbd->buf_length, 1); i = i + 1; ldv_60536: ; if ((u32 )i < frag_num) { goto ldv_60535; } else { } libipw_txb_free(packet->info.d_struct.txb); packet->info.d_struct.txb = (struct libipw_txb *)0; list_add_tail(element, & priv->tx_free_list); priv->tx_free_stat.value = priv->tx_free_stat.value + 1; if (priv->tx_free_stat.value > priv->tx_free_stat.hi) { priv->tx_free_stat.hi = priv->tx_free_stat.value; } else { } if ((priv->status & 1024UL) != 0UL) { netif_wake_queue(priv->net_dev); } else { } (priv->net_dev)->trans_start = jiffies; goto ldv_60538; case 51966: ; if ((unsigned int )*((unsigned char *)(txq->drv + (unsigned long )txq->oldest) + 8UL) != 2U) { printk("\fipw2100: %s: Queue mismatch. Expecting COMMAND TBD but pulled something else: ids %d=%d.\n", (char *)(& (priv->net_dev)->name), txq->oldest, packet->index); } else { } if ((packet->info.c_struct.cmd)->host_command_reg <= 69U) { if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("Command \'%s (%d)\' processed: %d.\n", command_types[(packet->info.c_struct.cmd)->host_command_reg], (packet->info.c_struct.cmd)->host_command_reg, (packet->info.c_struct.cmd)->cmd_status_reg); } else { } } else { } list_add_tail(element, & priv->msg_free_list); priv->msg_free_stat.value = priv->msg_free_stat.value + 1; if (priv->msg_free_stat.value > priv->msg_free_stat.hi) { priv->msg_free_stat.hi = priv->msg_free_stat.value; } else { } goto ldv_60538; } ldv_60538: txq->oldest = (u32 )(e + 1) % txq->entries; txq->available = txq->available + (u32 )descriptors_used; priv->txq_stat.value = (int )txq->available; if (priv->txq_stat.value > priv->txq_stat.hi) { priv->txq_stat.hi = priv->txq_stat.value; } else { } if (priv->txq_stat.value < priv->txq_stat.lo) { priv->txq_stat.lo = priv->txq_stat.value; } else { } if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___5 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___5 & 2096896UL) != 0UL ? 73 : 85, "__ipw2100_tx_process"); printk("packet latency (send to process) %ld jiffies\n", (unsigned long )jiffies - (unsigned long )packet->jiffy_start); } else { } tmp___6 = list_empty((struct list_head const *)(& priv->fw_pend_list)); return (tmp___6 == 0); } } __inline static void __ipw2100_tx_complete(struct ipw2100_priv *priv ) { int i ; int tmp ; { i = 0; goto ldv_60547; ldv_60546: i = i + 1; ldv_60547: tmp = __ipw2100_tx_process(priv); if (tmp != 0 && i <= 199) { goto ldv_60546; } else { } if (i == 200) { printk("\fipw2100: %s: Driver is running slow (%d iters).\n", (char *)(& (priv->net_dev)->name), i); } else { } return; } } static void ipw2100_tx_send_commands(struct ipw2100_priv *priv ) { struct list_head *element ; struct ipw2100_tx_packet *packet ; struct ipw2100_bd_queue *txq ; struct ipw2100_bd *tbd ; int next ; int tmp ; struct list_head const *__mptr ; int tmp___0 ; int tmp___1 ; { txq = & priv->tx_queue; next = (int )txq->next; goto ldv_60562; ldv_60561: ; if (txq->available <= 3U) { if ((ipw2100_debug_level & 8388608U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_commands"); printk("no room in tx_queue\n"); } else { } goto ldv_60558; } else { } element = priv->msg_pend_list.next; list_del(element); priv->msg_pend_stat.value = priv->msg_pend_stat.value - 1; if (priv->msg_pend_stat.value < priv->msg_pend_stat.lo) { priv->msg_pend_stat.lo = priv->msg_pend_stat.value; } else { } __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_commands"); printk("using TBD at virt=%p, phys=%04X\n", txq->drv + (unsigned long )txq->next, (unsigned int )txq->nic + txq->next * 16U); } else { } packet->index = (int )txq->next; tbd = txq->drv + (unsigned long )txq->next; tbd->host_addr = (u32 )packet->info.c_struct.cmd_phys; tbd->buf_length = 496U; tbd->num_fragments = 1U; tbd->status.info.field = 10U; txq->next = txq->next + 1U; txq->next = txq->next % txq->entries; txq->available = txq->available - 1U; priv->txq_stat.value = priv->txq_stat.value - 1; if (priv->txq_stat.value < priv->txq_stat.lo) { priv->txq_stat.lo = priv->txq_stat.value; } else { } list_add_tail(element, & priv->fw_pend_list); priv->fw_pend_stat.value = priv->fw_pend_stat.value + 1; if (priv->fw_pend_stat.value > priv->fw_pend_stat.hi) { priv->fw_pend_stat.hi = priv->fw_pend_stat.value; } else { } ldv_60562: tmp___1 = list_empty((struct list_head const *)(& priv->msg_pend_list)); if (tmp___1 == 0) { goto ldv_60561; } else { } ldv_60558: ; if (txq->next != (u32 )next) { __asm__ volatile ("sfence": : : "memory"); write_register(priv->net_dev, 3968U, txq->next); } else { } return; } } static void ipw2100_tx_send_data(struct ipw2100_priv *priv ) { struct list_head *element ; struct ipw2100_tx_packet *packet ; struct ipw2100_bd_queue *txq ; struct ipw2100_bd *tbd ; int next ; int i ; struct ipw2100_data_header *ipw_hdr ; struct libipw_hdr_3addr *hdr ; struct list_head const *__mptr ; int tmp ; long tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; dma_addr_t tmp___4 ; int tmp___5 ; int tmp___6 ; { txq = & priv->tx_queue; next = (int )txq->next; i = 0; goto ldv_60582; ldv_60581: element = priv->tx_pend_list.next; __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; tmp___0 = ldv__builtin_expect((int )(packet->info.d_struct.txb)->nr_frags + 1 > 6, 0L); if (tmp___0 != 0L) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_data"); printk("%s: Maximum BD threshold exceeded. Increase fragmentation level.\n", (char *)(& (priv->net_dev)->name)); } else { } } else { } if (txq->available <= (u32 )((int )(packet->info.d_struct.txb)->nr_frags + 3)) { if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_data"); printk("no room in tx_queue\n"); } else { } goto ldv_60577; } else { } list_del(element); priv->tx_pend_stat.value = priv->tx_pend_stat.value - 1; if (priv->tx_pend_stat.value < priv->tx_pend_stat.lo) { priv->tx_pend_stat.lo = priv->tx_pend_stat.value; } else { } tbd = txq->drv + (unsigned long )txq->next; packet->index = (int )txq->next; ipw_hdr = packet->info.d_struct.data; hdr = (struct libipw_hdr_3addr *)((packet->info.d_struct.txb)->fragments[0])->data; if ((priv->ieee)->iw_mode == 2) { memcpy((void *)(& ipw_hdr->src_addr), (void const *)(& hdr->addr2), 6UL); memcpy((void *)(& ipw_hdr->dst_addr), (void const *)(& hdr->addr3), 6UL); } else if ((priv->ieee)->iw_mode == 1) { memcpy((void *)(& ipw_hdr->src_addr), (void const *)(& hdr->addr2), 6UL); memcpy((void *)(& ipw_hdr->dst_addr), (void const *)(& hdr->addr1), 6UL); } else { } ipw_hdr->host_command_reg = 33U; ipw_hdr->host_command_reg1 = 0U; ipw_hdr->needs_encryption = 0U; ipw_hdr->encrypted = (packet->info.d_struct.txb)->encrypted; if ((unsigned int )(packet->info.d_struct.txb)->nr_frags > 1U) { ipw_hdr->fragment_size = (unsigned int )(packet->info.d_struct.txb)->frag_size + 65512U; } else { ipw_hdr->fragment_size = 0U; } tbd->host_addr = (u32 )packet->info.d_struct.data_phys; tbd->buf_length = 52U; tbd->num_fragments = (unsigned int )(packet->info.d_struct.txb)->nr_frags + 1U; tbd->status.info.field = 1U; txq->next = txq->next + 1U; txq->next = txq->next % txq->entries; if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_data"); printk("data header tbd TX%d P=%08x L=%d\n", packet->index, tbd->host_addr, tbd->buf_length); } else { } if ((unsigned int )(packet->info.d_struct.txb)->nr_frags > 1U) { if ((ipw2100_debug_level & 2097152U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_data"); printk("fragment Tx: %d frames\n", (int )(packet->info.d_struct.txb)->nr_frags); } else { } } else { } i = 0; goto ldv_60579; ldv_60578: tbd = txq->drv + (unsigned long )txq->next; if ((int )(packet->info.d_struct.txb)->nr_frags + -1 == i) { tbd->status.info.field = 8U; } else { tbd->status.info.field = 1U; } tbd->buf_length = ((packet->info.d_struct.txb)->fragments[i])->len - 24U; tmp___4 = pci_map_single(priv->pci_dev, (void *)((packet->info.d_struct.txb)->fragments[i])->data + 24U, (size_t )tbd->buf_length, 1); tbd->host_addr = (u32 )tmp___4; if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___5 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___5 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_send_data"); printk("data frag tbd TX%d P=%08x L=%d\n", txq->next, tbd->host_addr, tbd->buf_length); } else { } pci_dma_sync_single_for_device(priv->pci_dev, (dma_addr_t )tbd->host_addr, (size_t )tbd->buf_length, 1); txq->next = txq->next + 1U; txq->next = txq->next % txq->entries; i = i + 1; ldv_60579: ; if ((int )(packet->info.d_struct.txb)->nr_frags > i) { goto ldv_60578; } else { } txq->available = txq->available + (u32 )(~ ((int )(packet->info.d_struct.txb)->nr_frags)); priv->txq_stat.value = (int )txq->available; if (priv->txq_stat.value > priv->txq_stat.hi) { priv->txq_stat.hi = priv->txq_stat.value; } else { } if (priv->txq_stat.value < priv->txq_stat.lo) { priv->txq_stat.lo = priv->txq_stat.value; } else { } list_add_tail(element, & priv->fw_pend_list); priv->fw_pend_stat.value = priv->fw_pend_stat.value + 1; if (priv->fw_pend_stat.value > priv->fw_pend_stat.hi) { priv->fw_pend_stat.hi = priv->fw_pend_stat.value; } else { } ldv_60582: tmp___6 = list_empty((struct list_head const *)(& priv->tx_pend_list)); if (tmp___6 == 0) { goto ldv_60581; } else { } ldv_60577: ; if (txq->next != (u32 )next) { write_register(priv->net_dev, 3968U, txq->next); } else { } return; } } static void ipw2100_irq_tasklet(struct ipw2100_priv *priv ) { struct net_device *dev ; unsigned long flags ; u32 inta ; u32 tmp ; raw_spinlock_t *tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; int tmp___7 ; int tmp___8 ; int tmp___9 ; int tmp___10 ; int tmp___11 ; { dev = priv->net_dev; tmp___0 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___0); ipw2100_disable_interrupts(priv); read_register(dev, 8U, & inta); if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("enter - INTA: 0x%08lX\n", (unsigned long )inta & 3238068243UL); } else { } priv->in_isr = priv->in_isr + 1; priv->interrupts = priv->interrupts + 1U; if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("INTA: 0x%08lX\n", (unsigned long )inta & 3238068243UL); } else { } if ((inta & 1073741824U) != 0U) { printk("\fipw2100: Fatal interrupt. Scheduling firmware restart.\n"); priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 1073741824U); read_nic_dword(dev, 174064U, & priv->fatal_error); if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("%s: Fatal error value: 0x%08X\n", (char *)(& (priv->net_dev)->name), priv->fatal_error); } else { } read_nic_dword(dev, priv->fatal_error & 262143U, & tmp); if ((ipw2100_debug_level & 4U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("%s: Fatal error address value: 0x%08X\n", (char *)(& (priv->net_dev)->name), tmp); } else { } schedule_reset(priv); } else { } if ((int )inta < 0) { printk("\vipw2100: ***** PARITY OLD_ERROR INTERRUPT !!!!\n"); priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 2147483648U); } else { } if ((inta & 2U) != 0U) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___5 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___5 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("RX interrupt\n"); } else { } priv->rx_interrupts = priv->rx_interrupts + 1; write_register(dev, 8U, 2U); __ipw2100_rx_process(priv); __ipw2100_tx_complete(priv); } else { } if ((int )inta & 1) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___6 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___6 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("TX interrupt\n"); } else { } priv->tx_interrupts = priv->tx_interrupts + 1; write_register(dev, 8U, 1U); __ipw2100_tx_complete(priv); ipw2100_tx_send_commands(priv); ipw2100_tx_send_data(priv); } else { } if ((inta & 4U) != 0U) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___7 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___7 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("TX complete\n"); } else { } priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 4U); __ipw2100_tx_complete(priv); } else { } if ((inta & 8U) != 0U) { priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 8U); } else { } if ((inta & 16777216U) != 0U) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___8 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___8 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("FW init done interrupt\n"); } else { } priv->inta_other = priv->inta_other + 1; read_register(dev, 8U, & tmp); if ((tmp & 3221225472U) != 0U) { write_register(dev, 8U, 3221225472U); } else { } write_register(dev, 8U, 16777216U); } else { } if ((inta & 16U) != 0U) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___9 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___9 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("Status change interrupt\n"); } else { } priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 16U); } else { } if ((inta & 65536U) != 0U) { if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___10 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___10 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("slave host mode interrupt\n"); } else { } priv->inta_other = priv->inta_other + 1; write_register(dev, 8U, 65536U); } else { } priv->in_isr = priv->in_isr - 1; ipw2100_enable_interrupts(priv); spin_unlock_irqrestore(& priv->low_lock, flags); if ((ipw2100_debug_level & 33554432U) != 0U) { tmp___11 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___11 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_irq_tasklet"); printk("exit\n"); } else { } return; } } static irqreturn_t ipw2100_interrupt(int irq , void *data ) { struct ipw2100_priv *priv ; u32 inta ; u32 inta_mask ; { priv = (struct ipw2100_priv *)data; if ((unsigned long )data == (unsigned long )((void *)0)) { return (0); } else { } spin_lock(& priv->low_lock); if ((priv->status & 2048UL) == 0UL) { goto none; } else { } read_register(priv->net_dev, 12U, & inta_mask); read_register(priv->net_dev, 8U, & inta); if (inta == 4294967295U) { printk("\fipw2100: IRQ INTA == 0xFFFFFFFF\n"); goto none; } else { } inta = inta & 3238068243U; if ((inta & inta_mask) == 0U) { goto none; } else { } ipw2100_disable_interrupts(priv); tasklet_schedule(& priv->irq_tasklet); spin_unlock(& priv->low_lock); return (1); none: spin_unlock(& priv->low_lock); return (0); } } static netdev_tx_t ipw2100_tx(struct libipw_txb *txb , struct net_device *dev , int pri ) { struct ipw2100_priv *priv ; void *tmp ; struct list_head *element ; struct ipw2100_tx_packet *packet ; unsigned long flags ; raw_spinlock_t *tmp___0 ; int tmp___1 ; int tmp___2 ; struct list_head const *__mptr ; int tmp___3 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___0); if ((priv->status & 1024UL) == 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx"); printk("Can not transmit when not connected.\n"); } else { } (priv->net_dev)->stats.tx_carrier_errors = (priv->net_dev)->stats.tx_carrier_errors + 1UL; netif_stop_queue(dev); goto fail_unlock; } else { } tmp___2 = list_empty((struct list_head const *)(& priv->tx_free_list)); if (tmp___2 != 0) { goto fail_unlock; } else { } element = priv->tx_free_list.next; __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; packet->info.d_struct.txb = txb; if ((ipw2100_debug_level & 8388608U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx"); printk("Sending fragment (%d bytes):\n", (txb->fragments[0])->len); } else { } printk_buf(8388608, (u8 const *)(txb->fragments[0])->data, (txb->fragments[0])->len); packet->jiffy_start = (int )jiffies; list_del(element); priv->tx_free_stat.value = priv->tx_free_stat.value - 1; if (priv->tx_free_stat.value < priv->tx_free_stat.lo) { priv->tx_free_stat.lo = priv->tx_free_stat.value; } else { } list_add_tail(element, & priv->tx_pend_list); priv->tx_pend_stat.value = priv->tx_pend_stat.value + 1; if (priv->tx_pend_stat.value > priv->tx_pend_stat.hi) { priv->tx_pend_stat.hi = priv->tx_pend_stat.value; } else { } ipw2100_tx_send_data(priv); spin_unlock_irqrestore(& priv->low_lock, flags); return (0); fail_unlock: netif_stop_queue(dev); spin_unlock_irqrestore(& priv->low_lock, flags); return (16); } } static int ipw2100_msg_allocate(struct ipw2100_priv *priv ) { int i ; int j ; int err ; void *v ; dma_addr_t p ; void *tmp ; { err = -22; tmp = kmalloc(2240UL, 208U); priv->msg_buffers = (struct ipw2100_tx_packet *)tmp; if ((unsigned long )priv->msg_buffers == (unsigned long )((struct ipw2100_tx_packet *)0)) { return (-12); } else { } i = 0; goto ldv_60628; ldv_60627: v = pci_zalloc_consistent(priv->pci_dev, 496UL, & p); if ((unsigned long )v == (unsigned long )((void *)0)) { printk("\vipw2100: %s: PCI alloc failed for msg buffers.\n", (char *)(& (priv->net_dev)->name)); err = -12; goto ldv_60626; } else { } (priv->msg_buffers + (unsigned long )i)->type = 51966; (priv->msg_buffers + (unsigned long )i)->info.c_struct.cmd = (struct ipw2100_cmd_header *)v; (priv->msg_buffers + (unsigned long )i)->info.c_struct.cmd_phys = p; i = i + 1; ldv_60628: ; if (i <= 39) { goto ldv_60627; } else { } ldv_60626: ; if (i == 40) { return (0); } else { } j = 0; goto ldv_60630; ldv_60629: pci_free_consistent(priv->pci_dev, 496UL, (void *)(priv->msg_buffers + (unsigned long )j)->info.c_struct.cmd, (priv->msg_buffers + (unsigned long )j)->info.c_struct.cmd_phys); j = j + 1; ldv_60630: ; if (j < i) { goto ldv_60629; } else { } kfree((void const *)priv->msg_buffers); priv->msg_buffers = (struct ipw2100_tx_packet *)0; return (err); } } static int ipw2100_msg_initialize(struct ipw2100_priv *priv ) { int i ; { INIT_LIST_HEAD(& priv->msg_free_list); INIT_LIST_HEAD(& priv->msg_pend_list); i = 0; goto ldv_60637; ldv_60636: list_add_tail(& (priv->msg_buffers + (unsigned long )i)->list, & priv->msg_free_list); i = i + 1; ldv_60637: ; if (i <= 39) { goto ldv_60636; } else { } priv->msg_free_stat.value = i; if (priv->msg_free_stat.value > priv->msg_free_stat.hi) { priv->msg_free_stat.hi = priv->msg_free_stat.value; } else { } if (priv->msg_free_stat.value < priv->msg_free_stat.lo) { priv->msg_free_stat.lo = priv->msg_free_stat.value; } else { } return (0); } } static void ipw2100_msg_free(struct ipw2100_priv *priv ) { int i ; { if ((unsigned long )priv->msg_buffers == (unsigned long )((struct ipw2100_tx_packet *)0)) { return; } else { } i = 0; goto ldv_60644; ldv_60643: pci_free_consistent(priv->pci_dev, 496UL, (void *)(priv->msg_buffers + (unsigned long )i)->info.c_struct.cmd, (priv->msg_buffers + (unsigned long )i)->info.c_struct.cmd_phys); i = i + 1; ldv_60644: ; if (i <= 39) { goto ldv_60643; } else { } kfree((void const *)priv->msg_buffers); priv->msg_buffers = (struct ipw2100_tx_packet *)0; return; } } static ssize_t show_pci(struct device *d , struct device_attribute *attr , char *buf ) { struct pci_dev *pci_dev ; struct device const *__mptr ; char *out ; int i ; int j ; u32 val ; int tmp ; int tmp___0 ; int tmp___1 ; { __mptr = (struct device const *)d; pci_dev = (struct pci_dev *)__mptr + 0xffffffffffffff68UL; out = buf; i = 0; goto ldv_60662; ldv_60661: tmp = sprintf(out, "[%08X] ", i * 16); out = out + (unsigned long )tmp; j = 0; goto ldv_60659; ldv_60658: pci_read_config_dword((struct pci_dev const *)pci_dev, i * 16 + j, & val); tmp___0 = sprintf(out, "%08X ", val); out = out + (unsigned long )tmp___0; j = j + 4; ldv_60659: ; if (j <= 15) { goto ldv_60658; } else { } tmp___1 = sprintf(out, "\n"); out = out + (unsigned long )tmp___1; i = i + 1; ldv_60662: ; if (i <= 15) { goto ldv_60661; } else { } return ((long )out - (long )buf); } } static struct device_attribute dev_attr_pci = {{"pci", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_pci, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_cfg(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *p ; void *tmp ; int tmp___0 ; { tmp = dev_get_drvdata((struct device const *)d); p = (struct ipw2100_priv *)tmp; tmp___0 = sprintf(buf, "0x%08x\n", (int )p->config); return ((ssize_t )tmp___0); } } static struct device_attribute dev_attr_cfg = {{"cfg", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_cfg, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_status(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *p ; void *tmp ; int tmp___0 ; { tmp = dev_get_drvdata((struct device const *)d); p = (struct ipw2100_priv *)tmp; tmp___0 = sprintf(buf, "0x%08x\n", (int )p->status); return ((ssize_t )tmp___0); } } static struct device_attribute dev_attr_status = {{"status", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_status, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_capability(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *p ; void *tmp ; int tmp___0 ; { tmp = dev_get_drvdata((struct device const *)d); p = (struct ipw2100_priv *)tmp; tmp___0 = sprintf(buf, "0x%08x\n", (int )p->capability); return ((ssize_t )tmp___0); } } static struct device_attribute dev_attr_capability = {{"capability", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_capability, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static struct __anonstruct_hw_data_436 const hw_data[5U] = { {36U, "REG_GP_CNTRL"}, {48U, "REG_GPIO"}, {8U, "REG_INTA"}, {12U, "REG_INTA_MASK"}, {32U, "REG_RESET_REG"}}; static struct __anonstruct_nic_data_437 const nic_data[3U] = { {2228224U, "IPW2100_CONTROL_REG", 2UL}, {2162708U, "0x210014", 1UL}, {2162688U, "0x210000", 1UL}}; static struct __anonstruct_ord_data_438 const ord_data[147U] = { {1U, "STAT_TX_HOST_REQUESTS", "requested Host Tx\'s (MSDU)"}, {2U, "STAT_TX_HOST_COMPLETE", "successful Host Tx\'s (MSDU)"}, {3U, "STAT_TX_DIR_DATA", "successful Directed Tx\'s (MSDU)"}, {4U, "STAT_TX_DIR_DATA1", "successful Directed Tx\'s (MSDU) @ 1MB"}, {5U, "STAT_TX_DIR_DATA2", "successful Directed Tx\'s (MSDU) @ 2MB"}, {6U, "STAT_TX_DIR_DATA5_5", "successful Directed Tx\'s (MSDU) @ 5_5MB"}, {7U, "STAT_TX_DIR_DATA11", "successful Directed Tx\'s (MSDU) @ 11MB"}, {13U, "STAT_TX_NODIR_DATA1", "successful Non_Directed Tx\'s (MSDU) @ 1MB"}, {14U, "STAT_TX_NODIR_DATA2", "successful Non_Directed Tx\'s (MSDU) @ 2MB"}, {15U, "STAT_TX_NODIR_DATA5_5", "successful Non_Directed Tx\'s (MSDU) @ 5.5MB"}, {16U, "STAT_TX_NODIR_DATA11", "successful Non_Directed Tx\'s (MSDU) @ 11MB"}, {21U, "STAT_NULL_DATA", "successful NULL data Tx\'s"}, {22U, "STAT_TX_RTS", "successful Tx RTS"}, {23U, "STAT_TX_CTS", "successful Tx CTS"}, {24U, "STAT_TX_ACK", "successful Tx ACK"}, {25U, "STAT_TX_ASSN", "successful Association Tx\'s"}, {26U, "STAT_TX_ASSN_RESP", "successful Association response Tx\'s"}, {27U, "STAT_TX_REASSN", "successful Reassociation Tx\'s"}, {28U, "STAT_TX_REASSN_RESP", "successful Reassociation response Tx\'s"}, {29U, "STAT_TX_PROBE", "probes successfully transmitted"}, {30U, "STAT_TX_PROBE_RESP", "probe responses successfully transmitted"}, {31U, "STAT_TX_BEACON", "tx beacon"}, {32U, "STAT_TX_ATIM", "Tx ATIM"}, {33U, "STAT_TX_DISASSN", "successful Disassociation TX"}, {34U, "STAT_TX_AUTH", "successful Authentication Tx"}, {35U, "STAT_TX_DEAUTH", "successful Deauthentication TX"}, {41U, "STAT_TX_TOTAL_BYTES", "Total successful Tx data bytes"}, {42U, "STAT_TX_RETRIES", "Tx retries"}, {43U, "STAT_TX_RETRY1", "Tx retries at 1MBPS"}, {44U, "STAT_TX_RETRY2", "Tx retries at 2MBPS"}, {45U, "STAT_TX_RETRY5_5", "Tx retries at 5.5MBPS"}, {46U, "STAT_TX_RETRY11", "Tx retries at 11MBPS"}, {51U, "STAT_TX_FAILURES", "Tx Failures"}, {53U, "STAT_TX_MAX_TRIES_IN_HOP", "times max tries in a hop failed"}, {56U, "STAT_TX_DISASSN_FAIL", "times disassociation failed"}, {57U, "STAT_TX_ERR_CTS", "missed/bad CTS frames"}, {59U, "STAT_TX_ERR_ACK", "tx err due to acks"}, {61U, "STAT_RX_HOST", "packets passed to host"}, {62U, "STAT_RX_DIR_DATA", "directed packets"}, {63U, "STAT_RX_DIR_DATA1", "directed packets at 1MB"}, {64U, "STAT_RX_DIR_DATA2", "directed packets at 2MB"}, {65U, "STAT_RX_DIR_DATA5_5", "directed packets at 5.5MB"}, {66U, "STAT_RX_DIR_DATA11", "directed packets at 11MB"}, {71U, "STAT_RX_NODIR_DATA", "nondirected packets"}, {72U, "STAT_RX_NODIR_DATA1", "nondirected packets at 1MB"}, {73U, "STAT_RX_NODIR_DATA2", "nondirected packets at 2MB"}, {74U, "STAT_RX_NODIR_DATA5_5", "nondirected packets at 5.5MB"}, {75U, "STAT_RX_NODIR_DATA11", "nondirected packets at 11MB"}, {80U, "STAT_RX_NULL_DATA", "null data rx\'s"}, {82U, "STAT_RX_RTS", "Rx RTS"}, {83U, "STAT_RX_CTS", "Rx CTS"}, {84U, "STAT_RX_ACK", "Rx ACK"}, {85U, "STAT_RX_CFEND", "Rx CF End"}, {86U, "STAT_RX_CFEND_ACK", "Rx CF End + CF Ack"}, {87U, "STAT_RX_ASSN", "Association Rx\'s"}, {88U, "STAT_RX_ASSN_RESP", "Association response Rx\'s"}, {89U, "STAT_RX_REASSN", "Reassociation Rx\'s"}, {90U, "STAT_RX_REASSN_RESP", "Reassociation response Rx\'s"}, {91U, "STAT_RX_PROBE", "probe Rx\'s"}, {92U, "STAT_RX_PROBE_RESP", "probe response Rx\'s"}, {93U, "STAT_RX_BEACON", "Rx beacon"}, {94U, "STAT_RX_ATIM", "Rx ATIM"}, {95U, "STAT_RX_DISASSN", "disassociation Rx"}, {96U, "STAT_RX_AUTH", "authentication Rx"}, {97U, "STAT_RX_DEAUTH", "deauthentication Rx"}, {101U, "STAT_RX_TOTAL_BYTES", "Total rx data bytes received"}, {102U, "STAT_RX_ERR_CRC", "packets with Rx CRC error"}, {103U, "STAT_RX_ERR_CRC1", "Rx CRC errors at 1MB"}, {104U, "STAT_RX_ERR_CRC2", "Rx CRC errors at 2MB"}, {105U, "STAT_RX_ERR_CRC5_5", "Rx CRC errors at 5.5MB"}, {106U, "STAT_RX_ERR_CRC11", "Rx CRC errors at 11MB"}, {112U, "STAT_RX_DUPLICATE1", "duplicate rx packets at 1MB"}, {113U, "STAT_RX_DUPLICATE2", "duplicate rx packets at 2MB"}, {114U, "STAT_RX_DUPLICATE5_5", "duplicate rx packets at 5.5MB"}, {115U, "STAT_RX_DUPLICATE11", "duplicate rx packets at 11MB"}, {119U, "STAT_RX_DUPLICATE", "duplicate rx packets"}, {120U, "PERS_DB_LOCK", "locking fw permanent db"}, {121U, "PERS_DB_SIZE", "size of fw permanent db"}, {122U, "PERS_DB_ADDR", "address of fw permanent db"}, {123U, "STAT_RX_INVALID_PROTOCOL", "rx frames with invalid protocol"}, {124U, "SYS_BOOT_TIME", "Boot time"}, {125U, "STAT_RX_NO_BUFFER", "rx frames rejected due to no buffer"}, {128U, "STAT_RX_MISSING_FRAG", "rx frames dropped due to missing fragment"}, {129U, "STAT_RX_ORPHAN_FRAG", "rx frames dropped due to non-sequential fragment"}, {130U, "STAT_RX_ORPHAN_FRAME", "rx frames dropped due to unmatched 1st frame"}, {131U, "STAT_RX_FRAG_AGEOUT", "rx frames dropped due to uncompleted frame"}, {133U, "STAT_RX_ICV_ERRORS", "ICV errors during decryption"}, {137U, "STAT_PSP_SUSPENSION", "times adapter suspended"}, {138U, "STAT_PSP_BCN_TIMEOUT", "beacon timeout"}, {139U, "STAT_PSP_POLL_TIMEOUT", "poll response timeouts"}, {140U, "STAT_PSP_NONDIR_TIMEOUT", "timeouts waiting for last {broad,multi}cast pkt"}, {141U, "STAT_PSP_RX_DTIMS", "PSP DTIMs received"}, {142U, "STAT_PSP_RX_TIMS", "PSP TIMs received"}, {143U, "STAT_PSP_STATION_ID", "PSP Station ID"}, {147U, "LAST_ASSN_TIME", "RTC time of last association"}, {148U, "STAT_PERCENT_MISSED_BCNS", "current calculation of % missed beacons"}, {149U, "STAT_PERCENT_RETRIES", "current calculation of % missed tx retries"}, {150U, "ASSOCIATED_AP_PTR", "0 if not associated, else pointer to AP table entry"}, {151U, "AVAILABLE_AP_CNT", "AP\'s decsribed in the AP table"}, {152U, "AP_LIST_PTR", "Ptr to list of available APs"}, {153U, "STAT_AP_ASSNS", "associations"}, {154U, "STAT_ASSN_FAIL", "association failures"}, {155U, "STAT_ASSN_RESP_FAIL", "failures due to response fail"}, {156U, "STAT_FULL_SCANS", "full scans"}, {157U, "CARD_DISABLED", "Card Disabled"}, {158U, "STAT_ROAM_INHIBIT", "times roaming was inhibited due to activity"}, {160U, "RSSI_AT_ASSN", "RSSI of associated AP at time of association"}, {161U, "STAT_ASSN_CAUSE1", "reassociation: no probe response or TX on hop"}, {162U, "STAT_ASSN_CAUSE2", "reassociation: