gdb/extension-priv.h - binutils-gdb - Git at Google

 /* Private implementation details of interface between gdb and its
    extension languages.

    Copyright (C) 2014-2021 Free Software Foundation, Inc.

    This file is part of GDB.

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 3 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program.  If not, see <http://www.gnu.org/licenses/>.  */

 #ifndef EXTENSION_PRIV_H
 #define EXTENSION_PRIV_H

 #include "extension.h"
 #include <signal.h>
 #include "cli/cli-script.h"

 /* High level description of an extension/scripting language.
    An entry for each is compiled into GDB regardless of whether the support
    is present.  This is done so that we can issue meaningful errors if the
    support is not compiled in.  */

 struct extension_language_defn
 {
   /* Enum of the extension language.  */
   enum extension_language language;

   /* The name of the extension language, lowercase.  E.g., python.  */
   const char *name;

   /* The capitalized name of the extension language.
      For python this is "Python".  For gdb this is "GDB".  */
   const char *capitalized_name;

   /* The file suffix of this extension language.  E.g., ".py".  */
   const char *suffix;

   /* The suffix of per-objfile scripts to auto-load.
      E.g., When the program loads libfoo.so, look for libfoo.so-gdb.py.  */
   const char *auto_load_suffix;

   /* We support embedding external extension language code in GDB's own
      scripting language.  We do this by having a special command that begins
      the extension language snippet, and terminate it with "end".
      This specifies the control type used to implement this.  */
   enum command_control_type cli_control_type;

   /* A pointer to the "methods" to load scripts in this language,
      or NULL if the support is not compiled into GDB.  */
   const struct extension_language_script_ops *script_ops;

   /* Either a pointer to the "methods" of the extension language interface
      or NULL if the support is not compiled into GDB.
      This is also NULL for GDB's own scripting language which is relatively
      primitive, and doesn't provide these features.  */
   const struct extension_language_ops *ops;
 };

 /* The interface for loading scripts from external extension languages,
    as well as GDB's own scripting language.
    All of these methods are required to be implemented.

    By convention all of these functions take a pseudo-this parameter
    as the first argument.  */

 struct extension_language_script_ops
 {
   /* Load a script.  This is called, e.g., via the "source" command.
      If there's an error while processing the script this function may,
      but is not required to, throw an error.  */
   script_sourcer_func *script_sourcer;

   /* Load a script attached to an objfile.
      If there's an error while processing the script this function may,
      but is not required to, throw an error.  */
   objfile_script_sourcer_func *objfile_script_sourcer;

   /* Execute a script attached to an objfile.
      If there's an error while processing the script this function may,
      but is not required to, throw an error.  */
   objfile_script_executor_func *objfile_script_executor;

   /* Return non-zero if auto-loading scripts in this extension language
      is enabled.  */
   bool (*auto_load_enabled) (const struct extension_language_defn *);
 };

 /* The interface for making calls from GDB to an external extension
    language.  This is for non-script-loading related functionality, like
    pretty-printing, etc.  The reason these are separated out is GDB's own
    scripting language makes use of extension_language_script_opts, but it
    makes no use of these.  There is no (current) intention to split
    extension_language_ops up any further.
    All of these methods are optional and may be NULL, except where
    otherwise indicated.

    By convention all of these functions take a pseudo-this parameter
    as the first argument.  */

 struct extension_language_ops
 {
   /* Called after GDB has processed the early initialization settings
      files.  This is when the extension language should be initialized.  By
      the time this is called all of the earlier initialization functions
      have already been called.  */
   void (*initialize) (const struct extension_language_defn *);

   /* Return non-zero if the extension language successfully initialized.
      This method is required.  */
   int (*initialized) (const struct extension_language_defn *);

   /* Process a sequence of commands embedded in GDB's own scripting language.
      E.g.,
      python
      print 42
      end  */
   void (*eval_from_control_command) (const struct extension_language_defn *,
 				     struct command_line *);

   /* Type-printing support:
      start_type_printers, apply_type_printers, free_type_printers.
      These methods are optional and may be NULL, but if one of them is
      implemented then they all must be.  */

   /* Called before printing a type.  */
   void (*start_type_printers) (const struct extension_language_defn *,
 			       struct ext_lang_type_printers *);

