#!/usr/bin/env python # # memleak Trace and display outstanding allocations to detect # memory leaks in user-mode processes and the kernel. # # USAGE: memleak [-h] [-p PID] [-t] [-a] [-o OLDER] [-c COMMAND] # [-s SAMPLE_RATE] [-d STACK_DEPTH] [-T TOP] [-z MIN_SIZE] # [-Z MAX_SIZE] # [interval] [count] # # Licensed under the Apache License, Version 2.0 (the "License") # Copyright (C) 2016 Sasha Goldshtein. from bcc import BPF from time import sleep from datetime import datetime import argparse import subprocess import os def decode_stack(bpf, pid, info): stack = "" if info.num_frames <= 0: return "???" for i in range(0, info.num_frames): addr = info.callstack[i] stack += " %s ;" % bpf.sym(addr, pid, show_offset=True) return stack def run_command_get_output(command): p = subprocess.Popen(command.split(), stdout=subprocess.PIPE, stderr=subprocess.STDOUT) return iter(p.stdout.readline, b'') def run_command_get_pid(command): p = subprocess.Popen(command.split()) return p.pid examples = """ EXAMPLES: ./memleak -p $(pidof allocs) Trace allocations and display a summary of "leaked" (outstanding) allocations every 5 seconds ./memleak -p $(pidof allocs) -t Trace allocations and display each individual call to malloc/free ./memleak -ap $(pidof allocs) 10 Trace allocations and display allocated addresses, sizes, and stacks every 10 seconds for outstanding allocations ./memleak -c "./allocs" Run the specified command and trace its allocations ./memleak Trace allocations in kernel mode and display a summary of outstanding allocations every 5 seconds ./memleak -o 60000 Trace allocations in kernel mode and display a summary of outstanding allocations that are at least one minute (60 seconds) old ./memleak -s 5 Trace roughly every 5th allocation, to reduce overhead """ description = """ Trace outstanding memory allocations that weren't freed. Supports both user-mode allocations made with malloc/free and kernel-mode allocations made with kmalloc/kfree. """ parser = argparse.ArgumentParser(description=description, formatter_class=argparse.RawDescriptionHelpFormatter, epilog=examples) parser.add_argument("-p", "--pid", type=int, default=-1, help="the PID to trace; if not specified, trace kernel allocs") parser.add_argument("-t", "--trace", action="store_true", help="print trace messages for each alloc/free call") parser.add_argument("interval", nargs="?", default=5, type=int, help="interval in seconds to print outstanding allocations") parser.add_argument("count", nargs="?", type=int, help="number of times to print the report before exiting") parser.add_argument("-a", "--show-allocs", default=False, action="store_true", help="show allocation addresses and sizes as well as call stacks") parser.add_argument("-o", "--older", default=500, type=int, help="prune allocations younger than this age in milliseconds") parser.add_argument("-c", "--command", help="execute and trace the specified command") parser.add_argument("-s", "--sample-rate", default=1, type=int, help="sample every N-th allocation to decrease the overhead") parser.add_argument("-d", "--stack-depth", default=10, type=int, help="maximum stack depth to capture") parser.add_argument("-T", "--top", type=int, default=10, help="display only this many top allocating stacks (by size)") parser.add_argument("-z", "--min-size", type=int, help="capture only allocations larger than this size") parser.add_argument("-Z", "--max-size", type=int, help="capture only allocations smaller than this size") args = parser.parse_args() pid = args.pid command = args.command kernel_trace = (pid == -1 and command is None) trace_all = args.trace interval = args.interval min_age_ns = 1e6 * args.older sample_every_n = args.sample_rate num_prints = args.count max_stack_size = args.stack_depth + 2 top_stacks = args.top min_size = args.min_size max_size = args.max_size if min_size is not None and max_size is not None and min_size > max_size: print("min_size (-z) can't be greater than max_size (-Z)") exit(1) if command is not None: print("Executing '%s' and tracing the resulting process." % command) pid = run_command_get_pid(command) bpf_source = """ #include struct