poor tx/rx quality"}, {163U, "STAT_ASSN_CAUSE3", "reassociation: tx/rx quality (excessive AP load"}, {164U, "STAT_ASSN_CAUSE4", "reassociation: AP RSSI level"}, {165U, "STAT_ASSN_CAUSE5", "reassociations due to load leveling"}, {170U, "STAT_AUTH_FAIL", "times authentication failed"}, {171U, "STAT_AUTH_RESP_FAIL", "times authentication response failed"}, {172U, "STATION_TABLE_CNT", "entries in association table"}, {173U, "RSSI_AVG_CURR", "Current avg RSSI"}, {177U, "POWER_MGMT_MODE", "Power mode - 0=CAM, 1=PSP"}, {179U, "COUNTRY_CODE", "IEEE country code as recv\'d from beacon"}, {180U, "COUNTRY_CHANNELS", "channels supported by country"}, {181U, "RESET_CNT", "adapter resets (warm)"}, {182U, "BEACON_INTERVAL", "Beacon interval"}, {185U, "ANTENNA_DIVERSITY", "TRUE if antenna diversity is disabled"}, {188U, "DTIM_PERIOD", "beacon intervals between DTIMs"}, {189U, "OUR_FREQ", "current radio freq lower digits - channel ID"}, {190U, "RTC_TIME", "current RTC time"}, {191U, "PORT_TYPE", "operating mode"}, {192U, "CURRENT_TX_RATE", "current tx rate"}, {193U, "SUPPORTED_RATES", "supported tx rates"}, {194U, "ATIM_WINDOW", "current ATIM Window"}, {195U, "BASIC_RATES", "basic tx rates"}, {196U, "NIC_HIGHEST_RATE", "NIC highest tx rate"}, {197U, "AP_HIGHEST_RATE", "AP highest tx rate"}, {198U, "CAPABILITIES", "Management frame capability field"}, {199U, "AUTH_TYPE", "Type of authentication"}, {200U, "RADIO_TYPE", "Adapter card platform type"}, {201U, "RTS_THRESHOLD", "Min packet length for RTS handshaking"}, {202U, "INT_MODE", "International mode"}, {203U, "FRAGMENTATION_THRESHOLD", "protocol frag threshold"}, {204U, "EEPROM_SRAM_DB_BLOCK_START_ADDRESS", "EEPROM offset in SRAM"}, {205U, "EEPROM_SRAM_DB_BLOCK_SIZE", "EEPROM size in SRAM"}, {206U, "EEPROM_SKU_CAPABILITY", "EEPROM SKU Capability"}, {207U, "EEPROM_IBSS_11B_CHANNELS", "EEPROM IBSS 11b channel set"}, {209U, "MAC_VERSION", "MAC Version"}, {210U, "MAC_REVISION", "MAC Revision"}, {211U, "RADIO_VERSION", "Radio Version"}, {212U, "NIC_MANF_DATE_TIME", "MANF Date/Time STAMP"}, {213U, "UCODE_VERSION", "Ucode Version"}}; static ssize_t show_registers(struct device *d , struct device_attribute *attr , char *buf ) { int i ; struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; char *out ; u32 val ; int tmp___0 ; int tmp___1 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; out = buf; val = 0U; tmp___0 = sprintf(out, "%30s [Address ] : Hex\n", (char *)"Register"); out = out + (unsigned long )tmp___0; i = 0; goto ldv_60761; ldv_60760: read_register(dev, hw_data[i].addr, & val); tmp___1 = sprintf(out, "%30s [%08X] : %08X\n", hw_data[i].name, hw_data[i].addr, val); out = out + (unsigned long )tmp___1; i = i + 1; ldv_60761: ; if ((unsigned int )i <= 4U) { goto ldv_60760; } else { } return ((long )out - (long )buf); } } static struct device_attribute dev_attr_registers = {{"registers", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_registers, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_hardware(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; char *out ; int i ; int tmp___0 ; u8 tmp8 ; u16 tmp16 ; u32 tmp32 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; out = buf; tmp___0 = sprintf(out, "%30s [Address ] : Hex\n", (char *)"NIC entry"); out = out + (unsigned long )tmp___0; i = 0; goto ldv_60795; ldv_60794: ; switch (nic_data[i].size) { case 1UL: read_nic_byte(dev, nic_data[i].addr, & tmp8); tmp___1 = sprintf(out, "%30s [%08X] : %02X\n", nic_data[i].name, nic_data[i].addr, (int )tmp8); out = out + (unsigned long )tmp___1; goto ldv_60791; case 2UL: read_nic_word(dev, nic_data[i].addr, & tmp16); tmp___2 = sprintf(out, "%30s [%08X] : %04X\n", nic_data[i].name, nic_data[i].addr, (int )tmp16); out = out + (unsigned long )tmp___2; goto ldv_60791; case 4UL: read_nic_dword(dev, nic_data[i].addr, & tmp32); tmp___3 = sprintf(out, "%30s [%08X] : %08X\n", nic_data[i].name, nic_data[i].addr, tmp32); out = out + (unsigned long )tmp___3; goto ldv_60791; } ldv_60791: i = i + 1; ldv_60795: ; if ((unsigned int )i <= 2U) { goto ldv_60794; } else { } return ((long )out - (long )buf); } } static struct device_attribute dev_attr_hardware = {{"hardware", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_hardware, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_memory(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; unsigned long loop ; int len ; u32 buffer[4U] ; int i ; char line[81U] ; int tmp___0 ; char *tmp___1 ; int tmp___2 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; loop = 0UL; len = 0; if (loop > 196607UL) { loop = 0UL; } else { } goto ldv_60829; ldv_60828: ; if ((unsigned long )priv->snapshot[0] != (unsigned long )((u8 *)0U)) { i = 0; goto ldv_60823; ldv_60822: buffer[i] = *((u32 *)(priv->snapshot[(((unsigned long )(i * 4) + loop) >> 12) & 255UL] + (((unsigned long )(i * 4) + loop) & 4095UL))); i = i + 1; ldv_60823: ; if (i <= 3) { goto ldv_60822; } else { } } else { i = 0; goto ldv_60826; ldv_60825: read_nic_dword(dev, (u32 )(i * 4) + (u32 )loop, (u32 *)(& buffer) + (unsigned long )i); i = i + 1; ldv_60826: ; if (i <= 3) { goto ldv_60825; } else { } } if (priv->dump_raw != 0) { tmp___0 = sprintf(buf + (unsigned long )len, "%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c", (int )*((u8 *)(& buffer)), (int )*((u8 *)(& buffer) + 1UL), (int )*((u8 *)(& buffer) + 2UL), (int )*((u8 *)(& buffer) + 3UL), (int )*((u8 *)(& buffer) + 4UL), (int )*((u8 *)(& buffer) + 5UL), (int )*((u8 *)(& buffer) + 6UL), (int )*((u8 *)(& buffer) + 7UL), (int )*((u8 *)(& buffer) + 8UL), (int )*((u8 *)(& buffer) + 9UL), (int )*((u8 *)(& buffer) + 10UL), (int )*((u8 *)(& buffer) + 11UL), (int )*((u8 *)(& buffer) + 12UL), (int )*((u8 *)(& buffer) + 13UL), (int )*((u8 *)(& buffer) + 14UL), (int )*((u8 *)(& buffer) + 15UL)); len = tmp___0 + len; } else { tmp___1 = snprint_line((char *)(& line), 81UL, (u8 const *)(& buffer), 16U, (u32 )loop); tmp___2 = sprintf(buf + (unsigned long )len, "%s\n", tmp___1); len = tmp___2 + len; } loop = loop + 16UL; ldv_60829: ; if ((unsigned int )len <= 3967U && loop <= 196607UL) { goto ldv_60828; } else { } return ((ssize_t )len); } } static ssize_t store_memory(struct device *d , struct device_attribute *attr , char const *buf , size_t count ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; char const *p ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; unsigned char tmp___4 ; unsigned char tmp___5 ; unsigned char tmp___6 ; unsigned char tmp___7 ; unsigned char tmp___8 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; p = buf; if (count == 0UL) { return ((ssize_t )count); } else { } if ((int )((signed char )*p) == 49) { goto _L___2; } else if (count > 1UL) { tmp___7 = __tolower((int )((unsigned char )*p)); if ((unsigned int )tmp___7 == 111U) { tmp___8 = __tolower((int )((unsigned char )*(p + 1UL))); if ((unsigned int )tmp___8 == 110U) { _L___2: /* CIL Label */ if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "store_memory"); printk("%s: Setting memory dump to RAW mode.\n", (char *)(& dev->name)); } else { } priv->dump_raw = 1; } else { goto _L___4; } } else { goto _L___4; } } else _L___4: /* CIL Label */ if ((int )((signed char )*p) == 48) { goto _L; } else if (count > 1UL) { tmp___5 = __tolower((int )((unsigned char )*p)); if ((unsigned int )tmp___5 == 111U) { tmp___6 = __tolower((int )((unsigned char )*(p + 1UL))); if ((unsigned int )tmp___6 == 102U) { _L: /* CIL Label */ if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "store_memory"); printk("%s: Setting memory dump to HEX mode.\n", (char *)(& dev->name)); } else { } priv->dump_raw = 0; } else { goto _L___1; } } else { goto _L___1; } } else { _L___1: /* CIL Label */ tmp___4 = __tolower((int )((unsigned char )*p)); if ((unsigned int )tmp___4 == 114U) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "store_memory"); printk("%s: Resetting firmware snapshot.\n", (char *)(& dev->name)); } else { } ipw2100_snapshot_free(priv); } else if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "store_memory"); printk("%s: Usage: 0|on = HEX, 1|off = RAW, reset = clear memory snapshot\n", (char *)(& dev->name)); } else { } } return ((ssize_t )count); } } static struct device_attribute dev_attr_memory = {{"memory", 420U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_memory, & store_memory}; static ssize_t show_ordinals(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; u32 val ; int len ; u32 val_len ; int loop ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; val = 0U; len = 0; loop = 0; if ((priv->status & 12288UL) != 0UL) { return (0L); } else { } if ((unsigned int )loop > 146U) { loop = 0; } else { } goto ldv_60869; ldv_60868: val_len = 4U; tmp___2 = ipw2100_get_ordinal(priv, (u32 )ord_data[loop].index, (void *)(& val), & val_len); if (tmp___2 != 0) { tmp___0 = sprintf(buf + (unsigned long )len, "[0x%02X] = OLD_ERROR %s\n", (int )ord_data[loop].index, ord_data[loop].desc); len = tmp___0 + len; } else { tmp___1 = sprintf(buf + (unsigned long )len, "[0x%02X] = 0x%08X %s\n", (int )ord_data[loop].index, val, ord_data[loop].desc); len = tmp___1 + len; } loop = loop + 1; ldv_60869: ; if ((unsigned int )len <= 3967U && (unsigned int )loop <= 146U) { goto ldv_60868; } else { } return ((ssize_t )len); } } static struct device_attribute dev_attr_ordinals = {{"ordinals", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_ordinals, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_stats(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; char *out ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; out = buf; tmp___0 = sprintf(out, "interrupts: %d {tx: %d, rx: %d, other: %d}\n", priv->interrupts, priv->tx_interrupts, priv->rx_interrupts, priv->inta_other); out = out + (unsigned long )tmp___0; tmp___1 = sprintf(out, "firmware resets: %d\n", priv->resets); out = out + (unsigned long )tmp___1; tmp___2 = sprintf(out, "firmware hangs: %d\n", priv->hangs); out = out + (unsigned long )tmp___2; tmp___3 = sprintf(out, "packet mismatch image: %s\n", (unsigned long )priv->snapshot[0] != (unsigned long )((u8 *)0U) ? (char *)"YES" : (char *)"NO"); out = out + (unsigned long )tmp___3; return ((long )out - (long )buf); } } static struct device_attribute dev_attr_stats = {{"stats", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_stats, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static int ipw2100_switch_mode(struct ipw2100_priv *priv , u32 mode ) { int err ; { if ((u32 )(priv->ieee)->iw_mode == mode) { return (0); } else { } err = ipw2100_disable_adapter(priv); if (err != 0) { printk("\vipw2100: %s: Could not disable adapter %d\n", (char *)(& (priv->net_dev)->name), err); return (err); } else { } switch (mode) { case 2U: (priv->net_dev)->type = 1U; goto ldv_60910; case 1U: (priv->net_dev)->type = 1U; goto ldv_60910; case 6U: priv->last_mode = (priv->ieee)->iw_mode; (priv->net_dev)->type = 803U; goto ldv_60910; } ldv_60910: (priv->ieee)->iw_mode = (int )mode; ipw2100_firmware.version = 0; printk("\016%s: Resetting on mode change.\n", (char *)(& (priv->net_dev)->name)); priv->reset_backoff = 0; schedule_reset(priv); return (0); } } static ssize_t show_internals(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; int len ; unsigned long tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; int tmp___7 ; int tmp___8 ; int tmp___9 ; int tmp___10 ; int tmp___11 ; int tmp___12 ; int tmp___13 ; int tmp___14 ; int tmp___15 ; int tmp___16 ; int tmp___17 ; int tmp___18 ; int tmp___19 ; int tmp___20 ; int tmp___21 ; int tmp___22 ; int tmp___23 ; int tmp___24 ; int tmp___25 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; len = 0; if ((priv->status & 1024UL) != 0UL) { tmp___0 = get_seconds(); tmp___1 = sprintf(buf + (unsigned long )len, "connected: %lu\n", tmp___0 - priv->connect_start); len = tmp___1 + len; } else { tmp___2 = sprintf(buf + (unsigned long )len, "not connected\n"); len = tmp___2 + len; } tmp___3 = sprintf(buf + (unsigned long )len, "ieee->crypt_info.crypt[priv->ieee->crypt_info.tx_keyidx]: %p\n", (priv->ieee)->crypt_info.crypt[(priv->ieee)->crypt_info.tx_keyidx]); len = tmp___3 + len; tmp___4 = sprintf(buf + (unsigned long )len, "status: %08lx\n", priv->status); len = tmp___4 + len; tmp___5 = sprintf(buf + (unsigned long )len, "config: %08lx\n", priv->config); len = tmp___5 + len; tmp___6 = sprintf(buf + (unsigned long )len, "capability: %08lx\n", priv->capability); len = tmp___6 + len; tmp___7 = sprintf(buf + (unsigned long )len, "last_rtc: %lu\n", (unsigned long )priv->last_rtc); len = tmp___7 + len; tmp___8 = sprintf(buf + (unsigned long )len, "fatal_error: %d\n", priv->fatal_error); len = tmp___8 + len; tmp___9 = sprintf(buf + (unsigned long )len, "stop_hang_check: %d\n", priv->stop_hang_check); len = tmp___9 + len; tmp___10 = sprintf(buf + (unsigned long )len, "stop_rf_kill: %d\n", priv->stop_rf_kill); len = tmp___10 + len; tmp___11 = sprintf(buf + (unsigned long )len, "messages_sent: %d\n", priv->messages_sent); len = tmp___11 + len; tmp___12 = sprintf(buf + (unsigned long )len, "tx_pend_stat.value: %d\n", priv->tx_pend_stat.value); len = tmp___12 + len; tmp___13 = sprintf(buf + (unsigned long )len, "tx_pend_stat.hi: %d\n", priv->tx_pend_stat.hi); len = tmp___13 + len; tmp___14 = sprintf(buf + (unsigned long )len, "tx_free_stat.value: %d\n", priv->tx_free_stat.value); len = tmp___14 + len; tmp___15 = sprintf(buf + (unsigned long )len, "tx_free_stat.lo: %d\n", priv->tx_free_stat.lo); len = tmp___15 + len; tmp___16 = sprintf(buf + (unsigned long )len, "msg_free_stat.value: %d\n", priv->msg_free_stat.value); len = tmp___16 + len; tmp___17 = sprintf(buf + (unsigned long )len, "msg_free_stat.lo: %d\n", priv->msg_free_stat.lo); len = tmp___17 + len; tmp___18 = sprintf(buf + (unsigned long )len, "msg_pend_stat.value: %d\n", priv->msg_pend_stat.value); len = tmp___18 + len; tmp___19 = sprintf(buf + (unsigned long )len, "msg_pend_stat.hi: %d\n", priv->msg_pend_stat.hi); len = tmp___19 + len; tmp___20 = sprintf(buf + (unsigned long )len, "fw_pend_stat.value: %d\n", priv->fw_pend_stat.value); len = tmp___20 + len; tmp___21 = sprintf(buf + (unsigned long )len, "fw_pend_stat.hi: %d\n", priv->fw_pend_stat.hi); len = tmp___21 + len; tmp___22 = sprintf(buf + (unsigned long )len, "txq_stat.value: %d\n", priv->txq_stat.value); len = tmp___22 + len; tmp___23 = sprintf(buf + (unsigned long )len, "txq_stat.lo: %d\n", priv->txq_stat.lo); len = tmp___23 + len; tmp___24 = sprintf(buf + (unsigned long )len, "ieee->scans: %d\n", (priv->ieee)->scans); len = tmp___24 + len; tmp___25 = sprintf(buf + (unsigned long )len, "reset_backoff: %d\n", priv->reset_backoff); len = tmp___25 + len; return ((ssize_t )len); } } static struct device_attribute dev_attr_internals = {{"internals", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_internals, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_bssinfo(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; char essid[33U] ; u8 bssid[6U] ; u32 chan ; char *out ; unsigned int length ; int ret ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; chan = 0U; out = buf; if ((priv->status & 12288UL) != 0UL) { return (0L); } else { } memset((void *)(& essid), 0, 33UL); memset((void *)(& bssid), 0, 6UL); length = 32U; ret = ipw2100_get_ordinal(priv, 1006U, (void *)(& essid), & length); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "show_bssinfo"); printk("failed querying ordinals at line %d\n", 4131); } else { } } else { } length = 6U; ret = ipw2100_get_ordinal(priv, 1014U, (void *)(& bssid), & length); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "show_bssinfo"); printk("failed querying ordinals at line %d\n", 4138); } else { } } else { } length = 4U; ret = ipw2100_get_ordinal(priv, 189U, (void *)(& chan), & length); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "show_bssinfo"); printk("failed querying ordinals at line %d\n", 4144); } else { } } else { } tmp___3 = sprintf(out, "ESSID: %s\n", (char *)(& essid)); out = out + (unsigned long )tmp___3; tmp___4 = sprintf(out, "BSSID: %pM\n", (u8 *)(& bssid)); out = out + (unsigned long )tmp___4; tmp___5 = sprintf(out, "Channel: %d\n", chan); out = out + (unsigned long )tmp___5; return ((long )out - (long )buf); } } static struct device_attribute dev_attr_bssinfo = {{"bssinfo", 292U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_bssinfo, (ssize_t (*)(struct device * , struct device_attribute * , char const * , size_t ))0}; static ssize_t show_debug_level(struct device_driver *d , char *buf ) { int tmp ; { tmp = sprintf(buf, "0x%08X\n", ipw2100_debug_level); return ((ssize_t )tmp); } } static ssize_t store_debug_level(struct device_driver *d , char const *buf , size_t count ) { u32 val ; int ret ; int tmp ; __kernel_size_t tmp___0 ; { ret = kstrtou32(buf, 0U, & val); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "store_debug_level"); printk(": %s is not in hex or decimal form.\n", buf); } else { } } else { ipw2100_debug_level = val; } tmp___0 = strnlen(buf, count); return ((ssize_t )tmp___0); } } static struct driver_attribute driver_attr_debug_level = {{"debug_level", 420U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_debug_level, & store_debug_level}; static ssize_t show_fatal_error(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; char *out ; int i ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; out = buf; if (priv->fatal_error != 0U) { tmp___0 = sprintf(out, "0x%08X\n", priv->fatal_error); out = out + (unsigned long )tmp___0; } else { tmp___1 = sprintf(out, "0\n"); out = out + (unsigned long )tmp___1; } i = 1; goto ldv_60994; ldv_60993: ; if (priv->fatal_errors[(priv->fatal_index - (u32 )i) % 5U] == 0U) { goto ldv_60992; } else { } tmp___2 = sprintf(out, "%d. 0x%08X\n", i, priv->fatal_errors[(priv->fatal_index - (u32 )i) % 5U]); out = out + (unsigned long )tmp___2; ldv_60992: i = i + 1; ldv_60994: ; if (i <= 5) { goto ldv_60993; } else { } return ((long )out - (long )buf); } } static ssize_t store_fatal_error(struct device *d , struct device_attribute *attr , char const *buf , size_t count ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; schedule_reset(priv); return ((ssize_t )count); } } static struct device_attribute dev_attr_fatal_error = {{"fatal_error", 420U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_fatal_error, & store_fatal_error}; static ssize_t show_scan_age(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; tmp___0 = sprintf(buf, "%d\n", (priv->ieee)->scan_age); return ((ssize_t )tmp___0); } } static ssize_t store_scan_age(struct device *d , struct device_attribute *attr , char const *buf , size_t count ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; unsigned long val ; int ret ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; __kernel_size_t tmp___4 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "store_scan_age"); printk("enter\n"); } else { } ret = kstrtoul(buf, 0U, & val); if (ret != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "store_scan_age"); printk("%s: user supplied invalid value.\n", (char *)(& dev->name)); } else { } } else { (priv->ieee)->scan_age = (int )val; if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "store_scan_age"); printk("set scan_age = %u\n", (priv->ieee)->scan_age); } else { } } if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "store_scan_age"); printk("exit\n"); } else { } tmp___4 = strnlen(buf, count); return ((ssize_t )tmp___4); } } static struct device_attribute dev_attr_scan_age = {{"scan_age", 420U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_scan_age, & store_scan_age}; static ssize_t show_rf_kill(struct device *d , struct device_attribute *attr , char *buf ) { struct ipw2100_priv *priv ; void *tmp ; int val ; int tmp___0 ; int tmp___1 ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; tmp___0 = rf_kill_active(priv); val = ((priv->status & 8192UL) != 0UL) | (tmp___0 != 0 ? 2 : 0); tmp___1 = sprintf(buf, "%i\n", val); return ((ssize_t )tmp___1); } } static int ipw_radio_kill_sw(struct ipw2100_priv *priv , int disable_radio ) { int tmp ; int tmp___0 ; unsigned long tmp___1 ; int tmp___2 ; { if ((disable_radio == 0) ^ ((priv->status & 8192UL) != 0UL)) { return (0); } else { } if ((ipw2100_debug_level & 131072U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw_radio_kill_sw"); printk("Manual SW RF Kill set to: RADIO %s\n", disable_radio != 0 ? (char *)"OFF" : (char *)"ON"); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if (disable_radio != 0) { priv->status = priv->status | 8192UL; ipw2100_down(priv); } else { priv->status = priv->status & 0xffffffffffffdfffUL; tmp___2 = rf_kill_active(priv); if (tmp___2 != 0) { if ((ipw2100_debug_level & 131072U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw_radio_kill_sw"); printk("Can not turn radio back on - disabled by HW switch\n"); } else { } priv->stop_rf_kill = 0; tmp___1 = round_jiffies_relative(250UL); mod_delayed_work(system_wq, & priv->rf_kill, tmp___1); } else { schedule_reset(priv); } } mutex_unlock(& priv->action_mutex); return (1); } } static ssize_t store_rf_kill(struct device *d , struct device_attribute *attr , char const *buf , size_t count ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = dev_get_drvdata((struct device const *)d); priv = (struct ipw2100_priv *)tmp; ipw_radio_kill_sw(priv, (int )((signed char )*buf) == 49); return ((ssize_t )count); } } static struct device_attribute dev_attr_rf_kill = {{"rf_kill", 420U, (_Bool)0, 0, {{{(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}, {(char)0}}}}, & show_rf_kill, & store_rf_kill}; static struct attribute *ipw2100_sysfs_entries[15U] = { & dev_attr_hardware.attr, & dev_attr_registers.attr, & dev_attr_ordinals.attr, & dev_attr_pci.attr, & dev_attr_stats.attr, & dev_attr_internals.attr, & dev_attr_bssinfo.attr, & dev_attr_memory.attr, & dev_attr_scan_age.attr, & dev_attr_fatal_error.attr, & dev_attr_rf_kill.attr, & dev_attr_cfg.attr, & dev_attr_status.attr, & dev_attr_capability.attr, (struct attribute *)0}; static struct attribute_group ipw2100_attribute_group = {0, 0, (struct attribute **)(& ipw2100_sysfs_entries), 0}; static int status_queue_allocate(struct ipw2100_priv *priv , int entries ) { struct ipw2100_status_queue *q ; int tmp ; void *tmp___0 ; int tmp___1 ; { q = & priv->status_queue; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "status_queue_allocate"); printk("enter\n"); } else { } q->size = (u32 )((unsigned long )entries) * 8U; tmp___0 = pci_zalloc_consistent(priv->pci_dev, (size_t )q->size, & q->nic); q->drv = (struct ipw2100_status *)tmp___0; if ((unsigned long )q->drv == (unsigned long )((struct ipw2100_status *)0)) { printk("\fipw2100: Can not allocate status queue.\n"); return (-12); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "status_queue_allocate"); printk("exit\n"); } else { } return (0); } } static void status_queue_free(struct ipw2100_priv *priv ) { int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "status_queue_free"); printk("enter\n"); } else { } if ((unsigned long )priv->status_queue.drv != (unsigned long )((struct ipw2100_status *)0)) { pci_free_consistent(priv->pci_dev, (size_t )priv->status_queue.size, (void *)priv->status_queue.drv, priv->status_queue.nic); priv->status_queue.drv = (struct ipw2100_status *)0; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "status_queue_free"); printk("exit\n"); } else { } return; } } static int bd_queue_allocate(struct ipw2100_priv *priv , struct ipw2100_bd_queue *q , int entries ) { int tmp ; void *tmp___0 ; int tmp___1 ; int tmp___2 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "bd_queue_allocate"); printk("enter\n"); } else { } memset((void *)q, 0, 40UL); q->entries = (u32 )entries; q->size = (u32 )((unsigned long )entries) * 16U; tmp___0 = pci_zalloc_consistent(priv->pci_dev, (size_t )q->size, & q->nic); q->drv = (struct ipw2100_bd *)tmp___0; if ((unsigned long )q->drv == (unsigned long )((struct ipw2100_bd *)0)) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "bd_queue_allocate"); printk("can\'t allocate shared memory for buffer descriptors\n"); } else { } return (-12); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "bd_queue_allocate"); printk("exit\n"); } else { } return (0); } } static void bd_queue_free(struct ipw2100_priv *priv , struct ipw2100_bd_queue *q ) { int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "bd_queue_free"); printk("enter\n"); } else { } if ((unsigned long )q == (unsigned long )((struct ipw2100_bd_queue *)0)) { return; } else { } if ((unsigned long )q->drv != (unsigned long )((struct ipw2100_bd *)0)) { pci_free_consistent(priv->pci_dev, (size_t )q->size, (void *)q->drv, q->nic); q->drv = (struct ipw2100_bd *)0; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "bd_queue_free"); printk("exit\n"); } else { } return; } } static void bd_queue_initialize(struct ipw2100_priv *priv , struct ipw2100_bd_queue *q , u32 base , u32 size , u32 r , u32 w ) { int tmp ; int tmp___0 ; int tmp___1 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "bd_queue_initialize"); printk("enter\n"); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "bd_queue_initialize"); printk("initializing bd queue at virt=%p, phys=%08x\n", q->drv, (unsigned int )q->nic); } else { } write_register(priv->net_dev, base, (u32 )q->nic); write_register(priv->net_dev, size, q->entries); write_register(priv->net_dev, r, q->oldest); write_register(priv->net_dev, w, q->next); if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "bd_queue_initialize"); printk("exit\n"); } else { } return; } } static void ipw2100_kill_works(struct ipw2100_priv *priv ) { { priv->stop_rf_kill = 1; priv->stop_hang_check = 1; ldv_cancel_delayed_work_sync_16(& priv->reset_work); ldv_cancel_delayed_work_sync_17(& priv->security_work); ldv_cancel_delayed_work_sync_18(& priv->wx_event_work); ldv_cancel_delayed_work_sync_19(& priv->hang_check); ldv_cancel_delayed_work_sync_20(& priv->rf_kill); ldv_cancel_delayed_work_sync_21(& priv->scan_event); return; } } static int ipw2100_tx_allocate(struct ipw2100_priv *priv ) { int i ; int j ; int err ; void *v ; dma_addr_t p ; int tmp ; void *tmp___0 ; { err = -22; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_allocate"); printk("enter\n"); } else { } err = bd_queue_allocate(priv, & priv->tx_queue, 256); if (err != 0) { printk("\vipw2100: %s: failed bd_queue_allocate\n", (char *)(& (priv->net_dev)->name)); return (err); } else { } tmp___0 = kmalloc_array(128UL, 56UL, 32U); priv->tx_buffers = (struct ipw2100_tx_packet *)tmp___0; if ((unsigned long )priv->tx_buffers == (unsigned long )((struct ipw2100_tx_packet *)0)) { bd_queue_free(priv, & priv->tx_queue); return (-12); } else { } i = 0; goto ldv_61124; ldv_61123: v = pci_alloc_consistent(priv->pci_dev, 52UL, & p); if ((unsigned long )v == (unsigned long )((void *)0)) { printk("\vipw2100: %s: PCI alloc failed for tx buffers.