   /* Try to pretty-print TYPE.  If successful the pretty-printed type is
      stored in *PRETTIED_TYPE, and the caller must free it.
      Returns EXT_LANG_RC_OK upon success, EXT_LANG_RC_NOP if the type
      is not recognized, and EXT_LANG_RC_ERROR if an error was encountered.
      This function has a bit of a funny name, since it actually applies
      recognizers, but this seemed clearer given the start_type_printers
      and free_type_printers functions.  */
   enum ext_lang_rc (*apply_type_printers)
     (const struct extension_language_defn *,
      const struct ext_lang_type_printers *,
      struct type *, char **prettied_type);

   /* Called after a type has been printed to give the type pretty-printer
      mechanism an opportunity to clean up.  */
   void (*free_type_printers) (const struct extension_language_defn *,
 			      struct ext_lang_type_printers *);

   /* Try to pretty-print a value, onto stdio stream STREAM according
      to OPTIONS.  VAL is the object to print.  Returns EXT_LANG_RC_OK
      upon success, EXT_LANG_RC_NOP if the value is not recognized, and
      EXT_LANG_RC_ERROR if an error was encountered.  */
   enum ext_lang_rc (*apply_val_pretty_printer)
     (const struct extension_language_defn *,
      struct value *val, struct ui_file *stream, int recurse,
      const struct value_print_options *options,
      const struct language_defn *language);

   /* GDB access to the "frame filter" feature.
      FRAME is the source frame to start frame-filter invocation.  FLAGS is an
      integer holding the flags for printing.  The following elements of
      the FRAME_FILTER_FLAGS enum denotes the make-up of FLAGS:
      PRINT_LEVEL is a flag indicating whether to print the frame's
      relative level in the output.  PRINT_FRAME_INFO is a flag that
      indicates whether this function should print the frame
      information, PRINT_ARGS is a flag that indicates whether to print
      frame arguments, and PRINT_LOCALS, likewise, with frame local
      variables.  ARGS_TYPE is an enumerator describing the argument
      format, OUT is the output stream to print.  FRAME_LOW is the
      beginning of the slice of frames to print, and FRAME_HIGH is the
      upper limit of the frames to count.  Returns SCR_BT_ERROR on error,
      or SCR_BT_COMPLETED on success.  */
   enum ext_lang_bt_status (*apply_frame_filter)
     (const struct extension_language_defn *,
      struct frame_info *frame, frame_filter_flags flags,
      enum ext_lang_frame_args args_type,
      struct ui_out *out, int frame_low, int frame_high);

   /* Update values held by the extension language when OBJFILE is discarded.
      New global types must be created for every such value, which must then be
      updated to use the new types.
      This function typically just iterates over all appropriate values and
      calls preserve_one_value for each one.
      COPIED_TYPES is used to prevent cycles / duplicates and is passed to
      preserve_one_value.  */
   void (*preserve_values) (const struct extension_language_defn *,
 			   struct objfile *objfile, htab_t copied_types);

   /* Return non-zero if there is a stop condition for the breakpoint.
      This is used to implement the restriction that a breakpoint may have
      at most one condition.  */
   int (*breakpoint_has_cond) (const struct extension_language_defn *,
 			      struct breakpoint *);

   /* Return a value of enum ext_lang_bp_stop indicating if there is a stop
      condition for the breakpoint, and if so whether the program should
      stop.  This is called when the program has stopped at the specified
      breakpoint.
      While breakpoints can have at most one condition, this is called for
      every extension language, even if another extension language has a
      "stop" method: other kinds of breakpoints may be implemented using
      this method, e.g., "finish breakpoints" in Python.  */
   enum ext_lang_bp_stop (*breakpoint_cond_says_stop)
     (const struct extension_language_defn *, struct breakpoint *);

   /* The next two are used to connect GDB's SIGINT handling with the
      extension language's.

      Terminology: If an extension language can use GDB's SIGINT handling then
      we say the extension language has "cooperative SIGINT handling".
      Python is an example of this.

