Moving around plug-ins between source modules --------------------------------------------- Last updated: 2006-09-01 How to get your plug-in out of -bad and into -good or -ugly ----------------------------------------------------------- Since GStreamer 0.9.x, we have four plugin modules: -base, -good, -ugly, and -bad. Plug-ins are by default added to -bad. They can only move to -good or -ugly if a number of conditions are met: PEOPLE ------ - People involved: - There should be a person who is actively going to maintain this element; presumably this is the person writing the plug-in in the first place and opening the move request - There should be a GStreamer hacker who is willing to sponsor the element; this would be someone who is going to help out getting all the conditions met, act as a mentor if necessary,... - There should be a core developer who verifies that the checklist is met The three roles can be filled by two people, but not just one. In addition, an admin needs to perform the actual move, which involves CVS surgery. PROCESS ------- - bug in bugzilla gets filed by someone requesting a move from bad to good/ugly This is "requesting" the move. - a second person reviews the request and code, and verifies that the plugin meets the checklist items below, by commenting on the bug and giving a rundown of what still needs to be done This is "sponsoring" the move. - when the checklist is met, a third person can approve the move. This is "approving" the move. - an admin performs the move. This is "performing" the move. (Are you laughing yet ?) CHECKLIST --------- - The plug-in's code: - should descend from an applicable base class if possible - make use of GST_BOILERPLATE macros - conform to the GStreamer coding style - use a custom debug category - use GST_(DEBUG/*)_OBJECT - use dashes in object property names to separate words - use correct value, name, nick for enums - use underscores in macros/function names/structs e.g.: GST_BASE_SINK, GstBaseSink, gst_base_sink_ - The plug-in's build: - should be correctly integrated with configure.ac - files implementing elements should be named according to their class name, e.g GstBaseSink -> gstbasesink.c - should list libs and cflags in stack order, with lowest in the stack first (so one can link against highest in the stack somewhere else without picking up everything from the somewhere else) e.g. $(GST_PLUGINS_BASE_CFLAGS) \ $(GST_BASE_CFLAGS) \ $(GST_CFLAGS) $(CAIRO_CFLAGS) - The compiled plug-in: - should show up correct in gst-inspect output; no warnings, no unknown types, ... - The plug-in should be put in the correct location inside the module: sys/: plug-ins that include system headers/link to system libraries; usually platform-dependent as well name after whatever system "thing" they use (oss, v4l, ...) gst/: plug-ins with no external dependencies, only GLib/GStreamer/liboil ext/: plug-ins with external dependencies - The plug-in is documented: - the compiled-in descriptions (element details) should be correct - every element in the plug-in should have gtk-doc documentation: - longer description of element - why you would use this element - example launch line OR example source code (for example, see http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gst-plugins-base-plugins/html/gst-plugins-base-plugins-audiotestsrc.html for the first and http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gst-plugins-good-plugins/html/gst-plugins-good-plugins-level.html for the second) - if the element has custom messages, they should be documented - signals and properties should be documented - The plug-in should come with tests: - preferably, a unit test should be written, testing things like: - setup and teardown - push in buffers in all supported formats and verify they are handled properly - push in buffers that trigger error cases, and verify errors are correctly thrown for example, see gst-plugins-base/check/elements/audioconvert The unit test should be put in check/elements/(nameofelement) and be added to check_PROGRAMS and Makefile.am - if a unit test is not appropriate (for example, device elements), a test application should be written that can be run manually - The tests should be leak-free, tested with valgrind - the unit tests in check/ dirs are valgrinded by default - the manual tests should have a valgrind target - leaks in the supporting library (and verified to be in the supporting library !) can be added to suppression files - The elements should not segfault under any circumstance. This includes: - wrong pipelines - bad data - The plugins need to be marked correctly for translations. - All error conditions should be correctly handled using GST_ELEMENT_ERROR and following practice outlined in http://gstreamer.freedesktop.org/data/doc/gstreamer/head/gstreamer/html/gstreamer-GstGError.html - this includes: - message strings need to be marked for translation - should be short, well-written, clear - in particular, should *not* contain debug info, strerror, errno, ... - Decision should be made if it should go into good (LGPL license, LGPL dependencies, no patent issues) or ugly - plugin documentation needs to be added: - see gstreamer/docs/README; section on adding plugins and elements - "make update" in docs/plugins and commit the new file - edit -docs.sgml and add an include for the file