\n", (char *)(& (priv->net_dev)->name)); err = -12; goto ldv_61122; } else { } (priv->tx_buffers + (unsigned long )i)->type = 51967; (priv->tx_buffers + (unsigned long )i)->info.d_struct.data = (struct ipw2100_data_header *)v; (priv->tx_buffers + (unsigned long )i)->info.d_struct.data_phys = p; (priv->tx_buffers + (unsigned long )i)->info.d_struct.txb = (struct libipw_txb *)0; i = i + 1; ldv_61124: ; if (i <= 127) { goto ldv_61123; } else { } ldv_61122: ; if (i == 128) { return (0); } else { } j = 0; goto ldv_61126; ldv_61125: pci_free_consistent(priv->pci_dev, 52UL, (void *)(priv->tx_buffers + (unsigned long )j)->info.d_struct.data, (priv->tx_buffers + (unsigned long )j)->info.d_struct.data_phys); j = j + 1; ldv_61126: ; if (j < i) { goto ldv_61125; } else { } kfree((void const *)priv->tx_buffers); priv->tx_buffers = (struct ipw2100_tx_packet *)0; return (err); } } static void ipw2100_tx_initialize(struct ipw2100_priv *priv ) { int i ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_initialize"); printk("enter\n"); } else { } INIT_LIST_HEAD(& priv->fw_pend_list); tmp___0 = 0; priv->fw_pend_stat.hi = tmp___0; priv->fw_pend_stat.value = tmp___0; priv->fw_pend_stat.lo = 2147483647; INIT_LIST_HEAD(& priv->tx_pend_list); INIT_LIST_HEAD(& priv->tx_free_list); tmp___1 = 0; priv->tx_pend_stat.hi = tmp___1; priv->tx_pend_stat.value = tmp___1; priv->tx_pend_stat.lo = 2147483647; tmp___2 = 0; priv->tx_free_stat.hi = tmp___2; priv->tx_free_stat.value = tmp___2; priv->tx_free_stat.lo = 2147483647; i = 0; goto ldv_61134; ldv_61133: ; if ((unsigned long )(priv->tx_buffers + (unsigned long )i)->info.d_struct.txb != (unsigned long )((struct libipw_txb *)0)) { libipw_txb_free((priv->tx_buffers + (unsigned long )i)->info.d_struct.txb); (priv->tx_buffers + (unsigned long )i)->info.d_struct.txb = (struct libipw_txb *)0; } else { } list_add_tail(& (priv->tx_buffers + (unsigned long )i)->list, & priv->tx_free_list); i = i + 1; ldv_61134: ; if (i <= 127) { goto ldv_61133; } else { } priv->tx_free_stat.value = i; if (priv->tx_free_stat.value > priv->tx_free_stat.hi) { priv->tx_free_stat.hi = priv->tx_free_stat.value; } else { } if (priv->tx_free_stat.value < priv->tx_free_stat.lo) { priv->tx_free_stat.lo = priv->tx_free_stat.value; } else { } priv->tx_queue.oldest = 0U; priv->tx_queue.available = priv->tx_queue.entries; priv->tx_queue.next = 0U; tmp___3 = 0; priv->txq_stat.hi = tmp___3; priv->txq_stat.value = tmp___3; priv->txq_stat.lo = 2147483647; priv->txq_stat.value = (int )priv->tx_queue.available; if (priv->txq_stat.value > priv->txq_stat.hi) { priv->txq_stat.hi = priv->txq_stat.value; } else { } if (priv->txq_stat.value < priv->txq_stat.lo) { priv->txq_stat.lo = priv->txq_stat.value; } else { } bd_queue_initialize(priv, & priv->tx_queue, 512U, 516U, 640U, 3968U); if ((ipw2100_debug_level & 4U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_initialize"); printk("exit\n"); } else { } return; } } static void ipw2100_tx_free(struct ipw2100_priv *priv ) { int i ; int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_free"); printk("enter\n"); } else { } bd_queue_free(priv, & priv->tx_queue); if ((unsigned long )priv->tx_buffers == (unsigned long )((struct ipw2100_tx_packet *)0)) { return; } else { } i = 0; goto ldv_61142; ldv_61141: ; if ((unsigned long )(priv->tx_buffers + (unsigned long )i)->info.d_struct.txb != (unsigned long )((struct libipw_txb *)0)) { libipw_txb_free((priv->tx_buffers + (unsigned long )i)->info.d_struct.txb); (priv->tx_buffers + (unsigned long )i)->info.d_struct.txb = (struct libipw_txb *)0; } else { } if ((unsigned long )(priv->tx_buffers + (unsigned long )i)->info.d_struct.data != (unsigned long )((struct ipw2100_data_header *)0)) { pci_free_consistent(priv->pci_dev, 52UL, (void *)(priv->tx_buffers + (unsigned long )i)->info.d_struct.data, (priv->tx_buffers + (unsigned long )i)->info.d_struct.data_phys); } else { } i = i + 1; ldv_61142: ; if (i <= 127) { goto ldv_61141; } else { } kfree((void const *)priv->tx_buffers); priv->tx_buffers = (struct ipw2100_tx_packet *)0; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_free"); printk("exit\n"); } else { } return; } } static int ipw2100_rx_allocate(struct ipw2100_priv *priv ) { int i ; int j ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; void *tmp___2 ; int tmp___3 ; struct ipw2100_rx_packet *packet ; long tmp___4 ; { err = -22; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_allocate"); printk("enter\n"); } else { } err = bd_queue_allocate(priv, & priv->rx_queue, 256); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_allocate"); printk("failed bd_queue_allocate\n"); } else { } return (err); } else { } err = status_queue_allocate(priv, 256); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_allocate"); printk("failed status_queue_allocate\n"); } else { } bd_queue_free(priv, & priv->rx_queue); return (err); } else { } tmp___2 = kmalloc(12288UL, 208U); priv->rx_buffers = (struct ipw2100_rx_packet *)tmp___2; if ((unsigned long )priv->rx_buffers == (unsigned long )((struct ipw2100_rx_packet *)0)) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_allocate"); printk("can\'t allocate rx packet buffer table\n"); } else { } bd_queue_free(priv, & priv->rx_queue); status_queue_free(priv); return (-12); } else { } i = 0; goto ldv_61154; ldv_61153: packet = priv->rx_buffers + (unsigned long )i; err = ipw2100_alloc_skb(priv, packet); tmp___4 = ldv__builtin_expect(err != 0, 0L); if (tmp___4 != 0L) { err = -12; goto ldv_61152; } else { } (priv->rx_queue.drv + (unsigned long )i)->host_addr = (u32 )packet->dma_addr; (priv->rx_queue.drv + (unsigned long )i)->buf_length = 2340U; (priv->status_queue.drv + (unsigned long )i)->status_fields = 0U; i = i + 1; ldv_61154: ; if (i <= 255) { goto ldv_61153; } else { } ldv_61152: ; if (i == 256) { return (0); } else { } j = 0; goto ldv_61156; ldv_61155: pci_unmap_single(priv->pci_dev, (priv->rx_buffers + (unsigned long )j)->dma_addr, 48UL, 2); consume_skb((priv->rx_buffers + (unsigned long )j)->skb); j = j + 1; ldv_61156: ; if (j < i) { goto ldv_61155; } else { } kfree((void const *)priv->rx_buffers); priv->rx_buffers = (struct ipw2100_rx_packet *)0; bd_queue_free(priv, & priv->rx_queue); status_queue_free(priv); return (err); } } static void ipw2100_rx_initialize(struct ipw2100_priv *priv ) { int tmp ; int tmp___0 ; int tmp___1 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_initialize"); printk("enter\n"); } else { } priv->rx_queue.oldest = 0U; priv->rx_queue.available = priv->rx_queue.entries - 1U; priv->rx_queue.next = priv->rx_queue.entries - 1U; tmp___0 = 0; priv->rxq_stat.hi = tmp___0; priv->rxq_stat.value = tmp___0; priv->rxq_stat.lo = 2147483647; priv->rxq_stat.value = (int )priv->rx_queue.available; if (priv->rxq_stat.value > priv->rxq_stat.hi) { priv->rxq_stat.hi = priv->rxq_stat.value; } else { } if (priv->rxq_stat.value < priv->rxq_stat.lo) { priv->rxq_stat.lo = priv->rxq_stat.value; } else { } bd_queue_initialize(priv, & priv->rx_queue, 576U, 584U, 672U, 4000U); write_register(priv->net_dev, 580U, (u32 )priv->status_queue.nic); if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_initialize"); printk("exit\n"); } else { } return; } } static void ipw2100_rx_free(struct ipw2100_priv *priv ) { int i ; int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_free"); printk("enter\n"); } else { } bd_queue_free(priv, & priv->rx_queue); status_queue_free(priv); if ((unsigned long )priv->rx_buffers == (unsigned long )((struct ipw2100_rx_packet *)0)) { return; } else { } i = 0; goto ldv_61168; ldv_61167: ; if ((unsigned long )(priv->rx_buffers + (unsigned long )i)->rxp != (unsigned long )((struct ipw2100_rx *)0)) { pci_unmap_single(priv->pci_dev, (priv->rx_buffers + (unsigned long )i)->dma_addr, 2340UL, 2); consume_skb((priv->rx_buffers + (unsigned long )i)->skb); } else { } i = i + 1; ldv_61168: ; if (i <= 255) { goto ldv_61167; } else { } kfree((void const *)priv->rx_buffers); priv->rx_buffers = (struct ipw2100_rx_packet *)0; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rx_free"); printk("exit\n"); } else { } return; } } static int ipw2100_read_mac_address(struct ipw2100_priv *priv ) { u32 length ; u8 addr[6U] ; int err ; int tmp ; int tmp___0 ; { length = 6U; err = ipw2100_get_ordinal(priv, 1001U, (void *)(& addr), & length); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_read_mac_address"); printk("MAC address read failed\n"); } else { } return (-5); } else { } memcpy((void *)(priv->net_dev)->dev_addr, (void const *)(& addr), 6UL); if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_read_mac_address"); printk("card MAC is %pM\n", (priv->net_dev)->dev_addr); } else { } return (0); } } static int ipw2100_set_mac_address(struct ipw2100_priv *priv , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; { cmd.host_command = 11U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 6U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_mac_address"); printk("SET_MAC_ADDRESS\n"); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_mac_address"); printk("enter\n"); } else { } if ((priv->config & 8UL) != 0UL) { memcpy((void *)(& cmd.host_command_parameters), (void const *)(& priv->mac_addr), 6UL); memcpy((void *)(priv->net_dev)->dev_addr, (void const *)(& priv->mac_addr), 6UL); } else { memcpy((void *)(& cmd.host_command_parameters), (void const *)(priv->net_dev)->dev_addr, 6UL); } err = ipw2100_hw_send_command(priv, & cmd); if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_mac_address"); printk("exit\n"); } else { } return (err); } } static int ipw2100_set_port_type(struct ipw2100_priv *priv , u32 port_type , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; { cmd.host_command = 12U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; switch (port_type) { case 2U: cmd.host_command_parameters[0] = 1U; goto ldv_61192; case 1U: cmd.host_command_parameters[0] = 3U; goto ldv_61192; } ldv_61192: ; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_port_type"); printk("PORT_TYPE: %s\n", port_type == 3U ? (char *)"Ad-Hoc" : (char *)"Managed"); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { printk("\vipw2100: %s: Could not disable adapter %d\n", (char *)(& (priv->net_dev)->name), err); return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static int ipw2100_set_channel(struct ipw2100_priv *priv , u32 channel___0 , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; { cmd.host_command = 14U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = channel___0; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_channel"); printk("CHANNEL: %d\n", channel___0); } else { } if ((priv->ieee)->iw_mode == 2) { return (0); } else { } if (channel___0 != 0U && channel___0 > 14U) { return (-22); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_channel"); printk("Failed to set channel to %d", channel___0); } else { } return (err); } else { } if (channel___0 != 0U) { priv->config = priv->config | 1UL; } else { priv->config = priv->config & 0xfffffffffffffffeUL; } priv->channel = (u8 )channel___0; if (batch_mode == 0) { err = ipw2100_enable_adapter(priv); if (err != 0) { return (err); } else { } } else { } return (0); } } static int ipw2100_system_config(struct ipw2100_priv *priv , int batch_mode ) { struct host_command cmd ; u32 ibss_mask ; u32 len ; int err ; { cmd.host_command = 6U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 12U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; len = 4U; if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } if ((priv->ieee)->iw_mode == 1) { cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 32U; } else { } cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 114688U; if ((priv->config & 16UL) == 0UL) { cmd.host_command_parameters[0] = cmd.host_command_parameters[0] | 16U; } else { } err = ipw2100_get_ordinal(priv, 207U, (void *)(& ibss_mask), & len); if (err != 0) { ibss_mask = 34815U; } else { } cmd.host_command_parameters[1] = 16383U; cmd.host_command_parameters[2] = ibss_mask & 16383U; err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } if (batch_mode == 0) { err = ipw2100_enable_adapter(priv); if (err != 0) { return (err); } else { } } else { } return (0); } } static int ipw2100_set_tx_rates(struct ipw2100_priv *priv , u32 rate , int batch_mode ) { struct host_command cmd ; int err ; { cmd.host_command = 19U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = rate & 15U; if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } ipw2100_hw_send_command(priv, & cmd); cmd.host_command = 18U; ipw2100_hw_send_command(priv, & cmd); cmd.host_command = 62U; ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { err = ipw2100_enable_adapter(priv); if (err != 0) { return (err); } else { } } else { } priv->tx_rates = rate; return (0); } } static int ipw2100_set_power_mode(struct ipw2100_priv *priv , int power_level ) { struct host_command cmd ; int err ; { cmd.host_command = 17U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = (u32 )power_level; err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } if (power_level == 0) { priv->power_mode = priv->power_mode & 15; } else { priv->power_mode = power_level | 16; } return (0); } } static int ipw2100_set_rts_threshold(struct ipw2100_priv *priv , u32 threshold ) { struct host_command cmd ; int err ; { cmd.host_command = 15U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((int )threshold < 0) { cmd.host_command_parameters[0] = 2304U; } else { cmd.host_command_parameters[0] = threshold & 2147483647U; } err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } priv->rts_threshold = threshold; return (0); } } static int ipw2100_set_short_retry(struct ipw2100_priv *priv , u32 retry ) { struct host_command cmd ; int err ; { cmd.host_command = 51U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = retry; err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } priv->short_retry_limit = (int )retry; return (0); } } static int ipw2100_set_long_retry(struct ipw2100_priv *priv , u32 retry ) { struct host_command cmd ; int err ; { cmd.host_command = 52U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = retry; err = ipw2100_hw_send_command(priv, & cmd); if (err != 0) { return (err); } else { } priv->long_retry_limit = (int )retry; return (0); } } static int ipw2100_set_mandatory_bssid(struct ipw2100_priv *priv , u8 *bssid , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; { cmd.host_command = 9U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = (unsigned long )bssid == (unsigned long )((u8 *)0U) ? 0U : 6U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((unsigned long )bssid != (unsigned long )((u8 *)0U)) { if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_mandatory_bssid"); printk("MANDATORY_BSSID: %pM\n", bssid); } else { } } else if ((ipw2100_debug_level & 32U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_mandatory_bssid"); printk("MANDATORY_BSSID: \n"); } else { } if ((unsigned long )bssid != (unsigned long )((u8 *)0U)) { memcpy((void *)(& cmd.host_command_parameters), (void const *)bssid, 6UL); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static int ipw2100_disassociate_bssid(struct ipw2100_priv *priv ) { struct host_command cmd ; int err ; int len ; int tmp ; { cmd.host_command = 68U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 6U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_disassociate_bssid"); printk("DISASSOCIATION_BSSID\n"); } else { } len = 6; memcpy((void *)(& cmd.host_command_parameters), (void const *)(& priv->bssid), 6UL); err = ipw2100_hw_send_command(priv, & cmd); return (err); } } static int ipw2100_set_wpa_ie(struct ipw2100_priv *priv , struct ipw2100_wpa_assoc_frame *wpa_frame , int batch_mode ) ; static int ipw2100_set_wpa_ie(struct ipw2100_priv *priv , struct ipw2100_wpa_assoc_frame *wpa_frame , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; { cmd.host_command = 69U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 400U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_wpa_ie"); printk("SET_WPA_IE\n"); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } memcpy((void *)(& cmd.host_command_parameters), (void const *)wpa_frame, 400UL); err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { tmp___0 = ipw2100_enable_adapter(priv); if (tmp___0 != 0) { err = -5; } else { } } else { } return (err); } } static int ipw2100_set_security_information(struct ipw2100_priv *priv , int auth_mode , int security_level , int unicast_using_group , int batch_mode ) { struct host_command cmd ; struct security_info_params *security ; int err ; int tmp ; { cmd.host_command = 67U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 9U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; security = (struct security_info_params *)(& cmd.host_command_parameters); memset((void *)security, 0, 9UL); security->auth_mode = (u8 )auth_mode; security->unicast_using_group = (u8 )unicast_using_group; switch (security_level) { default: ; case 0: security->allowed_ciphers = 1U; goto ldv_61287; case 1: security->allowed_ciphers = 34U; goto ldv_61287; case 2: security->allowed_ciphers = 38U; goto ldv_61287; case 3: security->allowed_ciphers = 98U; goto ldv_61287; case 4: security->allowed_ciphers = 54U; goto ldv_61287; } ldv_61287: ; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_security_information"); printk("SET_SECURITY_INFORMATION: auth:%d cipher:0x%02X (level %d)\n", (int )security->auth_mode, security->allowed_ciphers, security_level); } else { } security->replay_counters_number = 0U; if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static int ipw2100_set_tx_power(struct ipw2100_priv *priv , u32 tx_power ) { struct host_command cmd ; int err ; u32 tmp ; { cmd.host_command = 36U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; err = 0; tmp = tx_power; if (tx_power != 32U) { tmp = ((tx_power + 12U) * 16U) / 28U; } else { } cmd.host_command_parameters[0] = tmp; if ((priv->ieee)->iw_mode == 1) { err = ipw2100_hw_send_command(priv, & cmd); } else { } if (err == 0) { priv->tx_power = (int )tx_power; } else { } return (0); } } static int ipw2100_set_ibss_beacon_interval(struct ipw2100_priv *priv , u32 interval , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; int tmp___0 ; { cmd.host_command = 29U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = interval; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_ibss_beacon_interval"); printk("enter\n"); } else { } if ((priv->ieee)->iw_mode == 1) { if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { err = ipw2100_enable_adapter(priv); if (err != 0) { return (err); } else { } } else { } } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_ibss_beacon_interval"); printk("exit\n"); } else { } return (0); } } static void ipw2100_queues_initialize(struct ipw2100_priv *priv ) { { ipw2100_tx_initialize(priv); ipw2100_rx_initialize(priv); ipw2100_msg_initialize(priv); return; } } static void ipw2100_queues_free(struct ipw2100_priv *priv ) { { ipw2100_tx_free(priv); ipw2100_rx_free(priv); ipw2100_msg_free(priv); return; } } static int ipw2100_queues_allocate(struct ipw2100_priv *priv ) { int tmp ; int tmp___0 ; int tmp___1 ; { tmp = ipw2100_tx_allocate(priv); if (tmp != 0) { goto fail; } else { tmp___0 = ipw2100_rx_allocate(priv); if (tmp___0 != 0) { goto fail; } else { tmp___1 = ipw2100_msg_allocate(priv); if (tmp___1 != 0) { goto fail; } else { } } } return (0); fail: ipw2100_tx_free(priv); ipw2100_rx_free(priv); ipw2100_msg_free(priv); return (-12); } } static int ipw2100_set_wep_flags(struct ipw2100_priv *priv , u32 flags , int batch_mode ) { struct host_command cmd ; int err ; int tmp ; { cmd.host_command = 26U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; cmd.host_command_parameters[0] = flags; if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_wep_flags"); printk("WEP_FLAGS: flags = 0x%08X\n", flags); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { printk("\vipw2100: %s: Could not disable adapter %d\n", (char *)(& (priv->net_dev)->name), err); return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static int ipw2100_set_key(struct ipw2100_priv *priv , int idx , char *key , int len , int batch_mode ) { int keylen ; struct host_command cmd ; struct ipw2100_wep_key *wep_key ; int err ; int tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int err2 ; int tmp___3 ; { keylen = len != 0 ? (len <= 5 ? 5 : 13) : 0; cmd.host_command = 20U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 15U; cmd.host_command_parameters[0] = 0U; cmd.host_command_parameters[1] = 0U; cmd.host_command_parameters[2] = 0U; cmd.host_command_parameters[3] = 0U; cmd.host_command_parameters[4] = 0U; cmd.host_command_parameters[5] = 0U; cmd.host_command_parameters[6] = 0U; cmd.host_command_parameters[7] = 0U; cmd.host_command_parameters[8] = 0U; cmd.host_command_parameters[9] = 0U; cmd.host_command_parameters[10] = 0U; cmd.host_command_parameters[11] = 0U; cmd.host_command_parameters[12] = 0U; cmd.host_command_parameters[13] = 0U; cmd.host_command_parameters[14] = 0U; cmd.host_command_parameters[15] = 0U; cmd.host_command_parameters[16] = 0U; cmd.host_command_parameters[17] = 0U; cmd.host_command_parameters[18] = 0U; cmd.host_command_parameters[19] = 0U; cmd.host_command_parameters[20] = 0U; cmd.host_command_parameters[21] = 0U; cmd.host_command_parameters[22] = 0U; cmd.host_command_parameters[23] = 0U; cmd.host_command_parameters[24] = 0U; cmd.host_command_parameters[25] = 0U; cmd.host_command_parameters[26] = 0U; cmd.host_command_parameters[27] = 0U; cmd.host_command_parameters[28] = 0U; cmd.host_command_parameters[29] = 0U; cmd.host_command_parameters[30] = 0U; cmd.host_command_parameters[31] = 0U; cmd.host_command_parameters[32] = 0U; cmd.host_command_parameters[33] = 0U; cmd.host_command_parameters[34] = 0U; cmd.host_command_parameters[35] = 0U; cmd.host_command_parameters[36] = 0U; cmd.host_command_parameters[37] = 0U; cmd.host_command_parameters[38] = 0U; cmd.host_command_parameters[39] = 0U; cmd.host_command_parameters[40] = 0U; cmd.host_command_parameters[41] = 0U; cmd.host_command_parameters[42] = 0U; cmd.host_command_parameters[43] = 0U; cmd.host_command_parameters[44] = 0U; cmd.host_command_parameters[45] = 0U; cmd.host_command_parameters[46] = 0U; cmd.host_command_parameters[47] = 0U; cmd.host_command_parameters[48] = 0U; cmd.host_command_parameters[49] = 0U; cmd.host_command_parameters[50] = 0U; cmd.host_command_parameters[51] = 0U; cmd.host_command_parameters[52] = 0U; cmd.host_command_parameters[53] = 0U; cmd.host_command_parameters[54] = 0U; cmd.host_command_parameters[55] = 0U; cmd.host_command_parameters[56] = 0U; cmd.host_command_parameters[57] = 0U; cmd.host_command_parameters[58] = 0U; cmd.host_command_parameters[59] = 0U; cmd.host_command_parameters[60] = 0U; cmd.host_command_parameters[61] = 0U; cmd.host_command_parameters[62] = 0U; cmd.host_command_parameters[63] = 0U; cmd.host_command_parameters[64] = 0U; cmd.host_command_parameters[65] = 0U; cmd.host_command_parameters[66] = 0U; cmd.host_command_parameters[67] = 0U; cmd.host_command_parameters[68] = 0U; cmd.host_command_parameters[69] = 0U; cmd.host_command_parameters[70] = 0U; cmd.host_command_parameters[71] = 0U; cmd.host_command_parameters[72] = 0U; cmd.host_command_parameters[73] = 0U; cmd.host_command_parameters[74] = 0U; cmd.host_command_parameters[75] = 0U; cmd.host_command_parameters[76] = 0U; cmd.host_command_parameters[77] = 0U; cmd.host_command_parameters[78] = 0U; cmd.host_command_parameters[79] = 0U; cmd.host_command_parameters[80] = 0U; cmd.host_command_parameters[81] = 0U; cmd.host_command_parameters[82] = 0U; cmd.host_command_parameters[83] = 0U; cmd.host_command_parameters[84] = 0U; cmd.host_command_parameters[85] = 0U; cmd.host_command_parameters[86] = 0U; cmd.host_command_parameters[87] = 0U; cmd.host_command_parameters[88] = 0U; cmd.host_command_parameters[89] = 0U; cmd.host_command_parameters[90] = 0U; cmd.host_command_parameters[91] = 0U; cmd.host_command_parameters[92] = 0U; cmd.host_command_parameters[93] = 0U; cmd.host_command_parameters[94] = 0U; cmd.host_command_parameters[95] = 0U; cmd.host_command_parameters[96] = 0U; cmd.host_command_parameters[97] = 0U; cmd.host_command_parameters[98] = 0U; cmd.host_command_parameters[99] = 0U; wep_key = (struct ipw2100_wep_key *)(& cmd.host_command_parameters); if ((ipw2100_debug_level & 32U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_key"); printk("WEP_KEY_INFO: index = %d, len = %d/%d\n", idx, keylen, len); } else { } wep_key->idx = (u8 )idx; wep_key->len = (u8 )keylen; if (keylen != 0) { memcpy((void *)(& wep_key->key), (void const *)key, (size_t )len); memset((void *)(& wep_key->key) + (unsigned long )len, 0, (size_t )(keylen - len)); } else { } if (keylen == 0) { if ((ipw2100_debug_level & 4194304U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_key"); printk("%s: Clearing key %d\n", (char *)(& (priv->net_dev)->name), (int )wep_key->idx); } else { } } else if (keylen == 5) { if ((ipw2100_debug_level & 4194304U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_key"); printk("%s: idx: %d, len: %d key: %02X%02X%02X%02X-%02X\n", (char *)(& (priv->net_dev)->name), (int )wep_key->idx, (int )wep_key->len, (int )wep_key->key[0], (int )wep_key->key[1], (int )wep_key->key[2], (int )wep_key->key[3], (int )wep_key->key[4]); } else { } } else if ((ipw2100_debug_level & 4194304U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_key"); printk("%s: idx: %d, len: %d key: %02X%02X%02X%02X-%02X%02X%02X%02X-%02X%02X%02X\n", (char *)(& (priv->net_dev)->name), (int )wep_key->idx, (int )wep_key->len, (int )wep_key->key[0], (int )wep_key->key[1], (int )wep_key->key[2], (int )wep_key->key[3], (int )wep_key->key[4], (int )wep_key->key[5], (int )wep_key->key[6], (int )wep_key->key[7], (int )wep_key->key[8], (int )wep_key->key[9], (int )wep_key->key[10]); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { printk("\vipw2100: %s: Could not disable adapter %d\n", (char *)(& (priv->net_dev)->name), err); return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { tmp___3 = ipw2100_enable_adapter(priv); err2 = tmp___3; if (err == 0) { err = err2; } else { } } else { } return (err); } } static int ipw2100_set_key_index(struct ipw2100_priv *priv , int idx , int batch_mode ) { struct host_command cmd ; unsigned int tmp ; int err ; int tmp___0 ; { cmd.host_command = 25U; cmd.host_command1 = 0U; cmd.host_command_sequence = 0U; cmd.host_command_length = 4U; cmd.host_command_parameters[0] = (unsigned int )idx; tmp = 1U; while (1) { if (tmp >= 100U) { break; } else { } cmd.host_command_parameters[tmp] = 0U; tmp = tmp + 1U; } if ((ipw2100_debug_level & 32U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_set_key_index"); printk("WEP_KEY_INDEX: index = %d\n", idx); } else { } if (idx < 0 || idx > 3) { return (-22); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { printk("\vipw2100: %s: Could not disable adapter %d\n", (char *)(& (priv->net_dev)->name), err); return (err); } else { } } else { } err = ipw2100_hw_send_command(priv, & cmd); if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static int ipw2100_configure_security(struct ipw2100_priv *priv , int batch_mode ) { int i ; int err ; int auth_mode ; int sec_level ; int use_group ; { if ((priv->status & 4UL) == 0UL) { return (0); } else { } if (batch_mode == 0) { err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } } else { } if ((unsigned int )*((unsigned char *)priv->ieee + 984UL) == 0U) { err = ipw2100_set_security_information(priv, 0, 0, 0, 1); } else { auth_mode = 0; if (((int )(priv->ieee)->sec.flags & 32) != 0) { if ((unsigned int )(priv->ieee)->sec.auth_mode == 1U) { auth_mode = 1; } else if ((unsigned int )(priv->ieee)->sec.auth_mode == 128U) { auth_mode = 128; } else { } } else { } sec_level = 0; if (((int )(priv->ieee)->sec.flags & 128) != 0) { sec_level = (int )(priv->ieee)->sec.level; } else { } use_group = 0; if (((int )(priv->ieee)->sec.flags & 64) != 0) { use_group = (int )(priv->ieee)->sec.unicast_uses_group; } else { } err = ipw2100_set_security_information(priv, auth_mode, sec_level, use_group, 1); } if (err != 0) { goto exit; } else { } if ((unsigned int )*((unsigned char *)priv->ieee + 984UL) != 0U) { i = 0; goto ldv_61362; ldv_61361: ; if ((((int )(priv->ieee)->sec.flags >> i) & 1) == 0) { memset((void *)(& (priv->ieee)->sec.keys) + (unsigned long )i, 0, 13UL); (priv->ieee)->sec.key_sizes[i] = 0U; } else { err = ipw2100_set_key(priv, i, (char *)(& (priv->ieee)->sec.keys) + (unsigned long )i, (int )(priv->ieee)->sec.key_sizes[i], 1); if (err != 0) { goto exit; } else { } } i = i + 1; ldv_61362: ; if (i <= 3) { goto ldv_61361; } else { } ipw2100_set_key_index(priv, (priv->ieee)->crypt_info.tx_keyidx, 1); } else { } err = ipw2100_set_wep_flags(priv, (unsigned int )*((unsigned char *)priv->ieee + 984UL) != 0U ? 