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#! /usr/bin/python3 # # klockstat traces lock events and display locks statistics. # # USAGE: klockstat # from __future__ import print_function from bcc import BPF, USDT import argparse import subprocess import ctypes as ct from time import sleep, strftime from datetime import datetime, timedelta import errno from sys import stderr examples = """ klockstat # trace system wide klockstat -d 5 # trace for 5 seconds only klockstat -i 5 # display stats every 5 seconds klockstat -p 123 # trace locks for PID 123 klockstat -t 321 # trace locks for TID 321 klockstat -c pipe_ # display stats only for lock callers with 'pipe_' substring klockstat -S acq_count # sort lock acquired results on acquired count klockstat -S hld_total # sort lock held results on total held time klockstat -S acq_count,hld_total # combination of above klockstat -n 3 # display 3 locks klockstat -s 3 # display 3 levels of stack """ # arg validation def positive_int(val): try: ival = int(val) except ValueError: raise argparse.ArgumentTypeError("must be an integer") if ival < 0: raise argparse.ArgumentTypeError("must be positive") return ival def positive_nonzero_int(val): ival = positive_int(val) if ival == 0: raise argparse.ArgumentTypeError("must be nonzero") return ival def stack_id_err(stack_id): # -EFAULT in get_stackid normally means the stack-trace is not available, # Such as getting kernel stack trace in userspace code return (stack_id < 0) and (stack_id != -errno.EFAULT) parser = argparse.ArgumentParser( description="", formatter_class=argparse.RawDescriptionHelpFormatter, epilog=examples) time_group = parser.add_mutually_exclusive_group() time_group.add_argument("-d", "--duration", type=int, help="total duration of trace in seconds") time_group.add_argument("-i", "--interval", type=int, help="print summary at this interval (seconds)") parser.add_argument("-n", "--locks", type=int, default=99999999, help="print given number of locks") parser.add_argument("-s", "--stacks", type=int, default=1, help="print given number of stack entries") parser.add_argument("-c", "--caller", help="print locks taken by given caller") parser.add_argument("-S", "--sort", help="sort data on <aq_field,hd_field>, fields: acq_[max|total|count] hld_[max|total|count]") parser.add_argument("-p", "--pid", help="trace this PID only") parser.add_argument("-t", "--tid", help="trace this TID only") parser.add_argument("--stack-storage-size", default=16384, type=positive_nonzero_int, help="the number of unique stack traces that can be stored and " "displayed (default 16384)") args = parser.parse_args() program = """ #include <uapi/linux/ptrace.h> struct depth_id { u64 id; u64 depth; }; BPF_ARRAY(enabled, u64, 1); BPF_HASH(track, u64, u64); BPF_HASH(time_aq, u64, u64); BPF_HASH(lock_depth, u64, u64); BPF_HASH(time_held, struct depth_id, u64); BPF_HASH(stack, struct depth_id, int); BPF_HASH(aq_report_count, int, u64); BPF_HASH(aq_report_max, int, u64); BPF_HASH(aq_report_total, int, u64); BPF_HASH(hl_report_count, int, u64); BPF_HASH(hl_report_max, int, u64); BPF_HASH(hl_report_total, int, u64); BPF_STACK_TRACE(stack_traces, STACK_STORAGE_SIZE); static bool is_enabled(void) { int key = 0; u64 *ret; ret = enabled.lookup(&key); return ret && *ret == 1; } static bool allow_pid(u64 id) { u32 pid = id >> 32; // PID is higher part u32 tid = id; // Cast and get the lower part FILTER return 1; } static int do_mutex_lock_enter(void *ctx, int skip) { if (!is_enabled()) return 0; u64 id = bpf_get_current_pid_tgid(); if (!allow_pid(id)) return 0; u64 one = 1, zero = 0; track.update(&id, &one); u64 *depth = lock_depth.lookup(&id); if (!depth) { lock_depth.update(&id, &zero); depth = lock_depth.lookup(&id); /* something is wrong.. */ if (!depth) return 0; } int stackid = stack_traces.get_stackid(ctx, skip); struct