1Demonstrations of memleak.
2
3
4memleak traces and matches memory allocation and deallocation requests, and
5collects call stacks for each allocation. memleak can then print a summary
6of which call stacks performed allocations that weren't subsequently freed.
7For example:
8
9# ./memleak -p $(pidof allocs)
10Attaching to pid 5193, Ctrl+C to quit.
11[11:16:33] Top 2 stacks with outstanding allocations:
12        80 bytes in 5 allocations from stack
13                 main+0x6d [allocs]
14                 __libc_start_main+0xf0 [libc-2.21.so]
15
16[11:16:34] Top 2 stacks with outstanding allocations:
17        160 bytes in 10 allocations from stack
18                 main+0x6d [allocs]
19                 __libc_start_main+0xf0 [libc-2.21.so]
20
21
22Each entry printed is a set of allocations that originate from the same call
23stack, and that weren't freed yet. The number of bytes and number of allocs
24are followed by the call stack, top to bottom, of the allocation site.
25
26As time goes on, it becomes apparent that the main function in the allocs
27process is leaking memory, 16 bytes at a time. Fortunately, you don't have to
28inspect each allocation individually -- you get a nice summary of which stack
29is responsible for a large leak.
30
31Occasionally, you do want the individual allocation details. Perhaps the same
32stack is allocating various sizes and you want to confirm which sizes are
33prevalent. Use the -a switch:
34
35# ./memleak -p $(pidof allocs) -a
36Attaching to pid 5193, Ctrl+C to quit.
37[11:16:33] Top 2 stacks with outstanding allocations:
38        addr = 948cd0 size = 16
39        addr = 948d10 size = 16
40        addr = 948d30 size = 16
41        addr = 948cf0 size = 16
42        64 bytes in 4 allocations from stack
43                 main+0x6d [allocs]
44                 __libc_start_main+0xf0 [libc-2.21.so]
45
46[11:16:34] Top 2 stacks with outstanding allocations:
47        addr = 948d50 size = 16
48        addr = 948cd0 size = 16
49        addr = 948d10 size = 16
50        addr = 948d30 size = 16
51        addr = 948cf0 size = 16
52        addr = 948dd0 size = 16
53        addr = 948d90 size = 16
54        addr = 948db0 size = 16
55        addr = 948d70 size = 16
56        addr = 948df0 size = 16
57        160 bytes in 10 allocations from stack
58                 main+0x6d [allocs]
59                 __libc_start_main+0xf0 [libc-2.21.so]
60
61
62When using the -p switch, memleak traces the libc allocations of a particular
63process. Without this switch, kernel allocations are traced instead.
64For example:
65
66# ./memleak
67Attaching to kernel allocators, Ctrl+C to quit.
68...
69        248 bytes in 4 allocations from stack
70                 bpf_prog_load [kernel]
71                 sys_bpf [kernel]
72
73        328 bytes in 1 allocations from stack
74                 perf_mmap [kernel]
75                 mmap_region [kernel]
76                 do_mmap [kernel]
77                 vm_mmap_pgoff [kernel]
78                 sys_mmap_pgoff [kernel]
79                 sys_mmap [kernel]
80
81        464 bytes in 1 allocations from stack
82                 traceprobe_command [kernel]
83                 traceprobe_probes_write [kernel]
84                 probes_write [kernel]
85                 __vfs_write [kernel]
86                 vfs_write [kernel]
87                 sys_write [kernel]
88                 entry_SYSCALL_64_fastpath [kernel]
89
90        8192 bytes in 1 allocations from stack
91                 alloc_and_copy_ftrace_hash.constprop.59 [kernel]
92                 ftrace_set_hash [kernel]
93                 ftrace_set_filter_ip [kernel]
94                 arm_kprobe [kernel]
95                 enable_kprobe [kernel]
96                 kprobe_register [kernel]
97                 perf_trace_init [kernel]
98                 perf_tp_event_init [kernel]
99
100
101Here you can see that arming the kprobe to which our eBPF program is attached
102consumed 8KB of memory. Loading the BPF program also consumed a couple hundred
103bytes (in bpf_prog_load).
104
105memleak stores each allocated block along with its size, timestamp, and the
106stack that allocated it. When the block is deleted, this information is freed
107to reduce the memory overhead.
