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Stackusage

Linux Mac
Linux macOS

Stackusage measures stack usage in Linux and macOS applications (main thread and native pthread child threads). The measured stack utilization data can be used to adjust the stack size allocation to provide desired margin for child threads. This is primarily useful for applications and libraries designed to work in resource-constrained environments (such as embedded systems).

Example Usage

$ stackusage ./ex001
stackusage log start ----------------------------------------------------
  pid  id    tid  requested     actual     maxuse  max%    dur  funcP
23930   0  23930    8388608    8384512       4144     0      0  (nil)
23930   1  23931      16384      16384       9336    56      0  0x4009b0
23930   2  23932      20480      20480      13528    66      0  0x4009b0
23930   3  23933      24576      24576      16728    68      0  0x4009b0
23930   4  23934      32768      32768      24920    76      0  0x4009b0
23930   5  23935      49152      49152      41304    84      0  0x4009b0
stackusage log end ------------------------------------------------------

Supported Platforms

Stackusage is primarily developed and tested on Linux, but basic functionality should work in macOS / OS X as well. Current version has been tested on:

  • macOS Monterey 12.1
  • Ubuntu 20.04 LTS

Limitation: On macOS / OS X this tool relies on code injection using DYLD_INSERT_LIBRARIES, which generally does not work with third-party applications in a standard system. Using it on (your own) applications built from source should work fine though.

Installation

Pre-requisites (Ubuntu):

sudo apt install git cmake build-essential

Download the source code:

git clone https://github.com/d99kris/stackusage && cd stackusage

Generate Makefile and build:

mkdir -p build && cd build && cmake .. && make -s

Optionally install in system:

sudo make install

Usage

General usage syntax:

stackusage [-d] [-o PATH] [-s SIG] PROG [ARGS..]

Options:

-d              debug mode, running program through debugger
-o <PATH>       write output to specified file path, instead of stderr
-s <SIG>        enable on-demand logging when signalled SIG signal
PROG            program to run and analyze
[ARGS..]        optional arguments to the program
--help          display this help and exit
--version       output version information and exit

Example checking stack usage of test program 'ex001' with stackusage installed on system:

stackusage ./ex001

Example performing on-demand logging of program 'gedit'

stackusage -s SIGUSR1 gedit
kill -s SIGUSR1 `pidof gedit`

Output Format

Example output:

stackusage log start ----------------------------------------------------
  pid  id    tid  requested     actual     maxuse  max%    dur  funcP
23930   0  23930    8388608    8384512       4144     0      0  (nil)
23930   1  23931      16384      16384       9336    56      0  0x4009b0
23930   2  23932      20480      20480      13528    66      0  0x4009b0
23930   3  23933      24576      24576      16728    68      0  0x4009b0
23930   4  23934      32768      32768      24920    76      0  0x4009b0
23930   5  23935      49152      49152      41304    84      0  0x4009b0
stackusage log end ------------------------------------------------------

Description of columns:

pid         process id
id          id (0 = main thread, 1 = first child thread, etc..)
tid         thread id / tid (only supported on Linux, others show '0')
requested   requested stack size in bytes
actual      actual stack size in bytes (excl. any stack guard)
maxuse      maximum stack usage in bytes
max%        maximum use of requested stack size in percentage
dur         thread duration in seconds
funcP       (nil) for main, pointer to start_routine for child threads

The function that funcP points to can be determined for example using addr2line:

$ addr2line -f -e ./ex001 0x4009b0
thread_start
./tests/ex001.c:81

Technical Details

Stackusage intercepts calls to pthread_create and fills the thread stack with a dummy data pattern. It also registers a callback routine to be called upon thread termination. In the callback routine the amount of remaining dummy pattern in the stack is checked, in order to determine the stack usage.

Interception is only possible when stackusage is built for the same architecture as the program being analyzed. Stackusage tries to determine if there is a mismatch, if encountered it will output a warning like this:

warning: libstackusage.so architecture (ELF 64-bit) does not appear
to match <PROG> architecture (ELF 32-bit), analysis may fail.

To solve this, simply compile stackusage for the appropriate architecture, for example by adding -m32 to CMAKE_C_FLAGS in CMakeLists.txt, example:

set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -std=gnu99 -g -m32 \

License

Stackusage is distributed under the BSD 3-Clause license. See LICENSE file.

Keywords

linux, macos, os x, pthreads, stack usage, stack utilization, threads.