leak, kmem, umem – help find memory leaks|
leak [ –abcds ] [ –f binary ] [ –r res ] [ –x width ] pid ... |
kmem [ kernel ]
umem pid [ textfile ]
Leak examines the named processes, which should be sharing their
data and bss segments, for memory leaks. It uses a mark and sweep–style
algorithm to determine which allocated blocks are no longer reachable
from the set of root pointers. The set of root pointers is created
by looking through the shared bss
segment as well as each process's registers. |
Unless directed otherwise, leak prints, for each block, a line with seven space–separated fields: the string block, the address of the block, the size of the block, the first two words of the block, and the function names represented by the first two words of the block. Usually, the first two words of the block contain the malloc and realloc tags (see malloc(2)), useful for finding who allocated the leaked blocks.
If the –s or the –c option is given, leak will instead present a sequence of acid(1) commands that show each leaky allocation site. With –s a comment appears next to each command to indicate how many lost blocks were allocated at that point in the program. With –c the comments are extended to indicate also the total number of bytes lost at that point in the program, and an additional comment line gives the overall total number of bytes.
If the –a option is given, leak will print information as decribed above, but for all allocated blocks, not only leaked ones. If the –d option is given, leak will print information as described above, but for all free blocks, i.e. those freed, or those that are not yet in use (fragmentation?). The –a and –d options can be combined.
If the –b option is given, leak will print a Plan 9 image file
graphically summarizing the memory arenas. In the image, each
pixel represents res (default 8) bytes. The color code is:
If given a name rather than a list of process ids, leak echoes back a command–line with process ids of every process with that name.
The –f option specifies a binary to go on the acid(1) command–line used to inspect the processes, and is only necessary when inspecting processes started from stripped binaries.
Umem prints a summary of all allocated blocks in the process with id pid. Each line of the summary gives the count and total size of blocks allocated at an allocation point. The list is sorted by count in decreasing order. Umem prints summarizes all allocations, not just memory leaks, but it is faster and requires less memory than leak.
Kmem is like umem but prints a summary for the running kernel.
List lost blocks in 8.out. This depends on the fact that there
is only one instance of 8.out running; if there were more, the
output of leak –s 8.out would need editing before sending to the
getcallerpc(2), setmalloctag in malloc(2)|
Leak and kmem depend on the internal structure of the libc pool
memory allocator (see pool(2)). Since the ANSI/POSIX environment
uses a different allocator, leak will not work on APE programs.
Leak is not speedy, and acidleak can consume more memory than the process(es) being examined.
These commands require /sys/src/libc/port/pool.acid to be present
and generated from pool.c.