extern void __VERIFIER_error() __attribute__ ((__noreturn__)); /* Generated by CIL v. 1.5.1 */ /* print_CIL_Input is false */ typedef signed char __s8; typedef unsigned char __u8; typedef short __s16; typedef unsigned short __u16; typedef int __s32; typedef unsigned int __u32; typedef long long __s64; 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 unsigned short umode_t; typedef unsigned int __kernel_mode_t; typedef int __kernel_pid_t; typedef unsigned int __kernel_uid_t; typedef unsigned int __kernel_gid_t; typedef unsigned long __kernel_size_t; typedef long __kernel_ssize_t; typedef long __kernel_time_t; typedef long __kernel_suseconds_t; typedef long __kernel_clock_t; typedef int __kernel_timer_t; typedef int __kernel_clockid_t; typedef long long __kernel_loff_t; typedef __kernel_uid_t __kernel_uid32_t; typedef __kernel_gid_t __kernel_gid32_t; typedef __u32 __kernel_dev_t; typedef __kernel_dev_t dev_t; typedef __kernel_mode_t mode_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 __s32 int32_t; typedef __u32 uint32_t; typedef unsigned long sector_t; typedef unsigned long blkcnt_t; typedef unsigned int gfp_t; typedef unsigned int fmode_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 module; struct bug_entry { int bug_addr_disp ; int file_disp ; unsigned short line ; unsigned short flags ; }; struct completion; struct pt_regs; struct pid; struct task_struct; struct mm_struct; 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 ; }; typedef void (*ctor_fn_t)(void); 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_8 { struct pt_regs *regs ; struct kernel_vm86_regs *vm86 ; }; struct math_emu_info { long ___orig_eip ; union __anonunion____missing_field_name_8 __annonCompField4 ; }; typedef unsigned long pgdval_t; typedef unsigned long pgprotval_t; struct pgprot { pgprotval_t pgprot ; }; typedef struct pgprot pgprot_t; struct __anonstruct_pgd_t_11 { pgdval_t pgd ; }; typedef struct __anonstruct_pgd_t_11 pgd_t; struct page; typedef struct page *pgtable_t; struct file; struct seq_file; struct __anonstruct____missing_field_name_15 { unsigned int a ; unsigned int b ; }; struct __anonstruct____missing_field_name_16 { 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_14 { struct __anonstruct____missing_field_name_15 __annonCompField6 ; struct __anonstruct____missing_field_name_16 __annonCompField7 ; }; struct desc_struct { union __anonunion____missing_field_name_14 __annonCompField8 ; }; struct thread_struct; struct cpumask; struct arch_spinlock; struct cpumask { unsigned long bits[64U] ; }; typedef struct cpumask cpumask_t; struct exec_domain; struct map_segment; struct exec_domain { char const *name ; void (*handler)(int , struct pt_regs * ) ; unsigned char pers_low ; unsigned char pers_high ; unsigned long *signal_map ; unsigned long *signal_invmap ; struct map_segment *err_map ; struct map_segment *socktype_map ; struct map_segment *sockopt_map ; struct map_segment *af_map ; struct module *module ; struct exec_domain *next ; }; struct i387_fsave_struct { 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_20 { u64 rip ; u64 rdp ; }; struct __anonstruct____missing_field_name_21 { u32 fip ; u32 fcs ; u32 foo ; u32 fos ; }; union __anonunion____missing_field_name_19 { struct __anonstruct____missing_field_name_20 __annonCompField11 ; struct __anonstruct____missing_field_name_21 __annonCompField12 ; }; union __anonunion____missing_field_name_22 { u32 padding1[12U] ; u32 sw_reserved[12U] ; }; struct i387_fxsave_struct { u16 cwd ; u16 swd ; u16 twd ; u16 fop ; union __anonunion____missing_field_name_19 __annonCompField13 ; u32 mxcsr ; u32 mxcsr_mask ; u32 st_space[32U] ; u32 xmm_space[64U] ; u32 padding[12U] ; union __anonunion____missing_field_name_22 __annonCompField14 ; }; struct i387_soft_struct { 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 ymmh_struct { u32 ymmh_space[64U] ; }; struct xsave_hdr_struct { u64 xstate_bv ; u64 reserved1[2U] ; u64 reserved2[5U] ; }; struct xsave_struct { struct i387_fxsave_struct i387 ; struct xsave_hdr_struct xsave_hdr ; struct ymmh_struct ymmh ; }; union thread_xstate { struct i387_fsave_struct fsave ; struct i387_fxsave_struct fxsave ; struct i387_soft_struct soft ; struct xsave_struct xsave ; }; struct fpu { union thread_xstate *state ; }; struct kmem_cache; struct perf_event; struct thread_struct { struct desc_struct tls_array[3U] ; unsigned long sp0 ; unsigned long sp ; unsigned long usersp ; unsigned short es ; unsigned short ds ; unsigned short fsindex ; unsigned short gsindex ; unsigned long fs ; unsigned long gs ; struct perf_event *ptrace_bps[4U] ; unsigned long debugreg6 ; unsigned long ptrace_dr7 ; unsigned long cr2 ; unsigned long trap_no ; unsigned long error_code ; struct fpu fpu ; unsigned long *io_bitmap_ptr ; unsigned long iopl ; unsigned int io_bitmap_max ; }; struct __anonstruct_mm_segment_t_24 { unsigned long seg ; }; typedef struct __anonstruct_mm_segment_t_24 mm_segment_t; struct timespec; struct compat_timespec; struct __anonstruct_futex_26 { u32 *uaddr ; u32 val ; u32 flags ; u32 bitset ; u64 time ; u32 *uaddr2 ; }; struct __anonstruct_nanosleep_27 { clockid_t index ; struct timespec *rmtp ; struct compat_timespec *compat_rmtp ; u64 expires ; }; struct pollfd; struct __anonstruct_poll_28 { struct pollfd *ufds ; int nfds ; int has_timeout ; unsigned long tv_sec ; unsigned long tv_nsec ; }; union __anonunion____missing_field_name_25 { struct __anonstruct_futex_26 futex ; struct __anonstruct_nanosleep_27 nanosleep ; struct __anonstruct_poll_28 poll ; }; struct restart_block { long (*fn)(struct restart_block * ) ; union __anonunion____missing_field_name_25 __annonCompField16 ; }; typedef atomic64_t atomic_long_t; struct thread_info { struct task_struct *task ; struct exec_domain *exec_domain ; __u32 flags ; __u32 status ; __u32 cpu ; int preempt_count ; mm_segment_t addr_limit ; struct restart_block restart_block ; void *sysenter_return ; int uaccess_err ; }; struct arch_spinlock { unsigned int slock ; }; typedef struct arch_spinlock arch_spinlock_t; struct __anonstruct_arch_rwlock_t_29 { unsigned int lock ; }; typedef struct __anonstruct_arch_rwlock_t_29 arch_rwlock_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 : 2 ; unsigned char hardirqs_off : 1 ; unsigned short references : 11 ; }; 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_31 { u8 __padding[1U] ; struct lockdep_map dep_map ; }; union __anonunion____missing_field_name_30 { struct raw_spinlock rlock ; struct __anonstruct____missing_field_name_31 __annonCompField17 ; }; struct spinlock { union __anonunion____missing_field_name_30 __annonCompField18 ; }; typedef struct spinlock spinlock_t; struct __anonstruct_rwlock_t_32 { arch_rwlock_t raw_lock ; unsigned int magic ; unsigned int owner_cpu ; void *owner ; struct lockdep_map dep_map ; }; typedef struct __anonstruct_rwlock_t_32 rwlock_t; struct seqcount { unsigned int sequence ; }; typedef struct seqcount seqcount_t; struct timespec { __kernel_time_t tv_sec ; long tv_nsec ; }; struct timeval { __kernel_time_t tv_sec ; __kernel_suseconds_t tv_usec ; }; struct kstat { u64 ino ; dev_t dev ; umode_t mode ; unsigned int nlink ; uid_t uid ; gid_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 __wait_queue_head { spinlock_t lock ; struct list_head task_list ; }; typedef struct __wait_queue_head wait_queue_head_t; struct __anonstruct_nodemask_t_34 { unsigned long bits[16U] ; }; typedef struct __anonstruct_nodemask_t_34 nodemask_t; struct mutex { atomic_t count ; spinlock_t wait_lock ; struct list_head wait_list ; struct thread_info *owner ; char const *name ; 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 ; spinlock_t wait_lock ; struct list_head wait_list ; struct lockdep_map dep_map ; }; struct device; union ktime { s64 tv64 ; }; typedef union ktime ktime_t; struct tvec_base; struct timer_list { struct list_head entry ; unsigned long expires ; struct tvec_base *base ; void (*function)(unsigned long ) ; unsigned long data ; int slack ; int start_pid ; void *start_site ; char start_comm[16U] ; struct lockdep_map lockdep_map ; }; struct hrtimer; enum hrtimer_restart; 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 completion { unsigned int done ; wait_queue_head_t wait ; }; 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_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 dev_pm_info { pm_message_t power_state ; unsigned char can_wakeup : 1 ; unsigned char async_suspend : 1 ; bool is_prepared ; bool is_suspended ; spinlock_t lock ; struct list_head entry ; struct completion completion ; struct wakeup_source *wakeup ; struct timer_list suspend_timer ; unsigned long timer_expires ; struct work_struct work ; wait_queue_head_t wait_queue ; atomic_t usage_count ; atomic_t child_count ; unsigned char disable_depth : 3 ; unsigned char ignore_children : 1 ; 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 ; 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 dev_power_domain { struct dev_pm_ops ops ; }; struct __anonstruct_mm_context_t_99 { void *ldt ; int size ; struct mutex lock ; void *vdso ; unsigned short ia32_compat ; }; typedef struct __anonstruct_mm_context_t_99 mm_context_t; struct vm_area_struct; struct key; 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; 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 ; void const *(*current_ns)(void) ; void const *(*netlink_ns)(struct sock * ) ; void const *(*initial_ns)(void) ; }; struct attribute { char const *name ; mode_t mode ; struct lock_class_key *key ; struct lock_class_key skey ; }; struct attribute_group { char const *name ; mode_t (*is_visible)(struct kobject * , struct attribute * , int ) ; struct attribute **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 sysfs_dirent; 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 sysfs_dirent *sd ; struct kref kref ; 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 *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 { 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_124 { void *arg ; struct kparam_string const *str ; struct kparam_array const *arr ; }; struct kernel_param { char const *name ; struct kernel_param_ops const *ops ; u16 perm ; u16 flags ; union __anonunion____missing_field_name_124 __annonCompField29 ; }; struct kparam_string { unsigned int maxlen ; char *string ; }; struct kparam_array { unsigned int max ; unsigned int *num ; struct kernel_param_ops const *ops ; unsigned int elemsize ; void *elem ; }; struct rcu_head { struct rcu_head *next ; void (*func)(struct rcu_head * ) ; }; struct tracepoint; struct tracepoint_func { void *func ; void *data ; }; struct tracepoint { char const *name ; int state ; void (*regfunc)(void) ; void (*unregfunc)(void) ; struct tracepoint_func *funcs ; }; struct mod_arch_specific { }; struct kernel_symbol { unsigned long value ; char const *name ; }; struct module_attribute { struct attribute attr ; ssize_t (*show)(struct module_attribute * , struct module * , char * ) ; ssize_t (*store)(struct module_attribute * , struct module * , char const * , size_t ) ; void (*setup)(struct module * , char const * ) ; int (*test)(struct module * ) ; void (*free)(struct module * ) ; }; struct module_param_attrs; struct module_kobject { struct kobject kobj ; struct module *mod ; struct kobject *drivers_dir ; struct module_param_attrs *mp ; }; struct exception_table_entry; enum module_state { MODULE_STATE_LIVE = 0, MODULE_STATE_COMING = 1, MODULE_STATE_GOING = 2 } ; struct module_ref { unsigned int incs ; unsigned int decs ; }; struct module_sect_attrs; struct module_notes_attrs; struct ftrace_event_call; 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 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 ; 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 ; 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 ; void *percpu ; unsigned int percpu_size ; char *args ; struct tracepoint * const *tracepoints_ptrs ; unsigned int num_tracepoints ; char const **trace_bprintk_fmt_start ; unsigned int num_trace_bprintk_fmt ; struct ftrace_event_call **trace_events ; unsigned int num_trace_events ; struct list_head source_list ; struct list_head target_list ; struct task_struct *waiter ; void (*exit)(void) ; struct module_ref *refptr ; ctor_fn_t (**ctors)(void) ; unsigned int num_ctors ; }; struct kmem_cache_cpu { void **freelist ; unsigned long tid ; struct page *page ; int node ; unsigned int stat[19U] ; }; struct kmem_cache_node { spinlock_t list_lock ; unsigned long nr_partial ; struct list_head partial ; atomic_long_t nr_slabs ; atomic_long_t total_objects ; struct list_head full ; }; struct kmem_cache_order_objects { unsigned long x ; }; struct kmem_cache { struct kmem_cache_cpu *cpu_slab ; unsigned long flags ; unsigned long min_partial ; int size ; int objsize ; int offset ; struct kmem_cache_order_objects oo ; struct kmem_cache_order_objects max ; struct kmem_cache_order_objects min ; gfp_t allocflags ; int refcount ; void (*ctor)(void * ) ; int inuse ; int align ; int reserved ; char const *name ; struct list_head list ; struct kobject kobj ; int remote_node_defrag_ratio ; struct kmem_cache_node *node[1024U] ; }; enum irqreturn { IRQ_NONE = 0, IRQ_HANDLED = 1, IRQ_WAKE_THREAD = 2 } ; typedef enum irqreturn irqreturn_t; struct v4l2_frequency; struct v4l2_subdev; struct v4l2_control; struct v4l2_ext_controls; struct v4l2_modulator; struct i2c_client; struct proc_dir_entry; struct irqaction; struct exception_table_entry { unsigned long insn ; unsigned long fixup ; }; 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 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 ; clockid_t index ; struct timerqueue_head active ; ktime_t resolution ; ktime_t (*get_time)(void) ; ktime_t softirq_time ; ktime_t offset ; }; struct hrtimer_cpu_base { raw_spinlock_t lock ; struct hrtimer_clock_base clock_base[3U] ; ktime_t expires_next ; int hres_active ; int hang_detected ; unsigned long nr_events ; unsigned long nr_retries ; unsigned long nr_hangs ; ktime_t max_hang_time ; }; struct irqaction { irqreturn_t (*handler)(int , void * ) ; unsigned long flags ; void *dev_id ; struct irqaction *next ; int irq ; irqreturn_t (*thread_fn)(int , void * ) ; struct task_struct *thread ; unsigned long thread_flags ; unsigned long thread_mask ; char const *name ; struct proc_dir_entry *dir ; }; typedef unsigned long kernel_ulong_t; struct of_device_id { char name[32U] ; char type[32U] ; char compatible[128U] ; void *data ; }; struct i2c_device_id { char name[20U] ; kernel_ulong_t driver_data ; }; struct klist_node; struct klist_node { void *n_klist ; struct list_head n_node ; struct kref n_ref ; }; struct dma_map_ops; struct dev_archdata { void *acpi_handle ; struct dma_map_ops *dma_ops ; void *iommu ; }; struct device_private; struct device_driver; struct driver_private; struct class; struct subsys_private; struct bus_type; struct device_node; struct bus_attribute { struct attribute attr ; ssize_t (*show)(struct bus_type * , char * ) ; ssize_t (*store)(struct bus_type * , char const * , size_t ) ; }; struct device_attribute; struct driver_attribute; struct bus_type { char const *name ; struct bus_attribute *bus_attrs ; struct device_attribute *dev_attrs ; struct driver_attribute *drv_attrs ; 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 (*suspend)(struct device * , pm_message_t ) ; int (*resume)(struct device * ) ; struct dev_pm_ops const *pm ; struct subsys_private *p ; }; struct device_driver { char const *name ; struct bus_type *bus ; struct module *owner ; char const *mod_name ; bool suppress_bind_attrs ; struct of_device_id const *of_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 device_attribute *dev_attrs ; struct bin_attribute *dev_bin_attrs ; struct kobject *dev_kobj ; int (*dev_uevent)(struct device * , struct kobj_uevent_env * ) ; char *(*devnode)(struct device * , mode_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 device_type; 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 * , mode_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 device { struct device *parent ; struct device_private *p ; struct kobject kobj ; char const *init_name ; struct device_type *type ; struct mutex mutex ; struct bus_type *bus ; struct device_driver *driver ; void *platform_data ; struct dev_pm_info power ; struct dev_power_domain *pwr_domain ; int numa_node ; u64 *dma_mask ; u64 coherent_dma_mask ; struct device_dma_parameters *dma_parms ; struct list_head dma_pools ; struct dma_coherent_mem *dma_mem ; struct dev_archdata archdata ; struct device_node *of_node ; dev_t devt ; 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 wakeup_source { char *name ; struct list_head entry ; spinlock_t lock ; struct timer_list timer ; unsigned long timer_expires ; ktime_t total_time ; ktime_t max_time ; ktime_t last_time ; unsigned long event_count ; unsigned long active_count ; unsigned long relax_count ; unsigned long hit_count ; unsigned char active : 1 ; }; struct kernel_cap_struct { __u32 cap[2U] ; }; typedef struct kernel_cap_struct kernel_cap_t; struct dentry; struct user_namespace; struct prio_tree_node; struct raw_prio_tree_node { struct prio_tree_node *left ; struct prio_tree_node *right ; struct prio_tree_node *parent ; }; struct prio_tree_node { struct prio_tree_node *left ; struct prio_tree_node *right ; struct prio_tree_node *parent ; unsigned long start ; unsigned long last ; }; struct prio_tree_root { struct prio_tree_node *prio_tree_node ; unsigned short index_bits ; unsigned short raw ; }; struct address_space; struct __anonstruct____missing_field_name_129 { u16 inuse ; u16 objects ; }; union __anonunion____missing_field_name_128 { atomic_t _mapcount ; struct __anonstruct____missing_field_name_129 __annonCompField30 ; }; struct __anonstruct____missing_field_name_131 { unsigned long private ; struct address_space *mapping ; }; union __anonunion____missing_field_name_130 { struct __anonstruct____missing_field_name_131 __annonCompField32 ; struct kmem_cache *slab ; struct page *first_page ; }; union __anonunion____missing_field_name_132 { unsigned long index ; void *freelist ; }; struct page { unsigned long flags ; atomic_t _count ; union __anonunion____missing_field_name_128 __annonCompField31 ; union __anonunion____missing_field_name_130 __annonCompField33 ; union __anonunion____missing_field_name_132 __annonCompField34 ; struct list_head lru ; }; struct __anonstruct_vm_set_134 { struct list_head list ; void *parent ; struct vm_area_struct *head ; }; union __anonunion_shared_133 { struct __anonstruct_vm_set_134 vm_set ; struct raw_prio_tree_node prio_tree_node ; }; struct anon_vma; struct vm_operations_struct; struct mempolicy; struct vm_area_struct { struct mm_struct *vm_mm ; unsigned long vm_start ; unsigned long vm_end ; struct vm_area_struct *vm_next ; struct vm_area_struct *vm_prev ; pgprot_t vm_page_prot ; unsigned long vm_flags ; struct rb_node vm_rb ; union __anonunion_shared_133 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 ; unsigned long vm_truncate_count ; 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 mm_rss_stat { unsigned long count[3U] ; }; struct linux_binfmt; struct mmu_notifier_mm; struct mm_struct { struct vm_area_struct *mmap ; struct rb_root mm_rb ; struct vm_area_struct *mmap_cache ; unsigned long (*get_unmapped_area)(struct file * , unsigned long , unsigned long , unsigned long , unsigned long ) ; void (*unmap_area)(struct mm_struct * , unsigned long ) ; unsigned long mmap_base ; unsigned long task_size ; unsigned long cached_hole_size ; unsigned long free_area_cache ; pgd_t *pgd ; atomic_t mm_users ; atomic_t mm_count ; 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 shared_vm ; unsigned long exec_vm ; unsigned long stack_vm ; unsigned long reserved_vm ; unsigned long def_flags ; unsigned long nr_ptes ; 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[44U] ; struct mm_rss_stat rss_stat ; struct linux_binfmt *binfmt ; cpumask_t cpu_vm_mask ; mm_context_t context ; unsigned int faultstamp ; unsigned int token_priority ; unsigned int last_interval ; atomic_t oom_disable_count ; unsigned long flags ; struct core_state *core_state ; spinlock_t ioctx_lock ; struct hlist_head ioctx_list ; struct task_struct *owner ; struct file *exe_file ; unsigned long num_exe_file_vmas ; struct mmu_notifier_mm *mmu_notifier_mm ; pgtable_t pmd_huge_pte ; }; typedef unsigned long cputime_t; struct sem_undo_list; struct sem_undo_list { atomic_t refcnt ; spinlock_t lock ; struct list_head list_proc ; }; struct sysv_sem { struct sem_undo_list *undo_list ; }; struct siginfo; struct __anonstruct_sigset_t_135 { unsigned long sig[1U] ; }; typedef struct __anonstruct_sigset_t_135 sigset_t; typedef void __signalfn_t(int ); typedef __signalfn_t *__sighandler_t; typedef void __restorefn_t(void); typedef __restorefn_t *__sigrestore_t; struct sigaction { __sighandler_t sa_handler ; unsigned long sa_flags ; __sigrestore_t sa_restorer ; sigset_t sa_mask ; }; struct k_sigaction { struct sigaction sa ; }; union sigval { int sival_int ; void *sival_ptr ; }; typedef union sigval sigval_t; struct __anonstruct__kill_137 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; }; struct __anonstruct__timer_138 { __kernel_timer_t _tid ; int _overrun ; char _pad[0U] ; sigval_t _sigval ; int _sys_private ; }; struct __anonstruct__rt_139 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; sigval_t _sigval ; }; struct __anonstruct__sigchld_140 { __kernel_pid_t _pid ; __kernel_uid32_t _uid ; int _status ; __kernel_clock_t _utime ; __kernel_clock_t _stime ; }; struct __anonstruct__sigfault_141 { void *_addr ; short _addr_lsb ; }; struct __anonstruct__sigpoll_142 { long _band ; int _fd ; }; union __anonunion__sifields_136 { int _pad[28U] ; struct __anonstruct__kill_137 _kill ; struct __anonstruct__timer_138 _timer ; struct __anonstruct__rt_139 _rt ; struct __anonstruct__sigchld_140 _sigchld ; struct __anonstruct__sigfault_141 _sigfault ; struct __anonstruct__sigpoll_142 _sigpoll ; }; struct siginfo { int si_signo ; int si_errno ; int si_code ; union __anonunion__sifields_136 _sifields ; }; typedef struct siginfo siginfo_t; struct user_struct; struct sigpending { struct list_head list ; sigset_t signal ; }; 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 rcu_head rcu ; struct upid numbers[1U] ; }; struct pid_link { struct hlist_node node ; struct pid *pid ; }; struct prop_local_single { unsigned long events ; unsigned long period ; int shift ; spinlock_t lock ; }; struct __anonstruct_seccomp_t_145 { int mode ; }; typedef struct __anonstruct_seccomp_t_145 seccomp_t; struct plist_head { struct list_head node_list ; raw_spinlock_t *rawlock ; spinlock_t *spinlock ; }; struct plist_node { int prio ; struct list_head prio_list ; struct list_head node_list ; }; struct rt_mutex { raw_spinlock_t wait_lock ; struct plist_head wait_list ; struct task_struct *owner ; int save_state ; char const *name ; char const *file ; int line ; void *magic ; }; struct rt_mutex_waiter; struct rlimit { unsigned long rlim_cur ; unsigned long rlim_max ; }; 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 nsproxy; typedef int32_t key_serial_t; typedef uint32_t key_perm_t; struct signal_struct; struct cred; struct key_type; struct keyring_list; struct key_user; union __anonunion____missing_field_name_148 { time_t expiry ; time_t revoked_at ; }; union __anonunion_type_data_149 { struct list_head link ; unsigned long x[2U] ; void *p[2U] ; int reject_error ; }; union __anonunion_payload_150 { unsigned long value ; void *rcudata ; void *data ; struct keyring_list *subscriptions ; }; struct key { atomic_t usage ; key_serial_t serial ; struct rb_node serial_node ; struct key_type *type ; struct rw_semaphore sem ; struct key_user *user ; void *security ; union __anonunion____missing_field_name_148 __annonCompField37 ; uid_t uid ; gid_t gid ; key_perm_t perm ; unsigned short quotalen ; unsigned short datalen ; unsigned long flags ; char *description ; union __anonunion_type_data_149 type_data ; union __anonunion_payload_150 payload ; }; struct audit_context; struct inode; struct group_info { atomic_t usage ; int ngroups ; int nblocks ; gid_t small_block[32U] ; gid_t *blocks[0U] ; }; struct thread_group_cred { atomic_t usage ; pid_t tgid ; spinlock_t lock ; struct key *session_keyring ; struct key *process_keyring ; struct rcu_head rcu ; }; struct cred { atomic_t usage ; atomic_t subscribers ; void *put_addr ; unsigned int magic ; uid_t uid ; gid_t gid ; uid_t suid ; gid_t sgid ; uid_t euid ; gid_t egid ; uid_t fsuid ; gid_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 *thread_keyring ; struct key *request_key_auth ; struct thread_group_cred *tgcred ; void *security ; struct user_struct *user ; struct user_namespace *user_ns ; struct group_info *group_info ; struct rcu_head rcu ; }; struct futex_pi_state; struct robust_list_head; struct bio_list; struct fs_struct; struct perf_event_context; struct blk_plug; struct cfs_rq; struct io_event { __u64 data ; __u64 obj ; __s64 res ; __s64 res2 ; }; struct iovec { void *iov_base ; __kernel_size_t iov_len ; }; struct kioctx; union __anonunion_ki_obj_151 { void *user ; struct task_struct *tsk ; }; struct eventfd_ctx; struct kiocb { struct list_head ki_run_list ; unsigned long ki_flags ; int ki_users ; unsigned int ki_key ; struct file *ki_filp ; struct kioctx *ki_ctx ; int (*ki_cancel)(struct kiocb * , struct io_event * ) ; ssize_t (*ki_retry)(struct kiocb * ) ; void (*ki_dtor)(struct kiocb * ) ; union __anonunion_ki_obj_151 ki_obj ; __u64 ki_user_data ; loff_t ki_pos ; void *private ; unsigned short ki_opcode ; size_t ki_nbytes ; char *ki_buf ; size_t ki_left ; struct iovec ki_inline_vec ; struct iovec *ki_iovec ; unsigned long ki_nr_segs ; unsigned long ki_cur_seg ; struct list_head ki_list ; struct eventfd_ctx *ki_eventfd ; }; struct aio_ring_info { unsigned long mmap_base ; unsigned long mmap_size ; struct page **ring_pages ; spinlock_t ring_lock ; long nr_pages ; unsigned int nr ; unsigned int tail ; struct page *internal_pages[8U] ; }; struct kioctx { atomic_t users ; int dead ; struct mm_struct *mm ; unsigned long user_id ; struct hlist_node list ; wait_queue_head_t wait ; spinlock_t ctx_lock ; int reqs_active ; struct list_head active_reqs ; struct list_head run_list ; unsigned int max_reqs ; struct aio_ring_info ring_info ; struct delayed_work wq ; struct rcu_head rcu_head ; }; 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 task_cputime { cputime_t utime ; cputime_t stime ; unsigned long long sum_exec_runtime ; }; struct thread_group_cputimer { struct task_cputime cputime ; int running ; spinlock_t lock ; }; struct autogroup; struct tty_struct; struct taskstats; struct tty_audit_buf; struct signal_struct { atomic_t sigcnt ; atomic_t live ; int nr_threads ; 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 ; 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 ; cputime_t utime ; cputime_t stime ; cputime_t cutime ; cputime_t cstime ; cputime_t gtime ; cputime_t cgtime ; cputime_t prev_utime ; cputime_t prev_stime ; 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 ; struct tty_audit_buf *tty_audit_buf ; int oom_adj ; int oom_score_adj ; int oom_score_adj_min ; struct mutex cred_guard_mutex ; }; struct user_struct { atomic_t __count ; atomic_t processes ; atomic_t files ; 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 ; uid_t uid ; struct user_namespace *user_ns ; 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 ; unsigned int bkl_count ; }; struct task_delay_info { spinlock_t lock ; unsigned int flags ; struct timespec blkio_start ; struct timespec blkio_end ; u64 blkio_delay ; u64 swapin_delay ; u32 blkio_count ; u32 swapin_count ; struct timespec freepages_start ; struct timespec freepages_end ; u64 freepages_delay ; u32 freepages_count ; }; struct io_context; struct pipe_inode_info; struct rq; struct sched_class { struct sched_class const *next ; void (*enqueue_task)(struct rq * , struct task_struct * , int ) ; void (*dequeue_task)(struct rq * , struct task_struct * , int ) ; void (*yield_task)(struct rq * ) ; bool (*yield_to_task)(struct rq * , struct task_struct * , bool ) ; void (*check_preempt_curr)(struct rq * , struct task_struct * , int ) ; struct task_struct *(*pick_next_task)(struct rq * ) ; void (*put_prev_task)(struct rq * , struct task_struct * ) ; int (*select_task_rq)(struct rq * , struct task_struct * , int , int ) ; void (*pre_schedule)(struct rq * , struct task_struct * ) ; void (*post_schedule)(struct rq * ) ; void (*task_waking)(struct rq * , struct task_struct * ) ; void (*task_woken)(struct rq * , struct task_struct * ) ; void (*set_cpus_allowed)(struct task_struct * , struct cpumask const * ) ; void (*rq_online)(struct rq * ) ; void (*rq_offline)(struct rq * ) ; void (*set_curr_task)(struct rq * ) ; void (*task_tick)(struct rq * , struct task_struct * , int ) ; void (*task_fork)(struct task_struct * ) ; void (*switched_from)(struct rq * , struct task_struct * ) ; void (*switched_to)(struct rq * , struct task_struct * ) ; void (*prio_changed)(struct rq * , struct task_struct * , int ) ; unsigned int (*get_rr_interval)(struct rq * , struct task_struct * ) ; void (*task_move_group)(struct task_struct * , int ) ; }; struct load_weight { unsigned long weight ; unsigned long inv_weight ; }; 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 ; struct sched_entity *parent ; struct cfs_rq *cfs_rq ; struct cfs_rq *my_q ; }; struct rt_rq; struct sched_rt_entity { struct list_head run_list ; unsigned long timeout ; unsigned int time_slice ; int nr_cpus_allowed ; struct sched_rt_entity *back ; struct sched_rt_entity *parent ; struct rt_rq *rt_rq ; struct rt_rq *my_q ; }; struct mem_cgroup; struct memcg_batch_info { int do_batch ; struct mem_cgroup *memcg ; unsigned long nr_pages ; unsigned long memsw_nr_pages ; }; struct files_struct; struct css_set; struct compat_robust_list_head; struct task_struct { long volatile state ; void *stack ; atomic_t usage ; unsigned int flags ; unsigned int ptrace ; int lock_depth ; 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 hlist_head preempt_notifiers ; unsigned char fpu_counter ; unsigned int policy ; cpumask_t cpus_allowed ; struct sched_info sched_info ; struct list_head tasks ; struct plist_node pushable_tasks ; struct mm_struct *mm ; struct mm_struct *active_mm ; unsigned char brk_randomized : 1 ; int exit_state ; int exit_code ; int exit_signal ; int pdeath_signal ; unsigned int personality ; unsigned char did_exec : 1 ; unsigned char in_execve : 1 ; unsigned char in_iowait : 1 ; unsigned char sched_reset_on_fork : 1 ; pid_t pid ; pid_t tgid ; unsigned long stack_canary ; 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 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 ; cputime_t prev_utime ; cputime_t prev_stime ; unsigned long nvcsw ; unsigned long nivcsw ; struct timespec start_time ; struct timespec 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 ; struct cred *replacement_session_keyring ; char comm[16U] ; int link_count ; int total_link_count ; struct sysv_sem sysvsem ; 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 audit_context *audit_context ; uid_t loginuid ; unsigned int sessionid ; seccomp_t seccomp ; u32 parent_exec_id ; u32 self_exec_id ; spinlock_t alloc_lock ; struct irqaction *irqaction ; raw_spinlock_t pi_lock ; struct plist_head pi_waiters ; 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 ; int mems_allowed_change_disable ; 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 ; atomic_t fs_excl ; struct rcu_head rcu ; struct pipe_inode_info *splice_pipe ; struct task_delay_info *delays ; int make_it_fail ; struct prop_local_single dirties ; int latency_record_count ; struct latency_record latency_record[32U] ; unsigned long timer_slack_ns ; unsigned long default_timer_slack_ns ; struct list_head *scm_work_list ; unsigned long trace ; unsigned long trace_recursion ; struct memcg_batch_info memcg_batch ; atomic_t ptrace_bp_refcnt ; }; typedef u32 phandle; struct property { char *name ; int length ; void *value ; struct property *next ; unsigned long _flags ; unsigned int unique_id ; }; struct device_node { char const *name ; char const *type ; phandle phandle ; char *full_name ; struct property *properties ; struct property *deadprops ; struct device_node *parent ; struct device_node *child ; struct device_node *sibling ; struct device_node *next ; struct device_node *allnext ; struct proc_dir_entry *pde ; struct kref kref ; unsigned long _flags ; void *data ; }; struct i2c_msg; struct i2c_algorithm; struct i2c_adapter; struct i2c_driver; union i2c_smbus_data; struct i2c_board_info; struct i2c_driver { unsigned int class ; int (*attach_adapter)(struct i2c_adapter * ) ; int (*detach_adapter)(struct i2c_adapter * ) ; int (*probe)(struct i2c_client * , struct i2c_device_id const * ) ; int (*remove)(struct i2c_client * ) ; void (*shutdown)(struct i2c_client * ) ; int (*suspend)(struct i2c_client * , pm_message_t ) ; int (*resume)(struct i2c_client * ) ; void (*alert)(struct i2c_client * , unsigned int ) ; int (*command)(struct i2c_client * , unsigned int , void * ) ; struct device_driver driver ; struct i2c_device_id const *id_table ; int (*detect)(struct i2c_client * , struct i2c_board_info * ) ; unsigned short const *address_list ; struct list_head clients ; }; struct i2c_client { unsigned short flags ; unsigned short addr ; char name[20U] ; struct i2c_adapter *adapter ; struct i2c_driver *driver ; struct device dev ; int irq ; struct list_head detected ; }; struct i2c_board_info { char type[20U] ; unsigned short flags ; unsigned short addr ; void *platform_data ; struct dev_archdata *archdata ; struct device_node *of_node ; int irq ; }; struct i2c_algorithm { int (*master_xfer)(struct i2c_adapter * , struct i2c_msg * , int ) ; int (*smbus_xfer)(struct i2c_adapter * , u16 , unsigned short , char , u8 , int , union i2c_smbus_data * ) ; u32 (*functionality)(struct i2c_adapter * ) ; }; struct i2c_adapter { struct module *owner ; unsigned int class ; struct i2c_algorithm const *algo ; void *algo_data ; struct rt_mutex bus_lock ; int timeout ; int retries ; struct device dev ; int nr ; char name[48U] ; struct completion dev_released ; struct mutex userspace_clients_lock ; struct list_head userspace_clients ; }; struct i2c_msg { __u16 addr ; __u16 flags ; __u16 len ; __u8 *buf ; }; union i2c_smbus_data { __u8 byte ; __u16 word ; __u8 block[34U] ; }; struct regulator; struct regulator_bulk_data { char const *supply ; struct regulator *consumer ; }; struct pollfd { int fd ; short events ; short revents ; }; struct block_device; 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 nameidata; struct path; struct vfsmount; struct qstr { unsigned int hash ; unsigned int len ; unsigned char const *name ; }; struct dentry_operations; struct super_block; union __anonunion_d_u_152 { struct list_head d_child ; struct rcu_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] ; unsigned int d_count ; spinlock_t d_lock ; struct dentry_operations const *d_op ; struct super_block *d_sb ; unsigned long d_time ; void *d_fsdata ; struct list_head d_lru ; union __anonunion_d_u_152 d_u ; struct list_head d_subdirs ; struct list_head d_alias ; }; struct dentry_operations { int (*d_revalidate)(struct dentry * , struct nameidata * ) ; int (*d_hash)(struct dentry const * , struct inode const * , struct qstr * ) ; int (*d_compare)(struct dentry const * , struct inode const * , struct dentry const * , struct inode const * , unsigned int , char const * , struct qstr const * ) ; int (*d_delete)(struct dentry const * ) ; void (*d_release)(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 path { struct vfsmount *mnt ; struct dentry *dentry ; }; struct radix_tree_node; 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] ; }; struct export_operations; struct poll_table_struct; struct kstatfs; struct iattr { unsigned int ia_valid ; umode_t ia_mode ; uid_t ia_uid ; gid_t ia_gid ; loff_t ia_size ; struct timespec ia_atime ; struct timespec ia_mtime ; struct timespec ia_ctime ; struct file *ia_file ; }; struct if_dqinfo { __u64 dqi_bgrace ; __u64 dqi_igrace ; __u32 dqi_flags ; __u32 dqi_valid ; }; struct fs_disk_quota { __s8 d_version ; __s8 d_flags ; __u16 d_fieldmask ; __u32 d_id ; __u64 d_blk_hardlimit ; __u64 d_blk_softlimit ; __u64 d_ino_hardlimit ; __u64 d_ino_softlimit ; __u64 d_bcount ; __u64 d_icount ; __s32 d_itimer ; __s32 d_btimer ; __u16 d_iwarns ; __u16 d_bwarns ; __s32 d_padding2 ; __u64 d_rtb_hardlimit ; __u64 d_rtb_softlimit ; __u64 d_rtbcount ; __s32 d_rtbtimer ; __u16 d_rtbwarns ; __s16 d_padding3 ; char d_padding4[8U] ; }; struct fs_qfilestat { __u64 qfs_ino ; __u64 qfs_nblks ; __u32 qfs_nextents ; }; typedef struct fs_qfilestat fs_qfilestat_t; struct fs_quota_stat { __s8 qs_version ; __u16 qs_flags ; __s8 qs_pad ; fs_qfilestat_t qs_uquota ; fs_qfilestat_t qs_gquota ; __u32 qs_incoredqs ; __s32 qs_btimelimit ; __s32 qs_itimelimit ; __s32 qs_rtbtimelimit ; __u16 qs_bwarnlimit ; __u16 qs_iwarnlimit ; }; struct dquot; typedef __kernel_uid32_t qid_t; typedef long long qsize_t; 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_maxblimit ; qsize_t dqi_maxilimit ; 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 ; unsigned int dq_id ; loff_t dq_off ; unsigned long dq_flags ; short dq_type ; 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 * ) ; }; struct quotactl_ops { int (*quota_on)(struct super_block * , int , int , struct path * ) ; int (*quota_on_meta)(struct super_block * , int , int ) ; int (*quota_off)(struct super_block * , int ) ; int (*quota_sync)(struct super_block * , int , int ) ; int (*get_info)(struct super_block * , int , struct if_dqinfo * ) ; int (*set_info)(struct super_block * , int , struct if_dqinfo * ) ; int (*get_dqblk)(struct super_block * , int , qid_t , struct fs_disk_quota * ) ; int (*set_dqblk)(struct super_block * , int , qid_t , struct fs_disk_quota * ) ; int (*get_xstate)(struct super_block * , struct fs_quota_stat * ) ; int (*set_xstate)(struct super_block * , unsigned int , 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 rw_semaphore dqptr_sem ; struct inode *files[2U] ; struct mem_dqinfo info[2U] ; struct quota_format_ops const *ops[2U] ; }; struct writeback_control; union __anonunion_arg_154 { char *buf ; void *data ; }; struct __anonstruct_read_descriptor_t_153 { size_t written ; size_t count ; union __anonunion_arg_154 arg ; int error ; }; typedef struct __anonstruct_read_descriptor_t_153 read_descriptor_t; 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 long ) ; int (*releasepage)(struct page * , gfp_t ) ; void (*freepage)(struct page * ) ; ssize_t (*direct_IO)(int , struct kiocb * , struct iovec const * , loff_t , unsigned long ) ; int (*get_xip_mem)(struct address_space * , unsigned long , int , void ** , unsigned long * ) ; int (*migratepage)(struct address_space * , struct page * , struct page * ) ; int (*launder_page)(struct page * ) ; int (*is_partially_uptodate)(struct page * , read_descriptor_t * , unsigned long ) ; int (*error_remove_page)(struct address_space * , struct page * ) ; }; struct address_space { struct inode *host ; struct radix_tree_root page_tree ; spinlock_t tree_lock ; unsigned int i_mmap_writable ; struct prio_tree_root i_mmap ; struct list_head i_mmap_nonlinear ; spinlock_t i_mmap_lock ; unsigned int truncate_count ; unsigned long nrpages ; unsigned long writeback_index ; struct address_space_operations const *a_ops ; unsigned long flags ; struct backing_dev_info *backing_dev_info ; spinlock_t private_lock ; struct list_head private_list ; struct address_space *assoc_mapping ; struct mutex unmap_mutex ; }; 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 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_155 { struct list_head i_dentry ; struct rcu_head i_rcu ; }; struct file_operations; struct file_lock; struct cdev; union __anonunion____missing_field_name_156 { struct pipe_inode_info *i_pipe ; struct block_device *i_bdev ; struct cdev *i_cdev ; }; struct inode { umode_t i_mode ; uid_t i_uid ; gid_t i_gid ; struct inode_operations const *i_op ; struct super_block *i_sb ; spinlock_t i_lock ; unsigned int i_flags ; struct mutex i_mutex ; unsigned long i_state ; unsigned long dirtied_when ; struct hlist_node i_hash ; struct list_head i_wb_list ; struct list_head i_lru ; struct list_head i_sb_list ; union __anonunion____missing_field_name_155 __annonCompField38 ; unsigned long i_ino ; atomic_t i_count ; unsigned int i_nlink ; dev_t i_rdev ; unsigned int i_blkbits ; u64 i_version ; loff_t i_size ; struct timespec i_atime ; struct timespec i_mtime ; struct timespec i_ctime ; blkcnt_t i_blocks ; unsigned short i_bytes ; struct rw_semaphore i_alloc_sem ; struct file_operations const *i_fop ; struct file_lock *i_flock ; struct address_space *i_mapping ; struct address_space i_data ; struct dquot *i_dquot[2U] ; struct list_head i_devices ; union __anonunion____missing_field_name_156 __annonCompField39 ; __u32 i_generation ; __u32 i_fsnotify_mask ; struct hlist_head i_fsnotify_marks ; atomic_t i_readcount ; atomic_t i_writecount ; void *i_security ; struct posix_acl *i_acl ; struct posix_acl *i_default_acl ; void *i_private ; }; struct fown_struct { rwlock_t lock ; struct pid *pid ; enum pid_type pid_type ; uid_t uid ; uid_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_157 { struct list_head fu_list ; struct rcu_head fu_rcuhead ; }; struct file { union __anonunion_f_u_157 f_u ; struct path f_path ; struct file_operations const *f_op ; spinlock_t f_lock ; int f_sb_list_cpu ; atomic_long_t f_count ; unsigned int f_flags ; fmode_t f_mode ; 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 address_space *f_mapping ; unsigned long f_mnt_write_state ; }; typedef struct files_struct *fl_owner_t; 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 (*fl_compare_owner)(struct file_lock * , struct file_lock * ) ; void (*fl_notify)(struct file_lock * ) ; int (*fl_grant)(struct file_lock * , struct file_lock * , int ) ; void (*fl_release_private)(struct file_lock * ) ; void (*fl_break)(struct file_lock * ) ; int (*fl_change)(struct file_lock ** , int ) ; }; 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 fasync_struct; struct __anonstruct_afs_159 { struct list_head link ; int state ; }; union __anonunion_fl_u_158 { struct nfs_lock_info nfs_fl ; struct nfs4_lock_info nfs4_fl ; struct __anonstruct_afs_159 afs ; }; struct file_lock { struct file_lock *fl_next ; struct list_head fl_link ; struct list_head fl_block ; fl_owner_t fl_owner ; unsigned char fl_flags ; unsigned char fl_type ; unsigned int fl_pid ; 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 ; struct file_lock_operations const *fl_ops ; struct lock_manager_operations const *fl_lmops ; union __anonunion_fl_u_158 fl_u ; }; struct fasync_struct { spinlock_t fa_lock ; int magic ; int fa_fd ; struct fasync_struct *fa_next ; struct file *fa_file ; struct rcu_head fa_rcu ; }; struct file_system_type; struct super_operations; struct xattr_handler; struct mtd_info; struct super_block { struct list_head s_list ; dev_t s_dev ; unsigned char s_dirt ; 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_magic ; struct dentry *s_root ; struct rw_semaphore s_umount ; struct mutex s_lock ; 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_files ; struct list_head s_dentry_lru ; int s_nr_dentry_unused ; struct block_device *s_bdev ; struct backing_dev_info *s_bdi ; struct mtd_info *s_mtd ; struct list_head s_instances ; struct quota_info s_dquot ; int s_frozen ; wait_queue_head_t s_wait_unfrozen ; char s_id[32U] ; u8 s_uuid[16U] ; void *s_fs_info ; 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 ; }; 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 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 (*aio_read)(struct kiocb * , struct iovec const * , unsigned long , loff_t ) ; ssize_t (*aio_write)(struct kiocb * , struct iovec const * , unsigned long , loff_t ) ; int (*readdir)(struct file * , void * , int (*)(void * , char const * , int , loff_t , u64 , unsigned int ) ) ; 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 (*open)(struct inode * , struct file * ) ; int (*flush)(struct file * , fl_owner_t ) ; int (*release)(struct inode * , struct file * ) ; int (*fsync)(struct file * , 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 ** ) ; long (*fallocate)(struct file * , int , loff_t , loff_t ) ; }; struct inode_operations { struct dentry *(*lookup)(struct inode * , struct dentry * , struct nameidata * ) ; void *(*follow_link)(struct dentry * , struct nameidata * ) ; int (*permission)(struct inode * , int , unsigned int ) ; int (*check_acl)(struct inode * , int , unsigned int ) ; int (*readlink)(struct dentry * , char * , int ) ; void (*put_link)(struct dentry * , struct nameidata * , void * ) ; int (*create)(struct inode * , struct dentry * , int , struct nameidata * ) ; 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 * , int ) ; int (*rmdir)(struct inode * , struct dentry * ) ; int (*mknod)(struct inode * , struct dentry * , int , dev_t ) ; int (*rename)(struct inode * , struct dentry * , struct inode * , struct dentry * ) ; void (*truncate)(struct inode * ) ; 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 * ) ; void (*truncate_range)(struct inode * , loff_t , loff_t ) ; int (*fiemap)(struct inode * , struct fiemap_extent_info * , u64 , u64 ) ; }; struct super_operations { struct inode *(*alloc_inode)(struct super_block * ) ; void (*destroy_inode)(struct inode * ) ; void (*dirty_inode)(struct inode * ) ; int (*write_inode)(struct inode * , struct writeback_control * ) ; int (*drop_inode)(struct inode * ) ; void (*evict_inode)(struct inode * ) ; void (*put_super)(struct super_block * ) ; void (*write_super)(struct super_block * ) ; int (*sync_fs)(struct super_block * , int ) ; int (*freeze_fs)(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 vfsmount * ) ; int (*show_devname)(struct seq_file * , struct vfsmount * ) ; int (*show_path)(struct seq_file * , struct vfsmount * ) ; int (*show_stats)(struct seq_file * , struct vfsmount * ) ; 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 ) ; int (*bdev_try_to_free_page)(struct super_block * , struct page * , gfp_t ) ; }; 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 list_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 i_lock_key ; struct lock_class_key i_mutex_key ; struct lock_class_key i_mutex_dir_key ; struct lock_class_key i_alloc_sem_key ; }; struct poll_table_struct { void (*qproc)(struct file * , wait_queue_head_t * , struct poll_table_struct * ) ; unsigned long key ; }; struct cdev { struct kobject kobj ; struct module *owner ; struct file_operations const *ops ; struct list_head list ; dev_t dev ; unsigned int count ; }; struct media_file_operations { struct module *owner ; ssize_t (*read)(struct file * , char * , size_t , loff_t * ) ; ssize_t (*write)(struct file * , char const * , size_t , loff_t * ) ; unsigned int (*poll)(struct file * , struct poll_table_struct * ) ; long (*ioctl)(struct file * , unsigned int , unsigned long ) ; int (*open)(struct file * ) ; int (*release)(struct file * ) ; }; struct media_devnode { struct media_file_operations const *fops ; struct device dev ; struct cdev cdev ; struct device *parent ; int minor ; unsigned long flags ; void (*release)(struct media_devnode * ) ; }; struct media_pipeline { }; struct media_pad; struct media_link { struct media_pad *source ; struct media_pad *sink ; struct media_link *reverse ; unsigned long flags ; }; struct media_entity; struct media_pad { struct media_entity *entity ; u16 index ; unsigned long flags ; }; struct media_entity_operations { int (*link_setup)(struct media_entity * , struct media_pad const * , struct media_pad const * , u32 ) ; }; struct media_device; struct __anonstruct_v4l_166 { u32 major ; u32 minor ; }; struct __anonstruct_fb_167 { u32 major ; u32 minor ; }; struct __anonstruct_alsa_168 { u32 card ; u32 device ; u32 subdevice ; }; union __anonunion____missing_field_name_165 { struct __anonstruct_v4l_166 v4l ; struct __anonstruct_fb_167 fb ; struct __anonstruct_alsa_168 alsa ; int dvb ; }; struct media_entity { struct list_head list ; struct media_device *parent ; u32 id ; char const *name ; u32 type ; u32 revision ; unsigned long flags ; u32 group_id ; u16 num_pads ; u16 num_links ; u16 num_backlinks ; u16 max_links ; struct media_pad *pads ; struct media_link *links ; struct media_entity_operations const *ops ; int stream_count ; int use_count ; struct media_pipeline *pipe ; union __anonunion____missing_field_name_165 __annonCompField41 ; }; struct media_device { struct device *dev ; struct media_devnode devnode ; char model[32U] ; char serial[40U] ; char bus_info[32U] ; u32 hw_revision ; u32 driver_version ; u32 entity_id ; struct list_head entities ; spinlock_t lock ; struct mutex graph_mutex ; int (*link_notify)(struct media_pad * , struct media_pad * , u32 ) ; }; enum v4l2_field { V4L2_FIELD_ANY = 0, V4L2_FIELD_NONE = 1, V4L2_FIELD_TOP = 2, V4L2_FIELD_BOTTOM = 3, V4L2_FIELD_INTERLACED = 4, V4L2_FIELD_SEQ_TB = 5, V4L2_FIELD_SEQ_BT = 6, V4L2_FIELD_ALTERNATE = 7, V4L2_FIELD_INTERLACED_TB = 8, V4L2_FIELD_INTERLACED_BT = 9 } ; enum v4l2_buf_type { V4L2_BUF_TYPE_VIDEO_CAPTURE = 1, V4L2_BUF_TYPE_VIDEO_OUTPUT = 2, V4L2_BUF_TYPE_VIDEO_OVERLAY = 3, V4L2_BUF_TYPE_VBI_CAPTURE = 4, V4L2_BUF_TYPE_VBI_OUTPUT = 5, V4L2_BUF_TYPE_SLICED_VBI_CAPTURE = 6, V4L2_BUF_TYPE_SLICED_VBI_OUTPUT = 7, V4L2_BUF_TYPE_VIDEO_OUTPUT_OVERLAY = 8, V4L2_BUF_TYPE_VIDEO_CAPTURE_MPLANE = 9, V4L2_BUF_TYPE_VIDEO_OUTPUT_MPLANE = 10, V4L2_BUF_TYPE_PRIVATE = 128 } ; enum v4l2_tuner_type { V4L2_TUNER_RADIO = 1, V4L2_TUNER_ANALOG_TV = 2, V4L2_TUNER_DIGITAL_TV = 3 } ; enum v4l2_memory { V4L2_MEMORY_MMAP = 1, V4L2_MEMORY_USERPTR = 2, V4L2_MEMORY_OVERLAY = 3 } ; enum v4l2_colorspace { V4L2_COLORSPACE_SMPTE170M = 1, V4L2_COLORSPACE_SMPTE240M = 2, V4L2_COLORSPACE_REC709 = 3, V4L2_COLORSPACE_BT878 = 4, V4L2_COLORSPACE_470_SYSTEM_M = 5, V4L2_COLORSPACE_470_SYSTEM_BG = 6, V4L2_COLORSPACE_JPEG = 7, V4L2_COLORSPACE_SRGB = 8 } ; enum v4l2_priority { V4L2_PRIORITY_UNSET = 0, V4L2_PRIORITY_BACKGROUND = 1, V4L2_PRIORITY_INTERACTIVE = 2, V4L2_PRIORITY_RECORD = 3, V4L2_PRIORITY_DEFAULT = 2 } ; struct v4l2_rect { __s32 left ; __s32 top ; __s32 width ; __s32 height ; }; struct v4l2_fract { __u32 numerator ; __u32 denominator ; }; struct v4l2_capability { __u8 driver[16U] ; __u8 card[32U] ; __u8 bus_info[32U] ; __u32 version ; __u32 capabilities ; __u32 reserved[4U] ; }; struct v4l2_pix_format { __u32 width ; __u32 height ; __u32 pixelformat ; enum v4l2_field field ; __u32 bytesperline ; __u32 sizeimage ; enum v4l2_colorspace colorspace ; __u32 priv ; }; struct v4l2_fmtdesc { __u32 index ; enum v4l2_buf_type type ; __u32 flags ; __u8 description[32U] ; __u32 pixelformat ; __u32 reserved[4U] ; }; struct v4l2_frmsize_discrete { __u32 width ; __u32 height ; }; struct v4l2_frmsize_stepwise { __u32 min_width ; __u32 max_width ; __u32 step_width ; __u32 min_height ; __u32 max_height ; __u32 step_height ; }; union __anonunion____missing_field_name_170 { struct v4l2_frmsize_discrete discrete ; struct v4l2_frmsize_stepwise stepwise ; }; struct v4l2_frmsizeenum { __u32 index ; __u32 pixel_format ; __u32 type ; union __anonunion____missing_field_name_170 __annonCompField42 ; __u32 reserved[2U] ; }; struct v4l2_frmival_stepwise { struct v4l2_fract min ; struct v4l2_fract max ; struct v4l2_fract step ; }; union __anonunion____missing_field_name_171 { struct v4l2_fract discrete ; struct v4l2_frmival_stepwise stepwise ; }; struct v4l2_frmivalenum { __u32 index ; __u32 pixel_format ; __u32 width ; __u32 height ; __u32 type ; union __anonunion____missing_field_name_171 __annonCompField43 ; __u32 reserved[2U] ; }; struct v4l2_timecode { __u32 type ; __u32 flags ; __u8 