      These need not be implemented, but if one of them is implemented
      then they all must be.  */

   /* Set the SIGINT indicator.
      This is called by GDB's SIGINT handler and must be async-safe.  */
   void (*set_quit_flag) (const struct extension_language_defn *);

   /* Return non-zero if a SIGINT has occurred.
      This is expected to also clear the indicator.  */
   int (*check_quit_flag) (const struct extension_language_defn *);

   /* Called before gdb prints its prompt, giving extension languages an
      opportunity to change it with set_prompt.
      Returns EXT_LANG_RC_OK if the prompt was changed, EXT_LANG_RC_NOP if
      the prompt was not changed, and EXT_LANG_RC_ERROR if an error was
      encountered.
      Extension languages are called in order, and once the prompt is
      changed or an error occurs no further languages are called.  */
   enum ext_lang_rc (*before_prompt) (const struct extension_language_defn *,
 				     const char *current_gdb_prompt);

   /* Return a vector of matching xmethod workers defined in this
      extension language.  The workers service methods with name
      METHOD_NAME on objects of type OBJ_TYPE.  The vector is returned
      in DM_VEC.

      This field may be NULL if the extension language does not support
      xmethods.  */
   enum ext_lang_rc (*get_matching_xmethod_workers)
     (const struct extension_language_defn *extlang,
      struct type *obj_type,
      const char *method_name,
      std::vector<xmethod_worker_up> *dm_vec);

   /* Colorize a source file.  NAME is the source file's name, and
      CONTENTS is the contents of the file.  This should either return
      colorized (using ANSI terminal escapes) version of the contents,
      or an empty option.  */
   gdb::optional<std::string> (*colorize) (const std::string &name,
 					  const std::string &contents);
 };

 /* State necessary to restore a signal handler to its previous value.  */

 struct signal_handler
 {
   /* Non-zero if "handler" has been set.  */
   int handler_saved;

   /* The signal handler.  */
   sighandler_t handler;
 };

 /* State necessary to restore the currently active extension language
    to its previous value.  */

 struct active_ext_lang_state
 {
   /* The previously active extension language.  */
   const struct extension_language_defn *ext_lang;

   /* Its SIGINT handler.  */
   struct signal_handler sigint_handler;
 };

 extern const struct extension_language_defn *get_active_ext_lang (void);

 extern struct active_ext_lang_state *set_active_ext_lang
   (const struct extension_language_defn *);

 extern void restore_active_ext_lang (struct active_ext_lang_state *previous);

 #endif /* EXTENSION_PRIV_H */
	/* Private implementation details of interface between gdb and its
	extension languages.

	Copyright (C) 2014-2021 Free Software Foundation, Inc.

	This file is part of GDB.

	This program is free software; you can redistribute it and/or modify
	it under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3 of the License, or
	(at your option) any later version.

	This program is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	GNU General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program. If not, see <http://www.gnu.org/licenses/>. */

	#ifndef EXTENSION_PRIV_H
	#define EXTENSION_PRIV_H

	#include "extension.h"
	#include <signal.h>
	#include "cli/cli-script.h"

	/* High level description of an extension/scripting language.
	An entry for each is compiled into GDB regardless of whether the support
	is present. This is done so that we can issue meaningful errors if the
	support is not compiled in. */

	struct extension_language_defn
	{
	/* Enum of the extension language. */
	enum extension_language language;

	/* The name of the extension language, lowercase. E.g., python. */
	const char *name;

	/* The capitalized name of the extension language.
	For python this is "Python". For gdb this is "GDB". */
	const char *capitalized_name;

	/* The file suffix of this extension language. E.g., ".py". */
	const char *suffix;

	/* The suffix of per-objfile scripts to auto-load.
	E.g., When the program loads libfoo.so, look for libfoo.so-gdb.py. */
	const char *auto_load_suffix;

	/* We support embedding external extension language code in GDB's own
	scripting language. We do this by having a special command that begins
	the extension language snippet, and terminate it with "end".
	This specifies the control type used to implement this. */
	enum command_control_type cli_control_type;

	/* A pointer to the "methods" to load scripts in this language,
	or NULL if the support is not compiled into GDB. */
	const struct extension_language_script_ops *script_ops;

	/* Either a pointer to the "methods" of the extension language interface
	or NULL if the support is not compiled into GDB.
	This is also NULL for GDB's own scripting language which is relatively
	primitive, and doesn't provide these features. */
	const struct extension_language_ops *ops;
	};

	/* The interface for loading scripts from external extension languages,
	as well as GDB's own scripting language.
	All of these methods are required to be implemented.