depth_id did = { .id = id, .depth = *depth, }; stack.update(&did, &stackid); u64 ts = bpf_ktime_get_ns(); time_aq.update(&id, &ts); *depth += 1; return 0; } static void update_aq_report_count(int *stackid) { u64 *count, one = 1; count = aq_report_count.lookup(stackid); if (!count) { aq_report_count.update(stackid, &one); } else { *count += 1; } } static void update_hl_report_count(int *stackid) { u64 *count, one = 1; count = hl_report_count.lookup(stackid); if (!count) { hl_report_count.update(stackid, &one); } else { *count += 1; } } static void update_aq_report_max(int *stackid, u64 time) { u64 *max; max = aq_report_max.lookup(stackid); if (!max || *max < time) aq_report_max.update(stackid, &time); } static void update_hl_report_max(int *stackid, u64 time) { u64 *max; max = hl_report_max.lookup(stackid); if (!max || *max < time) hl_report_max.update(stackid, &time); } static void update_aq_report_total(int *stackid, u64 delta) { u64 *count, *time; count = aq_report_count.lookup(stackid); if (!count) return; time = aq_report_total.lookup(stackid); if (!time) { aq_report_total.update(stackid, &delta); } else { *time = *time + delta; } } static void update_hl_report_total(int *stackid, u64 delta) { u64 *count, *time; count = hl_report_count.lookup(stackid); if (!count) return; time = hl_report_total.lookup(stackid); if (!time) { hl_report_total.update(stackid, &delta); } else { *time = *time + delta; } } static int do_mutex_lock_return(void) { if (!is_enabled()) return 0; u64 id = bpf_get_current_pid_tgid(); if (!allow_pid(id)) return 0; u64 *one = track.lookup(&id); if (!one) return 0; track.delete(&id); u64 *depth = lock_depth.lookup(&id); if (!depth) return 0; struct depth_id did = { .id = id, .depth = *depth - 1, }; u64 *aq = time_aq.lookup(&id); if (!aq) return 0; int *stackid = stack.lookup(&did); if (!stackid) return 0; int stackid_ = *stackid; u64 cur = bpf_ktime_get_ns(); if (cur > *aq) { int val = cur - *aq; update_aq_report_count(&stackid_); update_aq_report_max(&stackid_, val); update_aq_report_total(&stackid_, val); } time_held.update(&did, &cur); return 0; } static int do_mutex_unlock_enter(void) { if (!is_enabled()) return 0; u64 id = bpf_get_current_pid_tgid(); if (!allow_pid(id)) return 0; u64 *depth = lock_depth.lookup(&id); if (!depth || *depth == 0) return 0; *depth -= 1; struct depth_id did = { .id = id, .depth = *depth, }; u64 *held = time_held.lookup(&did); if (!held) return 0; int *stackid = stack.lookup(&did); if (!stackid) return 0; int stackid_ = *stackid; u64 cur = bpf_ktime_get_ns(); if (cur > *held) { u64 val = cur - *held; update_hl_report_count(&stackid_); update_hl_report_max(&stackid_, val); update_hl_report_total(&stackid_, val); } stack.delete(&did); time_held.delete(&did); return 0; } """ program_kprobe = """ int mutex_unlock_enter(struct pt_regs *ctx) { return do_mutex_unlock_enter(); } int mutex_lock_return(struct pt_regs *ctx) { return do_mutex_lock_return(); } int mutex_lock_enter(struct pt_regs *ctx) { return do_mutex_lock_enter(ctx, 0); } """ program_kfunc = """ KFUNC_PROBE(mutex_unlock, void *lock) { return do_mutex_unlock_enter(); } KRETFUNC_PROBE(mutex_lock, void *lock, int ret) { return do_mutex_lock_return(); } KFUNC_PROBE(mutex_lock, void *lock) { return do_mutex_lock_enter(ctx, 3); } """ program_kfunc_nested = """ KFUNC_PROBE(mutex_unlock, void *lock) { return do_mutex_unlock_enter(); } KRETFUNC_PROBE(mutex_lock_nested, void *lock, int ret) { return do_mutex_lock_return(); } KFUNC_PROBE(mutex_lock_nested, void *lock) { return do_mutex_lock_enter(ctx, 3); } """ is_support_kfunc = BPF.support_kfunc() if is_support_kfunc: if BPF.get_kprobe_functions(b"mutex_lock_nested"): program += program_kfunc_nested else: program += program_kfunc else: program += program_kprobe def sort_list(maxs, totals, counts): if (not