frames ; __u8 seconds ; __u8 minutes ; __u8 hours ; __u8 userbits[4U] ; }; struct v4l2_jpegcompression { int quality ; int APPn ; int APP_len ; char APP_data[60U] ; int COM_len ; char COM_data[60U] ; __u32 jpeg_markers ; }; struct v4l2_requestbuffers { __u32 count ; enum v4l2_buf_type type ; enum v4l2_memory memory ; __u32 reserved[2U] ; }; union __anonunion_m_172 { __u32 mem_offset ; unsigned long userptr ; }; struct v4l2_plane { __u32 bytesused ; __u32 length ; union __anonunion_m_172 m ; __u32 data_offset ; __u32 reserved[11U] ; }; union __anonunion_m_173 { __u32 offset ; unsigned long userptr ; struct v4l2_plane *planes ; }; struct v4l2_buffer { __u32 index ; enum v4l2_buf_type type ; __u32 bytesused ; __u32 flags ; enum v4l2_field field ; struct timeval timestamp ; struct v4l2_timecode timecode ; __u32 sequence ; enum v4l2_memory memory ; union __anonunion_m_173 m ; __u32 length ; __u32 input ; __u32 reserved ; }; struct v4l2_framebuffer { __u32 capability ; __u32 flags ; void *base ; struct v4l2_pix_format fmt ; }; struct v4l2_clip { struct v4l2_rect c ; struct v4l2_clip *next ; }; struct v4l2_window { struct v4l2_rect w ; enum v4l2_field field ; __u32 chromakey ; struct v4l2_clip *clips ; __u32 clipcount ; void *bitmap ; __u8 global_alpha ; }; struct v4l2_captureparm { __u32 capability ; __u32 capturemode ; struct v4l2_fract timeperframe ; __u32 extendedmode ; __u32 readbuffers ; __u32 reserved[4U] ; }; struct v4l2_outputparm { __u32 capability ; __u32 outputmode ; struct v4l2_fract timeperframe ; __u32 extendedmode ; __u32 writebuffers ; __u32 reserved[4U] ; }; struct v4l2_cropcap { enum v4l2_buf_type type ; struct v4l2_rect bounds ; struct v4l2_rect defrect ; struct v4l2_fract pixelaspect ; }; struct v4l2_crop { enum v4l2_buf_type type ; struct v4l2_rect c ; }; typedef __u64 v4l2_std_id; struct v4l2_dv_preset { __u32 preset ; __u32 reserved[4U] ; }; struct v4l2_dv_enum_preset { __u32 index ; __u32 preset ; __u8 name[32U] ; __u32 width ; __u32 height ; __u32 reserved[4U] ; }; struct v4l2_bt_timings { __u32 width ; __u32 height ; __u32 interlaced ; __u32 polarities ; __u64 pixelclock ; __u32 hfrontporch ; __u32 hsync ; __u32 hbackporch ; __u32 vfrontporch ; __u32 vsync ; __u32 vbackporch ; __u32 il_vfrontporch ; __u32 il_vsync ; __u32 il_vbackporch ; __u32 reserved[16U] ; }; union __anonunion____missing_field_name_174 { struct v4l2_bt_timings bt ; __u32 reserved[32U] ; }; struct v4l2_dv_timings { __u32 type ; union __anonunion____missing_field_name_174 __annonCompField44 ; }; struct v4l2_input { __u32 index ; __u8 name[32U] ; __u32 type ; __u32 audioset ; __u32 tuner ; v4l2_std_id std ; __u32 status ; __u32 capabilities ; __u32 reserved[3U] ; }; struct v4l2_output { __u32 index ; __u8 name[32U] ; __u32 type ; __u32 audioset ; __u32 modulator ; v4l2_std_id std ; __u32 capabilities ; __u32 reserved[3U] ; }; struct v4l2_control { __u32 id ; __s32 value ; }; union __anonunion____missing_field_name_175 { __s32 value ; __s64 value64 ; char *string ; }; struct v4l2_ext_control { __u32 id ; __u32 size ; __u32 reserved2[1U] ; union __anonunion____missing_field_name_175 __annonCompField45 ; }; struct v4l2_ext_controls { __u32 ctrl_class ; __u32 count ; __u32 error_idx ; __u32 reserved[2U] ; struct v4l2_ext_control *controls ; }; enum v4l2_ctrl_type { V4L2_CTRL_TYPE_INTEGER = 1, V4L2_CTRL_TYPE_BOOLEAN = 2, V4L2_CTRL_TYPE_MENU = 3, V4L2_CTRL_TYPE_BUTTON = 4, V4L2_CTRL_TYPE_INTEGER64 = 5, V4L2_CTRL_TYPE_CTRL_CLASS = 6, V4L2_CTRL_TYPE_STRING = 7 } ; struct v4l2_queryctrl { __u32 id ; enum v4l2_ctrl_type type ; __u8 name[32U] ; __s32 minimum ; __s32 maximum ; __s32 step ; __s32 default_value ; __u32 flags ; __u32 reserved[2U] ; }; struct v4l2_querymenu { __u32 id ; __u32 index ; __u8 name[32U] ; __u32 reserved ; }; struct v4l2_tuner { __u32 index ; __u8 name[32U] ; enum v4l2_tuner_type type ; __u32 capability ; __u32 rangelow ; __u32 rangehigh ; __u32 rxsubchans ; __u32 audmode ; __s32 signal ; __s32 afc ; __u32 reserved[4U] ; }; struct v4l2_modulator { __u32 index ; __u8 name[32U] ; __u32 capability ; __u32 rangelow ; __u32 rangehigh ; __u32 txsubchans ; __u32 reserved[4U] ; }; struct v4l2_frequency { __u32 tuner ; enum v4l2_tuner_type type ; __u32 frequency ; __u32 reserved[8U] ; }; struct v4l2_hw_freq_seek { __u32 tuner ; enum v4l2_tuner_type type ; __u32 seek_upward ; __u32 wrap_around ; __u32 spacing ; __u32 reserved[7U] ; }; struct v4l2_audio { __u32 index ; __u8 name[32U] ; __u32 capability ; __u32 mode ; __u32 reserved[2U] ; }; struct v4l2_audioout { __u32 index ; __u8 name[32U] ; __u32 capability ; __u32 mode ; __u32 reserved[2U] ; }; struct v4l2_enc_idx_entry { __u64 offset ; __u64 pts ; __u32 length ; __u32 flags ; __u32 reserved[2U] ; }; struct v4l2_enc_idx { __u32 entries ; __u32 entries_cap ; __u32 reserved[4U] ; struct v4l2_enc_idx_entry entry[64U] ; }; struct __anonstruct_raw_177 { __u32 data[8U] ; }; union __anonunion____missing_field_name_176 { struct __anonstruct_raw_177 raw ; }; struct v4l2_encoder_cmd { __u32 cmd ; __u32 flags ; union __anonunion____missing_field_name_176 __annonCompField46 ; }; struct v4l2_vbi_format { __u32 sampling_rate ; __u32 offset ; __u32 samples_per_line ; __u32 sample_format ; __s32 start[2U] ; __u32 count[2U] ; __u32 flags ; __u32 reserved[2U] ; }; struct v4l2_sliced_vbi_format { __u16 service_set ; __u16 service_lines[2U][24U] ; __u32 io_size ; __u32 reserved[2U] ; }; struct v4l2_sliced_vbi_cap { __u16 service_set ; __u16 service_lines[2U][24U] ; enum v4l2_buf_type type ; __u32 reserved[3U] ; }; struct v4l2_sliced_vbi_data { __u32 id ; __u32 field ; __u32 line ; __u32 reserved ; __u8 data[48U] ; }; struct v4l2_plane_pix_format { __u32 sizeimage ; __u16 bytesperline ; __u16 reserved[7U] ; }; struct v4l2_pix_format_mplane { __u32 width ; __u32 height ; __u32 pixelformat ; enum v4l2_field field ; enum v4l2_colorspace colorspace ; struct v4l2_plane_pix_format plane_fmt[8U] ; __u8 num_planes ; __u8 reserved[11U] ; }; union __anonunion_fmt_179 { struct v4l2_pix_format pix ; struct v4l2_pix_format_mplane pix_mp ; struct v4l2_window win ; struct v4l2_vbi_format vbi ; struct v4l2_sliced_vbi_format sliced ; __u8 raw_data[200U] ; }; struct v4l2_format { enum v4l2_buf_type type ; union __anonunion_fmt_179 fmt ; }; union __anonunion_parm_180 { struct v4l2_captureparm capture ; struct v4l2_outputparm output ; __u8 raw_data[200U] ; }; struct v4l2_streamparm { enum v4l2_buf_type type ; union __anonunion_parm_180 parm ; }; struct v4l2_event_subscription { __u32 type ; __u32 reserved[7U] ; }; union __anonunion____missing_field_name_182 { __u32 addr ; char name[32U] ; }; struct v4l2_dbg_match { __u32 type ; union __anonunion____missing_field_name_182 __annonCompField48 ; }; struct v4l2_dbg_register { struct v4l2_dbg_match match ; __u32 size ; __u64 reg ; __u64 val ; }; struct v4l2_dbg_chip_ident { struct v4l2_dbg_match match ; __u32 ident ; __u32 revision ; }; enum v4l2_mbus_pixelcode { V4L2_MBUS_FMT_FIXED = 1, V4L2_MBUS_FMT_RGB444_2X8_PADHI_BE = 4097, V4L2_MBUS_FMT_RGB444_2X8_PADHI_LE = 4098, V4L2_MBUS_FMT_RGB555_2X8_PADHI_BE = 4099, V4L2_MBUS_FMT_RGB555_2X8_PADHI_LE = 4100, V4L2_MBUS_FMT_BGR565_2X8_BE = 4101, V4L2_MBUS_FMT_BGR565_2X8_LE = 4102, V4L2_MBUS_FMT_RGB565_2X8_BE = 4103, V4L2_MBUS_FMT_RGB565_2X8_LE = 4104, V4L2_MBUS_FMT_Y8_1X8 = 8193, V4L2_MBUS_FMT_UYVY8_1_5X8 = 8194, V4L2_MBUS_FMT_VYUY8_1_5X8 = 8195, V4L2_MBUS_FMT_YUYV8_1_5X8 = 8196, V4L2_MBUS_FMT_YVYU8_1_5X8 = 8197, V4L2_MBUS_FMT_UYVY8_2X8 = 8198, V4L2_MBUS_FMT_VYUY8_2X8 = 8199, V4L2_MBUS_FMT_YUYV8_2X8 = 8200, V4L2_MBUS_FMT_YVYU8_2X8 = 8201, V4L2_MBUS_FMT_Y10_1X10 = 8202, V4L2_MBUS_FMT_YUYV10_2X10 = 8203, V4L2_MBUS_FMT_YVYU10_2X10 = 8204, V4L2_MBUS_FMT_Y12_1X12 = 8211, V4L2_MBUS_FMT_UYVY8_1X16 = 8207, V4L2_MBUS_FMT_VYUY8_1X16 = 8208, V4L2_MBUS_FMT_YUYV8_1X16 = 8209, V4L2_MBUS_FMT_YVYU8_1X16 = 8210, V4L2_MBUS_FMT_YUYV10_1X20 = 8205, V4L2_MBUS_FMT_YVYU10_1X20 = 8206, V4L2_MBUS_FMT_SBGGR8_1X8 = 12289, V4L2_MBUS_FMT_SGBRG8_1X8 = 12307, V4L2_MBUS_FMT_SGRBG8_1X8 = 12290, V4L2_MBUS_FMT_SRGGB8_1X8 = 12308, V4L2_MBUS_FMT_SBGGR10_DPCM8_1X8 = 12299, V4L2_MBUS_FMT_SGBRG10_DPCM8_1X8 = 12300, V4L2_MBUS_FMT_SGRBG10_DPCM8_1X8 = 12297, V4L2_MBUS_FMT_SRGGB10_DPCM8_1X8 = 12301, V4L2_MBUS_FMT_SBGGR10_2X8_PADHI_BE = 12291, V4L2_MBUS_FMT_SBGGR10_2X8_PADHI_LE = 12292, V4L2_MBUS_FMT_SBGGR10_2X8_PADLO_BE = 12293, V4L2_MBUS_FMT_SBGGR10_2X8_PADLO_LE = 12294, V4L2_MBUS_FMT_SBGGR10_1X10 = 12295, V4L2_MBUS_FMT_SGBRG10_1X10 = 12302, V4L2_MBUS_FMT_SGRBG10_1X10 = 12298, V4L2_MBUS_FMT_SRGGB10_1X10 = 12303, V4L2_MBUS_FMT_SBGGR12_1X12 = 12296, V4L2_MBUS_FMT_SGBRG12_1X12 = 12304, V4L2_MBUS_FMT_SGRBG12_1X12 = 12305, V4L2_MBUS_FMT_SRGGB12_1X12 = 12306 } ; struct v4l2_mbus_framefmt { __u32 width ; __u32 height ; __u32 code ; __u32 field ; __u32 colorspace ; __u32 reserved[7U] ; }; struct v4l2_subdev_format { __u32 which ; __u32 pad ; struct v4l2_mbus_framefmt format ; __u32 reserved[8U] ; }; struct v4l2_subdev_crop { __u32 which ; __u32 pad ; struct v4l2_rect rect ; __u32 reserved[8U] ; }; struct v4l2_subdev_mbus_code_enum { __u32 pad ; __u32 index ; __u32 code ; __u32 reserved[9U] ; }; struct v4l2_subdev_frame_size_enum { __u32 index ; __u32 pad ; __u32 code ; __u32 min_width ; __u32 max_width ; __u32 min_height ; __u32 max_height ; __u32 reserved[9U] ; }; struct v4l2_subdev_frame_interval { __u32 pad ; struct v4l2_fract interval ; __u32 reserved[9U] ; }; struct v4l2_subdev_frame_interval_enum { __u32 index ; __u32 pad ; __u32 code ; __u32 width ; __u32 height ; struct v4l2_fract interval ; __u32 reserved[9U] ; }; struct video_device; struct v4l2_device; struct v4l2_ctrl_handler; struct v4l2_prio_state { atomic_t prios[4U] ; }; struct v4l2_file_operations { struct module *owner ; ssize_t (*read)(struct file * , char * , size_t , loff_t * ) ; ssize_t (*write)(struct file * , char const * , size_t , loff_t * ) ; unsigned int (*poll)(struct file * , struct poll_table_struct * ) ; long (*ioctl)(struct file * , unsigned int , unsigned long ) ; long (*unlocked_ioctl)(struct file * , unsigned int , unsigned long ) ; int (*mmap)(struct file * , struct vm_area_struct * ) ; int (*open)(struct file * ) ; int (*release)(struct file * ) ; }; struct v4l2_ioctl_ops; struct video_device { struct media_entity entity ; struct v4l2_file_operations const *fops ; struct device dev ; struct cdev *cdev ; struct device *parent ; struct v4l2_device *v4l2_dev ; struct v4l2_ctrl_handler *ctrl_handler ; struct v4l2_prio_state *prio ; char name[32U] ; int vfl_type ; int minor ; u16 num ; unsigned long flags ; int index ; spinlock_t fh_lock ; struct list_head fh_list ; int debug ; v4l2_std_id tvnorms ; v4l2_std_id current_norm ; void (*release)(struct video_device * ) ; struct v4l2_ioctl_ops const *ioctl_ops ; struct mutex *lock ; }; struct v4l2_subdev_ops; struct v4l2_priv_tun_config { int tuner ; void *priv ; }; struct v4l2_events; struct v4l2_fh { struct list_head list ; struct video_device *vdev ; struct v4l2_events *events ; enum v4l2_priority prio ; }; struct v4l2_subdev_fh; struct tuner_setup; struct v4l2_decode_vbi_line { u32 is_second_field ; u8 *p ; u32 line ; u32 type ; }; struct v4l2_subdev_io_pin_config { u32 flags ; u8 pin ; u8 function ; u8 value ; u8 strength ; }; struct v4l2_subdev_core_ops { int (*g_chip_ident)(struct v4l2_subdev * , struct v4l2_dbg_chip_ident * ) ; int (*log_status)(struct v4l2_subdev * ) ; int (*s_io_pin_config)(struct v4l2_subdev * , size_t , struct v4l2_subdev_io_pin_config * ) ; int (*init)(struct v4l2_subdev * , u32 ) ; int (*load_fw)(struct v4l2_subdev * ) ; int (*reset)(struct v4l2_subdev * , u32 ) ; int (*s_gpio)(struct v4l2_subdev * , u32 ) ; int (*queryctrl)(struct v4l2_subdev * , struct v4l2_queryctrl * ) ; int (*g_ctrl)(struct v4l2_subdev * , struct v4l2_control * ) ; int (*s_ctrl)(struct v4l2_subdev * , struct v4l2_control * ) ; int (*g_ext_ctrls)(struct v4l2_subdev * , struct v4l2_ext_controls * ) ; int (*s_ext_ctrls)(struct v4l2_subdev * , struct v4l2_ext_controls * ) ; int (*try_ext_ctrls)(struct v4l2_subdev * , struct v4l2_ext_controls * ) ; int (*querymenu)(struct v4l2_subdev * , struct v4l2_querymenu * ) ; int (*s_std)(struct v4l2_subdev * , v4l2_std_id ) ; long (*ioctl)(struct v4l2_subdev * , unsigned int , void * ) ; int (*g_register)(struct v4l2_subdev * , struct v4l2_dbg_register * ) ; int (*s_register)(struct v4l2_subdev * , struct v4l2_dbg_register * ) ; int (*s_power)(struct v4l2_subdev * , int ) ; int (*interrupt_service_routine)(struct v4l2_subdev * , u32 , bool * ) ; int (*subscribe_event)(struct v4l2_subdev * , struct v4l2_fh * , struct v4l2_event_subscription * ) ; int (*unsubscribe_event)(struct v4l2_subdev * , struct v4l2_fh * , struct v4l2_event_subscription * ) ; }; struct v4l2_subdev_tuner_ops { int (*s_mode)(struct v4l2_subdev * , enum v4l2_tuner_type ) ; int (*s_radio)(struct v4l2_subdev * ) ; int (*s_frequency)(struct v4l2_subdev * , struct v4l2_frequency * ) ; int (*g_frequency)(struct v4l2_subdev * , struct v4l2_frequency * ) ; int (*g_tuner)(struct v4l2_subdev * , struct v4l2_tuner * ) ; int (*s_tuner)(struct v4l2_subdev * , struct v4l2_tuner * ) ; int (*g_modulator)(struct v4l2_subdev * , struct v4l2_modulator * ) ; int (*s_modulator)(struct v4l2_subdev * , struct v4l2_modulator * ) ; int (*s_type_addr)(struct v4l2_subdev * , struct tuner_setup * ) ; int (*s_config)(struct v4l2_subdev * , struct v4l2_priv_tun_config const * ) ; }; struct v4l2_subdev_audio_ops { int (*s_clock_freq)(struct v4l2_subdev * , u32 ) ; int (*s_i2s_clock_freq)(struct v4l2_subdev * , u32 ) ; int (*s_routing)(struct v4l2_subdev * , u32 , u32 , u32 ) ; int (*s_stream)(struct v4l2_subdev * , int ) ; }; struct v4l2_subdev_video_ops { int (*s_routing)(struct v4l2_subdev * , u32 , u32 , u32 ) ; int (*s_crystal_freq)(struct v4l2_subdev * , u32 , u32 ) ; int (*s_std_output)(struct v4l2_subdev * , v4l2_std_id ) ; int (*querystd)(struct v4l2_subdev * , v4l2_std_id * ) ; int (*g_input_status)(struct v4l2_subdev * , u32 * ) ; int (*s_stream)(struct v4l2_subdev * , int ) ; int (*cropcap)(struct v4l2_subdev * , struct v4l2_cropcap * ) ; int (*g_crop)(struct v4l2_subdev * , struct v4l2_crop * ) ; int (*s_crop)(struct v4l2_subdev * , struct v4l2_crop * ) ; int (*g_parm)(struct v4l2_subdev * , struct v4l2_streamparm * ) ; int (*s_parm)(struct v4l2_subdev * , struct v4l2_streamparm * ) ; int (*g_frame_interval)(struct v4l2_subdev * , struct v4l2_subdev_frame_interval * ) ; int (*s_frame_interval)(struct v4l2_subdev * , struct v4l2_subdev_frame_interval * ) ; int (*enum_framesizes)(struct v4l2_subdev * , struct v4l2_frmsizeenum * ) ; int (*enum_frameintervals)(struct v4l2_subdev * , struct v4l2_frmivalenum * ) ; int (*enum_dv_presets)(struct v4l2_subdev * , struct v4l2_dv_enum_preset * ) ; int (*s_dv_preset)(struct v4l2_subdev * , struct v4l2_dv_preset * ) ; int (*query_dv_preset)(struct v4l2_subdev * , struct v4l2_dv_preset * ) ; int (*s_dv_timings)(struct v4l2_subdev * , struct v4l2_dv_timings * ) ; int (*g_dv_timings)(struct v4l2_subdev * , struct v4l2_dv_timings * ) ; int (*enum_mbus_fmt)(struct v4l2_subdev * , unsigned int , enum v4l2_mbus_pixelcode * ) ; int (*enum_mbus_fsizes)(struct v4l2_subdev * , struct v4l2_frmsizeenum * ) ; int (*g_mbus_fmt)(struct v4l2_subdev * , struct v4l2_mbus_framefmt * ) ; int (*try_mbus_fmt)(struct v4l2_subdev * , struct v4l2_mbus_framefmt * ) ; int (*s_mbus_fmt)(struct v4l2_subdev * , struct v4l2_mbus_framefmt * ) ; }; struct v4l2_subdev_vbi_ops { int (*decode_vbi_line)(struct v4l2_subdev * , struct v4l2_decode_vbi_line * ) ; int (*s_vbi_data)(struct v4l2_subdev * , struct v4l2_sliced_vbi_data const * ) ; int (*g_vbi_data)(struct v4l2_subdev * , struct v4l2_sliced_vbi_data * ) ; int (*g_sliced_vbi_cap)(struct v4l2_subdev * , struct v4l2_sliced_vbi_cap * ) ; int (*s_raw_fmt)(struct v4l2_subdev * , struct v4l2_vbi_format * ) ; int (*g_sliced_fmt)(struct v4l2_subdev * , struct v4l2_sliced_vbi_format * ) ; int (*s_sliced_fmt)(struct v4l2_subdev * , struct v4l2_sliced_vbi_format * ) ; }; struct v4l2_subdev_sensor_ops { int (*g_skip_top_lines)(struct v4l2_subdev * , u32 * ) ; int (*g_skip_frames)(struct v4l2_subdev * , u32 * ) ; }; enum v4l2_subdev_ir_mode { V4L2_SUBDEV_IR_MODE_PULSE_WIDTH = 0 } ; struct v4l2_subdev_ir_parameters { unsigned int bytes_per_data_element ; enum v4l2_subdev_ir_mode mode ; bool enable ; bool interrupt_enable ; bool shutdown ; bool modulation ; u32 max_pulse_width ; unsigned int carrier_freq ; unsigned int duty_cycle ; bool invert_level ; bool invert_carrier_sense ; u32 noise_filter_min_width ; unsigned int carrier_range_lower ; unsigned int carrier_range_upper ; u32 resolution ; }; struct v4l2_subdev_ir_ops { int (*rx_read)(struct v4l2_subdev * , u8 * , size_t , ssize_t * ) ; int (*rx_g_parameters)(struct v4l2_subdev * , struct v4l2_subdev_ir_parameters * ) ; int (*rx_s_parameters)(struct v4l2_subdev * , struct v4l2_subdev_ir_parameters * ) ; int (*tx_write)(struct v4l2_subdev * , u8 * , size_t , ssize_t * ) ; int (*tx_g_parameters)(struct v4l2_subdev * , struct v4l2_subdev_ir_parameters * ) ; int (*tx_s_parameters)(struct v4l2_subdev * , struct v4l2_subdev_ir_parameters * ) ; }; struct v4l2_subdev_pad_ops { int (*enum_mbus_code)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_mbus_code_enum * ) ; int (*enum_frame_size)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_frame_size_enum * ) ; int (*enum_frame_interval)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_frame_interval_enum * ) ; int (*get_fmt)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_format * ) ; int (*set_fmt)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_format * ) ; int (*set_crop)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_crop * ) ; int (*get_crop)(struct v4l2_subdev * , struct v4l2_subdev_fh * , struct v4l2_subdev_crop * ) ; }; struct v4l2_subdev_ops { struct v4l2_subdev_core_ops const *core ; struct v4l2_subdev_tuner_ops const *tuner ; struct v4l2_subdev_audio_ops const *audio ; struct v4l2_subdev_video_ops const *video ; struct v4l2_subdev_vbi_ops const *vbi ; struct v4l2_subdev_ir_ops const *ir ; struct v4l2_subdev_sensor_ops const *sensor ; struct v4l2_subdev_pad_ops const *pad ; }; struct v4l2_subdev_internal_ops { int (*registered)(struct v4l2_subdev * ) ; void (*unregistered)(struct v4l2_subdev * ) ; int (*open)(struct v4l2_subdev * , struct v4l2_subdev_fh * ) ; int (*close)(struct v4l2_subdev * , struct v4l2_subdev_fh * ) ; }; struct v4l2_subdev { struct media_entity entity ; struct list_head list ; struct module *owner ; u32 flags ; struct v4l2_device *v4l2_dev ; struct v4l2_subdev_ops const *ops ; struct v4l2_subdev_internal_ops const *internal_ops ; struct v4l2_ctrl_handler *ctrl_handler ; char name[32U] ; u32 grp_id ; void *dev_priv ; void *host_priv ; struct video_device devnode ; unsigned int nevents ; }; struct v4l2_subdev_fh { struct v4l2_fh vfh ; struct v4l2_mbus_framefmt *try_fmt ; struct v4l2_rect *try_crop ; }; struct v4l2_device { struct device *dev ; struct media_device *mdev ; struct list_head subdevs ; spinlock_t lock ; char name[36U] ; void (*notify)(struct v4l2_subdev * , unsigned int , void * ) ; struct v4l2_ctrl_handler *ctrl_handler ; struct v4l2_prio_state prio ; struct mutex ioctl_lock ; struct kref ref ; void (*release)(struct v4l2_device * ) ; }; struct v4l2_ioctl_ops { int (*vidioc_querycap)(struct file * , void * , struct v4l2_capability * ) ; int (*vidioc_g_priority)(struct file * , void * , enum v4l2_priority * ) ; int (*vidioc_s_priority)(struct file * , void * , enum v4l2_priority ) ; int (*vidioc_enum_fmt_vid_cap)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_enum_fmt_vid_overlay)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_enum_fmt_vid_out)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_enum_fmt_vid_cap_mplane)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_enum_fmt_vid_out_mplane)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_enum_fmt_type_private)(struct file * , void * , struct v4l2_fmtdesc * ) ; int (*vidioc_g_fmt_vid_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vid_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vid_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vid_out_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_sliced_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_sliced_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vid_cap_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_vid_out_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_g_fmt_type_private)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_out_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_sliced_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_sliced_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_cap_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_vid_out_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_s_fmt_type_private)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_out_overlay)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_sliced_vbi_cap)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_sliced_vbi_out)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_cap_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_vid_out_mplane)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_try_fmt_type_private)(struct file * , void * , struct v4l2_format * ) ; int (*vidioc_reqbufs)(struct file * , void * , struct v4l2_requestbuffers * ) ; int (*vidioc_querybuf)(struct file * , void * , struct v4l2_buffer * ) ; int (*vidioc_qbuf)(struct file * , void * , struct v4l2_buffer * ) ; int (*vidioc_dqbuf)(struct file * , void * , struct v4l2_buffer * ) ; int (*vidioc_overlay)(struct file * , void * , unsigned int ) ; int (*vidioc_g_fbuf)(struct file * , void * , struct v4l2_framebuffer * ) ; int (*vidioc_s_fbuf)(struct file * , void * , struct v4l2_framebuffer * ) ; int (*vidioc_streamon)(struct file * , void * , enum v4l2_buf_type ) ; int (*vidioc_streamoff)(struct file * , void * , enum v4l2_buf_type ) ; int (*vidioc_g_std)(struct file * , void * , v4l2_std_id * ) ; int (*vidioc_s_std)(struct file * , void * , v4l2_std_id * ) ; int (*vidioc_querystd)(struct file * , void * , v4l2_std_id * ) ; int (*vidioc_enum_input)(struct file * , void * , struct v4l2_input * ) ; int (*vidioc_g_input)(struct file * , void * , unsigned int * ) ; int (*vidioc_s_input)(struct file * , void * , unsigned int ) ; int (*vidioc_enum_output)(struct file * , void * , struct v4l2_output * ) ; int (*vidioc_g_output)(struct file * , void * , unsigned int * ) ; int (*vidioc_s_output)(struct file * , void * , unsigned int ) ; int (*vidioc_queryctrl)(struct file * , void * , struct v4l2_queryctrl * ) ; int (*vidioc_g_ctrl)(struct file * , void * , struct v4l2_control * ) ; int (*vidioc_s_ctrl)(struct file * , void * , struct v4l2_control * ) ; int (*vidioc_g_ext_ctrls)(struct file * , void * , struct v4l2_ext_controls * ) ; int (*vidioc_s_ext_ctrls)(struct file * , void * , struct v4l2_ext_controls * ) ; int (*vidioc_try_ext_ctrls)(struct file * , void * , struct v4l2_ext_controls * ) ; int (*vidioc_querymenu)(struct file * , void * , struct v4l2_querymenu * ) ; int (*vidioc_enumaudio)(struct file * , void * , struct v4l2_audio * ) ; int (*vidioc_g_audio)(struct file * , void * , struct v4l2_audio * ) ; int (*vidioc_s_audio)(struct file * , void * , struct v4l2_audio * ) ; int (*vidioc_enumaudout)(struct file * , void * , struct v4l2_audioout * ) ; int (*vidioc_g_audout)(struct file * , void * , struct v4l2_audioout * ) ; int (*vidioc_s_audout)(struct file * , void * , struct v4l2_audioout * ) ; int (*vidioc_g_modulator)(struct file * , void * , struct v4l2_modulator * ) ; int (*vidioc_s_modulator)(struct file * , void * , struct v4l2_modulator * ) ; int (*vidioc_cropcap)(struct file * , void * , struct v4l2_cropcap * ) ; int (*vidioc_g_crop)(struct file * , void * , struct v4l2_crop * ) ; int (*vidioc_s_crop)(struct file * , void * , struct v4l2_crop * ) ; int (*vidioc_g_jpegcomp)(struct file * , void * , struct v4l2_jpegcompression * ) ; int (*vidioc_s_jpegcomp)(struct file * , void * , struct v4l2_jpegcompression * ) ; int (*vidioc_g_enc_index)(struct file * , void * , struct v4l2_enc_idx * ) ; int (*vidioc_encoder_cmd)(struct file * , void * , struct v4l2_encoder_cmd * ) ; int (*vidioc_try_encoder_cmd)(struct file * , void * , struct v4l2_encoder_cmd * ) ; int (*vidioc_g_parm)(struct file * , void * , struct v4l2_streamparm * ) ; int (*vidioc_s_parm)(struct file * , void * , struct v4l2_streamparm * ) ; int (*vidioc_g_tuner)(struct file * , void * , struct v4l2_tuner * ) ; int (*vidioc_s_tuner)(struct file * , void * , struct v4l2_tuner * ) ; int (*vidioc_g_frequency)(struct file * , void * , struct v4l2_frequency * ) ; int (*vidioc_s_frequency)(struct file * , void * , struct v4l2_frequency * ) ; int (*vidioc_g_sliced_vbi_cap)(struct file * , void * , struct v4l2_sliced_vbi_cap * ) ; int (*vidioc_log_status)(struct file * , void * ) ; int (*vidioc_s_hw_freq_seek)(struct file * , void * , struct v4l2_hw_freq_seek * ) ; int (*vidioc_g_register)(struct file * , void * , struct v4l2_dbg_register * ) ; int (*vidioc_s_register)(struct file * , void * , struct v4l2_dbg_register * ) ; int (*vidioc_g_chip_ident)(struct file * , void * , struct v4l2_dbg_chip_ident * ) ; int (*vidioc_enum_framesizes)(struct file * , void * , struct v4l2_frmsizeenum * ) ; int (*vidioc_enum_frameintervals)(struct file * , void * , struct v4l2_frmivalenum * ) ; int (*vidioc_enum_dv_presets)(struct file * , void * , struct v4l2_dv_enum_preset * ) ; int (*vidioc_s_dv_preset)(struct file * , void * , struct v4l2_dv_preset * ) ; int (*vidioc_g_dv_preset)(struct file * , void * , struct v4l2_dv_preset * ) ; int (*vidioc_query_dv_preset)(struct file * , void * , struct v4l2_dv_preset * ) ; int (*vidioc_s_dv_timings)(struct file * , void * , struct v4l2_dv_timings * ) ; int (*vidioc_g_dv_timings)(struct file * , void * , struct v4l2_dv_timings * ) ; int (*vidioc_subscribe_event)(struct v4l2_fh * , struct v4l2_event_subscription * ) ; int (*vidioc_unsubscribe_event)(struct v4l2_fh * , struct v4l2_event_subscription * ) ; long (*vidioc_default)(struct file * , void * , bool , int , void * ) ; }; struct si4713_platform_data { int gpio_reset ; }; struct si4713_rnl { __u32 index ; __u32 frequency ; __s32 rnl ; __u32 reserved[4U] ; }; struct rds_info { u32 pi ; u32 pty ; u32 deviation ; u8 ps_name[97U] ; u8 radio_text[385U] ; u32 enabled ; }; struct limiter_info { u32 release_time ; u32 deviation ; u32 enabled ; }; struct pilot_info { u32 deviation ; u32 frequency ; u32 enabled ; }; struct acomp_info { u32 release_time ; u32 attack_time ; s32 threshold ; u32 gain ; u32 enabled ; }; struct si4713_device { struct v4l2_subdev sd ; struct mutex mutex ; struct completion work ; struct rds_info rds_info ; struct limiter_info limiter_info ; struct pilot_info pilot_info ; struct acomp_info acomp_info ; struct regulator_bulk_data supplies[2U] ; int gpio_reset ; u32 frequency ; u32 preemphasis ; u32 mute ; u32 power_level ; u32 power_state ; u32 antenna_capacitor ; u32 stereo ; u32 tune_rnl ; }; typedef int ldv_func_ret_type; __inline static long ldv__builtin_expect(long exp , long c ) ; extern int printk(char const * , ...) ; extern void warn_slowpath_fmt(char const * , int const , char const * , ...) ; extern void might_fault(void) ; extern void *memcpy(void * , void const * , size_t ) ; extern void *memset(void * , int , size_t ) ; size_t strlen(char const *str ) ; extern char *strncpy(char * , char const * , __kernel_size_t ) ; extern size_t strlcpy(char * , char const * , size_t ) ; extern void __init_waitqueue_head(wait_queue_head_t * , struct lock_class_key * ) ; 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 usecs_to_jiffies(unsigned int const ) ; __inline static void init_completion(struct completion *x ) { struct lock_class_key __key ; { x->done = 0U; __init_waitqueue_head(& x->wait, & __key); return; } } extern unsigned long wait_for_completion_timeout(struct completion * , unsigned long ) ; extern void complete(struct completion * ) ; extern struct module __this_module ; void ldv_check_len(long n ) ; 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 *kzalloc(size_t size , gfp_t flags ) { void *tmp ; { tmp = kmalloc(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 v4l2_frequency *si4713_subdev_tuner_ops_group1 ; int ldv_irq_1_3 = 0; void *ldv_irq_data_1_1 ; int ldv_irq_1_0 = 0; void *ldv_irq_data_1_0 ; int ldv_state_variable_0 ; struct v4l2_subdev *si4713_subdev_tuner_ops_group0 ; struct v4l2_subdev *si4713_subdev_core_ops_group2 ; int ldv_state_variable_2 ; void *ldv_irq_data_1_3 ; void *ldv_irq_data_1_2 ; int ldv_irq_1_2 = 0; int LDV_IN_INTERRUPT = 1; int ldv_irq_1_1 = 0; int ldv_irq_line_1_3 ; struct v4l2_control *si4713_subdev_core_ops_group1 ; struct v4l2_ext_controls *si4713_subdev_core_ops_group0 ; int ldv_state_variable_3 ; int ldv_irq_line_1_0 ; int ref_cnt ; struct v4l2_modulator *si4713_subdev_tuner_ops_group2 ; int ldv_irq_line_1_1 ; struct i2c_client *si4713_i2c_driver_group0 ; int ldv_state_variable_1 ; int ldv_irq_line_1_2 ; int ldv_state_variable_4 ; void ldv_initialize_i2c_driver_2(void) ; void ldv_initialize_v4l2_subdev_core_ops_4(void) ; void disable_suitable_irq_1(int line , void *data ) ; int reg_check_1(irqreturn_t (*handler)(int , void * ) ) ; void activate_suitable_irq_1(int line , void *data ) ; int ldv_irq_1(int state , int line , void *data ) ; void choose_interrupt_1(void) ; void ldv_initialize_v4l2_subdev_tuner_ops_3(void) ; extern void __const_udelay(unsigned long ) ; extern void msleep(unsigned int ) ; extern unsigned long _copy_to_user(void * , void const * , unsigned int ) ; unsigned long ldv__copy_to_user_2(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 ) ; extern unsigned long _copy_from_user(void * , void const * , unsigned int ) ; unsigned long ldv__copy_from_user_1(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 ) ; __inline static unsigned long copy_from_user(void *to , void const *from , unsigned long n ) { int sz ; unsigned long tmp ; int __ret_warn_on ; long tmp___0 ; long tmp___1 ; { tmp = __builtin_object_size((void const *)to, 0); sz = (int )tmp; might_fault(); tmp___1 = ldv__builtin_expect((long )(sz == -1 || (unsigned long )sz >= n), 1L); if (tmp___1 != 0L) { n = ldv__copy_from_user_1(to, from, (unsigned int )n); } else { __ret_warn_on = 1; tmp___0 = ldv__builtin_expect(__ret_warn_on != 0, 0L); if (tmp___0 != 0L) { warn_slowpath_fmt("/home/ldvuser/andrianov/commit-tester-work/task-036--linux-stable--dir/inst/current/envs/linux-stable-064368f-1/linux-stable-064368f-1/arch/x86/include/asm/uaccess_64.h", 58, "Buffer overflow detected!\n"); } else { } ldv__builtin_expect(__ret_warn_on != 0, 0L); } return (n); } } __inline static unsigned long ldv_copy_from_user_7(void *to , void const *from , unsigned long n ) ; __inline static unsigned long ldv_copy_from_user_7(void *to , void const *from , unsigned long n ) ; __inline static int copy_to_user(void *dst , void const *src , unsigned int size ) { unsigned long tmp ; { might_fault(); tmp = ldv__copy_to_user_2(dst, src, size); return ((int )tmp); } } extern long __copy_user_nocache(void * , void const * , unsigned int , int ) ; long ldv___copy_user_nocache_3(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 , int ldv_func_arg4 ) ; long ldv___copy_user_nocache_4(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 , int ldv_func_arg4 ) ; 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_9(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_10(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) ; void ldv_free_irq_11(unsigned int ldv_func_arg1 , void *ldv_func_arg2 ) ; extern void *dev_get_drvdata(struct device const * ) ; extern int dev_err(struct device const * , char const * , ...) ; extern int i2c_master_send(struct i2c_client const * , char const * , int ) ; extern int i2c_master_recv(struct i2c_client const * , char * , int ) ; __inline static void *i2c_get_clientdata(struct i2c_client const *dev ) { void *tmp ; { tmp = dev_get_drvdata(& dev->dev); return (tmp); } } extern int i2c_register_driver(struct module * , struct i2c_driver * ) ; extern void i2c_del_driver(struct i2c_driver * ) ; __inline static int i2c_add_driver(struct i2c_driver *driver ) { int tmp ; { tmp = i2c_register_driver(& __this_module, driver); return (tmp); } } __inline static int gpio_is_valid(int number ) { { return ((unsigned int )number <= 255U); } } extern int gpio_request(unsigned int , char const * ) ; extern void gpio_free(unsigned int ) ; extern int gpio_direction_output(unsigned int , int ) ; extern void __gpio_set_value(unsigned int , int ) ; __inline static void gpio_set_value(unsigned int gpio , int value ) { { __gpio_set_value(gpio, value); return; } } extern int regulator_bulk_get(struct device * , int , struct regulator_bulk_data * ) ; extern int regulator_bulk_enable(int , struct regulator_bulk_data * ) ; extern int regulator_bulk_disable(int , struct regulator_bulk_data * ) ; extern void regulator_bulk_free(int , struct regulator_bulk_data * ) ; extern int v4l2_ctrl_query_fill(struct v4l2_queryctrl * , s32 , s32 , s32 , s32 ) ; extern void v4l2_i2c_subdev_init(struct v4l2_subdev * , struct i2c_client * , struct v4l2_subdev_ops const * ) ; __inline static void *v4l2_get_subdevdata(struct v4l2_subdev const *sd ) { { return ((void *)sd->dev_priv); } } extern void v4l2_device_unregister_subdev(struct v4l2_subdev * ) ; static int debug ; static char const *si4713_supply_names[2U] = { "vio", "vdd"}; static long limiter_times[40U] = { 2000L, 250L, 1000L, 500L, 510L, 1000L, 255L, 2000L, 170L, 3000L, 127L, 4020L, 102L, 5010L, 85L, 6020L, 73L, 7010L, 64L, 7990L, 57L, 8970L, 51L, 10030L, 25L, 20470L, 17L, 30110L, 13L, 39380L, 10L, 51190L, 8L, 63690L, 7L, 73140L, 6L, 85330L, 5L, 102390L}; static unsigned long acomp_rtimes[10U] = { 0UL, 100000UL, 1UL, 200000UL, 2UL, 350000UL, 3UL, 525000UL, 4UL, 1000000UL}; static unsigned long preemphasis_values[6U] = { 2UL, 0UL, 1UL, 1UL, 0UL, 2UL}; static int usecs_to_dev(unsigned long usecs , unsigned long const *array , int size ) { int i ; int rval ; { rval = -22; i = 0; goto ldv_25594; ldv_25593: ; if ((unsigned long )*(array + ((unsigned long )(i * 2) + 1UL)) >= usecs) { rval = (int )*(array + (unsigned long )(i * 2)); goto ldv_25592; } else { } i = i + 1; ldv_25594: ; if (size / 2 > i) { goto ldv_25593; } else { } ldv_25592: ; return (rval); } } static unsigned long dev_to_usecs(int value , unsigned long const *array , int size ) { int i ; int rval ; { rval = -22; i = 0; goto ldv_25604; ldv_25603: ; if ((unsigned long )*(array + (unsigned long )(i * 2)) == (unsigned long )value) { rval = (int )*(array + ((unsigned long )(i * 2) + 1UL)); goto ldv_25602; } else { } i = i + 1; ldv_25604: ; if (size / 2 > i) { goto ldv_25603; } else { } ldv_25602: ; return ((unsigned long )rval); } } static irqreturn_t si4713_handler(int irq , void *dev ) { struct si4713_device *sdev ; { sdev = (struct si4713_device *)dev; if (debug > 1) { printk("<7>%s: %s: sending signal to completion work.