fate.texi 9.1 KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273
  1. \input texinfo @c -*- texinfo -*-
  2. @documentencoding UTF-8
  3. @settitle FFmpeg Automated Testing Environment
  4. @titlepage
  5. @center @titlefont{FFmpeg Automated Testing Environment}
  6. @end titlepage
  7. @node Top
  8. @top
  9. @contents
  10. @chapter Introduction
  11. FATE is an extended regression suite on the client-side and a means
  12. for results aggregation and presentation on the server-side.
  13. The first part of this document explains how you can use FATE from
  14. your FFmpeg source directory to test your ffmpeg binary. The second
  15. part describes how you can run FATE to submit the results to FFmpeg's
  16. FATE server.
  17. In any way you can have a look at the publicly viewable FATE results
  18. by visiting this website:
  19. @url{http://fate.ffmpeg.org/}
  20. This is especially recommended for all people contributing source
  21. code to FFmpeg, as it can be seen if some test on some platform broke
  22. with their recent contribution. This usually happens on the platforms
  23. the developers could not test on.
  24. The second part of this document describes how you can run FATE to
  25. submit your results to FFmpeg's FATE server. If you want to submit your
  26. results be sure to check that your combination of CPU, OS and compiler
  27. is not already listed on the above mentioned website.
  28. In the third part you can find a comprehensive listing of FATE makefile
  29. targets and variables.
  30. @chapter Using FATE from your FFmpeg source directory
  31. If you want to run FATE on your machine you need to have the samples
  32. in place. You can get the samples via the build target fate-rsync.
  33. Use this command from the top-level source directory:
  34. @example
  35. make fate-rsync SAMPLES=fate-suite/
  36. make fate SAMPLES=fate-suite/
  37. @end example
  38. The above commands set the samples location by passing a makefile
  39. variable via command line. It is also possible to set the samples
  40. location at source configuration time by invoking configure with
  41. @option{--samples=<path to the samples directory>}. Afterwards you can
  42. invoke the makefile targets without setting the @var{SAMPLES} makefile
  43. variable. This is illustrated by the following commands:
  44. @example
  45. ./configure --samples=fate-suite/
  46. make fate-rsync
  47. make fate
  48. @end example
  49. Yet another way to tell FATE about the location of the sample
  50. directory is by making sure the environment variable FATE_SAMPLES
  51. contains the path to your samples directory. This can be achieved
  52. by e.g. putting that variable in your shell profile or by setting
  53. it in your interactive session.
  54. @example
  55. FATE_SAMPLES=fate-suite/ make fate
  56. @end example
  57. @float NOTE
  58. Do not put a '~' character in the samples path to indicate a home
  59. directory. Because of shell nuances, this will cause FATE to fail.
  60. @end float
  61. Beware that some assertions are disabled by default, so mind setting
  62. @option{--assert-level=<level>} at configuration time, e.g. when seeking
  63. the highest possible test coverage:
  64. @example
  65. ./configure --assert-level=2
  66. @end example
  67. Note that raising the assert level could have a performance impact.
  68. To get the complete list of tests, run the command:
  69. @example
  70. make fate-list
  71. @end example
  72. You can specify a subset of tests to run by specifying the
  73. corresponding elements from the list with the @code{fate-} prefix,
  74. e.g. as in:
  75. @example
  76. make fate-ffprobe_compact fate-ffprobe_xml
  77. @end example
  78. This makes it easier to run a few tests in case of failure without
  79. running the complete test suite.
  80. To use a custom wrapper to run the test, pass @option{--target-exec} to
  81. @command{configure} or set the @var{TARGET_EXEC} Make variable.
  82. @chapter Submitting the results to the FFmpeg result aggregation server
  83. To submit your results to the server you should run fate through the
  84. shell script @file{tests/fate.sh} from the FFmpeg sources. This script needs
  85. to be invoked with a configuration file as its first argument.
  86. @example
  87. tests/fate.sh /path/to/fate_config
  88. @end example
  89. A configuration file template with comments describing the individual
  90. configuration variables can be found at @file{doc/fate_config.sh.template}.
  91. @ifhtml
  92. The mentioned configuration template is also available here:
  93. @verbatiminclude fate_config.sh.template
  94. @end ifhtml
  95. Create a configuration that suits your needs, based on the configuration
  96. template. The @env{slot} configuration variable can be any string that is not
  97. yet used, but it is suggested that you name it adhering to the following
  98. pattern @samp{@var{arch}-@var{os}-@var{compiler}-@var{compiler version}}. The
  99. configuration file itself will be sourced in a shell script, therefore all
  100. shell features may be used. This enables you to setup the environment as you
  101. need it for your build.
  102. For your first test runs the @env{fate_recv} variable should be empty or
  103. commented out. This will run everything as normal except that it will omit
  104. the submission of the results to the server. The following files should be
  105. present in $workdir as specified in the configuration file:
  106. @itemize
  107. @item configure.log
  108. @item compile.log
  109. @item test.log
  110. @item report
  111. @item version
  112. @end itemize
  113. When you have everything working properly you can create an SSH key pair
  114. and send the public key to the FATE server administrator who can be contacted
  115. at the email address @email{fate-admin@@ffmpeg.org}.