args.sort): return maxs; for field in args.sort.split(','): if (field == "acq_max" or field == "hld_max"): return maxs if (field == "acq_total" or field == "hld_total"): return totals if (field == "acq_count" or field == "hld_count"): return counts print("Wrong sort argument: %s", args.sort) exit(-1) def display(sort, maxs, totals, counts): global missing_stacks global has_enomem for k, v in sorted(sort.items_lookup_batch() if htab_batch_ops else sort.items(), key=lambda sort: sort[1].value, reverse=True)[:args.locks]: missing_stacks += int(stack_id_err(k.value)) has_enomem = has_enomem or (k.value == -errno.ENOMEM) caller = "[Missed Kernel Stack]" stack = [] if (k.value >= 0): stack = list(stack_traces.walk(k.value)) caller = b.ksym(stack[1], show_offset=True) if (args.caller and caller.find(args.caller.encode())): continue avg = totals[k].value / counts[k].value print("%40s %10lu %6lu %10lu %10lu" % (caller, avg, counts[k].value, maxs[k].value, totals[k].value)) for addr in stack[2:args.stacks]: print("%40s" % b.ksym(addr, show_offset=True)) if args.tid: # TID trumps PID program = program.replace('FILTER', 'if (tid != %s) { return 0; }' % args.tid) elif args.pid: program = program.replace('FILTER', 'if (pid != %s) { return 0; }' % args.pid) else: program = program.replace('FILTER', '') program = program.replace('STACK_STORAGE_SIZE', str(args.stack_storage_size)) b = BPF(text=program) if not is_support_kfunc: b.attach_kprobe(event="mutex_unlock", fn_name="mutex_unlock_enter") # Depending on whether DEBUG_LOCK_ALLOC is set, the proper kprobe may be either mutex_lock or mutex_lock_nested if BPF.get_kprobe_functions(b"mutex_lock_nested"): b.attach_kretprobe(event="mutex_lock_nested", fn_name="mutex_lock_return") b.attach_kprobe(event="mutex_lock_nested", fn_name="mutex_lock_enter") else: b.attach_kretprobe(event="mutex_lock", fn_name="mutex_lock_return") b.attach_kprobe(event="mutex_lock", fn_name="mutex_lock_enter") # check whether hash table batch ops is supported htab_batch_ops = True if BPF.kernel_struct_has_field(b'bpf_map_ops', b'map_lookup_and_delete_batch') == 1 else False enabled = b.get_table("enabled"); stack_traces = b.get_table("stack_traces") aq_counts = b.get_table("aq_report_count") aq_maxs = b.get_table("aq_report_max") aq_totals = b.get_table("aq_report_total") hl_counts = b.get_table("hl_report_count") hl_maxs = b.get_table("hl_report_max") hl_totals = b.get_table("hl_report_total") aq_sort = sort_list(aq_maxs, aq_totals, aq_counts) hl_sort = sort_list(hl_maxs, hl_totals, hl_counts) print("Tracing lock events... Hit Ctrl-C to end.") # duration and interval are mutualy exclusive exiting = 0 if args.interval else 1 exiting = 1 if args.duration else 0 seconds = 99999999 if args.interval: seconds = args.interval if args.duration: seconds = args.duration missing_stacks = 0 has_enomem = False while (1): enabled[ct.c_int(0)] = ct.c_int(1) try: sleep(seconds) except KeyboardInterrupt: exiting = 1 enabled[ct.c_int(0)] = ct.c_int(0) print("\n%40s %10s %6s %10s %10s" % ("Caller", "Avg Spin", "Count", "Max spin", "Total spin")) display(aq_sort, aq_maxs, aq_totals, aq_counts) print("\n%40s %10s %6s %10s %10s" % ("Caller", "Avg Hold", "Count", "Max hold", "Total hold")) display(hl_sort, hl_maxs, hl_totals, hl_counts) if exiting: break; stack_traces.clear() if htab_batch_ops: aq_counts.items_delete_batch() aq_maxs.items_delete_batch() aq_totals.items_delete_batch() hl_counts.items_delete_batch() hl_maxs.items_delete_batch() hl_totals.items_delete_batch() else: aq_counts.clear() aq_maxs.clear() aq_totals.clear() hl_counts.clear() hl_maxs.clear() hl_totals.clear() if missing_stacks > 0: enomem_str = " Consider increasing --stack-storage-size." print("WARNING: %d stack traces lost and could not be displayed.%s" % (missing_stacks, (enomem_str if has_enomem else "")), file=stderr)