8U : 0U, 1); if (err != 0) { goto exit; } else { } priv->status = priv->status & 0xffffffffbfffffffUL; exit: ; if (batch_mode == 0) { ipw2100_enable_adapter(priv); } else { } return (err); } } static void ipw2100_security_work(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffffae8UL; if ((priv->status & 1024UL) == 0UL && (priv->status & 1073741824UL) != 0UL) { ipw2100_configure_security(priv, 0); } else { } return; } } static void shim__set_security(struct net_device *dev , struct libipw_security *sec ) { struct ipw2100_priv *priv ; void *tmp ; int i ; int force_update ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; force_update = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { goto done; } else { } i = 0; goto ldv_61379; ldv_61378: ; if (((int )sec->flags >> i) & 1) { (priv->ieee)->sec.key_sizes[i] = sec->key_sizes[i]; if ((unsigned int )sec->key_sizes[i] == 0U) { (priv->ieee)->sec.flags = (u16 )((int )((short )(priv->ieee)->sec.flags) & ~ ((int )((short )(1 << i)))); } else { memcpy((void *)(& (priv->ieee)->sec.keys) + (unsigned long )i, (void const *)(& sec->keys) + (unsigned long )i, (size_t )sec->key_sizes[i]); } if ((unsigned int )sec->level == 1U) { (priv->ieee)->sec.flags = (u16 )((int )((short )(priv->ieee)->sec.flags) | (int )((short )(1 << i))); priv->status = priv->status | 1073741824UL; } else { (priv->ieee)->sec.flags = (u16 )((int )((short )(priv->ieee)->sec.flags) & ~ ((int )((short )(1 << i)))); } } else { } i = i + 1; ldv_61379: ; if (i <= 3) { goto ldv_61378; } else { } if (((int )sec->flags & 16) != 0 && (int )(priv->ieee)->sec.active_key != (int )sec->active_key) { if ((int )sec->active_key <= 3) { (priv->ieee)->sec.active_key = sec->active_key; (priv->ieee)->sec.flags = (u16 )((unsigned int )(priv->ieee)->sec.flags | 16U); } else { (priv->ieee)->sec.flags = (unsigned int )(priv->ieee)->sec.flags & 65519U; } priv->status = priv->status | 1073741824UL; } else { } if (((int )sec->flags & 32) != 0 && (int )(priv->ieee)->sec.auth_mode != (int )sec->auth_mode) { (priv->ieee)->sec.auth_mode = sec->auth_mode; (priv->ieee)->sec.flags = (u16 )((unsigned int )(priv->ieee)->sec.flags | 32U); priv->status = priv->status | 1073741824UL; } else { } if (((int )sec->flags & 256) != 0 && (int )(priv->ieee)->sec.enabled != (int )sec->enabled) { (priv->ieee)->sec.flags = (u16 )((unsigned int )(priv->ieee)->sec.flags | 256U); (priv->ieee)->sec.enabled = sec->enabled; priv->status = priv->status | 1073741824UL; force_update = 1; } else { } if (((int )sec->flags & 512) != 0) { (priv->ieee)->sec.encrypt = sec->encrypt; } else { } if (((int )sec->flags & 128) != 0 && (int )(priv->ieee)->sec.level != (int )sec->level) { (priv->ieee)->sec.level = sec->level; (priv->ieee)->sec.flags = (u16 )((unsigned int )(priv->ieee)->sec.flags | 128U); priv->status = priv->status | 1073741824UL; } else { } if ((ipw2100_debug_level & 4194304U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "shim__set_security"); printk("Security flags: %c %c%c%c%c %c%c%c%c\n", ((int )(priv->ieee)->sec.flags & 256) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 128) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 64) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 32) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 16) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 8) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 4) != 0 ? 49 : 48, ((int )(priv->ieee)->sec.flags & 2) != 0 ? 49 : 48, (int )(priv->ieee)->sec.flags & 1 ? 49 : 48); } else { } if ((priv->status & 1536UL) == 0UL) { ipw2100_configure_security(priv, 0); } else { } done: mutex_unlock(& priv->action_mutex); return; } } static int ipw2100_adapter_setup(struct ipw2100_priv *priv ) { int err ; int batch_mode ; u8 *bssid ; int tmp ; int tmp___0 ; int tmp___1 ; { batch_mode = 1; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_adapter_setup"); printk("enter\n"); } else { } err = ipw2100_disable_adapter(priv); if (err != 0) { return (err); } else { } if ((priv->ieee)->iw_mode == 6) { err = ipw2100_set_channel(priv, (u32 )priv->channel, batch_mode); if (err != 0) { return (err); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_adapter_setup"); printk("exit\n"); } else { } return (0); } else { } err = ipw2100_read_mac_address(priv); if (err != 0) { return (-5); } else { } err = ipw2100_set_mac_address(priv, batch_mode); if (err != 0) { return (err); } else { } err = ipw2100_set_port_type(priv, (u32 )(priv->ieee)->iw_mode, batch_mode); if (err != 0) { return (err); } else { } if ((priv->ieee)->iw_mode == 1) { err = ipw2100_set_channel(priv, (u32 )priv->channel, batch_mode); if (err != 0) { return (err); } else { } } else { } err = ipw2100_system_config(priv, batch_mode); if (err != 0) { return (err); } else { } err = ipw2100_set_tx_rates(priv, priv->tx_rates, batch_mode); if (err != 0) { return (err); } else { } err = ipw2100_set_power_mode(priv, 0); if (err != 0) { return (err); } else { } err = ipw2100_set_rts_threshold(priv, priv->rts_threshold); if (err != 0) { return (err); } else { } if ((priv->config & 4UL) != 0UL) { bssid = (u8 *)(& priv->bssid); } else { bssid = (u8 *)0U; } err = ipw2100_set_mandatory_bssid(priv, bssid, batch_mode); if (err != 0) { return (err); } else { } if ((priv->config & 2UL) != 0UL) { err = ipw2100_set_essid(priv, (char *)(& priv->essid), (int )priv->essid_len, batch_mode); } else { err = ipw2100_set_essid(priv, (char *)0, 0, batch_mode); } if (err != 0) { return (err); } else { } err = ipw2100_configure_security(priv, batch_mode); if (err != 0) { return (err); } else { } if ((priv->ieee)->iw_mode == 1) { err = ipw2100_set_ibss_beacon_interval(priv, priv->beacon_interval, batch_mode); if (err != 0) { return (err); } else { } err = ipw2100_set_tx_power(priv, (u32 )priv->tx_power); if (err != 0) { return (err); } else { } } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_adapter_setup"); printk("exit\n"); } else { } return (0); } } static int ipw2100_set_address(struct net_device *dev , void *p ) { struct ipw2100_priv *priv ; void *tmp ; struct sockaddr *addr ; int err ; bool tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; addr = (struct sockaddr *)p; err = 0; tmp___0 = is_valid_ether_addr((u8 const *)(& addr->sa_data)); if (tmp___0) { tmp___1 = 0; } else { tmp___1 = 1; } if (tmp___1) { return (-99); } else { } mutex_lock_nested(& priv->action_mutex, 0U); priv->config = priv->config | 8UL; memcpy((void *)(& priv->mac_addr), (void const *)(& addr->sa_data), 6UL); err = ipw2100_set_mac_address(priv, 0); if (err != 0) { goto done; } else { } priv->reset_backoff = 0; mutex_unlock(& priv->action_mutex); ipw2100_reset_adapter(& priv->reset_work.work); return (0); done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_open(struct net_device *dev ) { struct ipw2100_priv *priv ; void *tmp ; unsigned long flags ; int tmp___0 ; raw_spinlock_t *tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_open"); printk("dev->open\n"); } else { } tmp___1 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___1); if ((priv->status & 1024UL) != 0UL) { netif_carrier_on(dev); netif_start_queue(dev); } else { } spin_unlock_irqrestore(& priv->low_lock, flags); return (0); } } static int ipw2100_close(struct net_device *dev ) { struct ipw2100_priv *priv ; void *tmp ; unsigned long flags ; struct list_head *element ; struct ipw2100_tx_packet *packet ; int tmp___0 ; raw_spinlock_t *tmp___1 ; struct list_head const *__mptr ; int tmp___2 ; int tmp___3 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_close"); printk("enter\n"); } else { } tmp___1 = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp___1); if ((priv->status & 1024UL) != 0UL) { netif_carrier_off(dev); } else { } netif_stop_queue(dev); goto ldv_61420; ldv_61419: element = priv->tx_pend_list.next; __mptr = (struct list_head const *)element; packet = (struct ipw2100_tx_packet *)__mptr + 0xffffffffffffffd8UL; list_del(element); priv->tx_pend_stat.value = priv->tx_pend_stat.value - 1; if (priv->tx_pend_stat.value < priv->tx_pend_stat.lo) { priv->tx_pend_stat.lo = priv->tx_pend_stat.value; } else { } libipw_txb_free(packet->info.d_struct.txb); packet->info.d_struct.txb = (struct libipw_txb *)0; list_add_tail(element, & priv->tx_free_list); priv->tx_free_stat.value = priv->tx_free_stat.value + 1; if (priv->tx_free_stat.value > priv->tx_free_stat.hi) { priv->tx_free_stat.hi = priv->tx_free_stat.value; } else { } ldv_61420: tmp___2 = list_empty((struct list_head const *)(& priv->tx_pend_list)); if (tmp___2 == 0) { goto ldv_61419; } else { } spin_unlock_irqrestore(& priv->low_lock, flags); if ((ipw2100_debug_level & 4U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_close"); printk("exit\n"); } else { } return (0); } } static void ipw2100_tx_timeout(struct net_device *dev ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; dev->stats.tx_errors = dev->stats.tx_errors + 1UL; if ((priv->ieee)->iw_mode == 6) { return; } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_tx_timeout"); printk("%s: TX timed out. Scheduling firmware restart.\n", (char *)(& dev->name)); } else { } schedule_reset(priv); return; } } static int ipw2100_wpa_enable(struct ipw2100_priv *priv , int value ) { { (priv->ieee)->wpa_enabled = value; return (0); } } static int ipw2100_wpa_set_auth_algs(struct ipw2100_priv *priv , int value ) { struct libipw_device *ieee ; struct libipw_security sec ; int ret ; { ieee = priv->ieee; sec.active_key = (unsigned char)0; sec.enabled = (unsigned char)0; sec.unicast_uses_group = (unsigned char)0; sec.encrypt = (unsigned char)0; sec.auth_mode = (unsigned char)0; sec.encode_alg[0] = (unsigned char)0; sec.encode_alg[1] = (unsigned char)0; sec.encode_alg[2] = (unsigned char)0; sec.encode_alg[3] = (unsigned char)0; sec.key_sizes[0] = (unsigned char)0; sec.key_sizes[1] = (unsigned char)0; sec.key_sizes[2] = (unsigned char)0; sec.key_sizes[3] = (unsigned char)0; sec.keys[0][0] = (unsigned char)0; sec.keys[0][1] = (unsigned char)0; sec.keys[0][2] = (unsigned char)0; sec.keys[0][3] = (unsigned char)0; sec.keys[0][4] = (unsigned char)0; sec.keys[0][5] = (unsigned char)0; sec.keys[0][6] = (unsigned char)0; sec.keys[0][7] = (unsigned char)0; sec.keys[0][8] = (unsigned char)0; sec.keys[0][9] = (unsigned char)0; sec.keys[0][10] = (unsigned char)0; sec.keys[0][11] = (unsigned char)0; sec.keys[0][12] = (unsigned char)0; sec.keys[0][13] = (unsigned char)0; sec.keys[0][14] = (unsigned char)0; sec.keys[0][15] = (unsigned char)0; sec.keys[0][16] = (unsigned char)0; sec.keys[0][17] = (unsigned char)0; sec.keys[0][18] = (unsigned char)0; sec.keys[0][19] = (unsigned char)0; sec.keys[0][20] = (unsigned char)0; sec.keys[0][21] = (unsigned char)0; sec.keys[0][22] = (unsigned char)0; sec.keys[0][23] = (unsigned char)0; sec.keys[0][24] = (unsigned char)0; sec.keys[0][25] = (unsigned char)0; sec.keys[0][26] = (unsigned char)0; sec.keys[0][27] = (unsigned char)0; sec.keys[0][28] = (unsigned char)0; sec.keys[0][29] = (unsigned char)0; sec.keys[0][30] = (unsigned char)0; sec.keys[0][31] = (unsigned char)0; sec.keys[1][0] = (unsigned char)0; sec.keys[1][1] = (unsigned char)0; sec.keys[1][2] = (unsigned char)0; sec.keys[1][3] = (unsigned char)0; sec.keys[1][4] = (unsigned char)0; sec.keys[1][5] = (unsigned char)0; sec.keys[1][6] = (unsigned char)0; sec.keys[1][7] = (unsigned char)0; sec.keys[1][8] = (unsigned char)0; sec.keys[1][9] = (unsigned char)0; sec.keys[1][10] = (unsigned char)0; sec.keys[1][11] = (unsigned char)0; sec.keys[1][12] = (unsigned char)0; sec.keys[1][13] = (unsigned char)0; sec.keys[1][14] = (unsigned char)0; sec.keys[1][15] = (unsigned char)0; sec.keys[1][16] = (unsigned char)0; sec.keys[1][17] = (unsigned char)0; sec.keys[1][18] = (unsigned char)0; sec.keys[1][19] = (unsigned char)0; sec.keys[1][20] = (unsigned char)0; sec.keys[1][21] = (unsigned char)0; sec.keys[1][22] = (unsigned char)0; sec.keys[1][23] = (unsigned char)0; sec.keys[1][24] = (unsigned char)0; sec.keys[1][25] = (unsigned char)0; sec.keys[1][26] = (unsigned char)0; sec.keys[1][27] = (unsigned char)0; sec.keys[1][28] = (unsigned char)0; sec.keys[1][29] = (unsigned char)0; sec.keys[1][30] = (unsigned char)0; sec.keys[1][31] = (unsigned char)0; sec.keys[2][0] = (unsigned char)0; sec.keys[2][1] = (unsigned char)0; sec.keys[2][2] = (unsigned char)0; sec.keys[2][3] = (unsigned char)0; sec.keys[2][4] = (unsigned char)0; sec.keys[2][5] = (unsigned char)0; sec.keys[2][6] = (unsigned char)0; sec.keys[2][7] = (unsigned char)0; sec.keys[2][8] = (unsigned char)0; sec.keys[2][9] = (unsigned char)0; sec.keys[2][10] = (unsigned char)0; sec.keys[2][11] = (unsigned char)0; sec.keys[2][12] = (unsigned char)0; sec.keys[2][13] = (unsigned char)0; sec.keys[2][14] = (unsigned char)0; sec.keys[2][15] = (unsigned char)0; sec.keys[2][16] = (unsigned char)0; sec.keys[2][17] = (unsigned char)0; sec.keys[2][18] = (unsigned char)0; sec.keys[2][19] = (unsigned char)0; sec.keys[2][20] = (unsigned char)0; sec.keys[2][21] = (unsigned char)0; sec.keys[2][22] = (unsigned char)0; sec.keys[2][23] = (unsigned char)0; sec.keys[2][24] = (unsigned char)0; sec.keys[2][25] = (unsigned char)0; sec.keys[2][26] = (unsigned char)0; sec.keys[2][27] = (unsigned char)0; sec.keys[2][28] = (unsigned char)0; sec.keys[2][29] = (unsigned char)0; sec.keys[2][30] = (unsigned char)0; sec.keys[2][31] = (unsigned char)0; sec.keys[3][0] = (unsigned char)0; sec.keys[3][1] = (unsigned char)0; sec.keys[3][2] = (unsigned char)0; sec.keys[3][3] = (unsigned char)0; sec.keys[3][4] = (unsigned char)0; sec.keys[3][5] = (unsigned char)0; sec.keys[3][6] = (unsigned char)0; sec.keys[3][7] = (unsigned char)0; sec.keys[3][8] = (unsigned char)0; sec.keys[3][9] = (unsigned char)0; sec.keys[3][10] = (unsigned char)0; sec.keys[3][11] = (unsigned char)0; sec.keys[3][12] = (unsigned char)0; sec.keys[3][13] = (unsigned char)0; sec.keys[3][14] = (unsigned char)0; sec.keys[3][15] = (unsigned char)0; sec.keys[3][16] = (unsigned char)0; sec.keys[3][17] = (unsigned char)0; sec.keys[3][18] = (unsigned char)0; sec.keys[3][19] = (unsigned char)0; sec.keys[3][20] = (unsigned char)0; sec.keys[3][21] = (unsigned char)0; sec.keys[3][22] = (unsigned char)0; sec.keys[3][23] = (unsigned char)0; sec.keys[3][24] = (unsigned char)0; sec.keys[3][25] = (unsigned char)0; sec.keys[3][26] = (unsigned char)0; sec.keys[3][27] = (unsigned char)0; sec.keys[3][28] = (unsigned char)0; sec.keys[3][29] = (unsigned char)0; sec.keys[3][30] = (unsigned char)0; sec.keys[3][31] = (unsigned char)0; sec.level = (unsigned char)0; sec.flags = 32U; ret = 0; if ((value & 2) != 0) { sec.auth_mode = 1U; ieee->open_wep = 0; } else if (value & 1) { sec.auth_mode = 0U; ieee->open_wep = 1; } else if ((value & 4) != 0) { sec.auth_mode = 128U; ieee->open_wep = 1; } else { return (-22); } if ((unsigned long )ieee->set_security != (unsigned long )((void (*)(struct net_device * , struct libipw_security * ))0)) { (*(ieee->set_security))(ieee->dev, & sec); } else { ret = -95; } return (ret); } } static void ipw2100_wpa_assoc_frame(struct ipw2100_priv *priv , char *wpa_ie , int wpa_ie_len ) { struct ipw2100_wpa_assoc_frame frame ; { frame.fixed_ie_mask = 0U; memcpy((void *)(& frame.var_ie), (void const *)wpa_ie, (size_t )wpa_ie_len); frame.var_ie_len = (u32 )wpa_ie_len; ipw2100_wpa_enable(priv, 1); ipw2100_set_wpa_ie(priv, & frame, 0); return; } } static void ipw_ethtool_get_drvinfo(struct net_device *dev , struct ethtool_drvinfo *info ) { struct ipw2100_priv *priv ; void *tmp ; char fw_ver[64U] ; char ucode_ver[64U] ; char const *tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; strlcpy((char *)(& info->driver), "ipw2100", 32UL); strlcpy((char *)(& info->version), "git-1.2.2", 32UL); ipw2100_get_fwversion(priv, (char *)(& fw_ver), 64UL); ipw2100_get_ucodeversion(priv, (char *)(& ucode_ver), 64UL); snprintf((char *)(& info->fw_version), 32UL, "%s:%d:%s", (char *)(& fw_ver), priv->eeprom_version, (char *)(& ucode_ver)); tmp___0 = pci_name((struct pci_dev const *)priv->pci_dev); strlcpy((char *)(& info->bus_info), tmp___0, 32UL); return; } } static u32 ipw2100_ethtool_get_link(struct net_device *dev ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; return ((priv->status & 1024UL) != 0UL); } } static struct ethtool_ops const ipw2100_ethtool_ops = {0, 0, & ipw_ethtool_get_drvinfo, 0, 0, 0, 0, 0, 0, 0, & ipw2100_ethtool_get_link, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; static void ipw2100_hang_check(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; unsigned long flags ; u32 rtc ; u32 len ; int restart ; raw_spinlock_t *tmp ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffff928UL; rtc = 2779096485U; len = 4U; restart = 0; tmp = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp); if (priv->fatal_error != 0U) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hang_check"); printk("%s: Hardware fatal error detected.\n", (char *)(& (priv->net_dev)->name)); } else { } restart = 1; } else { tmp___2 = ipw2100_get_ordinal(priv, 190U, (void *)(& rtc), & len); if (tmp___2 != 0 || priv->last_rtc == rtc) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_hang_check"); printk("%s: Firmware RTC stalled.\n", (char *)(& (priv->net_dev)->name)); } else { } restart = 1; } else { } } if (restart != 0) { priv->stop_hang_check = 1; priv->hangs = priv->hangs + 1; schedule_reset(priv); } else { } priv->last_rtc = rtc; if (priv->stop_hang_check == 0) { schedule_delayed_work(& priv->hang_check, 125UL); } else { } spin_unlock_irqrestore(& priv->low_lock, flags); return; } } static void ipw2100_rf_kill(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; unsigned long flags ; raw_spinlock_t *tmp ; int tmp___0 ; unsigned long tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffff848UL; tmp = spinlock_check(& priv->low_lock); flags = _raw_spin_lock_irqsave(tmp); tmp___2 = rf_kill_active(priv); if (tmp___2 != 0) { if ((ipw2100_debug_level & 131072U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rf_kill"); printk("RF Kill active, rescheduling GPIO check\n"); } else { } if (priv->stop_rf_kill == 0) { tmp___1 = round_jiffies_relative(250UL); schedule_delayed_work(& priv->rf_kill, tmp___1); } else { } goto exit_unlock; } else { } if ((priv->status & 12288UL) == 0UL) { if ((ipw2100_debug_level & 131072U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rf_kill"); printk("HW RF Kill no longer active, restarting device\n"); } else { } schedule_reset(priv); } else if ((ipw2100_debug_level & 131072U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_rf_kill"); printk("HW RF Kill deactivated. SW RF Kill still enabled\n"); } else { } exit_unlock: spin_unlock_irqrestore(& priv->low_lock, flags); return; } } static struct net_device_ops const ipw2100_netdev_ops = {0, 0, & ipw2100_open, & ipw2100_close, & libipw_xmit, 0, 0, 0, & ipw2100_set_address, & eth_validate_addr, 0, 0, & libipw_change_mtu, 0, & ipw2100_tx_timeout, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; static struct net_device *ipw2100_alloc_device(struct pci_dev *pci_dev , void *ioaddr ) { struct ipw2100_priv *priv ; struct net_device *dev ; void *tmp ; void *tmp___0 ; struct lock_class_key __key ; struct lock_class_key __key___0 ; struct lock_class_key __key___1 ; struct lock_class_key __key___2 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; struct lock_class_key __key___3 ; atomic_long_t __constr_expr_0 ; struct lock_class_key __key___4 ; struct lock_class_key __key___5 ; atomic_long_t __constr_expr_1 ; struct lock_class_key __key___6 ; struct lock_class_key __key___7 ; atomic_long_t __constr_expr_2 ; struct lock_class_key __key___8 ; struct lock_class_key __key___9 ; atomic_long_t __constr_expr_3 ; struct lock_class_key __key___10 ; struct lock_class_key __key___11 ; atomic_long_t __constr_expr_4 ; struct lock_class_key __key___12 ; struct lock_class_key __key___13 ; atomic_long_t __constr_expr_5 ; struct lock_class_key __key___14 ; { dev = alloc_libipw(2944, 0); if ((unsigned long )dev == (unsigned long )((struct net_device *)0)) { return ((struct net_device *)0); } else { } tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = netdev_priv((struct net_device const *)dev); priv->ieee = (struct libipw_device *)tmp___0; priv->pci_dev = pci_dev; priv->net_dev = dev; priv->ioaddr = ioaddr; (priv->ieee)->hard_start_xmit = & ipw2100_tx; (priv->ieee)->set_security = & shim__set_security; (priv->ieee)->perfect_rssi = -20; (priv->ieee)->worst_rssi = -85; dev->netdev_ops = & ipw2100_netdev_ops; dev->ethtool_ops = & ipw2100_ethtool_ops; dev->wireless_handlers = (struct iw_handler_def const *)(& ipw2100_wx_handler_def); priv->wireless_data.libipw = priv->ieee; dev->wireless_data = & priv->wireless_data; dev->watchdog_timeo = 750; dev->irq = 0; priv->power_mode = 6; priv->config = priv->config | 2048UL; (priv->ieee)->wpa_enabled = 0; (priv->ieee)->drop_unencrypted = 0; (priv->ieee)->privacy_invoked = 0; (priv->ieee)->ieee802_1x = 1; switch (network_mode) { case 1: (priv->ieee)->iw_mode = 1; goto ldv_61493; case 2: (priv->ieee)->iw_mode = 6; goto ldv_61493; default: ; case 0: (priv->ieee)->iw_mode = 2; goto ldv_61493; } ldv_61493: ; if (disable == 1) { priv->status = priv->status | 8192UL; } else { } if (channel != 0 && (channel >= 0 && channel <= 14)) { priv->config = priv->config | 1UL; priv->channel = (u8 )channel; } else { } if (associate != 0) { priv->config = priv->config | 64UL; } else { } priv->beacon_interval = 100U; priv->short_retry_limit = 7; priv->long_retry_limit = 4; priv->rts_threshold = 2147484648U; priv->frag_threshold = 2147485994U; priv->tx_power = 32; priv->tx_rates = 15U; strcpy((char *)(& priv->nick), "ipw2100"); spinlock_check(& priv->low_lock); __raw_spin_lock_init(& priv->low_lock.__annonCompField18.rlock, "&(&priv->low_lock)->rlock", & __key); __mutex_init(& priv->action_mutex, "&priv->action_mutex", & __key___0); __mutex_init(& priv->adapter_mutex, "&priv->adapter_mutex", & __key___1); __init_waitqueue_head(& priv->wait_command_queue, "&priv->wait_command_queue", & __key___2); netif_carrier_off(dev); INIT_LIST_HEAD(& priv->msg_free_list); INIT_LIST_HEAD(& priv->msg_pend_list); tmp___1 = 0; priv->msg_free_stat.hi = tmp___1; priv->msg_free_stat.value = tmp___1; priv->msg_free_stat.lo = 2147483647; tmp___2 = 0; priv->msg_pend_stat.hi = tmp___2; priv->msg_pend_stat.value = tmp___2; priv->msg_pend_stat.lo = 2147483647; INIT_LIST_HEAD(& priv->tx_free_list); INIT_LIST_HEAD(& priv->tx_pend_list); tmp___3 = 0; priv->tx_free_stat.hi = tmp___3; priv->tx_free_stat.value = tmp___3; priv->tx_free_stat.lo = 2147483647; tmp___4 = 0; priv->tx_pend_stat.hi = tmp___4; priv->tx_pend_stat.value = tmp___4; priv->tx_pend_stat.lo = 2147483647; INIT_LIST_HEAD(& priv->fw_pend_list); tmp___5 = 0; priv->fw_pend_stat.hi = tmp___5; priv->fw_pend_stat.value = tmp___5; priv->fw_pend_stat.lo = 2147483647; __init_work(& priv->reset_work.work, 0); __constr_expr_0.counter = 137438953408L; priv->reset_work.work.data = __constr_expr_0; lockdep_init_map(& priv->reset_work.work.lockdep_map, "(&(&priv->reset_work)->work)", & __key___3, 0); INIT_LIST_HEAD(& priv->reset_work.work.entry); priv->reset_work.work.func = & ipw2100_reset_adapter; init_timer_key(& priv->reset_work.timer, 2097152U, "(&(&priv->reset_work)->timer)", & __key___4); priv->reset_work.timer.function = & delayed_work_timer_fn; priv->reset_work.timer.data = (unsigned long )(& priv->reset_work); __init_work(& priv->security_work.work, 0); __constr_expr_1.counter = 137438953408L; priv->security_work.work.data = __constr_expr_1; lockdep_init_map(& priv->security_work.work.lockdep_map, "(&(&priv->security_work)->work)", & __key___5, 0); INIT_LIST_HEAD(& priv->security_work.work.entry); priv->security_work.work.func = & ipw2100_security_work; init_timer_key(& priv->security_work.timer, 2097152U, "(&(&priv->security_work)->timer)", & __key___6); priv->security_work.timer.function = & delayed_work_timer_fn; priv->security_work.timer.data = (unsigned long )(& priv->security_work); __init_work(& priv->wx_event_work.work, 0); __constr_expr_2.counter = 137438953408L; priv->wx_event_work.work.data = __constr_expr_2; lockdep_init_map(& priv->wx_event_work.work.lockdep_map, "(&(&priv->wx_event_work)->work)", & __key___7, 0); INIT_LIST_HEAD(& priv->wx_event_work.work.entry); priv->wx_event_work.work.func = & ipw2100_wx_event_work; init_timer_key(& priv->wx_event_work.timer, 2097152U, "(&(&priv->wx_event_work)->timer)", & __key___8); priv->wx_event_work.timer.function = & delayed_work_timer_fn; priv->wx_event_work.timer.data = (unsigned long )(& priv->wx_event_work); __init_work(& priv->hang_check.work, 0); __constr_expr_3.counter = 137438953408L; priv->hang_check.work.data = __constr_expr_3; lockdep_init_map(& priv->hang_check.work.lockdep_map, "(&(&priv->hang_check)->work)", & __key___9, 0); INIT_LIST_HEAD(& priv->hang_check.work.entry); priv->hang_check.work.func = & ipw2100_hang_check; init_timer_key(& priv->hang_check.timer, 2097152U, "(&(&priv->hang_check)->timer)", & __key___10); priv->hang_check.timer.function = & delayed_work_timer_fn; priv->hang_check.timer.data = (unsigned long )(& priv->hang_check); __init_work(& priv->rf_kill.work, 0); __constr_expr_4.counter = 137438953408L; priv->rf_kill.work.data = __constr_expr_4; lockdep_init_map(& priv->rf_kill.work.lockdep_map, "(&(&priv->rf_kill)->work)", & __key___11, 0); INIT_LIST_HEAD(& priv->rf_kill.work.entry); priv->rf_kill.work.func = & ipw2100_rf_kill; init_timer_key(& priv->rf_kill.timer, 2097152U, "(&(&priv->rf_kill)->timer)", & __key___12); priv->rf_kill.timer.function = & delayed_work_timer_fn; priv->rf_kill.timer.data = (unsigned long )(& priv->rf_kill); __init_work(& priv->scan_event.work, 0); __constr_expr_5.counter = 137438953408L; priv->scan_event.work.data = __constr_expr_5; lockdep_init_map(& priv->scan_event.work.lockdep_map, "(&(&priv->scan_event)->work)", & __key___13, 0); INIT_LIST_HEAD(& priv->scan_event.work.entry); priv->scan_event.work.func = & ipw2100_scan_event; init_timer_key(& priv->scan_event.timer, 2097152U, "(&(&priv->scan_event)->timer)", & __key___14); priv->scan_event.timer.function = & delayed_work_timer_fn; priv->scan_event.timer.data = (unsigned long )(& priv->scan_event); tasklet_init(& priv->irq_tasklet, (void (*)(unsigned long ))(& ipw2100_irq_tasklet), (unsigned long )priv); priv->stop_rf_kill = 1; priv->stop_hang_check = 1; return (dev); } } static int ipw2100_pci_init_one(struct pci_dev *pci_dev , struct pci_device_id const *ent ) { void *ioaddr ; struct net_device *dev ; struct ipw2100_priv *priv ; int err ; int registered ; u32 val ; int tmp ; int tmp___0 ; void *tmp___1 ; bool tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; char const *tmp___7 ; int tmp___8 ; int tmp___9 ; { dev = (struct net_device *)0; priv = (struct ipw2100_priv *)0; err = 0; registered = 0; if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_init_one"); printk("enter\n"); } else { } if ((pci_dev->resource[0].flags & 512UL) == 0UL) { if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_init_one"); printk("weird - resource type is not memory\n"); } else { } err = -19; goto out; } else { } ioaddr = pci_iomap(pci_dev, 0, 0UL); if ((unsigned long )ioaddr == (unsigned long )((void *)0)) { printk("\fipw2100Error calling ioremap_nocache.