\n", (char *)(& sdev->sd.name), "si4713_handler"); } else { } complete(& sdev->work); return (1); } } static int si4713_send_command(struct si4713_device *sdev , u8 const command , u8 const *args , int const argn , u8 *response , int const respn , int const usecs ) { struct i2c_client *client ; void *tmp ; u8 data1[8U] ; int err ; size_t __len ; void *__ret ; unsigned long tmp___0 ; unsigned long tmp___1 ; { tmp = v4l2_get_subdevdata((struct v4l2_subdev const *)(& sdev->sd)); client = (struct i2c_client *)tmp; if ((unsigned long )client->adapter == (unsigned long )((struct i2c_adapter *)0)) { return (-19); } else { } data1[0] = command; __len = (size_t )argn; __ret = __builtin_memcpy((void *)(& data1) + 1U, (void const *)args, __len); err = i2c_master_send((struct i2c_client const *)client, (char const *)(& data1), (int )argn + 1); if ((int )argn + 1 != err) { printk("<3>%s: Error while sending command 0x%02x\n", (char *)(& sdev->sd.name), (int )command); return (err <= 0 ? err : -5); } else { } tmp___0 = usecs_to_jiffies((unsigned int const )usecs); tmp___1 = wait_for_completion_timeout(& sdev->work, tmp___0 + 1UL); if (tmp___1 == 0UL) { printk("<4>%s: (%s) Device took too much time to answer.\n", (char *)(& sdev->sd.name), "si4713_send_command"); } else { } err = i2c_master_recv((struct i2c_client const *)client, (char *)response, respn); if (err != (int )respn) { printk("<3>%s: Error while reading response for command 0x%02x\n", (char *)(& sdev->sd.name), (int )command); return (err <= 0 ? err : -5); } else { } if ((int )((signed char )*response) >= 0 || ((int )*response & 64) != 0) { return (-16); } else { } return (0); } } static int si4713_read_property(struct si4713_device *sdev , u16 prop , u32 *pv ) { int err ; u8 val[4U] ; u8 args[3U] ; { args[0] = 0U; args[1] = (unsigned char )((int )prop >> 8); args[2] = (unsigned char )prop; err = si4713_send_command(sdev, 19, (u8 const *)(& args), 3, (u8 *)(& val), 4, 500); if (err < 0) { return (err); } else { } *pv = (u32 )(((int )val[2] << 8) | (int )val[3]); if (debug > 0) { printk("<7>%s: %s: property=0x%02x value=0x%02x status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_read_property", (int )prop, *pv, (int )val[0]); } else { } return (err); } } static int si4713_write_property(struct si4713_device *sdev , u16 prop , u16 val ) { int rval ; u8 resp[1U] ; u8 args[5U] ; { args[0] = 0U; args[1] = (unsigned char )((int )prop >> 8); args[2] = (unsigned char )prop; args[3] = (unsigned char )((int )val >> 8); args[4] = (unsigned char )val; rval = si4713_send_command(sdev, 18, (u8 const *)(& args), 5, (u8 *)(& resp), 1, 500); if (rval < 0) { return (rval); } else { } if (debug > 0) { printk("<7>%s: %s: property=0x%02x value=0x%02x status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_write_property", (int )prop, (int )val, (int )resp[0]); } else { } msleep(20U); return (rval); } } static int si4713_powerup(struct si4713_device *sdev ) { int err ; u8 resp[1U] ; u8 args[2U] ; int tmp ; int tmp___0 ; { args[0] = 194U; args[1] = 80U; if (sdev->power_state != 0U) { return (0); } else { } err = regulator_bulk_enable(2, (struct regulator_bulk_data *)(& sdev->supplies)); if (err != 0) { printk("<3>%s: Failed to enable supplies: %d\n", (char *)(& sdev->sd.name), err); return (err); } else { } tmp = gpio_is_valid(sdev->gpio_reset); if (tmp != 0) { __const_udelay(214750UL); gpio_set_value((unsigned int )sdev->gpio_reset, 1); } else { } err = si4713_send_command(sdev, 1, (u8 const *)(& args), 2, (u8 *)(& resp), 1, 200000); if (err == 0) { if (debug > 0) { printk("<7>%s: Powerup response: 0x%02x\n", (char *)(& sdev->sd.name), (int )resp[0]); } else { } if (debug > 0) { printk("<7>%s: Device in power up mode\n", (char *)(& sdev->sd.name)); } else { } sdev->power_state = 1U; err = si4713_write_property(sdev, 1, 129); } else { tmp___0 = gpio_is_valid(sdev->gpio_reset); if (tmp___0 != 0) { gpio_set_value((unsigned int )sdev->gpio_reset, 0); } else { } err = regulator_bulk_disable(2, (struct regulator_bulk_data *)(& sdev->supplies)); if (err != 0) { printk("<3>%s: Failed to disable supplies: %d\n", (char *)(& sdev->sd.name), err); } else { } } return (err); } } static int si4713_powerdown(struct si4713_device *sdev ) { int err ; u8 resp[1U] ; int tmp ; { if (sdev->power_state == 0U) { return (0); } else { } err = si4713_send_command(sdev, 17, (u8 const *)0U, 0, (u8 *)(& resp), 1, 500); if (err == 0) { if (debug > 0) { printk("<7>%s: Power down response: 0x%02x\n", (char *)(& sdev->sd.name), (int )resp[0]); } else { } if (debug > 0) { printk("<7>%s: Device in reset mode\n", (char *)(& sdev->sd.name)); } else { } tmp = gpio_is_valid(sdev->gpio_reset); if (tmp != 0) { gpio_set_value((unsigned int )sdev->gpio_reset, 0); } else { } err = regulator_bulk_disable(2, (struct regulator_bulk_data *)(& sdev->supplies)); if (err != 0) { printk("<3>%s: Failed to disable supplies: %d\n", (char *)(& sdev->sd.name), err); } else { } sdev->power_state = 0U; } else { } return (err); } } static int si4713_checkrev(struct si4713_device *sdev ) { struct i2c_client *client ; void *tmp ; int rval ; u8 resp[9U] ; { tmp = v4l2_get_subdevdata((struct v4l2_subdev const *)(& sdev->sd)); client = (struct i2c_client *)tmp; mutex_lock_nested(& sdev->mutex, 0U); rval = si4713_send_command(sdev, 16, (u8 const *)0U, 0, (u8 *)(& resp), 9, 500); if (rval < 0) { goto unlock; } else { } if ((unsigned int )resp[1] == 13U) { printk("<6>%s: chip found @ 0x%02x (%s)\n", (char *)(& sdev->sd.name), (int )client->addr << 1, (char *)(& (client->adapter)->name)); } else { printk("<3>%s: Invalid product number\n", (char *)(& sdev->sd.name)); rval = -22; } unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_wait_stc(struct si4713_device *sdev , int const usecs ) { int err ; u8 resp[1U] ; unsigned long tmp ; unsigned long tmp___0 ; { tmp = usecs_to_jiffies((unsigned int const )usecs); tmp___0 = wait_for_completion_timeout(& sdev->work, tmp + 1UL); if (tmp___0 == 0UL) { printk("<4>%s: %s: device took too much time to answer (%d usec).\n", (char *)(& sdev->sd.name), "si4713_wait_stc", usecs); } else { } err = si4713_send_command(sdev, 20, (u8 const *)0U, 0, (u8 *)(& resp), 1, 500); if (err < 0) { goto exit; } else { } if (debug > 0) { printk("<7>%s: %s: status bits: 0x%02x\n", (char *)(& sdev->sd.name), "si4713_wait_stc", (int )resp[0]); } else { } if (((int )resp[0] & 1) == 0) { err = -5; } else { } exit: ; return (err); } } static int si4713_tx_tune_freq(struct si4713_device *sdev , u16 frequency ) { int err ; u8 val[1U] ; u8 args[3U] ; { args[0] = 0U; args[1] = (unsigned char )((int )frequency >> 8); args[2] = (unsigned char )frequency; err = si4713_send_command(sdev, 48, (u8 const *)(& args), 3, (u8 *)(& val), 1, 500); if (err < 0) { return (err); } else { } if (debug > 0) { printk("<7>%s: %s: frequency=0x%02x status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_tune_freq", (int )frequency, (int )val[0]); } else { } err = si4713_wait_stc(sdev, 110000); if (err < 0) { return (err); } else { } return (((int )args[1] << 8) | (int )args[2]); } } static int si4713_tx_tune_power(struct si4713_device *sdev , u8 power , u8 antcap ) { int err ; u8 val[1U] ; u8 args[4U] ; int tmp ; { args[0] = 0U; args[1] = 0U; args[2] = power; args[3] = antcap; if ((((unsigned int )power != 0U && (unsigned int )power <= 87U) || (unsigned int )power > 120U) || (unsigned int )antcap > 191U) { return (-33); } else { } err = si4713_send_command(sdev, 49, (u8 const *)(& args), 4, (u8 *)(& val), 1, 500); if (err < 0) { return (err); } else { } if (debug > 0) { printk("<7>%s: %s: power=0x%02x antcap=0x%02x status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_tune_power", (int )power, (int )antcap, (int )val[0]); } else { } tmp = si4713_wait_stc(sdev, 30000); return (tmp); } } static int si4713_tx_tune_measure(struct si4713_device *sdev , u16 frequency , u8 antcap ) { int err ; u8 val[1U] ; u8 args[4U] ; int tmp ; { args[0] = 0U; args[1] = (unsigned char )((int )frequency >> 8); args[2] = (unsigned char )frequency; args[3] = antcap; sdev->tune_rnl = 255U; if ((unsigned int )antcap > 191U) { return (-33); } else { } err = si4713_send_command(sdev, 50, (u8 const *)(& args), 4, (u8 *)(& val), 1, 500); if (err < 0) { return (err); } else { } if (debug > 0) { printk("<7>%s: %s: frequency=0x%02x antcap=0x%02x status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_tune_measure", (int )frequency, (int )antcap, (int )val[0]); } else { } tmp = si4713_wait_stc(sdev, 110000); return (tmp); } } static int si4713_tx_tune_status(struct si4713_device *sdev , u8 intack , u16 *frequency , u8 *power , u8 *antcap , u8 *noise ) { int err ; u8 val[8U] ; u8 args[1U] ; { args[0] = (unsigned int )intack & 1U; err = si4713_send_command(sdev, 51, (u8 const *)(& args), 1, (u8 *)(& val), 8, 500); if (err == 0) { if (debug > 0) { printk("<7>%s: %s: status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_tune_status", (int )val[0]); } else { } *frequency = (u16 )((int )((short )((int )val[2] << 8)) | (int )((short )val[3])); sdev->frequency = (u32 )*frequency; *power = val[5]; *antcap = val[6]; *noise = val[7]; if (debug > 0) { printk("<7>%s: %s: response: %d x 10 kHz (power %d, antcap %d, rnl %d)\n", (char *)(& sdev->sd.name), "si4713_tx_tune_status", (int )*frequency, (int )*power, (int )*antcap, (int )*noise); } else { } } else { } return (err); } } static int si4713_tx_rds_buff(struct si4713_device *sdev , u8 mode , u16 rdsb , u16 rdsc , u16 rdsd , s8 *cbleft ) { int err ; u8 val[6U] ; u8 args[7U] ; { args[0] = (unsigned int )mode & 135U; args[1] = (unsigned char )((int )rdsb >> 8); args[2] = (unsigned char )rdsb; args[3] = (unsigned char )((int )rdsc >> 8); args[4] = (unsigned char )rdsc; args[5] = (unsigned char )((int )rdsd >> 8); args[6] = (unsigned char )rdsd; err = si4713_send_command(sdev, 53, (u8 const *)(& args), 7, (u8 *)(& val), 6, 500); if (err == 0) { if (debug > 0) { printk("<7>%s: %s: status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_rds_buff", (int )val[0]); } else { } *cbleft = (s8 )((int )val[2] - (int )val[3]); if (debug > 0) { printk("<7>%s: %s: response: interrupts 0x%02x cb avail: %d cb used %d fifo avail %d fifo used %d\n", (char *)(& sdev->sd.name), "si4713_tx_rds_buff", (int )val[1], (int )val[2], (int )val[3], (int )val[4], (int )val[5]); } else { } } else { } return (err); } } static int si4713_tx_rds_ps(struct si4713_device *sdev , u8 psid , unsigned char *pschar ) { int err ; u8 val[1U] ; u8 args[5U] ; { args[0] = (unsigned int )psid & 31U; args[1] = *pschar; args[2] = *(pschar + 1UL); args[3] = *(pschar + 2UL); args[4] = *(pschar + 3UL); err = si4713_send_command(sdev, 54, (u8 const *)(& args), 5, (u8 *)(& val), 1, 500); if (err < 0) { return (err); } else { } if (debug > 0) { printk("<7>%s: %s: status=0x%02x\n", (char *)(& sdev->sd.name), "si4713_tx_rds_ps", (int )val[0]); } else { } return (err); } } static int si4713_set_power_state(struct si4713_device *sdev , u8 value ) { int rval ; { mutex_lock_nested(& sdev->mutex, 0U); if ((unsigned int )value != 0U) { rval = si4713_powerup(sdev); } else { rval = si4713_powerdown(sdev); } mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_set_mute(struct si4713_device *sdev , u16 mute ) { int rval ; { rval = 0; mute = (u16 )(((int )((short )mute) & 1) | (int )((short )(((int )mute & 1) << 1))); mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_write_property(sdev, 8453, (int )mute); } else { } if (rval >= 0) { sdev->mute = (u32 )mute & 1U; } else { } mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_set_rds_ps_name(struct si4713_device *sdev , char *ps_name ) { int rval ; int i ; u8 len ; size_t tmp ; size_t tmp___0 ; size_t tmp___1 ; { rval = 0; len = 0U; tmp = strlen((char const *)ps_name); if (tmp == 0UL) { memset((void *)ps_name, 0, 97UL); } else { } mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { i = 0; goto ldv_25797; ldv_25796: rval = si4713_tx_rds_ps(sdev, (int )((u8 )(i / 4)), (unsigned char *)ps_name + (unsigned long )i); if (rval < 0) { goto unlock; } else { } i = i + 4; ldv_25797: ; if (i <= 95) { goto ldv_25796; } else { } tmp___1 = strlen((char const *)ps_name); if (tmp___1 != 0UL) { tmp___0 = strlen((char const *)ps_name); len = (unsigned int )((u8 )tmp___0) - 1U; } else { len = 1U; } rval = si4713_write_property(sdev, 11269, (int )((u16 )((unsigned int )len / 8U)) + (((unsigned int )len & 7U) != 0U)); if (rval < 0) { goto unlock; } else { } rval = si4713_write_property(sdev, 11268, 6); if (rval < 0) { goto unlock; } else { } } else { } strncpy((char *)(& sdev->rds_info.ps_name), (char const *)ps_name, 96UL); unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_set_rds_radio_text(struct si4713_device *sdev , char *rt ) { int rval ; int i ; u16 t_index ; u8 b_index ; u8 cr_inserted ; s8 left ; size_t tmp ; u8 tmp___0 ; { rval = 0; t_index = 0U; b_index = 0U; cr_inserted = 0U; mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state == 0U) { goto copy; } else { } rval = si4713_tx_rds_buff(sdev, 3, 0, 0, 0, & left); if (rval < 0) { goto unlock; } else { } tmp = strlen((char const *)rt); if (tmp == 0UL) { goto copy; } else { } ldv_25815: ; if ((unsigned int )t_index <= 59U) { i = 0; goto ldv_25813; ldv_25812: ; if ((int )((signed char )*(rt + (unsigned long )((int )t_index + i))) == 0 || (int )((signed char )*(rt + (unsigned long )((int )t_index + i))) == 13) { *(rt + (unsigned long )((int )t_index + i)) = 13; cr_inserted = 1U; goto ldv_25811; } else { } i = i + 1; ldv_25813: ; if (i <= 3) { goto ldv_25812; } else { } ldv_25811: ; } else { } tmp___0 = b_index; b_index = (u8 )((int )b_index + 1); rval = si4713_tx_rds_buff(sdev, 4, (int )((unsigned int )((u16 )tmp___0) | 8192U), (int )((u16 )((int )((short )((int )((unsigned short )*(rt + (unsigned long )t_index)) << 8)) | (int )((short )*(rt + ((unsigned long )t_index + 1UL))))), (int )((u16 )((int )((short )((int )((unsigned short )*(rt + ((unsigned long )t_index + 2UL))) << 8)) | (int )((short )*(rt + ((unsigned long )t_index + 3UL))))), & left); if (rval < 0) { goto unlock; } else { } t_index = (unsigned int )t_index + 4U; if ((unsigned int )cr_inserted != 0U) { goto ldv_25814; } else { } if ((int )left > 0) { goto ldv_25815; } else { } ldv_25814: ; copy: strncpy((char *)(& sdev->rds_info.radio_text), (char const *)rt, 384UL); unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_choose_econtrol_action(struct si4713_device *sdev , u32 id , u32 **shadow , s32 *bit , s32 *mask , u16 *property , int *mul , unsigned long **table , int *size ) { s32 rval ; { rval = 0; switch (id) { case 10160386U: *property = 11265U; *mul = 1; *shadow = & sdev->rds_info.pi; goto ldv_25829; case 10160466U: *property = 8705U; *mul = 1; *shadow = (u32 *)(& sdev->acomp_info.threshold); goto ldv_25829; case 10160465U: *property = 8708U; *mul = 1; *shadow = & sdev->acomp_info.gain; goto ldv_25829; case 10160482U: *property = 8455U; *mul = 1; *shadow = & sdev->pilot_info.frequency; goto ldv_25829; case 10160467U: *property = 8706U; *mul = 500; *shadow = & sdev->acomp_info.attack_time; goto ldv_25829; case 10160481U: *property = 8450U; *mul = 10; *shadow = & sdev->pilot_info.deviation; goto ldv_25829; case 10160450U: *property = 8449U; *mul = 10; *shadow = & sdev->limiter_info.deviation; goto ldv_25829; case 10160385U: *property = 8451U; *mul = 1; *shadow = & sdev->rds_info.deviation; goto ldv_25829; case 10160387U: *property = 11267U; *bit = 5; *mask = 992; *shadow = & sdev->rds_info.pty; goto ldv_25829; case 10160448U: *property = 8704U; *bit = 1; *mask = 2; *shadow = & sdev->limiter_info.enabled; goto ldv_25829; case 10160464U: *property = 8704U; *bit = 0; *mask = 1; *shadow = & sdev->acomp_info.enabled; goto ldv_25829; case 10160480U: *property = 8448U; *bit = 0; *mask = 1; *shadow = & sdev->pilot_info.enabled; goto ldv_25829; case 10160449U: *property = 8709U; *table = (unsigned long *)(& limiter_times); *size = 40; *shadow = & sdev->limiter_info.release_time; goto ldv_25829; case 10160468U: *property = 8707U; *table = (unsigned long *)(& acomp_rtimes); *size = 10; *shadow = & sdev->acomp_info.release_time; goto ldv_25829; case 10160496U: *property = 8454U; *table = (unsigned long *)(& preemphasis_values); *size = 6; *shadow = & sdev->preemphasis; goto ldv_25829; default: rval = -22; } ldv_25829: ; return (rval); } } static int si4713_queryctrl(struct v4l2_subdev *sd , struct v4l2_queryctrl *qc ) ; static int si4713_write_econtrol_string(struct si4713_device *sdev , struct v4l2_ext_control *control ) { struct v4l2_queryctrl vqc ; int len ; s32 rval ; char ps_name[97U] ; unsigned long tmp ; size_t tmp___0 ; char radio_text[385U] ; unsigned long tmp___1 ; size_t tmp___2 ; { rval = 0; vqc.id = control->id; rval = si4713_queryctrl(& sdev->sd, & vqc); if (rval < 0) { goto