  116. Configure your SSH client to use public key authentication with that key
  117. when connecting to the FATE server. Also do not forget to check the identity
  118. of the server and to accept its host key. This can usually be achieved by
  119. running your SSH client manually and killing it after you accepted the key.
  120. The FATE server's fingerprint is:
  121. @table @samp
  122. @item RSA
  123. d3:f1:83:97:a4:75:2b:a6:fb:d6:e8:aa:81:93:97:51
  124. @item ECDSA
  125. 76:9f:68:32:04:1e:d5:d4:ec:47:3f:dc:fc:18:17:86
  126. @end table
  127. If you have problems connecting to the FATE server, it may help to try out
  128. the @command{ssh} command with one or more @option{-v} options. You should
  129. get detailed output concerning your SSH configuration and the authentication
  130. process.
  131. The only thing left is to automate the execution of the fate.sh script and
  132. the synchronisation of the samples directory.
  133. @chapter Uploading new samples to the fate suite
  134. If you need a sample uploaded send a mail to samples-request.
  135. This is for developers who have an account on the fate suite server.
  136. If you upload new samples, please make sure they are as small as possible,
  137. space on each client, network bandwidth and so on benefit from smaller test cases.
  138. Also keep in mind older checkouts use existing sample files, that means in
  139. practice generally do not replace, remove or overwrite files as it likely would
  140. break older checkouts or releases.
  141. Also all needed samples for a commit should be uploaded, ideally 24
  142. hours, before the push.
  143. If you need an account for frequently uploading samples or you wish to help
  144. others by doing that send a mail to ffmpeg-devel.
  145. @example
  146. #First update your local samples copy:
  147. rsync -vauL --chmod=Dg+s,Duo+x,ug+rw,o+r,o-w,+X fate-suite.ffmpeg.org:/home/samples/fate-suite/ ~/fate-suite
  148. #Then do a dry run checking what would be uploaded:
  149. rsync -vanL --no-g --chmod=Dg+s,Duo+x,ug+rw,o+r,o-w,+X ~/fate-suite/ fate-suite.ffmpeg.org:/home/samples/fate-suite
  150. #Upload the files:
  151. rsync -vaL --no-g --chmod=Dg+s,Duo+x,ug+rw,o+r,o-w,+X ~/fate-suite/ fate-suite.ffmpeg.org:/home/samples/fate-suite
  152. @end example
  153. @chapter FATE makefile targets and variables
  154. @section Makefile targets
  155. @table @option
  156. @item fate-rsync
  157. Download/synchronize sample files to the configured samples directory.
  158. @item fate-list
  159. Will list all fate/regression test targets.
  160. @item fate
  161. Run the FATE test suite (requires the fate-suite dataset).
  162. @end table
  163. @section Makefile variables
  164. @table @env
  165. @item V
  166. Verbosity level, can be set to 0, 1 or 2.
  167. @itemize
  168. @item 0: show just the test arguments
  169. @item 1: show just the command used in the test
  170. @item 2: show everything
  171. @end itemize
  172. @item SAMPLES
  173. Specify or override the path to the FATE samples at make time, it has a
  174. meaning only while running the regression tests.
  175. @item THREADS
  176. Specify how many threads to use while running regression tests, it is
  177. quite useful to detect thread-related regressions.
  178. This variable may be set to the string "random", optionally followed by a
  179. number, like "random99", This will cause each test to use a random number of
  180. threads. If a number is specified, it is used as a maximum number of threads,
  181. otherwise 16 is the maximum.
  182. In case a test fails, the thread count used for it will be written into the
  183. errfile.
  184. @item THREAD_TYPE
  185. Specify which threading strategy test, either @samp{slice} or @samp{frame},
  186. by default @samp{slice+frame}
  187. @item CPUFLAGS
  188. Specify CPU flags.
  189. @item TARGET_EXEC
  190. Specify or override the wrapper used to run the tests.
  191. The @env{TARGET_EXEC} option provides a way to run FATE wrapped in
  192. @command{valgrind}, @command{qemu-user} or @command{wine} or on remote targets
  193. through @command{ssh}.
  194. @item GEN
  195. Set to @samp{1} to generate the missing or mismatched references.
  196. @item HWACCEL
  197. Specify which hardware acceleration to use while running regression tests,
  198. by default @samp{none} is used.
  199. @item KEEP
  200. Set to @samp{1} to keep temp files generated by fate test(s) when test is successful.
  201. Default is @samp{0}, which removes these files. Files are always kept when a test
  202. fails.
  203. @end table
  204. @section Examples
  205. @example
  206. make V=1 SAMPLES=/var/fate/samples THREADS=2 CPUFLAGS=mmx fate
  207. @end example