\n"); err = -5; goto fail; } else { } dev = ipw2100_alloc_device(pci_dev, ioaddr); if ((unsigned long )dev == (unsigned long )((struct net_device *)0)) { printk("\fipw2100Error calling ipw2100_alloc_device.\n"); err = -12; goto fail; } else { } err = pci_enable_device(pci_dev); if (err != 0) { printk("\fipw2100Error calling pci_enable_device.\n"); return (err); } else { } tmp___1 = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp___1; pci_set_master(pci_dev); pci_set_drvdata(pci_dev, (void *)priv); err = pci_set_dma_mask(pci_dev, 4294967295ULL); if (err != 0) { printk("\fipw2100Error calling pci_set_dma_mask.\n"); pci_disable_device(pci_dev); return (err); } else { } err = pci_request_regions(pci_dev, "ipw2100"); if (err != 0) { printk("\fipw2100Error calling pci_request_regions.\n"); pci_disable_device(pci_dev); return (err); } else { } pci_read_config_dword((struct pci_dev const *)pci_dev, 64, & val); if ((val & 65280U) != 0U) { pci_write_config_dword((struct pci_dev const *)pci_dev, 64, val & 4294902015U); } else { } tmp___2 = ipw2100_hw_is_adapter_in_system(dev); if (tmp___2) { tmp___3 = 0; } else { tmp___3 = 1; } if (tmp___3) { printk("\fipw2100Device not found via register read.\n"); err = -19; goto fail; } else { } dev->dev.parent = & pci_dev->dev; priv->status = priv->status | 2048UL; ipw2100_disable_interrupts(priv); tmp___4 = ipw2100_queues_allocate(priv); if (tmp___4 != 0) { printk("\fipw2100Error calling ipw2100_queues_allocate.\n"); err = -12; goto fail; } else { } ipw2100_queues_initialize(priv); err = ldv_request_irq_22(pci_dev->irq, & ipw2100_interrupt, 128UL, (char const *)(& dev->name), (void *)priv); if (err != 0) { printk("\fipw2100Error calling request_irq: %d.\n", pci_dev->irq); goto fail; } else { } dev->irq = (int )pci_dev->irq; if ((ipw2100_debug_level & 4U) != 0U) { tmp___5 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___5 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_init_one"); printk("Attempting to register device...\n"); } else { } printk("\016ipw2100: Detected Intel PRO/Wireless 2100 Network Connection\n"); err = ipw2100_up(priv, 1); if (err != 0) { goto fail; } else { } err = ipw2100_wdev_init(dev); if (err != 0) { goto fail; } else { } registered = 1; err = ldv_register_netdev_23(dev); if (err != 0) { printk("\fipw2100Error calling register_netdev.\n"); goto fail; } else { } registered = 2; mutex_lock_nested(& priv->action_mutex, 0U); if ((ipw2100_debug_level & 4U) != 0U) { tmp___6 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___6 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_init_one"); tmp___7 = pci_name((struct pci_dev const *)pci_dev); printk("%s: Bound to %s\n", (char *)(& dev->name), tmp___7); } else { } err = sysfs_create_group(& pci_dev->dev.kobj, (struct attribute_group const *)(& ipw2100_attribute_group)); if (err != 0) { goto fail_unlock; } else { } if ((priv->status & 12288UL) == 0UL) { tmp___8 = ipw2100_enable_adapter(priv); if (tmp___8 != 0) { printk("\fipw2100: %s: failed in call to enable adapter.\n", (char *)(& (priv->net_dev)->name)); ipw2100_hw_stop_adapter(priv); err = -5; goto fail_unlock; } else { } ipw2100_set_scan_options(priv); ipw2100_start_scan(priv); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___9 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___9 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_init_one"); printk("exit\n"); } else { } priv->status = priv->status | 32UL; mutex_unlock(& priv->action_mutex); out: ; return (err); fail_unlock: mutex_unlock(& priv->action_mutex); fail: ; if ((unsigned long )dev != (unsigned long )((struct net_device *)0)) { if (registered > 1) { ldv_unregister_netdev_24(dev); } else { } if (registered != 0) { wiphy_unregister((priv->ieee)->wdev.wiphy); kfree((void const *)(priv->ieee)->bg_band.channels); } else { } ipw2100_hw_stop_adapter(priv); ipw2100_disable_interrupts(priv); if (dev->irq != 0) { ldv_free_irq_25((unsigned int )dev->irq, (void *)priv); } else { } ipw2100_kill_works(priv); ipw2100_queues_free(priv); sysfs_remove_group(& pci_dev->dev.kobj, (struct attribute_group const *)(& ipw2100_attribute_group)); free_libipw(dev, 0); } else { } pci_iounmap(pci_dev, ioaddr); pci_release_regions(pci_dev); pci_disable_device(pci_dev); goto out; } } static void ipw2100_pci_remove_one(struct pci_dev *pci_dev ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; int tmp___0 ; { tmp = pci_get_drvdata(pci_dev); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; mutex_lock_nested(& priv->action_mutex, 0U); priv->status = priv->status & 0xffffffffffffffdfUL; sysfs_remove_group(& pci_dev->dev.kobj, (struct attribute_group const *)(& ipw2100_attribute_group)); if (ipw2100_firmware.version != 0) { ipw2100_release_firmware(priv, & ipw2100_firmware); } else { } ipw2100_down(priv); mutex_unlock(& priv->action_mutex); ldv_unregister_netdev_26(dev); ipw2100_kill_works(priv); ipw2100_queues_free(priv); ipw2100_snapshot_free(priv); ldv_free_irq_27((unsigned int )dev->irq, (void *)priv); pci_iounmap(pci_dev, priv->ioaddr); wiphy_unregister((priv->ieee)->wdev.wiphy); kfree((void const *)(priv->ieee)->bg_band.channels); free_libipw(dev, 0); pci_release_regions(pci_dev); pci_disable_device(pci_dev); if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_pci_remove_one"); printk("exit\n"); } else { } return; } } static int ipw2100_suspend(struct pci_dev *pci_dev , pm_message_t state ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; int tmp___0 ; { tmp = pci_get_drvdata(pci_dev); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_suspend"); printk("%s: Going into suspend...\n", (char *)(& dev->name)); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) != 0UL) { ipw2100_down(priv); } else { } netif_device_detach(dev); pci_save_state(pci_dev); pci_disable_device(pci_dev); pci_set_power_state(pci_dev, 3); priv->suspend_at = get_seconds(); mutex_unlock(& priv->action_mutex); return (0); } } static int ipw2100_resume(struct pci_dev *pci_dev ) { struct ipw2100_priv *priv ; void *tmp ; struct net_device *dev ; int err ; u32 val ; int tmp___0 ; unsigned long tmp___1 ; { tmp = pci_get_drvdata(pci_dev); priv = (struct ipw2100_priv *)tmp; dev = priv->net_dev; mutex_lock_nested(& priv->action_mutex, 0U); if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_resume"); printk("%s: Coming out of suspend...\n", (char *)(& dev->name)); } else { } pci_set_power_state(pci_dev, 0); err = pci_enable_device(pci_dev); if (err != 0) { printk("\v%s: pci_enable_device failed on resume\n", (char *)(& dev->name)); mutex_unlock(& priv->action_mutex); return (err); } else { } pci_restore_state(pci_dev); pci_read_config_dword((struct pci_dev const *)pci_dev, 64, & val); if ((val & 65280U) != 0U) { pci_write_config_dword((struct pci_dev const *)pci_dev, 64, val & 4294902015U); } else { } netif_device_attach(dev); tmp___1 = get_seconds(); priv->suspend_time = tmp___1 - priv->suspend_at; if ((priv->status & 8192UL) == 0UL) { ipw2100_up(priv, 0); } else { } mutex_unlock(& priv->action_mutex); return (0); } } static void ipw2100_shutdown(struct pci_dev *pci_dev ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = pci_get_drvdata(pci_dev); priv = (struct ipw2100_priv *)tmp; ipw2100_down(priv); pci_disable_device(pci_dev); return; } } static struct pci_device_id const ipw2100_pci_id_table[41U] = { {32902U, 4163U, 32902U, 9504U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9505U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9508U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9509U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9510U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9506U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9507U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9511U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9512U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9513U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9515U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9516U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9517U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9552U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9553U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9555U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9556U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9557U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9568U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9570U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9571U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9569U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9573U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9574U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9575U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9584U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9600U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9602U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9603U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9601U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9605U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9606U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9607U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9616U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9618U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9617U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9619U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9622U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9624U, 0U, 0U, 0UL}, {32902U, 4163U, 32902U, 9632U, 0U, 0U, 0UL}, {0U, 0U, 0U, 0U, 0U, 0U, 0UL}}; struct pci_device_id const __mod_pci__ipw2100_pci_id_table_device_table[41U] ; static struct pci_driver ipw2100_pci_driver = {{0, 0}, "ipw2100", (struct pci_device_id const *)(& ipw2100_pci_id_table), & ipw2100_pci_init_one, & ipw2100_pci_remove_one, & ipw2100_suspend, 0, 0, & ipw2100_resume, & ipw2100_shutdown, 0, 0, {0, 0, 0, 0, (_Bool)0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, {{{{{{0}}, 0U, 0U, 0, {0, {0, 0}, 0, 0, 0UL}}}}, {0, 0}}}; static int ipw2100_init(void) { int ret ; { printk("\016ipw2100: %s, %s\n", (char *)"Intel(R) PRO/Wireless 2100 Network Driver", (char *)"git-1.2.2"); printk("\016ipw2100: %s\n", (char *)"Copyright(c) 2003-2006 Intel Corporation"); pm_qos_add_request(& ipw2100_pm_qos_req, 1, -1); ret = ldv___pci_register_driver_28(& ipw2100_pci_driver, & __this_module, "ipw2100"); if (ret != 0) { goto out; } else { } ipw2100_debug_level = (u32 )debug; ret = driver_create_file(& ipw2100_pci_driver.driver, (struct driver_attribute const *)(& driver_attr_debug_level)); out: ; return (ret); } } static void ipw2100_exit(void) { { driver_remove_file(& ipw2100_pci_driver.driver, (struct driver_attribute const *)(& driver_attr_debug_level)); ldv_pci_unregister_driver_29(& ipw2100_pci_driver); pm_qos_remove_request(& ipw2100_pm_qos_req); return; } } static int ipw2100_wx_get_name(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->status & 1024UL) == 0UL) { strcpy((char *)(& wrqu->name), "unassociated"); } else { snprintf((char *)(& wrqu->name), 16UL, "IEEE 802.11b"); } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_name"); printk("Name: %s\n", (char *)(& wrqu->name)); } else { } return (0); } } static int ipw2100_wx_set_freq(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct iw_freq *fwrq ; int err ; int f ; int c ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; fwrq = & wrqu->freq; err = 0; if ((priv->ieee)->iw_mode == 2) { return (-95); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if ((int )fwrq->e == 1) { if (fwrq->m > 241199999 && fwrq->m <= 248700000) { f = fwrq->m / 100000; c = 0; goto ldv_61601; ldv_61600: c = c + 1; ldv_61601: ; if (c <= 13 && (long )f != (long )ipw2100_frequencies[c]) { goto ldv_61600; } else { } fwrq->e = 0; fwrq->m = c + 1; } else { } } else { } if ((int )fwrq->e > 0 || fwrq->m > 1000) { err = -95; goto done; } else { if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_freq"); printk("SET Freq/Channel -> %d\n", fwrq->m); } else { } err = ipw2100_set_channel(priv, (u32 )fwrq->m, 0); } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_freq(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->freq.e = 0; if ((int )priv->config & 1 || (priv->status & 1024UL) != 0UL) { wrqu->freq.m = (__s32 )priv->channel; } else { wrqu->freq.m = 0; } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_freq"); printk("GET Freq/Channel -> %d\n", (int )priv->channel); } else { } return (0); } } static int ipw2100_wx_set_mode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_mode"); printk("SET Mode -> %d\n", wrqu->mode); } else { } if (wrqu->mode == (__u32 )(priv->ieee)->iw_mode) { return (0); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } switch (wrqu->mode) { case 6U: err = ipw2100_switch_mode(priv, 6U); goto ldv_61623; case 1U: err = ipw2100_switch_mode(priv, 1U); goto ldv_61623; case 2U: ; case 0U: ; default: err = ipw2100_switch_mode(priv, 2U); goto ldv_61623; } ldv_61623: ; done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_mode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->mode = (__u32 )(priv->ieee)->iw_mode; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_mode"); printk("GET Mode -> %d\n", wrqu->mode); } else { } return (0); } } static s32 const timeout_duration[5U] = { 350000, 250000, 75000, 37000, 25000}; static s32 const period_duration[5U] = { 400000, 700000, 1000000, 1000000, 1000000}; static int ipw2100_wx_get_range(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct iw_range *range ; u16 val ; int i ; int level ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; range = (struct iw_range *)extra; wrqu->data.length = 568U; memset((void *)range, 0, 568UL); range->throughput = 5000000U; range->max_qual.qual = 100U; range->max_qual.level = 0U; range->max_qual.noise = 0U; range->max_qual.updated = 7U; range->avg_qual.qual = 70U; range->avg_qual.level = 178U; range->avg_qual.noise = 0U; range->avg_qual.updated = 7U; range->num_bitrates = 4U; i = 0; goto ldv_61654; ldv_61653: range->bitrate[i] = (int )ipw2100_bg_rates[i].bitrate * 100000; i = i + 1; ldv_61654: ; if ((unsigned int )i <= 3U && i <= 31) { goto ldv_61653; } else { } range->min_rts = 1; range->max_rts = 2304; range->min_frag = 256; range->max_frag = 2346; range->min_pmp = period_duration[0]; range->max_pmp = period_duration[4]; range->min_pmt = timeout_duration[4]; range->max_pmt = timeout_duration[0]; range->pmp_flags = 4096U; range->pmt_flags = 8192U; range->pm_capa = 12288U; range->encoding_size[0] = 5U; range->encoding_size[1] = 13U; range->num_encoding_sizes = 2U; range->max_encoding_tokens = 4U; if ((priv->ieee)->iw_mode == 1) { range->txpower_capa = 0U; range->num_txpower = 8U; i = 0; level = 256; goto ldv_61657; ldv_61656: range->txpower[i] = level / 16; i = i + 1; level = level + -64; ldv_61657: ; if (i <= 7) { goto ldv_61656; } else { } } else { range->txpower_capa = 0U; range->num_txpower = 0U; } range->we_version_compiled = 22U; range->we_version_source = 18U; range->num_channels = 14U; val = 0U; i = 0; goto ldv_61665; ldv_61664: range->freq[(int )val].i = (unsigned int )((__u8 )i) + 1U; range->freq[(int )val].m = (__s32 )((unsigned int )ipw2100_frequencies[i] * 100000U); range->freq[(int )val].e = 1; val = (u16 )((int )val + 1); if ((unsigned int )val == 32U) { goto ldv_61663; } else { } i = i + 1; ldv_61665: ; if ((unsigned int )i <= 13U) { goto ldv_61664; } else { } ldv_61663: range->num_frequency = (__u8 )val; range->event_capa[0] = 69206096U; range->event_capa[1] = 1024U; range->enc_capa = 15U; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_range"); printk("GET Range\n"); } else { } return (0); } } static int ipw2100_wx_set_wap(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int tmp___0 ; bool tmp___1 ; bool tmp___2 ; int tmp___3 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; if ((unsigned int )wrqu->ap_addr.sa_family != 1U) { return (-22); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } tmp___1 = is_broadcast_ether_addr((u8 const *)(& wrqu->ap_addr.sa_data)); if ((int )tmp___1) { goto _L; } else { tmp___2 = is_zero_ether_addr((u8 const *)(& wrqu->ap_addr.sa_data)); if ((int )tmp___2) { _L: /* CIL Label */ if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_wap"); printk("exit - disable mandatory BSSID\n"); } else { } priv->config = priv->config & 0xfffffffffffffffbUL; err = ipw2100_set_mandatory_bssid(priv, (u8 *)0U, 0); goto done; } else { } } priv->config = priv->config | 4UL; memcpy((void *)(& priv->mandatory_bssid_mac), (void const *)(& wrqu->ap_addr.sa_data), 6UL); err = ipw2100_set_mandatory_bssid(priv, (u8 *)(& wrqu->ap_addr.sa_data), 0); if ((ipw2100_debug_level & 8U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_wap"); printk("SET BSSID -> %pM\n", (char *)(& wrqu->ap_addr.sa_data)); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_wap(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->config & 4UL) != 0UL || (priv->status & 1024UL) != 0UL) { wrqu->ap_addr.sa_family = 1U; memcpy((void *)(& wrqu->ap_addr.sa_data), (void const *)(& priv->bssid), 6UL); } else { eth_zero_addr((u8 *)(& wrqu->ap_addr.sa_data)); } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_wap"); printk("Getting WAP BSSID: %pM\n", (char *)(& wrqu->ap_addr.sa_data)); } else { } return (0); } } static int ipw2100_wx_set_essid(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; char *essid ; int length ; int err ; int tmp___0 ; int _min1 ; int _min2 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; essid = (char *)""; length = 0; err = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if ((unsigned int )wrqu->essid.flags != 0U && (unsigned int )wrqu->essid.length != 0U) { length = (int )wrqu->essid.length; essid = extra; } else { } if (length == 0) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_essid"); printk("Setting ESSID to ANY\n"); } else { } priv->config = priv->config & 0xfffffffffffffffdUL; err = ipw2100_set_essid(priv, (char *)0, 0, 0); goto done; } else { } _min1 = length; _min2 = 32; length = _min1 < _min2 ? _min1 : _min2; priv->config = priv->config | 2UL; if ((int )priv->essid_len == length) { tmp___2 = memcmp((void const *)(& priv->essid), (void const *)extra, (size_t )length); if (tmp___2 == 0) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_essid"); printk("ESSID set to current ESSID.\n"); } else { } err = 0; goto done; } else { } } else { } if ((ipw2100_debug_level & 8U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_essid"); printk("Setting ESSID: \'%*pE\' (%d)\n", length, essid, length); } else { } priv->essid_len = (u8 )length; memcpy((void *)(& priv->essid), (void const *)essid, (size_t )priv->essid_len); err = ipw2100_set_essid(priv, essid, length, 0); done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_essid(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->config & 2UL) != 0UL || (priv->status & 1024UL) != 0UL) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_essid"); printk("Getting essid: \'%*pE\'\n", (int )priv->essid_len, (u8 *)(& priv->essid)); } else { } memcpy((void *)extra, (void const *)(& priv->essid), (size_t )priv->essid_len); wrqu->essid.length = (__u16 )priv->essid_len; wrqu->essid.flags = 1U; } else { if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_essid"); printk("Getting essid: ANY\n"); } else { } wrqu->essid.length = 0U; wrqu->essid.flags = 0U; } return (0); } } static int ipw2100_wx_set_nick(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; size_t __min1 ; size_t __min2 ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((unsigned int )wrqu->data.length > 32U) { return (-7); } else { } __min1 = (size_t )wrqu->data.length; __min2 = 33UL; wrqu->data.length = (__u16 )(__min1 < __min2 ? __min1 : __min2); memset((void *)(& priv->nick), 0, 33UL); memcpy((void *)(& priv->nick), (void const *)extra, (size_t )wrqu->data.length); if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_nick"); printk("SET Nickname -> %s\n", (char *)(& priv->nick)); } else { } return (0); } } static int ipw2100_wx_get_nick(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; size_t tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = strlen((char const *)(& priv->nick)); wrqu->data.length = (__u16 )tmp___0; memcpy((void *)extra, (void const *)(& priv->nick), (size_t )wrqu->data.length); wrqu->data.flags = 1U; if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_nick"); printk("GET Nickname -> %s\n", extra); } else { } return (0); } } static int ipw2100_wx_set_rate(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; u32 target_rate ; u32 rate ; int err ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; target_rate = (u32 )wrqu->bitrate.value; err = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } rate = 0U; if (target_rate == 1000000U || ((unsigned int )wrqu->bitrate.fixed == 0U && target_rate > 1000000U)) { rate = rate | 1U; } else { } if (target_rate == 2000000U || ((unsigned int )wrqu->bitrate.fixed == 0U && target_rate > 2000000U)) { rate = rate | 2U; } else { } if (target_rate == 5500000U || ((unsigned int )wrqu->bitrate.fixed == 0U && target_rate > 5500000U)) { rate = rate | 4U; } else { } if (target_rate == 11000000U || ((unsigned int )wrqu->bitrate.fixed == 0U && target_rate > 11000000U)) { rate = rate | 8U; } else { } if (rate == 0U) { rate = 15U; } else { } err = ipw2100_set_tx_rates(priv, rate, 0); if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_rate"); printk("SET Rate -> %04X\n", rate); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_rate(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int val ; unsigned int len ; int err ; int tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; len = 4U; err = 0; if (((priv->status & 8UL) == 0UL || (priv->status & 12288UL) != 0UL) || (priv->status & 1024UL) == 0UL) { wrqu->bitrate.value = 0; return (0); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } err = ipw2100_get_ordinal(priv, 192U, (void *)(& val), & len); if (err != 0) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_rate"); printk("failed querying ordinals.\n"); } else { } goto done; } else { } switch (val & 15) { case 1: wrqu->bitrate.value = 1000000; goto ldv_61752; case 2: wrqu->bitrate.value = 2000000; goto ldv_61752; case 4: wrqu->bitrate.value = 5500000; goto ldv_61752; case 8: wrqu->bitrate.value = 11000000; goto ldv_61752; default: wrqu->bitrate.value = 0; } ldv_61752: ; if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_rate"); printk("GET Rate -> %d\n", wrqu->bitrate.value); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_set_rts(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int value ; int err ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((unsigned int )wrqu->rts.fixed == 0U) { return (-22); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if ((unsigned int )wrqu->rts.disabled != 0U) { value = (int )(priv->rts_threshold | 2147483648U); } else { if (wrqu->rts.value <= 0 || wrqu->rts.value > 2304) { err = -22; goto done; } else { } value = wrqu->rts.value; } err = ipw2100_set_rts_threshold(priv, (u32 )value); if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_rts"); printk("SET RTS Threshold -> 0x%08X\n", value); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_rts(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->rts.value = (__s32 )priv->rts_threshold & 2147483647; wrqu->rts.fixed = 1U; wrqu->rts.disabled = (int )priv->rts_threshold < 0; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_rts"); printk("GET RTS Threshold -> 0x%08X\n", wrqu->rts.value); } else { } return (0); } } static int ipw2100_wx_set_txpow(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int value ; int tmp___0 ; int tmp___1 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; tmp___0 = ipw_radio_kill_sw(priv, (int )wrqu->txpower.disabled); if (tmp___0 != 0) { return (-115); } else { } if ((priv->ieee)->iw_mode != 1) { return (0); } else { } if (((int )wrqu->txpower.flags & 255) != 0) { return (-22); } else { } if ((unsigned int )wrqu->txpower.fixed == 0U) { value = 32; } else { if (wrqu->txpower.value < -12 || wrqu->txpower.value > 16) { return (-22); } else { } value = wrqu->txpower.value; } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } err = ipw2100_set_tx_power(priv, (u32 )value); if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_txpow"); printk("SET TX Power -> %d\n", value); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_txpow(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->txpower.disabled = (priv->status & 12288UL) != 0UL; if (priv->tx_power == 32) { wrqu->txpower.fixed = 0U; wrqu->txpower.value = 16; } else { wrqu->txpower.fixed = 1U; wrqu->txpower.value = priv->tx_power; } wrqu->txpower.flags = 0U; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_txpow"); printk("GET TX Power -> %d\n", wrqu->txpower.value); } else { } return (0); } } static int ipw2100_wx_set_frag(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((unsigned int )wrqu->frag.fixed == 0U) { return (-22); } else { } if ((unsigned int )wrqu->frag.disabled != 0U) { priv->frag_threshold = priv->frag_threshold | 2147483648U; (priv->ieee)->fts = 2346U; } else { if ((unsigned int )wrqu->frag.value <= 255U || (unsigned int )wrqu->frag.value > 2346U) { return (-22); } else { } (priv->ieee)->fts = (unsigned int )((u16 )wrqu->frag.value) & 65534U; priv->frag_threshold = (u32 )(priv->ieee)->fts; } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_frag"); printk("SET Frag Threshold -> %d\n", (int )(priv->ieee)->fts); } else { } return (0); } } static int ipw2100_wx_get_frag(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->frag.value = (__s32 )priv->frag_threshold & 2147483647; wrqu->frag.fixed = 0U; wrqu->frag.disabled = (int )priv->frag_threshold < 0; if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_frag"); printk("GET Frag Threshold -> %d\n", wrqu->frag.value); } else { } return (0); } } static int ipw2100_wx_set_retry(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; if (((int )wrqu->retry.flags & 8192) != 0 || (unsigned int )wrqu->retry.disabled != 0U) { return (-22); } else { } if (((int )wrqu->retry.flags & 4096) == 0) { return (0); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if (((int )wrqu->retry.flags & 16) != 0) { err = ipw2100_set_short_retry(priv, (u32 )wrqu->retry.value); if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_retry"); printk("SET Short Retry Limit -> %d\n", wrqu->retry.value); } else { } goto done; } else { } if (((int )wrqu->retry.flags & 32) != 0) { err = ipw2100_set_long_retry(priv, (u32 )wrqu->retry.value); if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_retry"); printk("SET Long Retry Limit -> %d\n", wrqu->retry.value); } else { } goto done; } else { } err = ipw2100_set_short_retry(priv, (u32 )wrqu->retry.value); if (err == 0) { err = ipw2100_set_long_retry(priv, (u32 )wrqu->retry.value); } else { } if ((ipw2100_debug_level & 8U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_retry"); printk("SET Both Retry Limits -> %d\n", wrqu->retry.value); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_retry(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; wrqu->retry.disabled = 0U; if (((int )wrqu->retry.flags & 61440) == 8192) { return (-22); } else { } if (((int )wrqu->retry.flags & 32) != 0) { wrqu->retry.flags = 4128U; wrqu->retry.value = priv->long_retry_limit; } else { wrqu->retry.flags = priv->short_retry_limit != priv->long_retry_limit ? 