	By convention all of these functions take a pseudo-this parameter
	as the first argument. */

	struct extension_language_script_ops
	{
	/* Load a script. This is called, e.g., via the "source" command.
	If there's an error while processing the script this function may,
	but is not required to, throw an error. */
	script_sourcer_func *script_sourcer;

	/* Load a script attached to an objfile.
	If there's an error while processing the script this function may,
	but is not required to, throw an error. */
	objfile_script_sourcer_func *objfile_script_sourcer;

	/* Execute a script attached to an objfile.
	If there's an error while processing the script this function may,
	but is not required to, throw an error. */
	objfile_script_executor_func *objfile_script_executor;

	/* Return non-zero if auto-loading scripts in this extension language
	is enabled. */
	bool (auto_load_enabled) (const struct extension_language_defn );
	};

	/* The interface for making calls from GDB to an external extension
	language. This is for non-script-loading related functionality, like
	pretty-printing, etc. The reason these are separated out is GDB's own
	scripting language makes use of extension_language_script_opts, but it
	makes no use of these. There is no (current) intention to split
	extension_language_ops up any further.
	All of these methods are optional and may be NULL, except where
	otherwise indicated.

	By convention all of these functions take a pseudo-this parameter
	as the first argument. */

	struct extension_language_ops
	{
	/* Called after GDB has processed the early initialization settings
	files. This is when the extension language should be initialized. By
	the time this is called all of the earlier initialization functions
	have already been called. */
	void (initialize) (const struct extension_language_defn );

	/* Return non-zero if the extension language successfully initialized.
	This method is required. */
	int (initialized) (const struct extension_language_defn );

	/* Process a sequence of commands embedded in GDB's own scripting language.
	E.g.,
	python
	print 42
	end */
	void (eval_from_control_command) (const struct extension_language_defn ,
	struct command_line *);

	/* Type-printing support:
	start_type_printers, apply_type_printers, free_type_printers.
	These methods are optional and may be NULL, but if one of them is
	implemented then they all must be. */

	/* Called before printing a type. */
	void (start_type_printers) (const struct extension_language_defn ,
	struct ext_lang_type_printers *);

	/* Try to pretty-print TYPE. If successful the pretty-printed type is
	stored in *PRETTIED_TYPE, and the caller must free it.
	Returns EXT_LANG_RC_OK upon success, EXT_LANG_RC_NOP if the type
	is not recognized, and EXT_LANG_RC_ERROR if an error was encountered.
	This function has a bit of a funny name, since it actually applies
	recognizers, but this seemed clearer given the start_type_printers
	and free_type_printers functions. */
	enum ext_lang_rc (*apply_type_printers)
	(const struct extension_language_defn *,
	const struct ext_lang_type_printers *,
	struct type , char *prettied_type);

	/* Called after a type has been printed to give the type pretty-printer
	mechanism an opportunity to clean up. */
	void (free_type_printers) (const struct extension_language_defn ,
	struct ext_lang_type_printers *);

	/* Try to pretty-print a value, onto stdio stream STREAM according
	to OPTIONS. VAL is the object to print. Returns EXT_LANG_RC_OK
	upon success, EXT_LANG_RC_NOP if the value is not recognized, and
	EXT_LANG_RC_ERROR if an error was encountered. */
	enum ext_lang_rc (*apply_val_pretty_printer)
	(const struct extension_language_defn *,
	struct value val, struct ui_file stream, int recurse,
	const struct value_print_options *options,
	const struct language_defn *language);

	/* GDB access to the "frame filter" feature.
	FRAME is the source frame to start frame-filter invocation. FLAGS is an
	integer holding the flags for printing. The following elements of
	the FRAME_FILTER_FLAGS enum denotes the make-up of FLAGS:
	PRINT_LEVEL is a flag indicating whether to print the frame's
	relative level in the output. PRINT_FRAME_INFO is a flag that
	indicates whether this function should print the frame
	information, PRINT_ARGS is a flag that indicates whether to print
	frame arguments, and PRINT_LOCALS, likewise, with frame local
	variables. ARGS_TYPE is an enumerator describing the argument
	format, OUT is the output stream to print. FRAME_LOW is the
	beginning of the slice of frames to print, and FRAME_HIGH is the
	upper limit of the frames to count. Returns SCR_BT_ERROR on error,
	or SCR_BT_COMPLETED on success. */
	enum ext_lang_bt_status (*apply_frame_filter)
	(const struct extension_language_defn *,
	struct frame_info *frame, frame_filter_flags flags,
	enum ext_lang_frame_args args_type,
	struct ui_out *out, int frame_low, int frame_high);

