#!/usr/bin/env python # # syscount Summarize syscall counts and latencies. # # USAGE: syscount [-p PID] [-i INTERVAL] [-T TOP] [-x] [-L] [-m] [-P] [-l] # # Copyright 2017, Sasha Goldshtein. # Licensed under the Apache License, Version 2.0 (the "License") # # 15-Feb-2017 Sasha Goldshtein Created this. from time import sleep, strftime import argparse import errno import itertools import sys import signal from bcc import BPF from bcc.utils import printb from bcc.syscall import syscall_name if sys.version_info.major < 3: izip_longest = itertools.izip_longest else: izip_longest = itertools.zip_longest # signal handler def signal_ignore(signal, frame): print() def handle_errno(errstr): try: return abs(int(errstr)) except ValueError: pass try: return getattr(errno, errstr) except AttributeError: raise argparse.ArgumentTypeError("couldn't map %s to an errno" % errstr) parser = argparse.ArgumentParser( description="Summarize syscall counts and latencies.") parser.add_argument("-p", "--pid", type=int, help="trace only this pid") parser.add_argument("-i", "--interval", type=int, help="print summary at this interval (seconds)") parser.add_argument("-d", "--duration", type=int, help="total duration of trace, in seconds") parser.add_argument("-T", "--top", type=int, default=10, help="print only the top syscalls by count or latency") parser.add_argument("-x", "--failures", action="store_true", help="trace only failed syscalls (return < 0)") parser.add_argument("-e", "--errno", type=handle_errno, help="trace only syscalls that return this error (numeric or EPERM, etc.)") parser.add_argument("-L", "--latency", action="store_true", help="collect syscall latency") parser.add_argument("-m", "--milliseconds", action="store_true", help="display latency in milliseconds (default: microseconds)") parser.add_argument("-P", "--process", action="store_true", help="count by process and not by syscall") parser.add_argument("-l", "--list", action="store_true", help="print list of recognized syscalls and exit") parser.add_argument("--ebpf", action="store_true", help=argparse.SUPPRESS) args = parser.parse_args() if args.duration and not args.interval: args.interval = args.duration if not args.interval: args.interval = 99999999 if args.list: for grp in izip_longest(*(iter(sorted(syscalls.values())),) * 4): print(" ".join(["%-20s" % s for s in grp if s is not None])) sys.exit(0) text = """ #ifdef LATENCY struct data_t { u64 count; u64 total_ns; }; BPF_HASH(start, u64, u64); BPF_HASH(data, u32, struct data_t); #else BPF_HASH(data, u32, u64); #endif #ifdef LATENCY TRACEPOINT_PROBE(raw_syscalls, sys_enter) { u64 pid_tgid = bpf_get_current_pid_tgid(); #ifdef FILTER_PID if (pid_tgid >> 32 != FILTER_PID) return 0; #endif u64 t = bpf_ktime_get_ns(); start.update(&pid_tgid, &t); return 0; } #endif TRACEPOINT_PROBE(raw_syscalls, sys_exit) { u64 pid_tgid = bpf_get_current_pid_tgid(); #ifdef FILTER_PID if (pid_tgid >> 32 != FILTER_PID) return 0; #endif #ifdef FILTER_FAILED if (args->ret >= 0) return 0; #endif #ifdef FILTER_ERRNO if (args->ret != -FILTER_ERRNO) return 0; #endif #ifdef BY_PROCESS u32 key = pid_tgid >> 32; #else u32 key = args->id; #endif #ifdef LATENCY struct data_t *val, zero = {}; u64 *start_ns = start.lookup(&pid_tgid); if (!start_ns) return 0; val = data.lookup_or_init(&key, &zero); val->count++; val->total_ns += bpf_ktime_get_ns() - *start_ns; #else u64 *val, zero = 0; val = data.lookup_or_init(&key, &zero); ++(*val); #endif return 0; } """ if args.pid: text = ("#define FILTER_PID %d\n" % args.pid) + text if args.failures: text = "#define FILTER_FAILED\n" + text if args.errno: text = "#define FILTER_ERRNO %d\n" % abs(args.errno) + text if args.latency: text = "#define LATENCY\n" + text if args.process: text = "#define BY_PROCESS\n" + text if args.ebpf: print(text) exit() bpf = BPF(text=text) def print_stats(): if args.latency: print_latency_stats() else: print_count_stats() agg_colname = "PID COMM" if args.process else "SYSCALL" time_colname = "TIME (ms)" if args.milliseconds else "TIME (us)" def comm_for_pid(pid): try: return open("/proc/%d/comm" % pid, "rb").read().strip() except Exception: return b"[unknown]" def agg_colval(key): if args.process: return b"%-6d %-15s" % (key.value, comm_for_pid(key.value)) else: return syscall_name(key.value) def print_count_stats(): data = bpf["data"] print("[%s]" % strftime("%H:%M:%S")) print("%-22s %8s" % (agg_colname, "COUNT")) for k, v in sorted(data.items(), key=lambda kv: -kv[1].value)[:args.top]: if k.value == 0xFFFFFFFF: continue # happens occasionally, we don't need it printb(b"%-22s %8d" % (agg_colval(k), v.value)) print("") data.clear() def print_latency_stats(): data = bpf["data"] print("[%s]" % strftime("%H:%M:%S")) print("%-22s %8s %16s" % (agg_colname, "COUNT", time_colname)) for k, v in sorted(data.items(), key=lambda kv: -kv[1].total_ns)[:args.top]: if k.value == 0xFFFFFFFF: continue # happens occasionally, we don't need it printb((b"%-22s %8d " + (b"%16.6f" if args.milliseconds else b"%16.3f")) % (agg_colval(k), v.count, v.total_ns / (1e6 if args.milliseconds else 1e3))) print("") data.clear() print("Tracing %ssyscalls, printing top %d... Ctrl+C to quit." % ("failed " if args.failures else "", args.top)) exiting = 0 if args.interval else 1 seconds = 0 while True: try: sleep(args.interval) seconds += args.interval except KeyboardInterrupt: exiting = 1 signal.signal(signal.SIGINT, signal_ignore) if args.duration and seconds >= args.duration: exiting = 1 print_stats() if exiting: print("Detaching...") exit()