4112U : 4096U; wrqu->retry.value = priv->short_retry_limit; } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_retry"); printk("GET Retry -> %d\n", wrqu->retry.value); } else { } return (0); } } static int ipw2100_wx_set_scan(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int tmp___3 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_scan"); printk("Initiating scan...\n"); } else { } priv->user_requested_scan = 1; tmp___2 = ipw2100_set_scan_options(priv); if (tmp___2 != 0) { goto _L; } else { tmp___3 = ipw2100_start_scan(priv); if (tmp___3 != 0) { _L: /* CIL Label */ if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_scan"); printk("Start scan failed.\n"); } else { } } else { } } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_scan(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_wx_get_scan(priv->ieee, info, wrqu, extra); return (tmp___0); } } static int ipw2100_wx_set_encode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *key ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_wx_set_encode(priv->ieee, info, wrqu, key); return (tmp___0); } } static int ipw2100_wx_get_encode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *key ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_wx_get_encode(priv->ieee, info, wrqu, key); return (tmp___0); } } static int ipw2100_wx_set_power(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int tmp___0 ; int tmp___1 ; int tmp___2 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if ((unsigned int )wrqu->power.disabled != 0U) { priv->power_mode = priv->power_mode & 15; err = ipw2100_set_power_mode(priv, 0); if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_power"); printk("SET Power Management Mode -> off\n"); } else { } goto done; } else { } switch ((int )wrqu->power.flags & 3840) { case 0: ; case 3840: ; case 768: ; goto ldv_61873; default: ; if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_power"); printk("SET PM Mode: %X not supported.\n", (int )wrqu->power.flags); } else { } err = -95; goto done; } ldv_61873: priv->power_mode = priv->power_mode | 16; err = ipw2100_set_power_mode(priv, priv->power_mode & 15); if ((ipw2100_debug_level & 8U) != 0U) { tmp___2 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___2 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_set_power"); printk("SET Power Management Mode -> 0x%02X\n", priv->power_mode); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_power(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->power_mode & 16) == 0) { wrqu->power.disabled = 1U; } else { wrqu->power.disabled = 0U; wrqu->power.flags = 0U; } if ((ipw2100_debug_level & 8U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_get_power"); printk("GET Power Management Mode -> %02X\n", priv->power_mode); } else { } return (0); } } static int ipw2100_wx_set_genie(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct libipw_device *ieee ; u8 *buf ; void *tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; ieee = priv->ieee; if (ieee->wpa_enabled == 0) { return (-95); } else { } if ((unsigned int )wrqu->data.length > 64U || ((unsigned int )wrqu->data.length != 0U && (unsigned long )extra == (unsigned long )((char *)0))) { return (-22); } else { } if ((unsigned int )wrqu->data.length != 0U) { tmp___0 = kmemdup((void const *)extra, (size_t )wrqu->data.length, 208U); buf = (u8 *)tmp___0; if ((unsigned long )buf == (unsigned long )((u8 *)0U)) { return (-12); } else { } kfree((void const *)ieee->wpa_ie); ieee->wpa_ie = buf; ieee->wpa_ie_len = (size_t )wrqu->data.length; } else { kfree((void const *)ieee->wpa_ie); ieee->wpa_ie = (u8 *)0U; ieee->wpa_ie_len = 0UL; } ipw2100_wpa_assoc_frame(priv, (char *)ieee->wpa_ie, (int )ieee->wpa_ie_len); return (0); } } static int ipw2100_wx_get_genie(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct libipw_device *ieee ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; ieee = priv->ieee; if (ieee->wpa_ie_len == 0UL || (unsigned long )ieee->wpa_ie == (unsigned long )((u8 *)0U)) { wrqu->data.length = 0U; return (0); } else { } if ((size_t )wrqu->data.length < ieee->wpa_ie_len) { return (-7); } else { } wrqu->data.length = (__u16 )ieee->wpa_ie_len; memcpy((void *)extra, (void const *)ieee->wpa_ie, ieee->wpa_ie_len); return (0); } } static int ipw2100_wx_set_auth(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct libipw_device *ieee ; struct iw_param *param ; struct lib80211_crypt_data *crypt ; unsigned long flags ; int ret ; struct libipw_security sec ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; ieee = priv->ieee; param = & wrqu->param; ret = 0; switch ((int )param->flags & 4095) { case 0: ; case 1: ; case 2: ; case 3: ; goto ldv_61916; case 4: crypt = (priv->ieee)->crypt_info.crypt[(priv->ieee)->crypt_info.tx_keyidx]; if (((unsigned long )crypt == (unsigned long )((struct lib80211_crypt_data *)0) || (unsigned long )(crypt->ops)->set_flags == (unsigned long )((unsigned long (*)(unsigned long , void * ))0)) || (unsigned long )(crypt->ops)->get_flags == (unsigned long )((unsigned long (*)(void * ))0)) { goto ldv_61916; } else { } flags = (*((crypt->ops)->get_flags))(crypt->priv); if (param->value != 0) { flags = flags | 1UL; } else { flags = flags & 0xfffffffffffffffeUL; } (*((crypt->ops)->set_flags))(flags, crypt->priv); goto ldv_61916; case 5: sec.active_key = (unsigned char)0; sec.enabled = (unsigned char )param->value; sec.unicast_uses_group = (unsigned char)0; sec.encrypt = (unsigned char)0; sec.auth_mode = (unsigned char)0; sec.encode_alg[0] = (unsigned char)0; sec.encode_alg[1] = (unsigned char)0; sec.encode_alg[2] = (unsigned char)0; sec.encode_alg[3] = (unsigned char)0; sec.key_sizes[0] = (unsigned char)0; sec.key_sizes[1] = (unsigned char)0; sec.key_sizes[2] = (unsigned char)0; sec.key_sizes[3] = (unsigned char)0; sec.keys[0][0] = (unsigned char)0; sec.keys[0][1] = (unsigned char)0; sec.keys[0][2] = (unsigned char)0; sec.keys[0][3] = (unsigned char)0; sec.keys[0][4] = (unsigned char)0; sec.keys[0][5] = (unsigned char)0; sec.keys[0][6] = (unsigned char)0; sec.keys[0][7] = (unsigned char)0; sec.keys[0][8] = (unsigned char)0; sec.keys[0][9] = (unsigned char)0; sec.keys[0][10] = (unsigned char)0; sec.keys[0][11] = (unsigned char)0; sec.keys[0][12] = (unsigned char)0; sec.keys[0][13] = (unsigned char)0; sec.keys[0][14] = (unsigned char)0; sec.keys[0][15] = (unsigned char)0; sec.keys[0][16] = (unsigned char)0; sec.keys[0][17] = (unsigned char)0; sec.keys[0][18] = (unsigned char)0; sec.keys[0][19] = (unsigned char)0; sec.keys[0][20] = (unsigned char)0; sec.keys[0][21] = (unsigned char)0; sec.keys[0][22] = (unsigned char)0; sec.keys[0][23] = (unsigned char)0; sec.keys[0][24] = (unsigned char)0; sec.keys[0][25] = (unsigned char)0; sec.keys[0][26] = (unsigned char)0; sec.keys[0][27] = (unsigned char)0; sec.keys[0][28] = (unsigned char)0; sec.keys[0][29] = (unsigned char)0; sec.keys[0][30] = (unsigned char)0; sec.keys[0][31] = (unsigned char)0; sec.keys[1][0] = (unsigned char)0; sec.keys[1][1] = (unsigned char)0; sec.keys[1][2] = (unsigned char)0; sec.keys[1][3] = (unsigned char)0; sec.keys[1][4] = (unsigned char)0; sec.keys[1][5] = (unsigned char)0; sec.keys[1][6] = (unsigned char)0; sec.keys[1][7] = (unsigned char)0; sec.keys[1][8] = (unsigned char)0; sec.keys[1][9] = (unsigned char)0; sec.keys[1][10] = (unsigned char)0; sec.keys[1][11] = (unsigned char)0; sec.keys[1][12] = (unsigned char)0; sec.keys[1][13] = (unsigned char)0; sec.keys[1][14] = (unsigned char)0; sec.keys[1][15] = (unsigned char)0; sec.keys[1][16] = (unsigned char)0; sec.keys[1][17] = (unsigned char)0; sec.keys[1][18] = (unsigned char)0; sec.keys[1][19] = (unsigned char)0; sec.keys[1][20] = (unsigned char)0; sec.keys[1][21] = (unsigned char)0; sec.keys[1][22] = (unsigned char)0; sec.keys[1][23] = (unsigned char)0; sec.keys[1][24] = (unsigned char)0; sec.keys[1][25] = (unsigned char)0; sec.keys[1][26] = (unsigned char)0; sec.keys[1][27] = (unsigned char)0; sec.keys[1][28] = (unsigned char)0; sec.keys[1][29] = (unsigned char)0; sec.keys[1][30] = (unsigned char)0; sec.keys[1][31] = (unsigned char)0; sec.keys[2][0] = (unsigned char)0; sec.keys[2][1] = (unsigned char)0; sec.keys[2][2] = (unsigned char)0; sec.keys[2][3] = (unsigned char)0; sec.keys[2][4] = (unsigned char)0; sec.keys[2][5] = (unsigned char)0; sec.keys[2][6] = (unsigned char)0; sec.keys[2][7] = (unsigned char)0; sec.keys[2][8] = (unsigned char)0; sec.keys[2][9] = (unsigned char)0; sec.keys[2][10] = (unsigned char)0; sec.keys[2][11] = (unsigned char)0; sec.keys[2][12] = (unsigned char)0; sec.keys[2][13] = (unsigned char)0; sec.keys[2][14] = (unsigned char)0; sec.keys[2][15] = (unsigned char)0; sec.keys[2][16] = (unsigned char)0; sec.keys[2][17] = (unsigned char)0; sec.keys[2][18] = (unsigned char)0; sec.keys[2][19] = (unsigned char)0; sec.keys[2][20] = (unsigned char)0; sec.keys[2][21] = (unsigned char)0; sec.keys[2][22] = (unsigned char)0; sec.keys[2][23] = (unsigned char)0; sec.keys[2][24] = (unsigned char)0; sec.keys[2][25] = (unsigned char)0; sec.keys[2][26] = (unsigned char)0; sec.keys[2][27] = (unsigned char)0; sec.keys[2][28] = (unsigned char)0; sec.keys[2][29] = (unsigned char)0; sec.keys[2][30] = (unsigned char)0; sec.keys[2][31] = (unsigned char)0; sec.keys[3][0] = (unsigned char)0; sec.keys[3][1] = (unsigned char)0; sec.keys[3][2] = (unsigned char)0; sec.keys[3][3] = (unsigned char)0; sec.keys[3][4] = (unsigned char)0; sec.keys[3][5] = (unsigned char)0; sec.keys[3][6] = (unsigned char)0; sec.keys[3][7] = (unsigned char)0; sec.keys[3][8] = (unsigned char)0; sec.keys[3][9] = (unsigned char)0; sec.keys[3][10] = (unsigned char)0; sec.keys[3][11] = (unsigned char)0; sec.keys[3][12] = (unsigned char)0; sec.keys[3][13] = (unsigned char)0; sec.keys[3][14] = (unsigned char)0; sec.keys[3][15] = (unsigned char)0; sec.keys[3][16] = (unsigned char)0; sec.keys[3][17] = (unsigned char)0; sec.keys[3][18] = (unsigned char)0; sec.keys[3][19] = (unsigned char)0; sec.keys[3][20] = (unsigned char)0; sec.keys[3][21] = (unsigned char)0; sec.keys[3][22] = (unsigned char)0; sec.keys[3][23] = (unsigned char)0; sec.keys[3][24] = (unsigned char)0; sec.keys[3][25] = (unsigned char)0; sec.keys[3][26] = (unsigned char)0; sec.keys[3][27] = (unsigned char)0; sec.keys[3][28] = (unsigned char)0; sec.keys[3][29] = (unsigned char)0; sec.keys[3][30] = (unsigned char)0; sec.keys[3][31] = (unsigned char)0; sec.level = (unsigned char)0; sec.flags = 256U; (priv->ieee)->drop_unencrypted = param->value; if (param->value == 0) { sec.flags = (u16 )((unsigned int )sec.flags | 128U); sec.level = 0U; } else { sec.flags = (u16 )((unsigned int )sec.flags | 128U); sec.level = 1U; } if ((unsigned long )(priv->ieee)->set_security != (unsigned long )((void (*)(struct net_device * , struct libipw_security * ))0)) { (*((priv->ieee)->set_security))((priv->ieee)->dev, & sec); } else { } goto ldv_61916; case 6: ret = ipw2100_wpa_set_auth_algs(priv, param->value); goto ldv_61916; case 7: ret = ipw2100_wpa_enable(priv, param->value); goto ldv_61916; case 8: ieee->ieee802_1x = param->value; goto ldv_61916; case 10: ieee->privacy_invoked = param->value; goto ldv_61916; default: ; return (-95); } ldv_61916: ; return (ret); } } static int ipw2100_wx_get_auth(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct libipw_device *ieee ; struct lib80211_crypt_data *crypt ; struct iw_param *param ; int ret ; unsigned long tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; ieee = priv->ieee; param = & wrqu->param; ret = 0; switch ((int )param->flags & 4095) { case 0: ; case 1: ; case 2: ; case 3: ret = -95; goto ldv_61940; case 4: crypt = (priv->ieee)->crypt_info.crypt[(priv->ieee)->crypt_info.tx_keyidx]; if ((unsigned long )crypt == (unsigned long )((struct lib80211_crypt_data *)0) || (unsigned long )(crypt->ops)->get_flags == (unsigned long )((unsigned long (*)(void * ))0)) { printk("\fipw2100: Can\'t get TKIP countermeasures: crypt not set!\n"); goto ldv_61940; } else { } tmp___0 = (*((crypt->ops)->get_flags))(crypt->priv); param->value = (int )tmp___0 & 1; goto ldv_61940; case 5: param->value = ieee->drop_unencrypted; goto ldv_61940; case 6: param->value = (__s32 )(priv->ieee)->sec.auth_mode; goto ldv_61940; case 7: param->value = ieee->wpa_enabled; goto ldv_61940; case 8: param->value = ieee->ieee802_1x; goto ldv_61940; case 9: ; case 10: param->value = ieee->privacy_invoked; goto ldv_61940; default: ; return (-95); } ldv_61940: ; return (0); } } static int ipw2100_wx_set_encodeext(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_wx_set_encodeext(priv->ieee, info, wrqu, extra); return (tmp___0); } } static int ipw2100_wx_get_encodeext(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; tmp___0 = libipw_wx_get_encodeext(priv->ieee, info, wrqu, extra); return (tmp___0); } } static int ipw2100_wx_set_mlme(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; struct iw_mlme *mlme ; __le16 reason ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; mlme = (struct iw_mlme *)extra; reason = mlme->reason_code; switch ((int )mlme->cmd) { case 0: ; goto ldv_61973; case 1: ipw2100_disassociate_bssid(priv); goto ldv_61973; default: ; return (-95); } ldv_61973: ; return (0); } } static int ipw2100_wx_set_promisc(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int *parms ; int enable ; int err ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; parms = (int *)extra; enable = *parms > 0; err = 0; mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if (enable != 0) { if ((priv->ieee)->iw_mode == 6) { err = ipw2100_set_channel(priv, (u32 )*(parms + 1UL), 0); goto done; } else { } priv->channel = (u8 )*(parms + 1UL); err = ipw2100_switch_mode(priv, 6U); } else if ((priv->ieee)->iw_mode == 6) { err = ipw2100_switch_mode(priv, (u32 )priv->last_mode); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_reset(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->status & 32UL) != 0UL) { schedule_reset(priv); } else { } return (0); } } static int ipw2100_wx_set_powermode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int mode ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; err = 0; mode = *((int *)extra); mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if (mode < 0 || mode > 5) { mode = 6; } else { } if ((priv->power_mode & 15) != mode) { err = ipw2100_set_power_mode(priv, mode); } else { } done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_powermode(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int level ; s32 timeout ; s32 period ; size_t tmp___0 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; level = priv->power_mode & 15; if ((priv->power_mode & 16) == 0) { snprintf(extra, 80UL, "Power save level: %d (Off)", level); } else { switch (level) { case 0: snprintf(extra, 80UL, "Power save level: %d (None)", level); goto ldv_62015; case 6: snprintf(extra, 80UL, "Power save level: %d (Auto)", level); goto ldv_62015; default: timeout = (int )timeout_duration[level + -1] / 1000; period = (int )period_duration[level + -1] / 1000; snprintf(extra, 80UL, "Power save level: %d (Timeout %dms, Period %dms)", level, timeout, period); } ldv_62015: ; } tmp___0 = strlen((char const *)extra); wrqu->data.length = (unsigned int )((__u16 )tmp___0) + 1U; return (0); } } static int ipw2100_wx_set_preamble(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int mode ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; mode = *((int *)extra); mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if (mode == 1) { priv->config = priv->config | 16UL; } else if (mode == 0) { priv->config = priv->config & 0xffffffffffffffefUL; } else { err = -22; goto done; } err = ipw2100_system_config(priv, 0); done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_preamble(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->config & 16UL) != 0UL) { snprintf((char *)(& wrqu->name), 16UL, "long (1)"); } else { snprintf((char *)(& wrqu->name), 16UL, "auto (0)"); } return (0); } } static int ipw2100_wx_set_crc_check(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; int err ; int mode ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; mode = *((int *)extra); mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->status & 32UL) == 0UL) { err = -5; goto done; } else { } if (mode == 1) { priv->config = priv->config | 2048UL; } else if (mode == 0) { priv->config = priv->config & 0xfffffffffffff7ffUL; } else { err = -22; goto done; } err = 0; done: mutex_unlock(& priv->action_mutex); return (err); } } static int ipw2100_wx_get_crc_check(struct net_device *dev , struct iw_request_info *info , union iwreq_data *wrqu , char *extra ) { struct ipw2100_priv *priv ; void *tmp ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; if ((priv->config & 2048UL) != 0UL) { snprintf((char *)(& wrqu->name), 16UL, "CRC checked (1)"); } else { snprintf((char *)(& wrqu->name), 16UL, "CRC ignored (0)"); } return (0); } } static iw_handler ipw2100_wx_handlers[54U] = { 0, & ipw2100_wx_get_name, 0, 0, & ipw2100_wx_set_freq, & ipw2100_wx_get_freq, & ipw2100_wx_set_mode, & ipw2100_wx_get_mode, 0, 0, 0, & ipw2100_wx_get_range, 0, 0, 0, 0, 0, 0, 0, 0, & ipw2100_wx_set_wap, & ipw2100_wx_get_wap, & ipw2100_wx_set_mlme, 0, & ipw2100_wx_set_scan, & ipw2100_wx_get_scan, & ipw2100_wx_set_essid, & ipw2100_wx_get_essid, & ipw2100_wx_set_nick, & ipw2100_wx_get_nick, 0, 0, & ipw2100_wx_set_rate, & ipw2100_wx_get_rate, & ipw2100_wx_set_rts, & ipw2100_wx_get_rts, & ipw2100_wx_set_frag, & ipw2100_wx_get_frag, & ipw2100_wx_set_txpow, & ipw2100_wx_get_txpow, & ipw2100_wx_set_retry, & ipw2100_wx_get_retry, & ipw2100_wx_set_encode, & ipw2100_wx_get_encode, & ipw2100_wx_set_power, & ipw2100_wx_get_power, 0, 0, & ipw2100_wx_set_genie, & ipw2100_wx_get_genie, & ipw2100_wx_set_auth, & ipw2100_wx_get_auth, & ipw2100_wx_set_encodeext, & ipw2100_wx_get_encodeext}; static struct iw_priv_args const ipw2100_private_args[8U] = { {35808U, 18434U, 0U, {'m', 'o', 'n', 'i', 't', 'o', 'r', '\000'}}, {35809U, 18432U, 0U, {'r', 'e', 's', 'e', 't', '\000'}}, {35810U, 18433U, 0U, {'s', 'e', 't', '_', 'p', 'o', 'w', 'e', 'r', '\000'}}, {35811U, 0U, 10320U, {'g', 'e', 't', '_', 'p', 'o', 'w', 'e', 'r', '\000'}}, {35812U, 18433U, 0U, {'s', 'e', 't', '_', 'p', 'r', 'e', 'a', 'm', 'b', 'l', 'e', '\000'}}, {35813U, 0U, 10256U, {'g', 'e', 't', '_', 'p', 'r', 'e', 'a', 'm', 'b', 'l', 'e', '\000'}}, {35814U, 18433U, 0U, {'s', 'e', 't', '_', 'c', 'r', 'c', '_', 'c', 'h', 'e', 'c', 'k', '\000'}}, {35815U, 0U, 10256U, {'g', 'e', 't', '_', 'c', 'r', 'c', '_', 'c', 'h', 'e', 'c', 'k', '\000'}}}; static iw_handler ipw2100_private_handler[8U] = { & ipw2100_wx_set_promisc, & ipw2100_wx_reset, & ipw2100_wx_set_powermode, & ipw2100_wx_get_powermode, & ipw2100_wx_set_preamble, & ipw2100_wx_get_preamble, & ipw2100_wx_set_crc_check, & ipw2100_wx_get_crc_check}; static struct iw_statistics *ipw2100_wx_wireless_stats(struct net_device *dev ) { int rssi_qual ; int tx_qual ; int beacon_qual ; int quality ; struct ipw2100_priv *priv ; void *tmp ; struct iw_statistics *wstats ; u32 rssi ; u32 tx_retries ; u32 missed_beacons ; u32 tx_failures ; u32 ord_len ; int tmp___0 ; int tmp___1 ; int tmp___2 ; int _min1 ; int _min2 ; int _min1___0 ; int _min2___0 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; int tmp___7 ; int tmp___8 ; { tmp = libipw_priv(dev); priv = (struct ipw2100_priv *)tmp; ord_len = 4U; if ((unsigned long )priv == (unsigned long )((struct ipw2100_priv *)0)) { return ((struct iw_statistics *)0); } else { } wstats = & priv->wstats; if ((priv->status & 1024UL) == 0UL) { wstats->miss.beacon = 0U; wstats->discard.retries = 0U; wstats->qual.qual = 0U; wstats->qual.level = 0U; wstats->qual.noise = 0U; wstats->qual.updated = 7U; wstats->qual.updated = (__u8 )((unsigned int )wstats->qual.updated | 112U); return (wstats); } else { } tmp___0 = ipw2100_get_ordinal(priv, 148U, (void *)(& missed_beacons), & ord_len); if (tmp___0 != 0) { goto fail_get_ordinal; } else { } if ((priv->status & 1024UL) == 0UL) { wstats->qual.qual = 0U; wstats->qual.level = 0U; } else { tmp___1 = ipw2100_get_ordinal(priv, 173U, (void *)(& rssi), & ord_len); if (tmp___1 != 0) { goto fail_get_ordinal; } else { } wstats->qual.level = (unsigned int )((__u8 )rssi) + 158U; if (rssi <= 9U) { rssi_qual = (int )((rssi * 30U) / 10U); } else if (rssi <= 14U) { rssi_qual = (int )((rssi * 30U + 4294966996U) / 5U + 30U); } else if (rssi <= 19U) { rssi_qual = (int )((rssi * 20U + 4294966996U) / 5U + 60U); } else if (rssi <= 29U) { rssi_qual = (int )((rssi * 10U + 4294967096U) / 10U + 80U); } else { rssi_qual = (int )((rssi * 10U + 4294966996U) / 10U + 90U); } tmp___2 = ipw2100_get_ordinal(priv, 149U, (void *)(& tx_retries), & ord_len); if (tmp___2 != 0) { goto fail_get_ordinal; } else { } if (tx_retries > 75U) { tx_qual = (int )((- tx_retries * 30U + 2700U) / 15U); } else if (tx_retries > 70U) { tx_qual = (int )((- tx_retries * 30U + 2250U) / 5U + 30U); } else if (tx_retries > 65U) { tx_qual = (int )((- tx_retries * 20U + 1400U) / 5U + 60U); } else if (tx_retries > 50U) { tx_qual = (int )((- tx_retries * 10U + 650U) / 15U + 80U); } else { tx_qual = (int )((- tx_retries * 10U + 500U) / 50U + 90U); } if (missed_beacons > 50U) { beacon_qual = (int )((- missed_beacons * 30U + 1800U) / 10U); } else if (missed_beacons > 40U) { beacon_qual = (int )((- missed_beacons * 30U + 1500U) / 10U + 30U); } else if (missed_beacons > 32U) { beacon_qual = (int )((- missed_beacons * 20U + 800U) / 18U + 60U); } else if (missed_beacons > 20U) { beacon_qual = (int )((- missed_beacons * 10U + 320U) / 20U + 80U); } else { beacon_qual = (int )((- missed_beacons * 10U + 200U) / 20U + 90U); } _min1 = tx_qual; _min2 = rssi_qual; quality = _min1 < _min2 ? _min1 : _min2; _min1___0 = beacon_qual; _min2___0 = quality; quality = _min1___0 < _min2___0 ? _min1___0 : _min2___0; if (beacon_qual == quality) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___3 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___3 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_wireless_stats"); printk("Quality clamped by Missed Beacons\n"); } else { } } else if (tx_qual == quality) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___4 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___4 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_wireless_stats"); printk("Quality clamped by Tx Retries\n"); } else { } } else if (quality != 100) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___5 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___5 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_wireless_stats"); printk("Quality clamped by Signal Strength\n"); } else { } } else if ((ipw2100_debug_level & 8U) != 0U) { tmp___6 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___6 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_wireless_stats"); printk("Quality not clamped.\n"); } else { } wstats->qual.qual = (__u8 )quality; wstats->qual.level = (unsigned int )((__u8 )rssi) + 158U; } wstats->qual.noise = 0U; wstats->qual.updated = 7U; wstats->qual.updated = (__u8 )((unsigned int )wstats->qual.updated | 64U); wstats->miss.beacon = missed_beacons; tmp___7 = ipw2100_get_ordinal(priv, 51U, (void *)(& tx_failures), & ord_len); if (tmp___7 != 0) { goto fail_get_ordinal; } else { } wstats->discard.retries = tx_failures; return (wstats); fail_get_ordinal: ; if ((ipw2100_debug_level & 8U) != 0U) { tmp___8 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___8 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_wireless_stats"); printk("failed querying ordinals.\n"); } else { } return ((struct iw_statistics *)0); } } static struct iw_handler_def ipw2100_wx_handler_def = {(iw_handler (* const *)(struct net_device * , struct iw_request_info * , union iwreq_data * , char * ))(& ipw2100_wx_handlers), 54U, 8U, 8U, (iw_handler (* const *)(struct net_device * , struct iw_request_info * , union iwreq_data * , char * ))(& ipw2100_private_handler), (struct iw_priv_args const *)(& ipw2100_private_args), & ipw2100_wx_wireless_stats}; static void ipw2100_wx_event_work(struct work_struct *work ) { struct ipw2100_priv *priv ; struct work_struct const *__mptr ; union iwreq_data wrqu ; unsigned int len ; int tmp ; int tmp___0 ; int tmp___1 ; { __mptr = (struct work_struct const *)work; priv = (struct ipw2100_priv *)__mptr + 0xfffffffffffffa08UL; len = 6U; if ((priv->status & 16UL) != 0UL) { return; } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((ipw2100_debug_level & 8U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_event_work"); printk("enter\n"); } else { } mutex_unlock(& priv->action_mutex); wrqu.ap_addr.sa_family = 1U; if ((priv->status & 1536UL) == 0UL || (priv->status & 12288UL) != 0UL) { eth_zero_addr((u8 *)(& wrqu.ap_addr.sa_data)); } else { tmp___0 = ipw2100_get_ordinal(priv, 1014U, (void *)(& priv->bssid), & len); if (tmp___0 != 0) { eth_zero_addr((u8 *)(& wrqu.ap_addr.sa_data)); } else { memcpy((void *)(& wrqu.ap_addr.sa_data), (void const *)(& priv->bssid), 6UL); memcpy((void *)(& (priv->ieee)->bssid), (void const *)(& priv->bssid), 6UL); priv->status = priv->status & 0xfffffffffffffdffUL; priv->status = priv->status | 1024UL; netif_carrier_on(priv->net_dev); netif_wake_queue(priv->net_dev); } } if ((priv->status & 1024UL) == 0UL) { if ((ipw2100_debug_level & 8U) != 0U) { tmp___1 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___1 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_wx_event_work"); printk("Configuring ESSID\n"); } else { } mutex_lock_nested(& priv->action_mutex, 0U); if ((priv->config & 2UL) != 0UL) { ipw2100_set_essid(priv, (char *)(& priv->essid), (int )priv->essid_len, 0); } else { ipw2100_set_essid(priv, (char *)0, 0, 0); } mutex_unlock(& priv->action_mutex); } else { } wireless_send_event(priv->net_dev, 35605U, & wrqu, (char const *)0); return; } } static int ipw2100_mod_firmware_load(struct ipw2100_fw *fw ) { struct ipw2100_fw_header *h ; { h = (struct ipw2100_fw_header *)(fw->fw_entry)->data; if (((int )h->version & 255) != 1) { printk("\fipw2100: Firmware image not compatible (detected version id of %u). See Documentation/networking/README.ipw2100\n", (int )h->version); return (1); } else { } fw->version = (int )h->version; fw->fw.data = (void const *)(fw->fw_entry)->data + 12U; fw->fw.size = (unsigned long )h->fw_size; fw->uc.data = fw->fw.data + (unsigned long )h->fw_size; fw->uc.size = (unsigned long )h->uc_size; return (0); } } static int ipw2100_get_firmware(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) { char *fw_name ; int rc ; int tmp ; int tmp___0 ; { if ((ipw2100_debug_level & 4U) != 0U) { tmp = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_firmware"); printk("%s: Using hotplug firmware load.