108
109To avoid false positives, allocations younger than a certain age (500ms by
110default) are not printed. To change this threshold, use the -o switch.
111
112By default, memleak prints its output every 5 seconds. To change this
113interval, pass the interval as a positional parameter to memleak. You can
114also control the number of times the output will be printed before exiting.
115For example:
116
117# ./memleak 1 10
118
119... will print the outstanding allocation statistics every second, for ten
120times, and then exit.
121
122memleak may introduce considerable overhead if your application or kernel is
123allocating and freeing memory at a very high rate. In that case, you can
124control the overhead by sampling every N-th allocation. For example, to sample
125roughly 10% of the allocations and print the outstanding allocations every 5
126seconds, 3 times before quitting:
127
128# ./memleak -p $(pidof allocs) -s 10 5 3
129Attaching to pid 2614, Ctrl+C to quit.
130[11:16:33] Top 2 stacks with outstanding allocations:
131        16 bytes in 1 allocations from stack
132                 main+0x6d [allocs]
133                 __libc_start_main+0xf0 [libc-2.21.so]
134
135[11:16:38] Top 2 stacks with outstanding allocations:
136        16 bytes in 1 allocations from stack
137                 main+0x6d [allocs]
138                 __libc_start_main+0xf0 [libc-2.21.so]
139
140[11:16:43] Top 2 stacks with outstanding allocations:
141        32 bytes in 2 allocations from stack
142                 main+0x6d [allocs]
143                 __libc_start_main+0xf0 [libc-2.21.so]
144
145Note that even though the application leaks 16 bytes of memory every second,
146the report (printed every 5 seconds) doesn't "see" all the allocations because
147of the sampling rate applied.
148
149
150USAGE message:
151
152# ./memleak -h
153usage: memleak.py [-h] [-p PID] [-t] [-a] [-o OLDER] [-c COMMAND]
154                  [--combined-only] [-s SAMPLE_RATE] [-T TOP] [-z MIN_SIZE]
155                  [-Z MAX_SIZE] [-O OBJ]
156                  [interval] [count]
157
158Trace outstanding memory allocations that weren't freed.
159Supports both user-mode allocations made with libc functions and kernel-mode
160allocations made with kmalloc/kmem_cache_alloc/get_free_pages and corresponding
161memory release functions.
162
163positional arguments:
164  interval              interval in seconds to print outstanding allocations
165  count                 number of times to print the report before exiting
166
167optional arguments:
168  -h, --help            show this help message and exit
169  -p PID, --pid PID     the PID to trace; if not specified, trace kernel
170                        allocs
171  -t, --trace           print trace messages for each alloc/free call
172  -a, --show-allocs     show allocation addresses and sizes as well as call
173                        stacks
174  -o OLDER, --older OLDER
175                        prune allocations younger than this age in
176                        milliseconds
177  -c COMMAND, --command COMMAND
178                        execute and trace the specified command
179  --combined-only       show combined allocation statistics only
180  -s SAMPLE_RATE, --sample-rate SAMPLE_RATE
181                        sample every N-th allocation to decrease the overhead
182  -T TOP, --top TOP     display only this many top allocating stacks (by size)
183  -z MIN_SIZE, --min-size MIN_SIZE
184                        capture only allocations larger than this size
185  -Z MAX_SIZE, --max-size MAX_SIZE
186                        capture only allocations smaller than this size
187  -O OBJ, --obj OBJ     attach to allocator functions in the specified object
188
189EXAMPLES:
190
191./memleak -p $(pidof allocs)
192        Trace allocations and display a summary of "leaked" (outstanding)
193        allocations every 5 seconds
194./memleak -p $(pidof allocs) -t
195        Trace allocations and display each individual allocator function call
196./memleak -ap $(pidof allocs) 10
197        Trace allocations and display allocated addresses, sizes, and stacks
198        every 10 seconds for outstanding allocations
199./memleak -c "./allocs"
200        Run the specified command and trace its allocations
201./memleak
202        Trace allocations in kernel mode and display a summary of outstanding
203        allocations every 5 seconds
204./memleak -o 60000
205        Trace allocations in kernel mode and display a summary of outstanding
206        allocations that are at least one minute (60 seconds) old
207./memleak -s 5
208        Trace roughly every 5th allocation, to reduce overhead
209