exit; } else { } switch (control->id) { case 10160389U: len = (int )(control->size - 1U); if (len > 96) { rval = -34; goto exit; } else { } tmp = ldv_copy_from_user_7((void *)(& ps_name), (void const *)control->__annonCompField45.string, (unsigned long )len); rval = (s32 )tmp; if (rval != 0) { rval = -14; goto exit; } else { } ps_name[len] = 0; tmp___0 = strlen((char const *)(& ps_name)); if (tmp___0 % (size_t )vqc.step != 0UL) { rval = -34; goto exit; } else { } rval = si4713_set_rds_ps_name(sdev, (char *)(& ps_name)); goto ldv_25864; case 10160390U: len = (int )(control->size - 1U); if (len > 384) { rval = -34; goto exit; } else { } tmp___1 = ldv_copy_from_user_7((void *)(& radio_text), (void const *)control->__annonCompField45.string, (unsigned long )len); rval = (s32 )tmp___1; if (rval != 0) { rval = -14; goto exit; } else { } radio_text[len] = 0; tmp___2 = strlen((char const *)(& radio_text)); if (tmp___2 % (size_t )vqc.step != 0UL) { rval = -34; goto exit; } else { } rval = si4713_set_rds_radio_text(sdev, (char *)(& radio_text)); goto ldv_25864; default: rval = -22; goto ldv_25864; } ldv_25864: ; exit: ; return (rval); } } static int validate_range(struct v4l2_subdev *sd , struct v4l2_ext_control *control ) { struct v4l2_queryctrl vqc ; int rval ; { vqc.id = control->id; rval = si4713_queryctrl(sd, & vqc); if (rval < 0) { goto exit; } else { } if (control->__annonCompField45.value < vqc.minimum || control->__annonCompField45.value > vqc.maximum) { rval = -34; } else { } exit: ; return (rval); } } static int si4713_write_econtrol_tune(struct si4713_device *sdev , struct v4l2_ext_control *control ) { s32 rval ; u8 power ; u8 antcap ; { rval = 0; rval = validate_range(& sdev->sd, control); if (rval < 0) { goto exit; } else { } mutex_lock_nested(& sdev->mutex, 0U); switch (control->id) { case 10160497U: power = (u8 )control->__annonCompField45.value; antcap = (u8 )sdev->antenna_capacitor; goto ldv_25884; case 10160498U: power = (u8 )sdev->power_level; antcap = (u8 )control->__annonCompField45.value; goto ldv_25884; default: rval = -22; goto unlock; } ldv_25884: ; if (sdev->power_state != 0U) { rval = si4713_tx_tune_power(sdev, (int )power, (int )antcap); } else { } if (rval == 0) { sdev->power_level = (u32 )power; sdev->antenna_capacitor = (u32 )antcap; } else { } unlock: mutex_unlock(& sdev->mutex); exit: ; return (rval); } } static int si4713_write_econtrol_integers(struct si4713_device *sdev , struct v4l2_ext_control *control ) { s32 rval ; u32 *shadow ; u32 val ; s32 bit ; s32 mask ; u16 property ; int mul ; unsigned long *table ; int size ; unsigned long tmp ; { shadow = (u32 *)0U; val = 0U; bit = 0; mask = 0; property = 0U; mul = 0; table = (unsigned long *)0UL; size = 0; rval = validate_range(& sdev->sd, control); if (rval < 0) { goto exit; } else { } rval = si4713_choose_econtrol_action(sdev, control->id, & shadow, & bit, & mask, & property, & mul, & table, & size); if (rval < 0) { goto exit; } else { } val = (u32 )control->__annonCompField45.value; if (mul != 0) { val = (u32 )(control->__annonCompField45.value / mul); } else if ((unsigned long )table != (unsigned long )((unsigned long *)0UL)) { rval = usecs_to_dev((unsigned long )control->__annonCompField45.value, (unsigned long const *)table, size); if (rval < 0) { goto exit; } else { } val = (u32 )rval; rval = 0; } else { } mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { if (mask != 0) { rval = si4713_read_property(sdev, (int )property, & val); if (rval < 0) { goto unlock; } else { } val = ((u32 )(~ mask) & val) | (u32 )(control->__annonCompField45.value << bit); } else { } rval = si4713_write_property(sdev, (int )property, (int )((u16 )val)); if (rval < 0) { goto unlock; } else { } if (mask != 0) { val = (u32 )control->__annonCompField45.value; } else { } } else { } if (mul != 0) { *shadow = val * (u32 )mul; } else if ((unsigned long )table != (unsigned long )((unsigned long *)0UL)) { tmp = dev_to_usecs((int )val, (unsigned long const *)table, size); rval = (s32 )tmp; if (rval < 0) { goto unlock; } else { } *shadow = (u32 )rval; rval = 0; } else { *shadow = val; } unlock: mutex_unlock(& sdev->mutex); exit: ; return (rval); } } static int si4713_s_frequency(struct v4l2_subdev *sd , struct v4l2_frequency *f ) ; static int si4713_s_modulator(struct v4l2_subdev *sd , struct v4l2_modulator *vm ) ; static int si4713_setup(struct si4713_device *sdev ) { struct v4l2_ext_control ctrl ; struct v4l2_frequency f ; struct v4l2_modulator vm ; struct si4713_device *tmp ; int rval ; void *tmp___0 ; size_t __len ; void *__ret ; 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 ; { rval = 0; tmp___0 = kmalloc(2616UL, 208U); tmp = (struct si4713_device *)tmp___0; if ((unsigned long )tmp == (unsigned long )((struct si4713_device *)0)) { return (-12); } else { } mutex_lock_nested(& sdev->mutex, 0U); __len = 2616UL; if (__len > 63UL) { __ret = memcpy((void *)tmp, (void const *)sdev, __len); } else { __ret = __builtin_memcpy((void *)tmp, (void const *)sdev, __len); } mutex_unlock(& sdev->mutex); ctrl.id = 10160386U; ctrl.__annonCompField45.value = (__s32 )tmp->rds_info.pi; tmp___1 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___1 | rval; ctrl.id = 10160466U; ctrl.__annonCompField45.value = tmp->acomp_info.threshold; tmp___2 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___2 | rval; ctrl.id = 10160465U; ctrl.__annonCompField45.value = (__s32 )tmp->acomp_info.gain; tmp___3 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___3 | rval; ctrl.id = 10160482U; ctrl.__annonCompField45.value = (__s32 )tmp->pilot_info.frequency; tmp___4 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___4 | rval; ctrl.id = 10160467U; ctrl.__annonCompField45.value = (__s32 )tmp->acomp_info.attack_time; tmp___5 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___5 | rval; ctrl.id = 10160481U; ctrl.__annonCompField45.value = (__s32 )tmp->pilot_info.deviation; tmp___6 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___6 | rval; ctrl.id = 10160450U; ctrl.__annonCompField45.value = (__s32 )tmp->limiter_info.deviation; tmp___7 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___7 | rval; ctrl.id = 10160385U; ctrl.__annonCompField45.value = (__s32 )tmp->rds_info.deviation; tmp___8 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___8 | rval; ctrl.id = 10160387U; ctrl.__annonCompField45.value = (__s32 )tmp->rds_info.pty; tmp___9 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___9 | rval; ctrl.id = 10160448U; ctrl.__annonCompField45.value = (__s32 )tmp->limiter_info.enabled; tmp___10 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___10 | rval; ctrl.id = 10160464U; ctrl.__annonCompField45.value = (__s32 )tmp->acomp_info.enabled; tmp___11 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___11 | rval; ctrl.id = 10160480U; ctrl.__annonCompField45.value = (__s32 )tmp->pilot_info.enabled; tmp___12 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___12 | rval; ctrl.id = 10160449U; ctrl.__annonCompField45.value = (__s32 )tmp->limiter_info.release_time; tmp___13 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___13 | rval; ctrl.id = 10160468U; ctrl.__annonCompField45.value = (__s32 )tmp->acomp_info.release_time; tmp___14 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___14 | rval; ctrl.id = 10160496U; ctrl.__annonCompField45.value = (__s32 )tmp->preemphasis; tmp___15 = si4713_write_econtrol_integers(sdev, & ctrl); rval = tmp___15 | rval; ctrl.id = 10160389U; tmp___16 = si4713_set_rds_ps_name(sdev, (char *)(& tmp->rds_info.ps_name)); rval = tmp___16 | rval; ctrl.id = 10160390U; tmp___17 = si4713_set_rds_radio_text(sdev, (char *)(& tmp->rds_info.radio_text)); rval = tmp___17 | rval; f.frequency = tmp->frequency != 0U ? tmp->frequency : 8800U; f.frequency = (f.frequency * 100000U) / 625U; tmp___18 = si4713_s_frequency(& sdev->sd, & f); rval = tmp___18 | rval; ctrl.id = 10160497U; ctrl.__annonCompField45.value = (__s32 )tmp->power_level; tmp___19 = si4713_write_econtrol_tune(sdev, & ctrl); rval = tmp___19 | rval; ctrl.id = 10160498U; ctrl.__annonCompField45.value = (__s32 )tmp->antenna_capacitor; tmp___20 = si4713_write_econtrol_tune(sdev, & ctrl); rval = tmp___20 | rval; vm.index = 0U; if (tmp->stereo != 0U) { vm.txsubchans = 2U; } else { vm.txsubchans = 1U; } if (tmp->rds_info.enabled != 0U) { vm.txsubchans = vm.txsubchans | 16U; } else { } si4713_s_modulator(& sdev->sd, & vm); kfree((void const *)tmp); return (rval); } } static int si4713_initialize(struct si4713_device *sdev ) { int rval ; { rval = si4713_set_power_state(sdev, 1); if (rval < 0) { goto exit; } else { } rval = si4713_checkrev(sdev); if (rval < 0) { goto exit; } else { } rval = si4713_set_power_state(sdev, 0); if (rval < 0) { goto exit; } else { } mutex_lock_nested(& sdev->mutex, 0U); sdev->rds_info.pi = 0U; sdev->rds_info.pty = 0U; sdev->rds_info.deviation = 200U; strlcpy((char *)(& sdev->rds_info.ps_name), "", 96UL); strlcpy((char *)(& sdev->rds_info.radio_text), "", 384UL); sdev->rds_info.enabled = 1U; sdev->limiter_info.release_time = 5010U; sdev->limiter_info.deviation = 66250U; sdev->limiter_info.enabled = 1U; sdev->pilot_info.deviation = 6750U; sdev->pilot_info.frequency = 19000U; sdev->pilot_info.enabled = 1U; sdev->acomp_info.release_time = 1000000U; sdev->acomp_info.attack_time = 0U; sdev->acomp_info.threshold = -40; sdev->acomp_info.gain = 15U; sdev->acomp_info.enabled = 1U; sdev->frequency = 8800U; sdev->preemphasis = 1U; sdev->mute = 1U; sdev->power_level = 88U; sdev->antenna_capacitor = 0U; sdev->stereo = 1U; sdev->tune_rnl = 255U; mutex_unlock(& sdev->mutex); exit: ; return (rval); } } static int si4713_read_econtrol_string(struct si4713_device *sdev , struct v4l2_ext_control *control ) { s32 rval ; size_t tmp ; size_t tmp___0 ; size_t tmp___1 ; size_t tmp___2 ; { rval = 0; switch (control->id) { case 10160389U: tmp = strlen((char const *)(& sdev->rds_info.ps_name)); if (tmp + 1UL > (size_t )control->size) { control->size = 97U; rval = -28; goto exit; } else { } tmp___0 = strlen((char const *)(& sdev->rds_info.ps_name)); rval = copy_to_user((void *)control->__annonCompField45.string, (void const *)(& sdev->rds_info.ps_name), (unsigned int )tmp___0 + 1U); if (rval != 0) { rval = -14; } else { } goto ldv_25932; case 10160390U: tmp___1 = strlen((char const *)(& sdev->rds_info.radio_text)); if (tmp___1 + 1UL > (size_t )control->size) { control->size = 385U; rval = -28; goto exit; } else { } tmp___2 = strlen((char const *)(& sdev->rds_info.radio_text)); rval = copy_to_user((void *)control->__annonCompField45.string, (void const *)(& sdev->rds_info.radio_text), (unsigned int )tmp___2 + 1U); if (rval != 0) { rval = -14; } else { } goto ldv_25932; default: rval = -22; goto ldv_25932; } ldv_25932: ; exit: ; return (rval); } } static int si4713_update_tune_status(struct si4713_device *sdev ) { int rval ; u16 f ; u8 p ; u8 a ; u8 n ; { f = 0U; p = 0U; a = 0U; n = 0U; rval = si4713_tx_tune_status(sdev, 0, & f, & p, & a, & n); if (rval < 0) { goto exit; } else { } sdev->power_level = (u32 )p; sdev->antenna_capacitor = (u32 )a; sdev->tune_rnl = (u32 )n; exit: ; return (rval); } } static int si4713_read_econtrol_tune(struct si4713_device *sdev , struct v4l2_ext_control *control ) { s32 rval ; { rval = 0; mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_update_tune_status(sdev); if (rval < 0) { goto unlock; } else { } } else { } switch (control->id) { case 10160497U: control->__annonCompField45.value = (__s32 )sdev->power_level; goto ldv_25951; case 10160498U: control->__annonCompField45.value = (__s32 )sdev->antenna_capacitor; goto ldv_25951; default: rval = -22; } ldv_25951: ; unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_read_econtrol_integers(struct si4713_device *sdev , struct v4l2_ext_control *control ) { s32 rval ; u32 *shadow ; u32 val ; s32 bit ; s32 mask ; u16 property ; int mul ; unsigned long *table ; int size ; unsigned long tmp ; { shadow = (u32 *)0U; val = 0U; bit = 0; mask = 0; property = 0U; mul = 0; table = (unsigned long *)0UL; size = 0; rval = si4713_choose_econtrol_action(sdev, control->id, & shadow, & bit, & mask, & property, & mul, & table, & size); if (rval < 0) { goto exit; } else { } mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_read_property(sdev, (int )property, & val); if (rval < 0) { goto unlock; } else { } if (control->id == 10160466U) { *shadow = (u32 )((short )val); } else if (mask != 0) { *shadow = (val & (u32 )mask) >> bit; } else if (mul != 0) { *shadow = val * (u32 )mul; } else { tmp = dev_to_usecs((int )val, (unsigned long const *)table, size); *shadow = (u32 )tmp; } } else { } control->__annonCompField45.value = (__s32 )*shadow; unlock: mutex_unlock(& sdev->mutex); exit: ; return (rval); } } static int si4713_s_ext_ctrls(struct v4l2_subdev *sd , struct v4l2_ext_controls *ctrls ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int i ; int err ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; if (ctrls->ctrl_class != 10158080U) { return (-22); } else { } i = 0; goto ldv_25985; ldv_25984: ; switch ((ctrls->controls + (unsigned long )i)->id) { case 10160389U: ; case 10160390U: err = si4713_write_econtrol_string(sdev, ctrls->controls + (unsigned long )i); goto ldv_25980; case 10160498U: ; case 10160497U: err = si4713_write_econtrol_tune(sdev, ctrls->controls + (unsigned long )i); goto ldv_25980; default: err = si4713_write_econtrol_integers(sdev, ctrls->controls + (unsigned long )i); } ldv_25980: ; if (err < 0) { ctrls->error_idx = (__u32 )i; return (err); } else { } i = i + 1; ldv_25985: ; if ((__u32 )i < ctrls->count) { goto ldv_25984; } else { } return (0); } } static int si4713_g_ext_ctrls(struct v4l2_subdev *sd , struct v4l2_ext_controls *ctrls ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int i ; int err ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; if (ctrls->ctrl_class != 10158080U) { return (-22); } else { } i = 0; goto ldv_26003; ldv_26002: ; switch ((ctrls->controls + (unsigned long )i)->id) { case 10160389U: ; case 10160390U: err = si4713_read_econtrol_string(sdev, ctrls->controls + (unsigned long )i); goto ldv_25998; case 10160498U: ; case 10160497U: err = si4713_read_econtrol_tune(sdev, ctrls->controls + (unsigned long )i); goto ldv_25998; default: err = si4713_read_econtrol_integers(sdev, ctrls->controls + (unsigned long )i); } ldv_25998: ; if (err < 0) { ctrls->error_idx = (__u32 )i; return (err); } else { } i = i + 1; ldv_26003: ; if ((__u32 )i < ctrls->count) { goto ldv_26002; } else { } return (0); } } static int si4713_queryctrl(struct v4l2_subdev *sd , struct v4l2_queryctrl *qc ) { int rval ; { rval = 0; switch (qc->id) { case 9963785U: rval = v4l2_ctrl_query_fill(qc, 0, 1, 1, 1); goto ldv_26011; case 10160386U: rval = v4l2_ctrl_query_fill(qc, 0, 65535, 1, 0); goto ldv_26011; case 10160387U: rval = v4l2_ctrl_query_fill(qc, 0, 31, 1, 0); goto ldv_26011; case 10160385U: rval = v4l2_ctrl_query_fill(qc, 0, 90000, 10, 200); goto ldv_26011; case 10160389U: rval = v4l2_ctrl_query_fill(qc, 0, 96, 8, 0); goto ldv_26011; case 10160390U: rval = v4l2_ctrl_query_fill(qc, 0, 384, 32, 0); goto ldv_26011; case 10160448U: rval = v4l2_ctrl_query_fill(qc, 0, 1, 1, 1); goto ldv_26011; case 10160449U: rval = v4l2_ctrl_query_fill(qc, 250, 102390, 50, 5010); goto ldv_26011; case 10160450U: rval = v4l2_ctrl_query_fill(qc, 0, 90000, 10, 66250); goto ldv_26011; case 10160464U: rval = v4l2_ctrl_query_fill(qc, 0, 1, 1, 1); goto ldv_26011; case 10160465U: rval = v4l2_ctrl_query_fill(qc, 0, 20, 1, 15); goto ldv_26011; case 10160466U: rval = v4l2_ctrl_query_fill(qc, -40, 0, 1, -40); goto ldv_26011; case 10160467U: rval = v4l2_ctrl_query_fill(qc, 0, 5000, 500, 0); goto ldv_26011; case 10160468U: rval = v4l2_ctrl_query_fill(qc, 100000, 1000000, 100000, 1000000); goto ldv_26011; case 10160480U: rval = v4l2_ctrl_query_fill(qc, 0, 1, 1, 1); goto ldv_26011; case 10160481U: rval = v4l2_ctrl_query_fill(qc, 0, 90000, 10, 6750); goto ldv_26011; case 10160482U: rval = v4l2_ctrl_query_fill(qc, 0, 19000, 1, 19000); goto ldv_26011; case 10160496U: rval = v4l2_ctrl_query_fill(qc, 0, 2, 1, 1); goto ldv_26011; case 10160497U: rval = v4l2_ctrl_query_fill(qc, 0, 120, 1, 88); goto ldv_26011; case 10160498U: rval = v4l2_ctrl_query_fill(qc, 0, 191, 1, 0); goto ldv_26011; default: rval = -22; goto ldv_26011; } ldv_26011: ; return (rval); } } static int si4713_g_ctrl(struct v4l2_subdev *sd , struct v4l2_control *ctrl ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; if ((unsigned long )sdev == (unsigned long )((struct si4713_device *)0)) { return (-19); } else { } mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_read_property(sdev, 8453, & sdev->mute); if (rval < 0) { goto unlock; } else { } } else { } switch (ctrl->id) { case 9963785U: ctrl->value = (__s32 )sdev->mute & 1; goto ldv_26042; } ldv_26042: ; unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_s_ctrl(struct v4l2_subdev *sd , struct v4l2_control *ctrl ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; if ((unsigned long )sdev == (unsigned long )((struct si4713_device *)0)) { return (-19); } else { } switch (ctrl->id) { case 9963785U: ; if (ctrl->value != 0) { rval = si4713_set_mute(sdev, (int )((u16 )ctrl->value)); if (rval < 0) { goto exit; } else { } rval = si4713_set_power_state(sdev, 0); } else { rval = si4713_set_power_state(sdev, 1); if (rval < 0) { goto exit; } else { } rval = si4713_setup(sdev); if (rval < 0) { goto exit; } else { } rval = si4713_set_mute(sdev, (int )((u16 )ctrl->value)); } goto ldv_26053; } ldv_26053: ; exit: ; return (rval); } } long si4713_ioctl(struct v4l2_subdev *sd , unsigned int cmd , void *arg ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; struct si4713_rnl *rnl ; u16 frequency ; int rval ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rnl = (struct si4713_rnl *)arg; rval = 0; if ((unsigned long )arg == (unsigned long )((void *)0)) { return (-22L); } else { } mutex_lock_nested(& sdev->mutex, 0U); switch (cmd) { case 3223082688U: frequency = (u16 )((rnl->frequency * 625U) / 100000U); if (sdev->power_state != 0U) { rval = si4713_tx_tune_measure(sdev, (int )frequency, 0); if (rval < 0) { goto unlock; } else { } rval = si4713_update_tune_status(sdev); if (rval < 0) { goto unlock; } else { } } else { } rnl->rnl = (__s32 )sdev->tune_rnl; goto ldv_26067; default: rval = -515; } ldv_26067: ; unlock: mutex_unlock(& sdev->mutex); return ((long )rval); } } static struct v4l2_subdev_core_ops const si4713_subdev_core_ops = {0, 0, 0, 0, 0, 0, 0, & si4713_queryctrl, & si4713_g_ctrl, & si4713_s_ctrl, & si4713_g_ext_ctrls, & si4713_s_ext_ctrls, 0, 0, 0, & si4713_ioctl, 0, 0, 0, 0, 0, 0}; static int si4713_g_modulator(struct v4l2_subdev *sd , struct v4l2_modulator *vm ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; u32 comp_en ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; if ((unsigned long )sdev == (unsigned long )((struct si4713_device *)0)) { rval = -19; goto exit; } else { } if (vm->index != 0U) { rval = -22; goto exit; } else { } strncpy((char *)(& vm->name), "FM Modulator", 32UL); vm->capability = 657U; vm->rangelow = 1216000U; vm->rangehigh = 1728000U; mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { comp_en = 0U; rval = si4713_read_property(sdev, 8448, & comp_en); if (rval < 0) { goto unlock; } else { } sdev->stereo = (comp_en & 2U) >> 1; sdev->rds_info.enabled = (comp_en & 4U) >> 2; } else { } if (sdev->stereo != 0U) { vm->txsubchans = 2U; } else { vm->txsubchans = 1U; } if (sdev->rds_info.enabled != 0U) { vm->txsubchans = vm->txsubchans | 16U; } else { vm->txsubchans = vm->txsubchans & 4294967279U; } unlock: mutex_unlock(& sdev->mutex); exit: ; return (rval); } } static int si4713_s_modulator(struct v4l2_subdev *sd , struct v4l2_modulator *vm ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; u16 stereo ; u16 rds ; u32 p ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; if ((unsigned long )sdev == (unsigned long )((struct si4713_device *)0)) { return (-19); } else { } if (vm->index != 0U) { return (-22); } else { } if ((vm->txsubchans & 2U) != 0U) { stereo = 1U; } else if ((int )vm->txsubchans & 1) { stereo = 0U; } else { return (-22); } rds = (vm->txsubchans & 16U) != 0U; mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_read_property(sdev, 8448, & p); if (rval < 0) { goto unlock; } else { } p = (p & 4294967293U) | (u32 )((int )stereo << 1); p = (p & 4294967291U) | (u32 )((int )rds << 2); rval = si4713_write_property(sdev, 8448, (int )((u16 )p)); if (rval < 0) { goto unlock; } else { } } else { } sdev->stereo = (u32 )stereo; sdev->rds_info.enabled = (u32 )rds; unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_g_frequency(struct v4l2_subdev *sd , struct v4l2_frequency *f ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; u16 freq ; u8 p ; u8 a ; u8 n ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; f->type = 1; mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_tx_tune_status(sdev, 0, & freq, & p, & a, & n); if (rval < 0) { goto unlock; } else { } sdev->frequency = (u32 )freq; } else { } f->frequency = (sdev->frequency * 100000U) / 625U; unlock: mutex_unlock(& sdev->mutex); return (rval); } } static int si4713_s_frequency(struct v4l2_subdev *sd , struct v4l2_frequency *f ) { struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int rval ; u16 frequency ; { __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; rval = 0; frequency = (u16 )((f->frequency * 625U) / 100000U); if ((unsigned int )frequency <= 7599U || (unsigned int )frequency > 10800U) { return (-33); } else { } mutex_lock_nested(& sdev->mutex, 0U); if (sdev->power_state != 0U) { rval = si4713_tx_tune_freq(sdev, (int )frequency); if (rval < 0) { goto unlock; } else { } frequency = (u16 )rval; rval = 0; } else { } sdev->frequency = (u32 )frequency; f->frequency = (__u32 )(((int )frequency * 100000) / 625); unlock: mutex_unlock(& sdev->mutex); return (rval); } } static struct v4l2_subdev_tuner_ops const si4713_subdev_tuner_ops = {0, 0, & si4713_s_frequency, & si4713_g_frequency, 0, 0, & si4713_g_modulator, & si4713_s_modulator, 0, 0}; static struct v4l2_subdev_ops const si4713_subdev_ops = {& si4713_subdev_core_ops, & si4713_subdev_tuner_ops, 0, 0, 0, 0, 0, 0}; static int si4713_probe(struct i2c_client *client , struct i2c_device_id const *id ) { struct si4713_device *sdev ; struct si4713_platform_data *pdata ; int rval ; int i ; void *tmp ; int tmp___0 ; struct lock_class_key __key ; int tmp___1 ; { pdata = (struct si4713_platform_data *)client->dev.platform_data; tmp = kzalloc(2616UL, 208U); sdev = (struct si4713_device *)tmp; if ((unsigned long )sdev == (unsigned long )((struct si4713_device *)0)) { dev_err((struct device const *)(& client->dev), "Failed to alloc video device.\n"); rval = -12; goto exit; } else { } sdev->gpio_reset = -1; if ((unsigned long )pdata != (unsigned long )((struct si4713_platform_data *)0)) { tmp___0 = gpio_is_valid(pdata->gpio_reset); if (tmp___0 != 0) { rval = gpio_request((unsigned int )pdata->gpio_reset, "si4713 reset"); if (rval != 0) { dev_err((struct device const *)(& client->dev), "Failed to request gpio: %d\n", rval); goto free_sdev; } else { } sdev->gpio_reset = pdata->gpio_reset; gpio_direction_output((unsigned int )sdev->gpio_reset, 0); } else { } } else { } i = 0; goto ldv_26131; ldv_26130: sdev->supplies[i].supply = si4713_supply_names[i]; i = i + 1; ldv_26131: ; if ((unsigned int )i <= 1U) { goto ldv_26130; } else { } rval = regulator_bulk_get(& client->dev, 2, (struct regulator_bulk_data *)(& sdev->supplies)); if (rval != 0) { dev_err((struct device const *)(& client->dev), "Cannot get regulators: %d\n", rval); goto free_gpio; } else { } v4l2_i2c_subdev_init(& sdev->sd, client, & si4713_subdev_ops); __mutex_init(& sdev->mutex, "&sdev->mutex", & __key); init_completion(& sdev->work); if (client->irq != 0) { rval = ldv_request_irq_9((unsigned int )client->irq, & si4713_handler, 34UL, (char const *)(& client->name), (void *)sdev); if (rval < 0) { printk("<3>%s: Could not request IRQ\n", (char *)(& sdev->sd.name)); goto put_reg; } else { } if (debug > 0) { printk("<7>%s: IRQ requested.\n", (char *)(& sdev->sd.name)); } else { } } else { printk("<4>%s: IRQ not configured. Using timeouts.\n", (char *)(& sdev->sd.name)); } rval = si4713_initialize(sdev); if (rval < 0) { printk("<3>%s: Failed to probe device information.\n", (char *)(& sdev->sd.name)); goto free_irq; } else { } return (0); free_irq: ; if (client->irq != 0) { ldv_free_irq_10((unsigned int )client->irq, (void *)sdev); } else { } put_reg: regulator_bulk_free(2, (struct regulator_bulk_data *)(& sdev->supplies)); free_gpio: tmp___1 = gpio_is_valid(sdev->gpio_reset); if (tmp___1 != 0) { gpio_free((unsigned int )sdev->gpio_reset); } else { } free_sdev: kfree((void const *)sdev); exit: ; return (rval); } } static int si4713_remove(struct i2c_client *client ) { struct v4l2_subdev *sd ; void *tmp ; struct si4713_device *sdev ; struct v4l2_subdev const *__mptr ; int tmp___0 ; { tmp = i2c_get_clientdata((struct i2c_client const *)client); sd = (struct v4l2_subdev *)tmp; __mptr = (struct v4l2_subdev const *)sd; sdev = (struct si4713_device *)__mptr; if (sdev->power_state != 0U) { si4713_set_power_state(sdev, 0); } else { } if (client->irq > 0) { ldv_free_irq_11((unsigned int )client->irq, (void *)sdev); } else { } v4l2_device_unregister_subdev(sd); regulator_bulk_free(2, (struct regulator_bulk_data *)(& sdev->supplies)); tmp___0 = gpio_is_valid(sdev->gpio_reset); if (tmp___0 != 0) { gpio_free((unsigned int )sdev->gpio_reset); } else { } kfree((void const *)sdev); return (0); } } static struct i2c_device_id const si4713_id[2U] = { {{'s', 'i', '4', '7', '1', '3', '\000'}, 0UL}}; struct i2c_device_id const __mod_i2c_device_table ; static struct i2c_driver si4713_i2c_driver = {0U, 0, 0, & si4713_probe, & si4713_remove, 0, 0, 0, 0, 0, {"si4713", 0, 0, 0, (_Bool)0, 0, 0, 0, 0, 0, 0, 0, 0, 0}, (struct i2c_device_id const *)(& si4713_id), 0, 0, {0, 0}}; static int si4713_module_init(void) { int tmp ; { tmp = i2c_add_driver(& si4713_i2c_driver); return (tmp); } } static void si4713_module_exit(void) { { i2c_del_driver(& si4713_i2c_driver); return; } } int ldv_retval_0 ; int ldv_retval_1 ; extern void ldv_initialize(void) ; extern void ldv_check_final_state(void) ; void ldv_initialize_i2c_driver_2(void) { void *tmp ; { tmp = ldv_init_zalloc(1168UL); si4713_i2c_driver_group0 = (struct i2c_client *)tmp; return; } } void ldv_initialize_v4l2_subdev_core_ops_4(void) { void *tmp ; void *tmp___0 ; void *tmp___1 ; { tmp = ldv_init_zalloc(1736UL); si4713_subdev_core_ops_group2 = (struct v4l2_subdev *)tmp; tmp___0 = ldv_init_zalloc(8UL); si4713_subdev_core_ops_group1 = (struct v4l2_control *)tmp___0; tmp___1 = ldv_init_zalloc(32UL); si4713_subdev_core_ops_group0 = (struct v4l2_ext_controls *)tmp___1; 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; } } int reg_check_1(irqreturn_t (*handler)(int , void * ) ) { { if ((unsigned long )handler == (unsigned long )(& si4713_handler)) { return (1); } else { } return (0); } } 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; } } 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 = si4713_handler(line, data); LDV_IN_INTERRUPT = 1; return (state); } else { } goto ldv_26201; default: ldv_stop(); } ldv_26201: ; } else { } return (state); } } 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_26209; 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_26209; 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_26209; 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_26209; default: ldv_stop(); } ldv_26209: ; return; } } void ldv_initialize_v4l2_subdev_tuner_ops_3(void) { void *tmp ; void *tmp___0 ; void *tmp___1 ; { tmp = ldv_init_zalloc(1736UL); si4713_subdev_tuner_ops_group0 = (struct v4l2_subdev *)tmp; tmp___0 = ldv_init_zalloc(44UL); si4713_subdev_tuner_ops_group1 = (struct v4l2_frequency *)tmp___0; tmp___1 = ldv_init_zalloc(68UL); si4713_subdev_tuner_ops_group2 = (struct v4l2_modulator *)tmp___1; return; } } int main(void) { unsigned int ldvarg1 ; void *ldvarg0 ; void *tmp ; struct v4l2_queryctrl *ldvarg2 ; void *tmp___0 ; struct i2c_device_id *ldvarg3 ; void *tmp___1 ; int tmp___2 ; int tmp___3 ; int tmp___4 ; int tmp___5 ; int tmp___6 ; { tmp = ldv_init_zalloc(1UL); ldvarg0 = tmp; tmp___0 = ldv_init_zalloc(68UL); ldvarg2 = (struct v4l2_queryctrl *)tmp___0; tmp___1 = ldv_init_zalloc(32UL); ldvarg3 = (struct i2c_device_id *)tmp___1; ldv_initialize(); ldv_memset((void *)(& ldvarg1), 0, 4UL); ldv_state_variable_4 = 0; ldv_state_variable_1 = 1; ref_cnt = 0; ldv_state_variable_0 = 1; ldv_state_variable_3 = 0; ldv_state_variable_2 = 0; ldv_26262: tmp___2 = __VERIFIER_nondet_int(); switch (tmp___2) { case 0: ; if (ldv_state_variable_4 != 0) { tmp___3 = __VERIFIER_nondet_int(); switch (tmp___3) { case 0: ; if (ldv_state_variable_4 == 1) { si4713_queryctrl(si4713_subdev_core_ops_group2, ldvarg2); ldv_state_variable_4 = 1; } else { } goto ldv_26234; case 1: ; if (ldv_state_variable_4 == 1) { si4713_g_ext_ctrls(si4713_subdev_core_ops_group2, si4713_subdev_core_ops_group0); ldv_state_variable_4 = 1; } else { } goto ldv_26234; case 2: ; if (ldv_state_variable_4 == 1) { si4713_ioctl(si4713_subdev_core_ops_group2, ldvarg1, ldvarg0); ldv_state_variable_4 = 1; } else { } goto ldv_26234; case 3: ; if (ldv_state_variable_4 == 1) { si4713_s_ext_ctrls(si4713_subdev_core_ops_group2, si4713_subdev_core_ops_group0); ldv_state_variable_4 = 1; } else { } goto ldv_26234; case 4: ; if (ldv_state_variable_4 == 1) { si4713_s_ctrl(si4713_subdev_core_ops_group2, si4713_subdev_core_ops_group1); ldv_state_variable_4 = 1; } else { } goto ldv_26234; case 5: ; if (ldv_state_variable_4 == 1) { si4713_g_ctrl(si4713_subdev_core_ops_group2, si4713_subdev_core_ops_group1); ldv_state_variable_4 = 1; } else { } goto ldv_26234; default: ldv_stop(); } ldv_26234: ; } else { } goto ldv_26241; case 1: ; if (ldv_state_variable_1 != 0) { choose_interrupt_1(); } else { } goto ldv_26241; case 2: ; if (ldv_state_variable_0 != 0) { tmp___4 = __VERIFIER_nondet_int(); switch (tmp___4) { case 0: ; if (ldv_state_variable_0 == 3 && ref_cnt == 0) { si4713_module_exit(); ldv_state_variable_0 = 2; goto ldv_final; } else { } goto ldv_26246; case 1: ; if (ldv_state_variable_0 == 1) { ldv_retval_0 = si4713_module_init(); if (ldv_retval_0 == 0) { ldv_state_variable_0 = 3; ldv_state_variable_2 = 1; ldv_initialize_i2c_driver_2(); ldv_state_variable_3 = 1; ldv_initialize_v4l2_subdev_tuner_ops_3(); ldv_state_variable_4 = 1; ldv_initialize_v4l2_subdev_core_ops_4(); } else { } if (ldv_retval_0 != 0) { ldv_state_variable_0 = 2; goto ldv_final; } else { } } else { } goto ldv_26246; default: ldv_stop(); } ldv_26246: ; } else { } goto ldv_26241; case 3: ; if (ldv_state_variable_3 != 0) { tmp___5 = __VERIFIER_nondet_int(); switch (tmp___5) { case 0: ; if (ldv_state_variable_3 == 1) { si4713_g_frequency(si4713_subdev_tuner_ops_group0, si4713_subdev_tuner_ops_group1); ldv_state_variable_3 = 1; } else { } goto ldv_26251; case 1: ; if (ldv_state_variable_3 == 1) { si4713_s_modulator(si4713_subdev_tuner_ops_group0, si4713_subdev_tuner_ops_group2); ldv_state_variable_3 = 1; } else { } goto ldv_26251; case 2: ; if (ldv_state_variable_3 == 1) { si4713_g_modulator(si4713_subdev_tuner_ops_group0, si4713_subdev_tuner_ops_group2); ldv_state_variable_3 = 1; } else { } goto ldv_26251; case 3: ; if (ldv_state_variable_3 == 1) { si4713_s_frequency(si4713_subdev_tuner_ops_group0, si4713_subdev_tuner_ops_group1); ldv_state_variable_3 = 1; } else { } goto ldv_26251; default: ldv_stop(); } ldv_26251: ; } else { } goto ldv_26241; case 4: ; if (ldv_state_variable_2 != 0) { tmp___6 = __VERIFIER_nondet_int(); switch (tmp___6) { case 0: ; if (ldv_state_variable_2 == 1) { ldv_retval_1 = si4713_probe(si4713_i2c_driver_group0, (struct i2c_device_id const *)ldvarg3); if (ldv_retval_1 == 0) { ldv_state_variable_2 = 2; ref_cnt = ref_cnt + 1; } else { } } else { } goto ldv_26258; case 1: ; if (ldv_state_variable_2 == 2) { si4713_remove(si4713_i2c_driver_group0); ldv_state_variable_2 = 1; ref_cnt = ref_cnt - 1; } else { } goto ldv_26258; default: ldv_stop(); } ldv_26258: ; } else { } goto ldv_26241; default: ldv_stop(); } ldv_26241: ; goto ldv_26262; ldv_final: ldv_check_final_state(); return 0; } } unsigned long ldv__copy_from_user_1(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 ) { unsigned long tmp ; { ldv_check_len((long )ldv_func_arg3); tmp = _copy_from_user(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3); return (tmp); } } unsigned long ldv__copy_to_user_2(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 ) { unsigned long tmp ; { ldv_check_len((long )ldv_func_arg3); tmp = _copy_to_user(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3); return (tmp); } } long ldv___copy_user_nocache_3(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 , int ldv_func_arg4 ) { long tmp ; { ldv_check_len((long )ldv_func_arg3); tmp = __copy_user_nocache(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3, ldv_func_arg4); return (tmp); } } long ldv___copy_user_nocache_4(void *ldv_func_arg1 , void const *ldv_func_arg2 , unsigned int ldv_func_arg3 , int ldv_func_arg4 ) { long tmp ; { ldv_check_len((long )ldv_func_arg3); tmp = __copy_user_nocache(ldv_func_arg1, ldv_func_arg2, ldv_func_arg3, ldv_func_arg4); return (tmp); } } __inline static unsigned long ldv_copy_from_user_7(void *to , void const *from , unsigned long n ) { unsigned long tmp ; { ldv_check_len((long )n); tmp = copy_from_user(to, from, n); return (tmp); } } __inline static int ldv_request_irq_9(unsigned int irq , irqreturn_t (*handler)(int , void * ) , unsigned long flags , char const *name , void *dev ) { ldv_func_ret_type 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); } } void ldv_free_irq_10(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_free_irq_11(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; } } __kernel_size_t strnlen(char const *s , __kernel_size_t count ) ; __inline static void ldv_error(void) { { ERROR: ; __VERIFIER_error(); } } void ldv_check_ret_val(int res ) ; size_t strlen(char const *str ) { size_t res ; int tmp ; { tmp = ldv_undef_int(); res = (size_t )tmp; ldv_check_ret_val((int )res); return (res); } } __kernel_size_t strnlen(char const *s , __kernel_size_t count ) { size_t res ; int tmp ; { tmp = ldv_undef_int(); res = (size_t )tmp; ldv_check_ret_val((int )res); return (res); } } void ldv_check_len(long n ) { { if (n < 0L) { ldv_error(); } else { } return; } } void ldv_check_ret_val(int res ) { { if (res < 0) { ldv_stop(); } else { } return; } }