\n", (char *)(& (priv->net_dev)->name)); } else { } switch ((priv->ieee)->iw_mode) { case 1: fw_name = (char *)"ipw2100-1.3-i.fw"; goto ldv_62117; case 6: fw_name = (char *)"ipw2100-1.3-p.fw"; goto ldv_62117; case 2: ; default: fw_name = (char *)"ipw2100-1.3.fw"; goto ldv_62117; } ldv_62117: rc = request_firmware(& fw->fw_entry, (char const *)fw_name, & (priv->pci_dev)->dev); if (rc < 0) { printk("\vipw2100: %s: Firmware \'%s\' not available or load failed.\n", (char *)(& (priv->net_dev)->name), fw_name); return (rc); } else { } if ((ipw2100_debug_level & 4U) != 0U) { tmp___0 = preempt_count(); printk("\017ipw2100: %c %s ", ((unsigned long )tmp___0 & 2096896UL) != 0UL ? 73 : 85, "ipw2100_get_firmware"); printk("firmware data %p size %zd\n", (fw->fw_entry)->data, (fw->fw_entry)->size); } else { } ipw2100_mod_firmware_load(fw); return (0); } } static void ipw2100_release_firmware(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) { { fw->version = 0; release_firmware(fw->fw_entry); fw->fw_entry = (struct firmware const *)0; return; } } static int ipw2100_get_fwversion(struct ipw2100_priv *priv , char *buf , size_t max ) { char ver[14U] ; u32 len ; u32 tmp ; int i ; int tmp___0 ; { len = 14U; tmp___0 = ipw2100_get_ordinal(priv, 1012U, (void *)(& ver), & len); if (tmp___0 != 0) { return (-5); } else { } tmp = (u32 )max; if ((size_t )len >= max) { len = (u32 )max - 1U; } else { } i = 0; goto ldv_62138; ldv_62137: *(buf + (unsigned long )i) = ver[i]; i = i + 1; ldv_62138: ; if ((u32 )i < len) { goto ldv_62137; } else { } *(buf + (unsigned long )i) = 0; return ((int )tmp); } } static int ipw2100_get_ucodeversion(struct ipw2100_priv *priv , char *buf , size_t max ) { u32 ver ; u32 len ; int tmp ; int tmp___0 ; { len = 4U; tmp = ipw2100_get_ordinal(priv, 213U, (void *)(& ver), & len); if (tmp != 0) { return (-5); } else { } tmp___0 = snprintf(buf, max, "%08X", ver); return (tmp___0); } } static int ipw2100_fw_download(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) { unsigned int addr ; unsigned short len ; unsigned char const *firmware_data ; unsigned int firmware_data_left ; { firmware_data = (unsigned char const *)fw->fw.data; firmware_data_left = (unsigned int )fw->fw.size; goto ldv_62156; ldv_62155: addr = *((u32 *)firmware_data); firmware_data = firmware_data + 4UL; firmware_data_left = firmware_data_left - 4U; len = *((u16 *)firmware_data); firmware_data = firmware_data + 2UL; firmware_data_left = firmware_data_left - 2U; if ((unsigned int )len > 32U) { printk("\vipw2100: Invalid firmware run-length of %d bytes\n", (int )len); return (-22); } else { } write_nic_memory(priv->net_dev, addr, (u32 )len, firmware_data); firmware_data = firmware_data + (unsigned long )len; firmware_data_left = firmware_data_left - (unsigned int )len; ldv_62156: ; if (firmware_data_left != 0U) { goto ldv_62155; } else { } return (0); } } static int ipw2100_ucode_download(struct ipw2100_priv *priv , struct ipw2100_fw *fw ) { struct net_device *dev ; unsigned char const *microcode_data ; unsigned int microcode_data_left ; void *reg ; struct symbol_alive_response response ; int i ; int j ; u8 data ; unsigned char const *tmp ; unsigned char const *tmp___0 ; { dev = priv->net_dev; microcode_data = (unsigned char const *)fw->uc.data; microcode_data_left = (unsigned int )fw->uc.size; reg = priv->ioaddr; write_nic_word(dev, 2228224U, 1795); readl((void const volatile *)reg); write_nic_word(dev, 2228224U, 1799); readl((void const volatile *)reg); write_nic_byte(dev, 2162708U, 114); readl((void const volatile *)reg); write_nic_byte(dev, 2162708U, 114); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 64); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 0); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 64); readl((void const volatile *)reg); goto ldv_62186; ldv_62185: tmp = microcode_data; microcode_data = microcode_data + 1; write_nic_byte(dev, 2162704U, (int )*tmp); tmp___0 = microcode_data; microcode_data = microcode_data + 1; write_nic_byte(dev, 2162704U, (int )*tmp___0); microcode_data_left = microcode_data_left - 2U; ldv_62186: ; if (microcode_data_left != 0U) { goto ldv_62185; } else { } write_nic_byte(dev, 2162688U, 0); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 0); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 128); readl((void const volatile *)reg); write_nic_word(dev, 2228224U, 1795); readl((void const volatile *)reg); write_nic_word(dev, 2228224U, 1799); readl((void const volatile *)reg); write_nic_byte(dev, 2162708U, 114); readl((void const volatile *)reg); write_nic_byte(dev, 2162708U, 114); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 0); readl((void const volatile *)reg); write_nic_byte(dev, 2162688U, 128); i = 0; goto ldv_62190; ldv_62189: __const_udelay(42950UL); read_nic_byte(dev, 2162688U, & data); if ((int )data & 1) { goto ldv_62188; } else { } i = i + 1; ldv_62190: ; if (i <= 9) { goto ldv_62189; } else { } ldv_62188: ; if (i == 10) { printk("\vipw2100: %s: Error initializing Symbol\n", (char *)(& dev->name)); return (-5); } else { } i = 0; goto ldv_62196; ldv_62195: j = 0; goto ldv_62192; ldv_62191: read_nic_word(dev, 2162692U, (u16 *)(& response) + (unsigned long )j); j = j + 1; ldv_62192: ; if ((unsigned int )j <= 13U) { goto ldv_62191; } else { } if ((unsigned int )response.cmd_id == 1U && (unsigned int )response.ucode_valid == 1U) { goto ldv_62194; } else { } __const_udelay(42950UL); i = i + 1; ldv_62196: ; if (i <= 29) { goto ldv_62195; } else { } ldv_62194: ; if (i == 30) { printk("\vipw2100: %s: No response from Symbol - hw not alive\n", (char *)(& dev->name)); printk_buf(1, (u8 const *)(& response), 28U); return (-5); } else { } return (0); } } extern int ldv_ndo_uninit_10(void) ; extern int ldv_resume_early_9(void) ; int ldv_retval_2 ; extern int ldv_ndo_init_10(void) ; int ldv_retval_5 ; int ldv_retval_0 ; int ldv_retval_4 ; int ldv_retval_6 ; extern void ldv_initialize(void) ; int ldv_retval_1 ; void ldv_check_final_state(void) ; int ldv_retval_3 ; extern int ldv_suspend_late_9(void) ; int ldv_retval_7 ; void ldv_initialize_device_attribute_12(void) { void *tmp ; void *tmp___0 ; { tmp = ldv_init_zalloc(48UL); dev_attr_rf_kill_group0 = (struct device_attribute *)tmp; tmp___0 = ldv_init_zalloc(1416UL); dev_attr_rf_kill_group1 = (struct device *)tmp___0; return; } } void activate_work_5(struct work_struct *work , int state ) { { if (ldv_work_5_0 == 0) { ldv_work_struct_5_0 = work; ldv_work_5_0 = state; return; } else { } if (ldv_work_5_1 == 0) { ldv_work_struct_5_1 = work; ldv_work_5_1 = state; return; } else { } if (ldv_work_5_2 == 0) { ldv_work_struct_5_2 = work; ldv_work_5_2 = state; return; } else { } if (ldv_work_5_3 == 0) { ldv_work_struct_5_3 = work; ldv_work_5_3 = state; return; } else { } return; } } void work_init_3(void) { { ldv_work_3_0 = 0; ldv_work_3_1 = 0; ldv_work_3_2 = 0; ldv_work_3_3 = 0; return; } } void call_and_disable_all_7(int state ) { { if (ldv_work_7_0 == state) { call_and_disable_work_7(ldv_work_struct_7_0); } else { } if (ldv_work_7_1 == state) { call_and_disable_work_7(ldv_work_struct_7_1); } else { } if (ldv_work_7_2 == state) { call_and_disable_work_7(ldv_work_struct_7_2); } else { } if (ldv_work_7_3 == state) { call_and_disable_work_7(ldv_work_struct_7_3); } else { } return; } } void invoke_work_6(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_6_0 == 2 || ldv_work_6_0 == 3) { ldv_work_6_0 = 4; ipw2100_rf_kill(ldv_work_struct_6_0); ldv_work_6_0 = 1; } else { } goto ldv_62236; case 1: ; if (ldv_work_6_1 == 2 || ldv_work_6_1 == 3) { ldv_work_6_1 = 4; ipw2100_rf_kill(ldv_work_struct_6_0); ldv_work_6_1 = 1; } else { } goto ldv_62236; case 2: ; if (ldv_work_6_2 == 2 || ldv_work_6_2 == 3) { ldv_work_6_2 = 4; ipw2100_rf_kill(ldv_work_struct_6_0); ldv_work_6_2 = 1; } else { } goto ldv_62236; case 3: ; if (ldv_work_6_3 == 2 || ldv_work_6_3 == 3) { ldv_work_6_3 = 4; ipw2100_rf_kill(ldv_work_struct_6_0); ldv_work_6_3 = 1; } else { } goto ldv_62236; default: ldv_stop(); } ldv_62236: ; return; } } void call_and_disable_all_2(int state ) { { if (ldv_work_2_0 == state) { call_and_disable_work_2(ldv_work_struct_2_0); } else { } if (ldv_work_2_1 == state) { call_and_disable_work_2(ldv_work_struct_2_1); } else { } if (ldv_work_2_2 == state) { call_and_disable_work_2(ldv_work_struct_2_2); } else { } if (ldv_work_2_3 == state) { call_and_disable_work_2(ldv_work_struct_2_3); } else { } return; } } int reg_check_1(irqreturn_t (*handler)(int , void * ) ) { { if ((unsigned long )handler == (unsigned long )(& ipw2100_interrupt)) { return (1); } else { } return (0); } } void activate_work_3(struct work_struct *work , int state ) { { if (ldv_work_3_0 == 0) { ldv_work_struct_3_0 = work; ldv_work_3_0 = state; return; } else { } if (ldv_work_3_1 == 0) { ldv_work_struct_3_1 = work; ldv_work_3_1 = state; return; } else { } if (ldv_work_3_2 == 0) { ldv_work_struct_3_2 = work; ldv_work_3_2 = state; return; } else { } if (ldv_work_3_3 == 0) { ldv_work_struct_3_3 = work; ldv_work_3_3 = state; return; } else { } return; } } void work_init_5(void) { { ldv_work_5_0 = 0; ldv_work_5_1 = 0; ldv_work_5_2 = 0; ldv_work_5_3 = 0; return; } } void call_and_disable_all_4(int state ) { { if (ldv_work_4_0 == state) { call_and_disable_work_4(ldv_work_struct_4_0); } else { } if (ldv_work_4_1 == state) { call_and_disable_work_4(ldv_work_struct_4_1); } else { } if (ldv_work_4_2 == state) { call_and_disable_work_4(ldv_work_struct_4_2); } else { } if (ldv_work_4_3 == state) { call_and_disable_work_4(ldv_work_struct_4_3); } else { } return; } } void work_init_7(void) { { ldv_work_7_0 = 0; ldv_work_7_1 = 0; ldv_work_7_2 = 0; ldv_work_7_3 = 0; return; } } void invoke_work_7(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_7_0 == 2 || ldv_work_7_0 == 3) { ldv_work_7_0 = 4; ipw2100_scan_event(ldv_work_struct_7_0); ldv_work_7_0 = 1; } else { } goto ldv_62268; case 1: ; if (ldv_work_7_1 == 2 || ldv_work_7_1 == 3) { ldv_work_7_1 = 4; ipw2100_scan_event(ldv_work_struct_7_0); ldv_work_7_1 = 1; } else { } goto ldv_62268; case 2: ; if (ldv_work_7_2 == 2 || ldv_work_7_2 == 3) { ldv_work_7_2 = 4; ipw2100_scan_event(ldv_work_struct_7_0); ldv_work_7_2 = 1; } else { } goto ldv_62268; case 3: ; if (ldv_work_7_3 == 2 || ldv_work_7_3 == 3) { ldv_work_7_3 = 4; ipw2100_scan_event(ldv_work_struct_7_0); ldv_work_7_3 = 1; } else { } goto ldv_62268; default: ldv_stop(); } ldv_62268: ; return; } } void disable_work_5(struct work_struct *work ) { { if ((ldv_work_5_0 == 3 || ldv_work_5_0 == 2) && (unsigned long )ldv_work_struct_5_0 == (unsigned long )work) { ldv_work_5_0 = 1; } else { } if ((ldv_work_5_1 == 3 || ldv_work_5_1 == 2) && (unsigned long )ldv_work_struct_5_1 == (unsigned long )work) { ldv_work_5_1 = 1; } else { } if ((ldv_work_5_2 == 3 || ldv_work_5_2 == 2) && (unsigned long )ldv_work_struct_5_2 == (unsigned long )work) { ldv_work_5_2 = 1; } else { } if ((ldv_work_5_3 == 3 || ldv_work_5_3 == 2) && (unsigned long )ldv_work_struct_5_3 == (unsigned long )work) { ldv_work_5_3 = 1; } else { } return; } } void call_and_disable_work_3(struct work_struct *work ) { { if ((ldv_work_3_0 == 2 || ldv_work_3_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_3_0) { ipw2100_security_work(work); ldv_work_3_0 = 1; return; } else { } if ((ldv_work_3_1 == 2 || ldv_work_3_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_3_1) { ipw2100_security_work(work); ldv_work_3_1 = 1; return; } else { } if ((ldv_work_3_2 == 2 || ldv_work_3_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_3_2) { ipw2100_security_work(work); ldv_work_3_2 = 1; return; } else { } if ((ldv_work_3_3 == 2 || ldv_work_3_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_3_3) { ipw2100_security_work(work); ldv_work_3_3 = 1; return; } else { } return; } } void disable_work_7(struct work_struct *work ) { { if ((ldv_work_7_0 == 3 || ldv_work_7_0 == 2) && (unsigned long )ldv_work_struct_7_0 == (unsigned long )work) { ldv_work_7_0 = 1; } else { } if ((ldv_work_7_1 == 3 || ldv_work_7_1 == 2) && (unsigned long )ldv_work_struct_7_1 == (unsigned long )work) { ldv_work_7_1 = 1; } else { } if ((ldv_work_7_2 == 3 || ldv_work_7_2 == 2) && (unsigned long )ldv_work_struct_7_2 == (unsigned long )work) { ldv_work_7_2 = 1; } else { } if ((ldv_work_7_3 == 3 || ldv_work_7_3 == 2) && (unsigned long )ldv_work_struct_7_3 == (unsigned long )work) { ldv_work_7_3 = 1; } else { } return; } } void disable_work_3(struct work_struct *work ) { { if ((ldv_work_3_0 == 3 || ldv_work_3_0 == 2) && (unsigned long )ldv_work_struct_3_0 == (unsigned long )work) { ldv_work_3_0 = 1; } else { } if ((ldv_work_3_1 == 3 || ldv_work_3_1 == 2) && (unsigned long )ldv_work_struct_3_1 == (unsigned long )work) { ldv_work_3_1 = 1; } else { } if ((ldv_work_3_2 == 3 || ldv_work_3_2 == 2) && (unsigned long )ldv_work_struct_3_2 == (unsigned long )work) { ldv_work_3_2 = 1; } else { } if ((ldv_work_3_3 == 3 || ldv_work_3_3 == 2) && (unsigned long )ldv_work_struct_3_3 == (unsigned long )work) { ldv_work_3_3 = 1; } else { } return; } } void call_and_disable_all_6(int state ) { { if (ldv_work_6_0 == state) { call_and_disable_work_6(ldv_work_struct_6_0); } else { } if (ldv_work_6_1 == state) { call_and_disable_work_6(ldv_work_struct_6_1); } else { } if (ldv_work_6_2 == state) { call_and_disable_work_6(ldv_work_struct_6_2); } else { } if (ldv_work_6_3 == state) { call_and_disable_work_6(ldv_work_struct_6_3); } else { } return; } } void disable_suitable_irq_1(int line , void *data ) { { if (ldv_irq_1_0 != 0 && line == ldv_irq_line_1_0) { ldv_irq_1_0 = 0; return; } else { } if (ldv_irq_1_1 != 0 && line == ldv_irq_line_1_1) { ldv_irq_1_1 = 0; return; } else { } if (ldv_irq_1_2 != 0 && line == ldv_irq_line_1_2) { ldv_irq_1_2 = 0; return; } else { } if (ldv_irq_1_3 != 0 && line == ldv_irq_line_1_3) { ldv_irq_1_3 = 0; return; } else { } return; } } void activate_suitable_irq_1(int line , void *data ) { { if (ldv_irq_1_0 == 0) { ldv_irq_line_1_0 = line; ldv_irq_data_1_0 = data; ldv_irq_1_0 = 1; return; } else { } if (ldv_irq_1_1 == 0) { ldv_irq_line_1_1 = line; ldv_irq_data_1_1 = data; ldv_irq_1_1 = 1; return; } else { } if (ldv_irq_1_2 == 0) { ldv_irq_line_1_2 = line; ldv_irq_data_1_2 = data; ldv_irq_1_2 = 1; return; } else { } if (ldv_irq_1_3 == 0) { ldv_irq_line_1_3 = line; ldv_irq_data_1_3 = data; ldv_irq_1_3 = 1; return; } else { } return; } } void invoke_work_4(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_4_0 == 2 || ldv_work_4_0 == 3) { ldv_work_4_0 = 4; ipw2100_wx_event_work(ldv_work_struct_4_0); ldv_work_4_0 = 1; } else { } goto ldv_62304; case 1: ; if (ldv_work_4_1 == 2 || ldv_work_4_1 == 3) { ldv_work_4_1 = 4; ipw2100_wx_event_work(ldv_work_struct_4_0); ldv_work_4_1 = 1; } else { } goto ldv_62304; case 2: ; if (ldv_work_4_2 == 2 || ldv_work_4_2 == 3) { ldv_work_4_2 = 4; ipw2100_wx_event_work(ldv_work_struct_4_0); ldv_work_4_2 = 1; } else { } goto ldv_62304; case 3: ; if (ldv_work_4_3 == 2 || ldv_work_4_3 == 3) { ldv_work_4_3 = 4; ipw2100_wx_event_work(ldv_work_struct_4_0); ldv_work_4_3 = 1; } else { } goto ldv_62304; default: ldv_stop(); } ldv_62304: ; return; } } void call_and_disable_work_5(struct work_struct *work ) { { if ((ldv_work_5_0 == 2 || ldv_work_5_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_5_0) { ipw2100_hang_check(work); ldv_work_5_0 = 1; return; } else { } if ((ldv_work_5_1 == 2 || ldv_work_5_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_5_1) { ipw2100_hang_check(work); ldv_work_5_1 = 1; return; } else { } if ((ldv_work_5_2 == 2 || ldv_work_5_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_5_2) { ipw2100_hang_check(work); ldv_work_5_2 = 1; return; } else { } if ((ldv_work_5_3 == 2 || ldv_work_5_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_5_3) { ipw2100_hang_check(work); ldv_work_5_3 = 1; return; } else { } return; } } void invoke_work_2(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_2_0 == 2 || ldv_work_2_0 == 3) { ldv_work_2_0 = 4; ipw2100_reset_adapter(ldv_work_struct_2_0); ldv_work_2_0 = 1; } else { } goto ldv_62320; case 1: ; if (ldv_work_2_1 == 2 || ldv_work_2_1 == 3) { ldv_work_2_1 = 4; ipw2100_reset_adapter(ldv_work_struct_2_0); ldv_work_2_1 = 1; } else { } goto ldv_62320; case 2: ; if (ldv_work_2_2 == 2 || ldv_work_2_2 == 3) { ldv_work_2_2 = 4; ipw2100_reset_adapter(ldv_work_struct_2_0); ldv_work_2_2 = 1; } else { } goto ldv_62320; case 3: ; if (ldv_work_2_3 == 2 || ldv_work_2_3 == 3) { ldv_work_2_3 = 4; ipw2100_reset_adapter(ldv_work_struct_2_0); ldv_work_2_3 = 1; } else { } goto ldv_62320; default: ldv_stop(); } ldv_62320: ; return; } } void activate_work_6(struct work_struct *work , int state ) { { if (ldv_work_6_0 == 0) { ldv_work_struct_6_0 = work; ldv_work_6_0 = state; return; } else { } if (ldv_work_6_1 == 0) { ldv_work_struct_6_1 = work; ldv_work_6_1 = state; return; } else { } if (ldv_work_6_2 == 0) { ldv_work_struct_6_2 = work; ldv_work_6_2 = state; return; } else { } if (ldv_work_6_3 == 0) { ldv_work_struct_6_3 = work; ldv_work_6_3 = state; return; } else { } return; } } void ldv_initialize_device_attribute_20(void) { void *tmp ; void *tmp___0 ; { tmp = ldv_init_zalloc(48UL); dev_attr_memory_group0 = (struct device_attribute *)tmp; tmp___0 = ldv_init_zalloc(1416UL); dev_attr_memory_group1 = (struct device *)tmp___0; return; } } void ldv_initialize_ethtool_ops_11(void) { void *tmp ; { tmp = ldv_init_zalloc(3008UL); ipw2100_ethtool_ops_group0 = (struct net_device *)tmp; return; } } void activate_work_4(struct work_struct *work , int state ) { { if (ldv_work_4_0 == 0) { ldv_work_struct_4_0 = work; ldv_work_4_0 = state; return; } else { } if (ldv_work_4_1 == 0) { ldv_work_struct_4_1 = work; ldv_work_4_1 = state; return; } else { } if (ldv_work_4_2 == 0) { ldv_work_struct_4_2 = work; ldv_work_4_2 = state; return; } else { } if (ldv_work_4_3 == 0) { ldv_work_struct_4_3 = work; ldv_work_4_3 = state; return; } else { } return; } } void call_and_disable_work_7(struct work_struct *work ) { { if ((ldv_work_7_0 == 2 || ldv_work_7_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_7_0) { ipw2100_scan_event(work); ldv_work_7_0 = 1; return; } else { } if ((ldv_work_7_1 == 2 || ldv_work_7_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_7_1) { ipw2100_scan_event(work); ldv_work_7_1 = 1; return; } else { } if ((ldv_work_7_2 == 2 || ldv_work_7_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_7_2) { ipw2100_scan_event(work); ldv_work_7_2 = 1; return; } else { } if ((ldv_work_7_3 == 2 || ldv_work_7_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_7_3) { ipw2100_scan_event(work); ldv_work_7_3 = 1; return; } else { } return; } } void call_and_disable_all_5(int state ) { { if (ldv_work_5_0 == state) { call_and_disable_work_5(ldv_work_struct_5_0); } else { } if (ldv_work_5_1 == state) { call_and_disable_work_5(ldv_work_struct_5_1); } else { } if (ldv_work_5_2 == state) { call_and_disable_work_5(ldv_work_struct_5_2); } else { } if (ldv_work_5_3 == state) { call_and_disable_work_5(ldv_work_struct_5_3); } else { } return; } } void ldv_initialize_device_attribute_13(void) { void *tmp ; void *tmp___0 ; { tmp = ldv_init_zalloc(48UL); dev_attr_scan_age_group0 = (struct device_attribute *)tmp; tmp___0 = ldv_init_zalloc(1416UL); dev_attr_scan_age_group1 = (struct device *)tmp___0; return; } } void work_init_2(void) { { ldv_work_2_0 = 0; ldv_work_2_1 = 0; ldv_work_2_2 = 0; ldv_work_2_3 = 0; return; } } void ldv_initialize_driver_attribute_15(void) { void *tmp ; { tmp = ldv_init_zalloc(120UL); driver_attr_debug_level_group0 = (struct device_driver *)tmp; return; } } void ldv_initialize_device_attribute_14(void) { void *tmp ; void *tmp___0 ; { tmp = ldv_init_zalloc(48UL); dev_attr_fatal_error_group0 = (struct device_attribute *)tmp; tmp___0 = ldv_init_zalloc(1416UL); dev_attr_fatal_error_group1 = (struct device *)tmp___0; return; } } void activate_work_2(struct work_struct *work , int state ) { { if (ldv_work_2_0 == 0) { ldv_work_struct_2_0 = work; ldv_work_2_0 = state; return; } else { } if (ldv_work_2_1 == 0) { ldv_work_struct_2_1 = work; ldv_work_2_1 = state; return; } else { } if (ldv_work_2_2 == 0) { ldv_work_struct_2_2 = work; ldv_work_2_2 = state; return; } else { } if (ldv_work_2_3 == 0) { ldv_work_struct_2_3 = work; ldv_work_2_3 = state; return; } else { } return; } } void work_init_6(void) { { ldv_work_6_0 = 0; ldv_work_6_1 = 0; ldv_work_6_2 = 0; ldv_work_6_3 = 0; return; } } void disable_work_6(struct work_struct *work ) { { if ((ldv_work_6_0 == 3 || ldv_work_6_0 == 2) && (unsigned long )ldv_work_struct_6_0 == (unsigned long )work) { ldv_work_6_0 = 1; } else { } if ((ldv_work_6_1 == 3 || ldv_work_6_1 == 2) && (unsigned long )ldv_work_struct_6_1 == (unsigned long )work) { ldv_work_6_1 = 1; } else { } if ((ldv_work_6_2 == 3 || ldv_work_6_2 == 2) && (unsigned long )ldv_work_struct_6_2 == (unsigned long )work) { ldv_work_6_2 = 1; } else { } if ((ldv_work_6_3 == 3 || ldv_work_6_3 == 2) && (unsigned long )ldv_work_struct_6_3 == (unsigned long )work) { ldv_work_6_3 = 1; } else { } return; } } void choose_interrupt_1(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ldv_irq_1_0 = ldv_irq_1(ldv_irq_1_0, ldv_irq_line_1_0, ldv_irq_data_1_0); goto ldv_62373; case 1: ldv_irq_1_0 = ldv_irq_1(ldv_irq_1_1, ldv_irq_line_1_1, ldv_irq_data_1_1); goto ldv_62373; case 2: ldv_irq_1_0 = ldv_irq_1(ldv_irq_1_2, ldv_irq_line_1_2, ldv_irq_data_1_2); goto ldv_62373; case 3: ldv_irq_1_0 = ldv_irq_1(ldv_irq_1_3, ldv_irq_line_1_3, ldv_irq_data_1_3); goto ldv_62373; default: ldv_stop(); } ldv_62373: ; return; } } void invoke_work_5(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_5_0 == 2 || ldv_work_5_0 == 3) { ldv_work_5_0 = 4; ipw2100_hang_check(ldv_work_struct_5_0); ldv_work_5_0 = 1; } else { } goto ldv_62384; case 1: ; if (ldv_work_5_1 == 2 || ldv_work_5_1 == 3) { ldv_work_5_1 = 4; ipw2100_hang_check(ldv_work_struct_5_0); ldv_work_5_1 = 1; } else { } goto ldv_62384; case 2: ; if (ldv_work_5_2 == 2 || ldv_work_5_2 == 3) { ldv_work_5_2 = 4; ipw2100_hang_check(ldv_work_struct_5_0); ldv_work_5_2 = 1; } else { } goto ldv_62384; case 3: ; if (ldv_work_5_3 == 2 || ldv_work_5_3 == 3) { ldv_work_5_3 = 4; ipw2100_hang_check(ldv_work_struct_5_0); ldv_work_5_3 = 1; } else { } goto ldv_62384; default: ldv_stop(); } ldv_62384: ; return; } } void activate_work_7(struct work_struct *work , int state ) { { if (ldv_work_7_0 == 0) { ldv_work_struct_7_0 = work; ldv_work_7_0 = state; return; } else { } if (ldv_work_7_1 == 0) { ldv_work_struct_7_1 = work; ldv_work_7_1 = state; return; } else { } if (ldv_work_7_2 == 0) { ldv_work_struct_7_2 = work; ldv_work_7_2 = state; return; } else { } if (ldv_work_7_3 == 0) { ldv_work_struct_7_3 = work; ldv_work_7_3 = state; return; } else { } return; } } void ldv_net_device_ops_10(void) { void *tmp ; { tmp = ldv_init_zalloc(3008UL); ipw2100_netdev_ops_group1 = (struct net_device *)tmp; return; } } void disable_work_2(struct work_struct *work ) { { if ((ldv_work_2_0 == 3 || ldv_work_2_0 == 2) && (unsigned long )ldv_work_struct_2_0 == (unsigned long )work) { ldv_work_2_0 = 1; } else { } if ((ldv_work_2_1 == 3 || ldv_work_2_1 == 2) && (unsigned long )ldv_work_struct_2_1 == (unsigned long )work) { ldv_work_2_1 = 1; } else { } if ((ldv_work_2_2 == 3 || ldv_work_2_2 == 2) && (unsigned long )ldv_work_struct_2_2 == (unsigned long )work) { ldv_work_2_2 = 1; } else { } if ((ldv_work_2_3 == 3 || ldv_work_2_3 == 2) && (unsigned long )ldv_work_struct_2_3 == (unsigned long )work) { ldv_work_2_3 = 1; } else { } return; } } void disable_work_4(struct work_struct *work ) { { if ((ldv_work_4_0 == 3 || ldv_work_4_0 == 2) && (unsigned long )ldv_work_struct_4_0 == (unsigned long )work) { ldv_work_4_0 = 1; } else { } if ((ldv_work_4_1 == 3 || ldv_work_4_1 == 2) && (unsigned long )ldv_work_struct_4_1 == (unsigned long )work) { ldv_work_4_1 = 1; } else { } if ((ldv_work_4_2 == 3 || ldv_work_4_2 == 2) && (unsigned long )ldv_work_struct_4_2 == (unsigned long )work) { ldv_work_4_2 = 1; } else { } if ((ldv_work_4_3 == 3 || ldv_work_4_3 == 2) && (unsigned long )ldv_work_struct_4_3 == (unsigned long )work) { ldv_work_4_3 = 1; } else { } return; } } void work_init_4(void) { { ldv_work_4_0 = 0; ldv_work_4_1 = 0; ldv_work_4_2 = 0; ldv_work_4_3 = 0; return; } } void ldv_pci_driver_9(void) { void *tmp ; { tmp = ldv_init_zalloc(2976UL); ipw2100_pci_driver_group1 = (struct pci_dev *)tmp; return; } } void invoke_work_3(void) { int tmp ; { tmp = __VERIFIER_nondet_int(); switch (tmp) { case 0: ; if (ldv_work_3_0 == 2 || ldv_work_3_0 == 3) { ldv_work_3_0 = 4; ipw2100_security_work(ldv_work_struct_3_0); ldv_work_3_0 = 1; } else { } goto ldv_62414; case 1: ; if (ldv_work_3_1 == 2 || ldv_work_3_1 == 3) { ldv_work_3_1 = 4; ipw2100_security_work(ldv_work_struct_3_0); ldv_work_3_1 = 1; } else { } goto ldv_62414; case 2: ; if (ldv_work_3_2 == 2 || ldv_work_3_2 == 3) { ldv_work_3_2 = 4; ipw2100_security_work(ldv_work_struct_3_0); ldv_work_3_2 = 1; } else { } goto ldv_62414; case 3: ; if (ldv_work_3_3 == 2 || ldv_work_3_3 == 3) { ldv_work_3_3 = 4; ipw2100_security_work(ldv_work_struct_3_0); ldv_work_3_3 = 1; } else { } goto ldv_62414; default: ldv_stop(); } ldv_62414: ; return; } } int ldv_irq_1(int state , int line , void *data ) { irqreturn_t irq_retval ; int tmp ; int tmp___0 ; { tmp = __VERIFIER_nondet_int(); irq_retval = (irqreturn_t )tmp; if (state != 0) { tmp___0 = __VERIFIER_nondet_int(); switch (tmp___0) { case 0: ; if (state == 1) { LDV_IN_INTERRUPT = 2; irq_retval = ipw2100_interrupt(line, data); LDV_IN_INTERRUPT = 1; return (state); } else { } goto ldv_62426; default: ldv_stop(); } ldv_62426: ; } else { } return (state); } } void call_and_disable_all_3(int state ) { { if (ldv_work_3_0 == state) { call_and_disable_work_3(ldv_work_struct_3_0); } else { } if (ldv_work_3_1 == state) { call_and_disable_work_3(ldv_work_struct_3_1); } else { } if (ldv_work_3_2 == state) { call_and_disable_work_3(ldv_work_struct_3_2); } else { } if (ldv_work_3_3 == state) { call_and_disable_work_3(ldv_work_struct_3_3); } else { } return; } } void call_and_disable_work_6(struct work_struct *work ) { { if ((ldv_work_6_0 == 2 || ldv_work_6_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_6_0) { ipw2100_rf_kill(work); ldv_work_6_0 = 1; return; } else { } if ((ldv_work_6_1 == 2 || ldv_work_6_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_6_1) { ipw2100_rf_kill(work); ldv_work_6_1 = 1; return; } else { } if ((ldv_work_6_2 == 2 || ldv_work_6_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_6_2) { ipw2100_rf_kill(work); ldv_work_6_2 = 1; return; } else { } if ((ldv_work_6_3 == 2 || ldv_work_6_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_6_3) { ipw2100_rf_kill(work); ldv_work_6_3 = 1; return; } else { } return; } } void call_and_disable_work_4(struct work_struct *work ) { { if ((ldv_work_4_0 == 2 || ldv_work_4_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_4_0) { ipw2100_wx_event_work(work); ldv_work_4_0 = 1; return; } else { } if ((ldv_work_4_1 == 2 || ldv_work_4_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_4_1) { ipw2100_wx_event_work(work); ldv_work_4_1 = 1; return; } else { } if ((ldv_work_4_2 == 2 || ldv_work_4_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_4_2) { ipw2100_wx_event_work(work); ldv_work_4_2 = 1; return; } else { } if ((ldv_work_4_3 == 2 || ldv_work_4_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_4_3) { ipw2100_wx_event_work(work); ldv_work_4_3 = 1; return; } else { } return; } } void call_and_disable_work_2(struct work_struct *work ) { { if ((ldv_work_2_0 == 2 || ldv_work_2_0 