	/* Update values held by the extension language when OBJFILE is discarded.
	New global types must be created for every such value, which must then be
	updated to use the new types.
	This function typically just iterates over all appropriate values and
	calls preserve_one_value for each one.
	COPIED_TYPES is used to prevent cycles / duplicates and is passed to
	preserve_one_value. */
	void (preserve_values) (const struct extension_language_defn ,
	struct objfile *objfile, htab_t copied_types);

	/* Return non-zero if there is a stop condition for the breakpoint.
	This is used to implement the restriction that a breakpoint may have
	at most one condition. */
	int (breakpoint_has_cond) (const struct extension_language_defn ,
	struct breakpoint *);

	/* Return a value of enum ext_lang_bp_stop indicating if there is a stop
	condition for the breakpoint, and if so whether the program should
	stop. This is called when the program has stopped at the specified
	breakpoint.
	While breakpoints can have at most one condition, this is called for
	every extension language, even if another extension language has a
	"stop" method: other kinds of breakpoints may be implemented using
	this method, e.g., "finish breakpoints" in Python. */
	enum ext_lang_bp_stop (*breakpoint_cond_says_stop)
	(const struct extension_language_defn , struct breakpoint );

	/* The next two are used to connect GDB's SIGINT handling with the
	extension language's.

	Terminology: If an extension language can use GDB's SIGINT handling then
	we say the extension language has "cooperative SIGINT handling".
	Python is an example of this.

	These need not be implemented, but if one of them is implemented
	then they all must be. */

	/* Set the SIGINT indicator.
	This is called by GDB's SIGINT handler and must be async-safe. */
	void (set_quit_flag) (const struct extension_language_defn );

	/* Return non-zero if a SIGINT has occurred.
	This is expected to also clear the indicator. */
	int (check_quit_flag) (const struct extension_language_defn );

	/* Called before gdb prints its prompt, giving extension languages an
	opportunity to change it with set_prompt.
	Returns EXT_LANG_RC_OK if the prompt was changed, EXT_LANG_RC_NOP if
	the prompt was not changed, and EXT_LANG_RC_ERROR if an error was
	encountered.
	Extension languages are called in order, and once the prompt is
	changed or an error occurs no further languages are called. */
	enum ext_lang_rc (before_prompt) (const struct extension_language_defn ,
	const char *current_gdb_prompt);

	/* Return a vector of matching xmethod workers defined in this
	extension language. The workers service methods with name
	METHOD_NAME on objects of type OBJ_TYPE. The vector is returned
	in DM_VEC.

	This field may be NULL if the extension language does not support
	xmethods. */
	enum ext_lang_rc (*get_matching_xmethod_workers)
	(const struct extension_language_defn *extlang,
	struct type *obj_type,
	const char *method_name,
	std::vector<xmethod_worker_up> *dm_vec);

	/* Colorize a source file. NAME is the source file's name, and
	CONTENTS is the contents of the file. This should either return
	colorized (using ANSI terminal escapes) version of the contents,
	or an empty option. */
	gdb::optional<std::string> (*colorize) (const std::string &name,
	const std::string &contents);
	};

	/* State necessary to restore a signal handler to its previous value. */

	struct signal_handler
	{
	/* Non-zero if "handler" has been set. */
	int handler_saved;

	/* The signal handler. */
	sighandler_t handler;
	};

	/* State necessary to restore the currently active extension language
	to its previous value. */

	struct active_ext_lang_state
	{
	/* The previously active extension language. */
	const struct extension_language_defn *ext_lang;

	/* Its SIGINT handler. */
	struct signal_handler sigint_handler;
	};

	extern const struct extension_language_defn *get_active_ext_lang (void);

	extern struct active_ext_lang_state *set_active_ext_lang
	(const struct extension_language_defn *);

	extern void restore_active_ext_lang (struct active_ext_lang_state *previous);

	#endif /* EXTENSION_PRIV_H */