alloc_info_t { u64 size; u64 timestamp_ns; int num_frames; u64 callstack[MAX_STACK_SIZE]; }; BPF_HASH(sizes, u64); BPF_HASH(allocs, u64, struct alloc_info_t); // Adapted from https://github.com/iovisor/bcc/tools/offcputime.py static u64 get_frame(u64 *bp) { if (*bp) { // The following stack walker is x86_64 specific u64 ret = 0; if (bpf_probe_read(&ret, sizeof(ret), (void *)(*bp+8))) return 0; if (bpf_probe_read(bp, sizeof(*bp), (void *)*bp)) *bp = 0; return ret; } return 0; } static int grab_stack(struct pt_regs *ctx, struct alloc_info_t *info) { int depth = 0; u64 bp = ctx->bp; GRAB_ONE_FRAME return depth; } int alloc_enter(struct pt_regs *ctx, size_t size) { SIZE_FILTER if (SAMPLE_EVERY_N > 1) { u64 ts = bpf_ktime_get_ns(); if (ts % SAMPLE_EVERY_N != 0) return 0; } u64 pid = bpf_get_current_pid_tgid(); u64 size64 = size; sizes.update(&pid, &size64); if (SHOULD_PRINT) bpf_trace_printk("alloc entered, size = %u\\n", size); return 0; } int alloc_exit(struct pt_regs *ctx) { u64 address = ctx->ax; u64 pid = bpf_get_current_pid_tgid(); u64* size64 = sizes.lookup(&pid); struct alloc_info_t info = {0}; if (size64 == 0) return 0; // missed alloc entry info.size = *size64; sizes.delete(&pid); info.timestamp_ns = bpf_ktime_get_ns(); info.num_frames = grab_stack(ctx, &info) - 2; allocs.update(&address, &info); if (SHOULD_PRINT) { bpf_trace_printk("alloc exited, size = %lu, result = %lx," "frames = %d\\n", info.size, address, info.num_frames); } return 0; } int free_enter(struct pt_regs *ctx, void *address) { u64 addr = (u64)address; struct alloc_info_t *info = allocs.lookup(&addr); if (info == 0) return 0; allocs.delete(&addr); if (SHOULD_PRINT) { bpf_trace_printk("free entered, address = %lx, size = %lu\\n", address, info->size); } return 0; } """ bpf_source = bpf_source.replace("SHOULD_PRINT", "1" if trace_all else "0") bpf_source = bpf_source.replace("SAMPLE_EVERY_N", str(sample_every_n)) bpf_source = bpf_source.replace("GRAB_ONE_FRAME", max_stack_size * "\tif (!(info->callstack[depth++] = get_frame(&bp))) return depth;\n") bpf_source = bpf_source.replace("MAX_STACK_SIZE", str(max_stack_size)) size_filter = "" if min_size is not None and max_size is not None: size_filter = "if (size < %d || size > %d) return 0;" % \ (min_size, max_size) elif min_size is not None: size_filter = "if (size < %d) return 0;" % min_size elif max_size is not None: size_filter = "if (size > %d) return 0;" % max_size bpf_source = bpf_source.replace("SIZE_FILTER", size_filter) bpf_program = BPF(text=bpf_source) if not kernel_trace: print("Attaching to malloc and free in pid %d, Ctrl+C to quit." % pid) bpf_program.attach_uprobe(name="c", sym="malloc", fn_name="alloc_enter", pid=pid) bpf_program.attach_uretprobe(name="c", sym="malloc", fn_name="alloc_exit", pid=pid) bpf_program.attach_uprobe(name="c", sym="free", fn_name="free_enter", pid=pid) else: print("Attaching to kmalloc and kfree, Ctrl+C to quit.") bpf_program.attach_kprobe(event="__kmalloc", fn_name="alloc_enter") bpf_program.attach_kretprobe(event="__kmalloc", fn_name="alloc_exit") bpf_program.attach_kprobe(event="kfree", fn_name="free_enter") def print_outstanding(): stacks = {} print("[%s] Top %d stacks with outstanding allocations:" % (datetime.now().strftime("%H:%M:%S"), top_stacks)) allocs = bpf_program.get_table("allocs") for address, info in sorted(allocs.items(), key=lambda a: a[1].size): if BPF.monotonic_time() - min_age_ns < info.timestamp_ns: continue stack = decode_stack(bpf_program, pid, info) if stack in stacks: stacks[stack] = (stacks[stack][0] + 1, stacks[stack][1] + info.size) else: stacks[stack] = (1, info.size) if args.show_allocs: print("\taddr = %x size = %s" % (address.value, info.size)) to_show = sorted(stacks.items(), key=lambda s: s[1][1])[-top_stacks:] for stack, (count, size) in to_show: print("\t%d bytes in %d allocations from stack\n\t\t%s" % (size, count, stack.replace(";", "\n\t\t"))) count_so_far = 0 while True: if trace_all: print(bpf_program.trace_fields()) else: try: sleep(interval) except KeyboardInterrupt: exit() print_outstanding() count_so_far += 1 if num_prints is not None and count_so_far >= num_prints: exit()