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_2_0) { ipw2100_reset_adapter(work); ldv_work_2_0 = 1; return; } else { } if ((ldv_work_2_1 == 2 || ldv_work_2_1 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_2_1) { ipw2100_reset_adapter(work); ldv_work_2_1 = 1; return; } else { } if ((ldv_work_2_2 == 2 || ldv_work_2_2 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_2_2) { ipw2100_reset_adapter(work); ldv_work_2_2 = 1; return; } else { } if ((ldv_work_2_3 == 2 || ldv_work_2_3 == 3) && (unsigned long )work == (unsigned long )ldv_work_struct_2_3) { ipw2100_reset_adapter(work); ldv_work_2_3 = 1; return; } else { } return; } } int main(void) { struct ethtool_drvinfo *ldvarg0 ; void *tmp ; struct device *ldvarg1 ; void *tmp___0 ; struct device_attribute *ldvarg3 ; void *tmp___1 ; char *ldvarg2 ; void *tmp___2 ; struct device *ldvarg4 ; void *tmp___3 ; char *ldvarg5 ; void *tmp___4 ; struct device_attribute *ldvarg6 ; void *tmp___5 ; char *ldvarg8 ; void *tmp___6 ; struct device *ldvarg7 ; void *tmp___7 ; struct device_attribute *ldvarg9 ; void *tmp___8 ; char *ldvarg11 ; void *tmp___9 ; struct device *ldvarg10 ; void *tmp___10 ; struct device_attribute *ldvarg12 ; void *tmp___11 ; char *ldvarg14 ; void *tmp___12 ; struct device *ldvarg13 ; void *tmp___13 ; struct device_attribute *ldvarg15 ; void *tmp___14 ; struct device_attribute *ldvarg18 ; void *tmp___15 ; char *ldvarg17 ; void *tmp___16 ; struct device *ldvarg16 ; void *tmp___17 ; struct device_attribute *ldvarg21 ; void *tmp___18 ; char *ldvarg20 ; void *tmp___19 ; struct device *ldvarg19 ; void *tmp___20 ; char *ldvarg24 ; void *tmp___21 ; size_t ldvarg23 ; char *ldvarg22 ; void *tmp___22 ; struct device_attribute *ldvarg27 ; void *tmp___23 ; char *ldvarg26 ; void *tmp___24 ; struct device *ldvarg25 ; void *tmp___25 ; struct pci_device_id *ldvarg29 ; void *tmp___26 ; pm_message_t ldvarg28 ; char *ldvarg32 ; void *tmp___27 ; size_t ldvarg31 ; char *ldvarg30 ; void *tmp___28 ; char *ldvarg35 ; void *tmp___29 ; size_t ldvarg34 ; char *ldvarg33 ; void *tmp___30 ; size_t ldvarg37 ; char *ldvarg36 ; void *tmp___31 ; char *ldvarg38 ; void *tmp___32 ; char *ldvarg39 ; void *tmp___33 ; char *ldvarg41 ; void *tmp___34 ; size_t ldvarg40 ; struct net_device *ldvarg42 ; void *tmp___35 ; struct device_attribute *ldvarg45 ; void *tmp___36 ; struct device *ldvarg43 ; void *tmp___37 ; char *ldvarg44 ; void *tmp___38 ; struct device_attribute *ldvarg48 ; void *tmp___39 ; char *ldvarg47 ; void *tmp___40 ; struct device *ldvarg46 ; void *tmp___41 ; int ldvarg51 ; void *ldvarg49 ; void *tmp___42 ; struct sk_buff *ldvarg50 ; void *tmp___43 ; int tmp___44 ; int tmp___45 ; int tmp___46 ; int tmp___47 ; int tmp___48 ; int tmp___49 ; int tmp___50 ; int tmp___51 ; int tmp___52 ; int tmp___53 ; int tmp___54 ; int tmp___55 ; int tmp___56 ; int tmp___57 ; int tmp___58 ; int tmp___59 ; int tmp___60 ; int tmp___61 ; int tmp___62 ; int tmp___63 ; int tmp___64 ; { tmp = ldv_init_zalloc(196UL); ldvarg0 = (struct ethtool_drvinfo *)tmp; tmp___0 = ldv_init_zalloc(1416UL); ldvarg1 = (struct device *)tmp___0; tmp___1 = ldv_init_zalloc(48UL); ldvarg3 = (struct device_attribute *)tmp___1; tmp___2 = ldv_init_zalloc(1UL); ldvarg2 = (char *)tmp___2; tmp___3 = ldv_init_zalloc(1416UL); ldvarg4 = (struct device *)tmp___3; tmp___4 = ldv_init_zalloc(1UL); ldvarg5 = (char *)tmp___4; tmp___5 = ldv_init_zalloc(48UL); ldvarg6 = (struct device_attribute *)tmp___5; tmp___6 = ldv_init_zalloc(1UL); ldvarg8 = (char *)tmp___6; tmp___7 = ldv_init_zalloc(1416UL); ldvarg7 = (struct device *)tmp___7; tmp___8 = ldv_init_zalloc(48UL); ldvarg9 = (struct device_attribute *)tmp___8; tmp___9 = ldv_init_zalloc(1UL); ldvarg11 = (char *)tmp___9; tmp___10 = ldv_init_zalloc(1416UL); ldvarg10 = (struct device *)tmp___10; tmp___11 = ldv_init_zalloc(48UL); ldvarg12 = (struct device_attribute *)tmp___11; tmp___12 = ldv_init_zalloc(1UL); ldvarg14 = (char *)tmp___12; tmp___13 = ldv_init_zalloc(1416UL); ldvarg13 = (struct device *)tmp___13; tmp___14 = ldv_init_zalloc(48UL); ldvarg15 = (struct device_attribute *)tmp___14; tmp___15 = ldv_init_zalloc(48UL); ldvarg18 = (struct device_attribute *)tmp___15; tmp___16 = ldv_init_zalloc(1UL); ldvarg17 = (char *)tmp___16; tmp___17 = ldv_init_zalloc(1416UL); ldvarg16 = (struct device *)tmp___17; tmp___18 = ldv_init_zalloc(48UL); ldvarg21 = (struct device_attribute *)tmp___18; tmp___19 = ldv_init_zalloc(1UL); ldvarg20 = (char *)tmp___19; tmp___20 = ldv_init_zalloc(1416UL); ldvarg19 = (struct device *)tmp___20; tmp___21 = ldv_init_zalloc(1UL); ldvarg24 = (char *)tmp___21; tmp___22 = ldv_init_zalloc(1UL); ldvarg22 = (char *)tmp___22; tmp___23 = ldv_init_zalloc(48UL); ldvarg27 = (struct device_attribute *)tmp___23; tmp___24 = ldv_init_zalloc(1UL); ldvarg26 = (char *)tmp___24; tmp___25 = ldv_init_zalloc(1416UL); ldvarg25 = (struct device *)tmp___25; tmp___26 = ldv_init_zalloc(32UL); ldvarg29 = (struct pci_device_id *)tmp___26; tmp___27 = ldv_init_zalloc(1UL); ldvarg32 = (char *)tmp___27; tmp___28 = ldv_init_zalloc(1UL); ldvarg30 = (char *)tmp___28; tmp___29 = ldv_init_zalloc(1UL); ldvarg35 = (char *)tmp___29; tmp___30 = ldv_init_zalloc(1UL); ldvarg33 = (char *)tmp___30; tmp___31 = ldv_init_zalloc(1UL); ldvarg36 = (char *)tmp___31; tmp___32 = ldv_init_zalloc(1UL); ldvarg38 = (char *)tmp___32; tmp___33 = ldv_init_zalloc(1UL); ldvarg39 = (char *)tmp___33; tmp___34 = ldv_init_zalloc(1UL); ldvarg41 = (char *)tmp___34; tmp___35 = ldv_init_zalloc(3008UL); ldvarg42 = (struct net_device *)tmp___35; tmp___36 = ldv_init_zalloc(48UL); ldvarg45 = (struct device_attribute *)tmp___36; tmp___37 = ldv_init_zalloc(1416UL); ldvarg43 = (struct device *)tmp___37; tmp___38 = ldv_init_zalloc(1UL); ldvarg44 = (char *)tmp___38; tmp___39 = ldv_init_zalloc(48UL); ldvarg48 = (struct device_attribute *)tmp___39; tmp___40 = ldv_init_zalloc(1UL); ldvarg47 = (char *)tmp___40; tmp___41 = ldv_init_zalloc(1416UL); ldvarg46 = (struct device *)tmp___41; tmp___42 = ldv_init_zalloc(1UL); ldvarg49 = tmp___42; tmp___43 = ldv_init_zalloc(232UL); ldvarg50 = (struct sk_buff *)tmp___43; ldv_initialize(); ldv_memset((void *)(& ldvarg23), 0, 8UL); ldv_memset((void *)(& ldvarg28), 0, 4UL); ldv_memset((void *)(& ldvarg31), 0, 8UL); ldv_memset((void *)(& ldvarg34), 0, 8UL); ldv_memset((void *)(& ldvarg37), 0, 8UL); ldv_memset((void *)(& ldvarg40), 0, 8UL); ldv_memset((void *)(& ldvarg51), 0, 4UL); ldv_state_variable_11 = 0; ldv_state_variable_21 = 0; work_init_7(); ldv_state_variable_7 = 1; ldv_state_variable_26 = 0; ldv_state_variable_17 = 0; work_init_2(); ldv_state_variable_2 = 1; ldv_state_variable_22 = 0; ldv_state_variable_1 = 1; ldv_state_variable_18 = 0; ref_cnt = 0; ldv_state_variable_0 = 1; ldv_state_variable_23 = 0; ldv_state_variable_16 = 0; ldv_state_variable_13 = 0; ldv_state_variable_25 = 0; work_init_6(); ldv_state_variable_6 = 1; work_init_3(); ldv_state_variable_3 = 1; ldv_state_variable_9 = 0; ldv_state_variable_12 = 0; ldv_state_variable_20 = 0; ldv_state_variable_14 = 0; ldv_state_variable_15 = 0; ldv_state_variable_8 = 0; work_init_4(); ldv_state_variable_4 = 1; ldv_state_variable_24 = 0; ldv_state_variable_19 = 0; ldv_state_variable_10 = 0; work_init_5(); ldv_state_variable_5 = 1; ldv_62654: tmp___44 = __VERIFIER_nondet_int(); switch (tmp___44) { case 0: ; if (ldv_state_variable_11 != 0) { tmp___45 = __VERIFIER_nondet_int(); switch (tmp___45) { case 0: ; if (ldv_state_variable_11 == 1) { ipw_ethtool_get_drvinfo(ipw2100_ethtool_ops_group0, ldvarg0); ldv_state_variable_11 = 1; } else { } goto ldv_62545; case 1: ; if (ldv_state_variable_11 == 1) { ipw2100_ethtool_get_link(ipw2100_ethtool_ops_group0); ldv_state_variable_11 = 1; } else { } goto ldv_62545; default: ldv_stop(); } ldv_62545: ; } else { } goto ldv_62548; case 1: ; if (ldv_state_variable_21 != 0) { tmp___46 = __VERIFIER_nondet_int(); switch (tmp___46) { case 0: ; if (ldv_state_variable_21 == 1) { show_hardware(ldvarg1, ldvarg3, ldvarg2); ldv_state_variable_21 = 1; } else { } goto ldv_62551; default: ldv_stop(); } ldv_62551: ; } else { } goto ldv_62548; case 2: ; if (ldv_state_variable_7 != 0) { invoke_work_7(); } else { } goto ldv_62548; case 3: ; if (ldv_state_variable_26 != 0) { tmp___47 = __VERIFIER_nondet_int(); switch (tmp___47) { case 0: ; if (ldv_state_variable_26 == 1) { show_pci(ldvarg4, ldvarg6, ldvarg5); ldv_state_variable_26 = 1; } else { } goto ldv_62556; default: ldv_stop(); } ldv_62556: ; } else { } goto ldv_62548; case 4: ; if (ldv_state_variable_17 != 0) { tmp___48 = __VERIFIER_nondet_int(); switch (tmp___48) { case 0: ; if (ldv_state_variable_17 == 1) { show_internals(ldvarg7, ldvarg9, ldvarg8); ldv_state_variable_17 = 1; } else { } goto ldv_62560; default: ldv_stop(); } ldv_62560: ; } else { } goto ldv_62548; case 5: ; if (ldv_state_variable_2 != 0) { invoke_work_2(); } else { } goto ldv_62548; case 6: ; if (ldv_state_variable_22 != 0) { tmp___49 = __VERIFIER_nondet_int(); switch (tmp___49) { case 0: ; if (ldv_state_variable_22 == 1) { show_registers(ldvarg10, ldvarg12, ldvarg11); ldv_state_variable_22 = 1; } else { } goto ldv_62565; default: ldv_stop(); } ldv_62565: ; } else { } goto ldv_62548; case 7: ; if (ldv_state_variable_1 != 0) { choose_interrupt_1(); } else { } goto ldv_62548; case 8: ; if (ldv_state_variable_18 != 0) { tmp___50 = __VERIFIER_nondet_int(); switch (tmp___50) { case 0: ; if (ldv_state_variable_18 == 1) { show_stats(ldvarg13, ldvarg15, ldvarg14); ldv_state_variable_18 = 1; } else { } goto ldv_62570; default: ldv_stop(); } ldv_62570: ; } else { } goto ldv_62548; case 9: ; if (ldv_state_variable_0 != 0) { tmp___51 = __VERIFIER_nondet_int(); switch (tmp___51) { case 0: ; if (ldv_state_variable_0 == 3 && ref_cnt == 0) { ipw2100_exit(); ldv_state_variable_0 = 2; goto ldv_final; } else { } goto ldv_62575; case 1: ; if (ldv_state_variable_0 == 1) { ldv_retval_0 = ipw2100_init(); if (ldv_retval_0 == 0) { ldv_state_variable_0 = 3; ldv_state_variable_19 = 1; ldv_state_variable_24 = 1; ldv_state_variable_8 = 1; ldv_state_variable_20 = 1; ldv_initialize_device_attribute_20(); ldv_state_variable_15 = 1; ldv_initialize_driver_attribute_15(); ldv_state_variable_14 = 1; ldv_initialize_device_attribute_14(); ldv_state_variable_12 = 1; ldv_initialize_device_attribute_12(); ldv_state_variable_25 = 1; ldv_state_variable_16 = 1; ldv_state_variable_13 = 1; ldv_initialize_device_attribute_13(); ldv_state_variable_23 = 1; ldv_state_variable_18 = 1; ldv_state_variable_22 = 1; ldv_state_variable_17 = 1; ldv_state_variable_26 = 1; ldv_state_variable_21 = 1; ldv_state_variable_11 = 1; ldv_initialize_ethtool_ops_11(); } else { } if (ldv_retval_0 != 0) { ldv_state_variable_0 = 2; goto ldv_final; } else { } } else { } goto ldv_62575; default: ldv_stop(); } ldv_62575: ; } else { } goto ldv_62548; case 10: ; if (ldv_state_variable_23 != 0) { tmp___52 = __VERIFIER_nondet_int(); switch (tmp___52) { case 0: ; if (ldv_state_variable_23 == 1) { show_capability(ldvarg16, ldvarg18, ldvarg17); ldv_state_variable_23 = 1; } else { } goto ldv_62580; default: ldv_stop(); } ldv_62580: ; } else { } goto ldv_62548; case 11: ; if (ldv_state_variable_16 != 0) { tmp___53 = __VERIFIER_nondet_int(); switch (tmp___53) { case 0: ; if (ldv_state_variable_16 == 1) { show_bssinfo(ldvarg19, ldvarg21, ldvarg20); ldv_state_variable_16 = 1; } else { } goto ldv_62584; default: ldv_stop(); } ldv_62584: ; } else { } goto ldv_62548; case 12: ; if (ldv_state_variable_13 != 0) { tmp___54 = __VERIFIER_nondet_int(); switch (tmp___54) { case 0: ; if (ldv_state_variable_13 == 1) { store_scan_age(dev_attr_scan_age_group1, dev_attr_scan_age_group0, (char const *)ldvarg24, ldvarg23); ldv_state_variable_13 = 1; } else { } goto ldv_62588; case 1: ; if (ldv_state_variable_13 == 1) { show_scan_age(dev_attr_scan_age_group1, dev_attr_scan_age_group0, ldvarg22); ldv_state_variable_13 = 1; } else { } goto ldv_62588; default: ldv_stop(); } ldv_62588: ; } else { } goto ldv_62548; case 13: ; if (ldv_state_variable_25 != 0) { tmp___55 = __VERIFIER_nondet_int(); switch (tmp___55) { case 0: ; if (ldv_state_variable_25 == 1) { show_cfg(ldvarg25, ldvarg27, ldvarg26); ldv_state_variable_25 = 1; } else { } goto ldv_62593; default: ldv_stop(); } ldv_62593: ; } else { } goto ldv_62548; case 14: ; if (ldv_state_variable_6 != 0) { invoke_work_6(); } else { } goto ldv_62548; case 15: ; if (ldv_state_variable_3 != 0) { invoke_work_3(); } else { } goto ldv_62548; case 16: ; if (ldv_state_variable_9 != 0) { tmp___56 = __VERIFIER_nondet_int(); switch (tmp___56) { case 0: ; if (ldv_state_variable_9 == 1) { ldv_retval_5 = ipw2100_pci_init_one(ipw2100_pci_driver_group1, (struct pci_device_id const *)ldvarg29); if (ldv_retval_5 == 0) { ldv_state_variable_9 = 2; ref_cnt = ref_cnt + 1; } else { } } else { } goto ldv_62599; case 1: ; if (ldv_state_variable_9 == 4) { ipw2100_shutdown(ipw2100_pci_driver_group1); ldv_state_variable_9 = 4; } else { } if (ldv_state_variable_9 == 3) { ipw2100_shutdown(ipw2100_pci_driver_group1); ldv_state_variable_9 = 3; } else { } if (ldv_state_variable_9 == 2) { ipw2100_shutdown(ipw2100_pci_driver_group1); ldv_state_variable_9 = 2; } else { } if (ldv_state_variable_9 == 5) { ipw2100_shutdown(ipw2100_pci_driver_group1); ldv_state_variable_9 = 5; } else { } goto ldv_62599; case 2: ; if (ldv_state_variable_9 == 2 && pci_counter == 0) { ldv_retval_4 = ipw2100_suspend(ipw2100_pci_driver_group1, ldvarg28); if (ldv_retval_4 == 0) { ldv_state_variable_9 = 3; } else { } } else { } goto ldv_62599; case 3: ; if (ldv_state_variable_9 == 4) { ipw2100_pci_remove_one(ipw2100_pci_driver_group1); ldv_state_variable_9 = 1; } else { } if (ldv_state_variable_9 == 3) { ipw2100_pci_remove_one(ipw2100_pci_driver_group1); ldv_state_variable_9 = 1; } else { } if (ldv_state_variable_9 == 2) { ipw2100_pci_remove_one(ipw2100_pci_driver_group1); ldv_state_variable_9 = 1; } else { } if (ldv_state_variable_9 == 5) { ipw2100_pci_remove_one(ipw2100_pci_driver_group1); ldv_state_variable_9 = 1; } else { } goto ldv_62599; case 4: ; if (ldv_state_variable_9 == 4) { ldv_retval_3 = ipw2100_resume(ipw2100_pci_driver_group1); if (ldv_retval_3 == 0) { ldv_state_variable_9 = 2; } else { } } else { } if (ldv_state_variable_9 == 3) { ldv_retval_3 = ipw2100_resume(ipw2100_pci_driver_group1); if (ldv_retval_3 == 0) { ldv_state_variable_9 = 2; } else { } } else { } if (ldv_state_variable_9 == 5) { ldv_retval_3 = ipw2100_resume(ipw2100_pci_driver_group1); if (ldv_retval_3 == 0) { ldv_state_variable_9 = 2; } else { } } else { } goto ldv_62599; case 5: ; if (ldv_state_variable_9 == 3) { ldv_retval_2 = ldv_suspend_late_9(); if (ldv_retval_2 == 0) { ldv_state_variable_9 = 4; } else { } } else { } goto ldv_62599; case 6: ; if (ldv_state_variable_9 == 4) { ldv_retval_1 = ldv_resume_early_9(); if (ldv_retval_1 == 0) { ldv_state_variable_9 = 5; } else { } } else { } if (ldv_state_variable_9 == 3) { ldv_retval_1 = ldv_resume_early_9(); if (ldv_retval_1 == 0) { ldv_state_variable_9 = 5; } else { } } else { } goto ldv_62599; default: ldv_stop(); } ldv_62599: ; } else { } goto ldv_62548; case 17: ; if (ldv_state_variable_12 != 0) { tmp___57 = __VERIFIER_nondet_int(); switch (tmp___57) { case 0: ; if (ldv_state_variable_12 == 1) { store_rf_kill(dev_attr_rf_kill_group1, dev_attr_rf_kill_group0, (char const *)ldvarg32, ldvarg31); ldv_state_variable_12 = 1; } else { } goto ldv_62609; case 1: ; if (ldv_state_variable_12 == 1) { show_rf_kill(dev_attr_rf_kill_group1, dev_attr_rf_kill_group0, ldvarg30); ldv_state_variable_12 = 1; } else { } goto ldv_62609; default: ldv_stop(); } ldv_62609: ; } else { } goto ldv_62548; case 18: ; if (ldv_state_variable_20 != 0) { tmp___58 = __VERIFIER_nondet_int(); switch (tmp___58) { case 0: ; if (ldv_state_variable_20 == 1) { store_memory(dev_attr_memory_group1, dev_attr_memory_group0, (char const *)ldvarg35, ldvarg34); ldv_state_variable_20 = 1; } else { } goto ldv_62614; case 1: ; if (ldv_state_variable_20 == 1) { show_memory(dev_attr_memory_group1, dev_attr_memory_group0, ldvarg33); ldv_state_variable_20 = 1; } else { } goto ldv_62614; default: ldv_stop(); } ldv_62614: ; } else { } goto ldv_62548; case 19: ; if (ldv_state_variable_14 != 0) { tmp___59 = __VERIFIER_nondet_int(); switch (tmp___59) { case 0: ; if (ldv_state_variable_14 == 1) { store_fatal_error(dev_attr_fatal_error_group1, dev_attr_fatal_error_group0, (char const *)ldvarg38, ldvarg37); ldv_state_variable_14 = 1; } else { } goto ldv_62619; case 1: ; if (ldv_state_variable_14 == 1) { show_fatal_error(dev_attr_fatal_error_group1, dev_attr_fatal_error_group0, ldvarg36); ldv_state_variable_14 = 1; } else { } goto ldv_62619; default: ldv_stop(); } ldv_62619: ; } else { } goto ldv_62548; case 20: ; if (ldv_state_variable_15 != 0) { tmp___60 = __VERIFIER_nondet_int(); switch (tmp___60) { case 0: ; if (ldv_state_variable_15 == 1) { store_debug_level(driver_attr_debug_level_group0, (char const *)ldvarg41, ldvarg40); ldv_state_variable_15 = 1; } else { } goto ldv_62624; case 1: ; if (ldv_state_variable_15 == 1) { show_debug_level(driver_attr_debug_level_group0, ldvarg39); ldv_state_variable_15 = 1; } else { } goto ldv_62624; default: ldv_stop(); } ldv_62624: ; } else { } goto ldv_62548; case 21: ; if (ldv_state_variable_8 != 0) { tmp___61 = __VERIFIER_nondet_int(); switch (tmp___61) { case 0: ; if (ldv_state_variable_8 == 1) { ipw2100_wx_wireless_stats(ldvarg42); ldv_state_variable_8 = 1; } else { } goto ldv_62629; default: ldv_stop(); } ldv_62629: ; } else { } goto ldv_62548; case 22: ; if (ldv_state_variable_4 != 0) { invoke_work_4(); } else { } goto ldv_62548; case 23: ; if (ldv_state_variable_24 != 0) { tmp___62 = __VERIFIER_nondet_int(); switch (tmp___62) { case 0: ; if (ldv_state_variable_24 == 1) { show_status(ldvarg43, ldvarg45, ldvarg44); ldv_state_variable_24 = 1; } else { } goto ldv_62634; default: ldv_stop(); } ldv_62634: ; } else { } goto ldv_62548; case 24: ; if (ldv_state_variable_19 != 0) { tmp___63 = __VERIFIER_nondet_int(); switch (tmp___63) { case 0: ; if (ldv_state_variable_19 == 1) { show_ordinals(ldvarg46, ldvarg48, ldvarg47); ldv_state_variable_19 = 1; } else { } goto ldv_62638; default: ldv_stop(); } ldv_62638: ; } else { } goto ldv_62548; case 25: ; if (ldv_state_variable_10 != 0) { tmp___64 = __VERIFIER_nondet_int(); switch (tmp___64) { case 0: ; if (ldv_state_variable_10 == 1) { eth_validate_addr(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 1; } else { } if (ldv_state_variable_10 == 3) { eth_validate_addr(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 3; } else { } if (ldv_state_variable_10 == 2) { eth_validate_addr(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 2; } else { } goto ldv_62642; case 1: ; if (ldv_state_variable_10 == 3) { ipw2100_close(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 2; } else { } goto ldv_62642; case 2: ; if (ldv_state_variable_10 == 3) { libipw_change_mtu(ipw2100_netdev_ops_group1, ldvarg51); ldv_state_variable_10 = 3; } else { } if (ldv_state_variable_10 == 2) { libipw_change_mtu(ipw2100_netdev_ops_group1, ldvarg51); ldv_state_variable_10 = 2; } else { } goto ldv_62642; case 3: ; if (ldv_state_variable_10 == 2) { ldv_retval_7 = ipw2100_open(ipw2100_netdev_ops_group1); if (ldv_retval_7 == 0) { ldv_state_variable_10 = 3; } else { } } else { } goto ldv_62642; case 4: ; if (ldv_state_variable_10 == 3) { libipw_xmit(ldvarg50, ipw2100_netdev_ops_group1); ldv_state_variable_10 = 3; } else { } goto ldv_62642; case 5: ; if (ldv_state_variable_10 == 1) { ipw2100_set_address(ipw2100_netdev_ops_group1, ldvarg49); ldv_state_variable_10 = 1; } else { } if (ldv_state_variable_10 == 3) { ipw2100_set_address(ipw2100_netdev_ops_group1, ldvarg49); ldv_state_variable_10 = 3; } else { } if (ldv_state_variable_10 == 2) { ipw2100_set_address(ipw2100_netdev_ops_group1, ldvarg49); ldv_state_variable_10 = 2; } else { } goto ldv_62642; case 6: ; if (ldv_state_variable_10 == 1) { ipw2100_tx_timeout(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 1; } else { } if (ldv_state_variable_10 == 3) { ipw2100_tx_timeout(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 3; } else { } if (ldv_state_variable_10 == 2) { ipw2100_tx_timeout(ipw2100_netdev_ops_group1); ldv_state_variable_10 = 2; } else { } goto ldv_62642; case 7: ; if (ldv_state_variable_10 == 1) { ldv_retval_6 = ldv_ndo_init_10(); if (ldv_retval_6 == 0) { ldv_state_variable_10 = 2; ref_cnt = ref_cnt + 1; } else { } } else { } goto ldv_62642; case 8: ; if (ldv_state_variable_10 == 2) { ldv_ndo_uninit_10(); ldv_state_variable_10 = 1; ref_cnt = ref_cnt - 1; } else { } goto ldv_62642; default: ldv_stop(); } ldv_62642: ; } else { } goto ldv_62548; case 26: ; if (ldv_state_variable_5 != 0) { invoke_work_5(); } else { } goto ldv_62548; default: ldv_stop(); } ldv_62548: ; goto ldv_62654; ldv_final: ldv_check_final_state(); return 0; } } bool ldv_queue_work_on_5(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct work_struct *ldv_func_arg3 ) { ldv_func_ret_type ldv_func_res ; bool tmp ; { tmp = queue_work_on(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3); ldv_func_res = tmp; activate_work_7(ldv_func_arg3, 2); return (ldv_func_res); } } bool ldv_queue_delayed_work_on_6(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct delayed_work *ldv_func_arg3 , unsigned long ldv_func_arg4 ) { ldv_func_ret_type___0 ldv_func_res ; bool tmp ; { tmp = queue_delayed_work_on(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3, ldv_func_arg4); ldv_func_res = tmp; activate_work_7(& ldv_func_arg3->work, 2); return (ldv_func_res); } } bool ldv_queue_work_on_7(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct work_struct *ldv_func_arg3 ) { ldv_func_ret_type___1 ldv_func_res ; bool tmp ; { tmp = queue_work_on(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3); ldv_func_res = tmp; activate_work_7(ldv_func_arg3, 2); return (ldv_func_res); } } void ldv_flush_workqueue_8(struct workqueue_struct *ldv_func_arg1 ) { { flush_workqueue(ldv_func_arg1); call_and_disable_all_7(2); return; } } bool ldv_queue_delayed_work_on_9(int ldv_func_arg1 , struct workqueue_struct *ldv_func_arg2 , struct delayed_work *ldv_func_arg3 , unsigned long ldv_func_arg4 ) { ldv_func_ret_type___2 ldv_func_res ; bool tmp ; { tmp = queue_delayed_work_on(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3, ldv_func_arg4); ldv_func_res = tmp; activate_work_7(& ldv_func_arg3->work, 2); return (ldv_func_res); } } bool ldv_cancel_delayed_work_10(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___3 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_11(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___4 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_12(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___5 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_13(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___6 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_14(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___7 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_15(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___8 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_16(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___9 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_17(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___10 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_18(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___11 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_19(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___12 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_20(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___13 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } bool ldv_cancel_delayed_work_sync_21(struct delayed_work *ldv_func_arg1 ) { ldv_func_ret_type___14 ldv_func_res ; bool tmp ; { tmp = cancel_delayed_work_sync(ldv_func_arg1); ldv_func_res = tmp; disable_work_7(& ldv_func_arg1->work); return (ldv_func_res); } } __inline static int ldv_request_irq_22(unsigned int irq , irqreturn_t (*handler)(int , void * ) , unsigned long flags , char const *name , void *dev ) { ldv_func_ret_type___15 ldv_func_res ; int tmp ; int tmp___0 ; { tmp = request_irq(irq, handler, flags, name, dev); ldv_func_res = tmp; tmp___0 = reg_check_1(handler); if (tmp___0 != 0 && ldv_func_res == 0) { activate_suitable_irq_1((int )irq, dev); } else { } return (ldv_func_res); } } int ldv_register_netdev_23(struct net_device *dev ) { ldv_func_ret_type___16 ldv_func_res ; int tmp ; { tmp = register_netdev(dev); ldv_func_res = tmp; ldv_state_variable_10 = 1; ldv_net_device_ops_10(); return (ldv_func_res); } } void ldv_unregister_netdev_24(struct net_device *dev ) { { unregister_netdev(dev); ldv_state_variable_10 = 0; return; } } void ldv_free_irq_25(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) { { free_irq(ldv_func_arg1, ldv_func_arg2); disable_suitable_irq_1((int )ldv_func_arg1, ldv_func_arg2); return; } } void ldv_unregister_netdev_26(struct net_device *dev ) { { unregister_netdev(dev); ldv_state_variable_10 = 0; return; } } void ldv_free_irq_27(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) { { free_irq(ldv_func_arg1, ldv_func_arg2); disable_suitable_irq_1((int )ldv_func_arg1, ldv_func_arg2); return; } } int ldv___pci_register_driver_28(struct pci_driver *ldv_func_arg1 , struct module *ldv_func_arg2 , char const *ldv_func_arg3 ) { ldv_func_ret_type___17 ldv_func_res ; int tmp ; { tmp = __pci_register_driver(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3); ldv_func_res = tmp; ldv_state_variable_9 = 1; ldv_pci_driver_9(); return (ldv_func_res); } } void ldv_pci_unregister_driver_29(struct pci_driver *ldv_func_arg1 ) { { pci_unregister_driver(ldv_func_arg1); ldv_state_variable_9 = 0; return; } } extern void *memset(void * , int , size_t ) ; __inline static void ldv_error(void) { { ERROR: ; __VERIFIER_error(); } } bool ldv_is_err(void const *ptr ) { { return ((unsigned long )ptr > 2012UL); } } void *ldv_err_ptr(long error ) { { return ((void *)(2012L - error)); } } long ldv_ptr_err(void const *ptr ) { { return ((long )(2012UL - (unsigned long )ptr)); } } bool ldv_is_err_or_null(void const *ptr ) { bool tmp ; int tmp___0 ; { if ((unsigned long )ptr == (unsigned long )((void const *)0)) { tmp___0 = 1; } else { tmp = ldv_is_err(ptr); if ((int )tmp) { tmp___0 = 1; } else { tmp___0 = 0; } } return ((bool )tmp___0); } } int ldv_module_refcounter = 1; void ldv_module_get(struct module *module ) { { if ((unsigned long )module != (unsigned long )((struct module *)0)) { ldv_module_refcounter = ldv_module_refcounter + 1; } else { } return; } } int ldv_try_module_get(struct module *module ) { int module_get_succeeded ; { if ((unsigned long )module != (unsigned long )((struct module *)0)) { module_get_succeeded = ldv_undef_int(); if (module_get_succeeded == 1) { ldv_module_refcounter = ldv_module_refcounter + 1; return (1); } else { return (0); } } else { } return (0); } } void ldv_module_put(struct module *module ) { { if ((unsigned long )module != (unsigned long )((struct module *)0)) { if (ldv_module_refcounter <= 1) { ldv_error(); } else { } ldv_module_refcounter = ldv_module_refcounter - 1; } else { } return; } } void ldv_module_put_and_exit(void) { { ldv_module_put((struct module *)1); LDV_STOP: ; goto LDV_STOP; } } unsigned int ldv_module_refcount(void) { { return ((unsigned int )(ldv_module_refcounter + -1)); } } void ldv_check_final_state(void) { { if (ldv_module_refcounter != 1) { ldv_error(); } else { } return; } }