#!/usr/bin/env python # @lint-avoid-python-3-compatibility-imports # # execsnoop Trace new processes via exec() syscalls. # For Linux, uses BCC, eBPF. Embedded C. # # USAGE: execsnoop [-h] [-T] [-t] [-x] [--cgroupmap CGROUPMAP] # [--mntnsmap MNTNSMAP] [-u USER] [-q] [-n NAME] [-l LINE] # [-U] [--max-args MAX_ARGS] [-P PPID] # # This currently will print up to a maximum of 19 arguments, plus the process # name, so 20 fields in total (MAXARG). # # This won't catch all new processes: an application may fork() but not exec(). # # Copyright 2016 Netflix, Inc. # Licensed under the Apache License, Version 2.0 (the "License") # # 07-Feb-2016 Brendan Gregg Created this. # 11-Aug-2022 Rocky Xing Added PPID filter support. from __future__ import print_function from bcc import BPF from bcc.containers import filter_by_containers from bcc.utils import ArgString, printb import argparse import re import time import pwd from collections import defaultdict from time import strftime def parse_uid(user): try: result = int(user) except ValueError: try: user_info = pwd.getpwnam(user) except KeyError: raise argparse.ArgumentTypeError( "{0!r} is not valid UID or user entry".format(user)) else: return user_info.pw_uid else: # Maybe validate if UID < 0 ? return result # arguments examples = """examples: ./execsnoop # trace all exec() syscalls ./execsnoop -x # include failed exec()s ./execsnoop -T # include time (HH:MM:SS) ./execsnoop -P 181 # only trace new processes whose parent PID is 181 ./execsnoop -U # include UID ./execsnoop -C # include CPU ./execsnoop -u 1000 # only trace UID 1000 ./execsnoop -u user # get user UID and trace only them ./execsnoop -t # include timestamps ./execsnoop -q # add "quotemarks" around arguments ./execsnoop -n main # only print command lines containing "main" ./execsnoop -l tpkg # only print command where arguments contains "tpkg" ./execsnoop --cgroupmap mappath # only trace cgroups in this BPF map ./execsnoop --mntnsmap mappath # only trace mount namespaces in the map """ parser = argparse.ArgumentParser( description="Trace exec() syscalls", formatter_class=argparse.RawDescriptionHelpFormatter, epilog=examples) parser.add_argument("-T", "--time", action="store_true", help="include time column on output (HH:MM:SS)") parser.add_argument("-t", "--timestamp", action="store_true", help="include timestamp on output") parser.add_argument("-x", "--fails", action="store_true", help="include failed exec()s") parser.add_argument("--cgroupmap", help="trace cgroups in this BPF map only") parser.add_argument("--mntnsmap", help="trace mount namespaces in this BPF map only") parser.add_argument("-u", "--uid", type=parse_uid, metavar='USER', help="trace this UID only") parser.add_argument("-q", "--quote", action="store_true", help="Add quotemarks (\") around arguments." ) parser.add_argument("-n", "--name", type=ArgString, help="only print commands matching this name (regex), any arg") parser.add_argument("-l", "--line", type=ArgString, help="only print commands where arg contains this line (regex)") parser.add_argument("-U", "--print-uid", action="store_true", help="print UID column") parser.add_argument("-C", "--print-cpu", action="store_true", help="print CPU column") parser.add_argument("--max-args", default="20", help="maximum number of arguments parsed and displayed, defaults to 20") parser.add_argument("-P", "--ppid", help="trace this parent PID only") parser.add_argument("--ebpf", action="store_true", help=argparse.SUPPRESS) args = parser.parse_args() def check_cpu_filed(): # Define the bpf program for checking purpose #if LINUX_VERSION_CODE < KERNEL_VERSION(5,16,0) filed_in_task_struct = True #else filed_in_task_struct = False #endif return filed_in_task_struct # define BPF program bpf_text = """ #include #include #include #define ARGSIZE 128 enum event_type { EVENT_ARG, EVENT_RET, }; struct data_t { u32 pid; // PID as in the userspace term (i.e. task->tgid in kernel) u32 ppid; // Parent PID as in the userspace term (i.e task->real_parent->tgid in kernel) u32 uid; u32 cpu; char comm[TASK_COMM_LEN]; enum event_type type; char argv[ARGSIZE]; int retval; }; BPF_PERF_OUTPUT(events); static int __submit_arg(struct pt_regs *ctx, void *ptr, struct data_t *data) { bpf_probe_read_user(data->argv, sizeof(data->argv), ptr); events.perf_submit(ctx, data, sizeof(struct data_t)); return 1; } static int submit_arg(struct pt_regs *ctx, void *ptr, struct data_t *data) { const char *argp = NULL; bpf_probe_read_user(&argp, sizeof(argp), ptr); if (argp) { return __submit_arg(ctx, (void *)(argp), data); } return 0; } int syscall__execve(struct pt_regs *ctx, const char __user *filename, const char __user *const __user *__argv, const char __user *const __user *__envp) { u32 uid = bpf_get_current_uid_gid() & 0xffffffff; UID_FILTER if (container_should_be_filtered()) { return 0; } // create data here and pass to submit_arg to save stack space (#555) struct data_t data = {}; struct task_struct *task; data.pid = bpf_get_current_pid_tgid() >> 32; task = (struct task_struct *)bpf_get_current_task(); // Some kernels, like Ubuntu 4.13.0-generic, return 0 // as the real_parent->tgid. // We use the get_ppid function as a fallback in those cases. (#1883) data.ppid = task->real_parent->tgid; PPID_FILTER bpf_get_current_comm(&data.comm, sizeof(data.comm)); data.type = EVENT_ARG; __submit_arg(ctx, (void *)filename, &data); // skip first arg, as we submitted filename #pragma unroll for (int i = 1; i < MAXARG; i++) { if (submit_arg(ctx, (void *)&__argv[i], &data) == 0) goto out; } // handle truncated argument list char ellipsis[] = "..."; __submit_arg(ctx, (void *)ellipsis, &data); out: return 0; } int do_ret_sys_execve(struct pt_regs *ctx) { if (container_should_be_filtered()) { return 0; } struct data_t data = {}; struct task_struct *task; u32 uid = bpf_get_current_uid_gid() & 0xffffffff; UID_FILTER data.pid = bpf_get_current_pid_tgid() >> 32; data.uid = uid; task = (struct task_struct *)bpf_get_current_task(); // Some kernels, like Ubuntu 4.13.0-generic, return 0 // as the real_parent->tgid. // We use the get_ppid function as a fallback in those cases. (#1883) data.ppid = task->real_parent->tgid; data.cpu = CPU_RUNNING_ON; PPID_FILTER bpf_get_current_comm(&data.comm, sizeof(data.comm)); data.type = EVENT_RET; data.retval = PT_REGS_RC(ctx); events.perf_submit(ctx, &data, sizeof(data)); return 0; } """ bpf_text = bpf_text.replace("MAXARG", args.max_args) if args.uid: bpf_text = bpf_text.replace('UID_FILTER', 'if (uid != %s) { return 0; }' % args.uid) else: bpf_text = bpf_text.replace('UID_FILTER', '') if args.ppid: bpf_text = bpf_text.replace('PPID_FILTER', 'if (data.ppid != %s) { return 0; }' % args.ppid) else: bpf_text = bpf_text.replace('PPID_FILTER', '') # CPU field moved back into thread_info since commit bcf9033e5449(linux 5.16) # Use BTF for CPU field checks if available, otherwise use LINUX_VERSION_CODE checking. if BPF.kernel_struct_has_field(b'task_struct', b'cpu') == 1 \ or check_cpu_filed(): bpf_text = bpf_text.replace('CPU_RUNNING_ON', 'task->cpu') else: bpf_text = bpf_text.replace('CPU_RUNNING_ON', 'task->thread_info.cpu') bpf_text = filter_by_containers(args) + bpf_text if args.ebpf: print(bpf_text) exit() # initialize BPF b = BPF(text=bpf_text) execve_fnname = b.get_syscall_fnname("execve") b.attach_kprobe(event=execve_fnname, fn_name="syscall__execve") b.attach_kretprobe(event=execve_fnname, fn_name="do_ret_sys_execve") # header if args.time: print("%-9s" % ("TIME"), end="") if args.timestamp: print("%-8s" % ("TIME(s)"), end="") if args.print_uid: print("%-6s" % ("UID"), end="") if args.print_cpu: print("%-16s %-7s %-7s %-4s %3s %s" % ("PCOMM", "PID", "PPID", "CPU", "RET", "ARGS")) else: print("%-16s %-7s %-7s %3s %s" % ("PCOMM", "PID", "PPID", "RET", "ARGS")) class EventType(object): EVENT_ARG = 0 EVENT_RET = 1 start_ts = time.time() argv = defaultdict(list) # This is best-effort PPID matching. Short-lived processes may exit # before we get a chance to read the PPID. # This is a fallback for when fetching the PPID from task->real_parent->tgip # returns 0, which happens in some kernel versions. def get_ppid(pid): try: with open("/proc/%d/status" % pid) as status: for line in status: if line.startswith("PPid:"): return int(line.split()[1]) except IOError: pass return 0 # process event def print_event(cpu, data, size): event = b["events"].event(data) skip = False if event.type == EventType.EVENT_ARG: argv[event.pid].append(event.argv) elif event.type == EventType.EVENT_RET: if event.retval != 0 and not args.fails: skip = True if args.name and not re.search(bytes(args.name), event.comm): skip = True if args.line and not re.search(bytes(args.line), b' '.join(argv[event.pid])): skip = True if args.quote: argv[event.pid] = [ b"\"" + arg.replace(b"\"", b"\\\"") + b"\"" for arg in argv[event.pid] ] if not skip: if args.time: printb(b"%-9s" % strftime("%H:%M:%S").encode('ascii'), nl="") if args.timestamp: printb(b"%-8.3f" % (time.time() - start_ts), nl="") if args.print_uid: printb(b"%-6d" % event.uid, nl="") ppid = event.ppid if event.ppid > 0 else get_ppid(event.pid) ppid = b"%d" % ppid if ppid > 0 else b"?" argv_text = b' '.join(argv[event.pid]).replace(b'\n', b'\\n') if args.print_cpu: printb(b"%-16s %-7d %-7s %-4d %3d %s" % (event.comm, event.pid, ppid, event.cpu, event.retval, argv_text)) else: printb(b"%-16s %-7d %-7s %3d %s" % (event.comm, event.pid, ppid, event.retval, argv_text)) try: del(argv[event.pid]) except Exception: pass # loop with callback to print_event b["events"].open_perf_buffer(print_event) while 1: try: b.perf_buffer_poll() except KeyboardInterrupt: exit()