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Plugins are activated by the compiler at specific events as defined in
gcc-plugin.h. For each event of interest, the plugin should
call register_callback
specifying the name of the event and
address of the callback function that will handle that event.
The header gcc-plugin.h must be the first gcc header to be included.
Every plugin should define the global symbol plugin_is_GPL_compatible
to assert that it has been licensed under a GPL-compatible license.
If this symbol does not exist, the compiler will emit a fatal error
and exit with the error message:
fatal error: plugin name is not licensed under a GPL-compatible license name: undefined symbol: plugin_is_GPL_compatible compilation terminated
The declared type of the symbol should be int, to match a forward declaration in gcc-plugin.h that suppresses C++ mangling. It does not need to be in any allocated section, though. The compiler merely asserts that the symbol exists in the global scope. Something like this is enough:
int plugin_is_GPL_compatible;
Every plugin should export a function called plugin_init
that
is called right after the plugin is loaded. This function is
responsible for registering all the callbacks required by the plugin
and do any other required initialization.
This function is called from compile_file
right before invoking
the parser. The arguments to plugin_init
are:
plugin_info
: Plugin invocation information.
version
: GCC version.
The plugin_info
struct is defined as follows:
struct plugin_name_args { char *base_name; /* Short name of the plugin (filename without .so suffix). */ const char *full_name; /* Path to the plugin as specified with -fplugin=. */ int argc; /* Number of arguments specified with -fplugin-arg-.... */ struct plugin_argument *argv; /* Array of ARGC key-value pairs. */ const char *version; /* Version string provided by plugin. */ const char *help; /* Help string provided by plugin. */ }
If initialization fails, plugin_init
must return a non-zero
value. Otherwise, it should return 0.
The version of the GCC compiler loading the plugin is described by the following structure:
struct plugin_gcc_version { const char *basever; const char *datestamp; const char *devphase; const char *revision; const char *configuration_arguments; };
The function plugin_default_version_check
takes two pointers to
such structure and compare them field by field. It can be used by the
plugin's plugin_init
function.
The version of GCC used to compile the plugin can be found in the symbol
gcc_version
defined in the header plugin-version.h. The
recommended version check to perform looks like
#include "plugin-version.h" ... int plugin_init (struct plugin_name_args *plugin_info, struct plugin_gcc_version *version) { if (!plugin_default_version_check (version, &gcc_version)) return 1; }
but you can also check the individual fields if you want a less strict check.
Callback functions have the following prototype:
/* The prototype for a plugin callback function. gcc_data - event-specific data provided by GCC user_data - plugin-specific data provided by the plug-in. */ typedef void (*plugin_callback_func)(void *gcc_data, void *user_data);
Callbacks can be invoked at the following pre-determined events:
enum plugin_event { PLUGIN_PASS_MANAGER_SETUP, /* To hook into pass manager. */ PLUGIN_FINISH_TYPE, /* After finishing parsing a type. */ PLUGIN_FINISH_DECL, /* After finishing parsing a declaration. */ PLUGIN_FINISH_UNIT, /* Useful for summary processing. */ PLUGIN_PRE_GENERICIZE, /* Allows to see low level AST in C and C++ frontends. */ PLUGIN_FINISH, /* Called before GCC exits. */ PLUGIN_INFO, /* Information about the plugin. */ PLUGIN_GGC_START, /* Called at start of GCC Garbage Collection. */ PLUGIN_GGC_MARKING, /* Extend the GGC marking. */ PLUGIN_GGC_END, /* Called at end of GGC. */ PLUGIN_REGISTER_GGC_ROOTS, /* Register an extra GGC root table. */ PLUGIN_ATTRIBUTES, /* Called during attribute registration */ PLUGIN_START_UNIT, /* Called before processing a translation unit. */ PLUGIN_PRAGMAS, /* Called during pragma registration. */ /* Called before first pass from all_passes. */ PLUGIN_ALL_PASSES_START, /* Called after last pass from all_passes. */ PLUGIN_ALL_PASSES_END, /* Called before first ipa pass. */ PLUGIN_ALL_IPA_PASSES_START, /* Called after last ipa pass. */ PLUGIN_ALL_IPA_PASSES_END, /* Allows to override pass gate decision for current_pass. */ PLUGIN_OVERRIDE_GATE, /* Called before executing a pass. */ PLUGIN_PASS_EXECUTION, /* Called before executing subpasses of a GIMPLE_PASS in execute_ipa_pass_list. */ PLUGIN_EARLY_GIMPLE_PASSES_START, /* Called after executing subpasses of a GIMPLE_PASS in execute_ipa_pass_list. */ PLUGIN_EARLY_GIMPLE_PASSES_END, /* Called when a pass is first instantiated. */ PLUGIN_NEW_PASS, /* Called when a file is #include-d or given via the #line directive. This could happen many times. The event data is the included file path, as a const char* pointer. */ PLUGIN_INCLUDE_FILE, PLUGIN_EVENT_FIRST_DYNAMIC /* Dummy event used for indexing callback array. */ };
In addition, plugins can also look up the enumerator of a named event,
and / or generate new events dynamically, by calling the function
get_named_event_id
.
To register a callback, the plugin calls register_callback
with
the arguments:
char *name
: Plugin name.
int event
: The event code.
plugin_callback_func callback
: The function that handles event
.
void *user_data
: Pointer to plugin-specific data.
For the PLUGIN_PASS_MANAGER_SETUP, PLUGIN_INFO, and
PLUGIN_REGISTER_GGC_ROOTS pseudo-events the callback
should be null,
and the user_data
is specific.
When the PLUGIN_PRAGMAS event is triggered (with a null pointer as
data from GCC), plugins may register their own pragmas. Notice that
pragmas are not available from lto1, so plugins used with
-flto
option to GCC during link-time optimization cannot use
pragmas and do not even see functions like c_register_pragma
or
pragma_lex
.
The PLUGIN_INCLUDE_FILE event, with a const char*
file path as
GCC data, is triggered for processing of #include
or
#line
directives.
The PLUGIN_FINISH event is the last time that plugins can call GCC
functions, notably emit diagnostics with warning
, error
etc.