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

 /* Interface between gdb and its extension languages.

    Copyright (C) 2014-2024 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_H
 #define EXTENSION_H

 #include "mi/mi-cmds.h"
 #include "gdbsupport/array-view.h"
 #include "hashtab.h"
 #include <optional>

 struct breakpoint;
 struct command_line;
 class frame_info_ptr;
 struct language_defn;
 struct objfile;
 struct extension_language_defn;
 struct type;
 struct ui_file;
 struct ui_out;
 struct value;
 struct value_print_options;

 /* A function to load and process a script file.
    The file has been opened and is ready to be read from the beginning.
    Any exceptions are not caught, and are passed to the caller.  */
 typedef void script_sourcer_func (const struct extension_language_defn *,
 				  FILE *stream, const char *filename);

 /* A function to load and process a script for an objfile.
    The file has been opened and is ready to be read from the beginning.
    Any exceptions are not caught, and are passed to the caller.  */
 typedef void objfile_script_sourcer_func
   (const struct extension_language_defn *,
    struct objfile *, FILE *stream, const char *filename);

 /* A function to execute a script for an objfile.
    Any exceptions are not caught, and are passed to the caller.  */
 typedef void objfile_script_executor_func
   (const struct extension_language_defn *,
    struct objfile *, const char *name, const char *script);

 /* Enum of each extension(/scripting) language.  */

 enum extension_language
   {
     EXT_LANG_NONE,
     EXT_LANG_GDB,
     EXT_LANG_PYTHON,
     EXT_LANG_GUILE
   };

 /* Extension language frame-filter status return values.  */

 enum ext_lang_bt_status
   {
     /* Return when an error has occurred in processing frame filters,
        or when printing the stack.  */
     EXT_LANG_BT_ERROR = -1,

     /* Return from internal routines to indicate that the function
        succeeded.  */
     EXT_LANG_BT_OK = 1,

     /* Return when the frame filter process is complete, but there
        were no filter registered and enabled to process.  */
     EXT_LANG_BT_NO_FILTERS = 2
   };

 /* Flags to pass to apply_extlang_frame_filter.  */

 enum frame_filter_flag
   {
     /* Set this flag if frame level is to be printed.  */
     PRINT_LEVEL = 1 << 0,

     /* Set this flag if frame information is to be printed.  */
     PRINT_FRAME_INFO = 1 << 1,

     /* Set this flag if frame arguments are to be printed.  */
     PRINT_ARGS = 1 << 2,

     /* Set this flag if frame locals are to be printed.  */
     PRINT_LOCALS = 1 << 3,

     /* Set this flag if a "More frames" message is to be printed.  */
     PRINT_MORE_FRAMES = 1 << 4,

     /* Set this flag if elided frames should not be printed.  */
     PRINT_HIDE = 1 << 5,

     /* Set this flag if pretty printers for frame arguments should not
        be invoked.  */
     PRINT_RAW_FRAME_ARGUMENTS = 1 << 6,
   };

 DEF_ENUM_FLAGS_TYPE (enum frame_filter_flag, frame_filter_flags);

 /* A choice of the different frame argument printing strategies that
    can occur in different cases of frame filter instantiation.  */

 enum ext_lang_frame_args
   {
     /* Print no values for arguments when invoked from the MI. */
     NO_VALUES = PRINT_NO_VALUES,

     MI_PRINT_ALL_VALUES = PRINT_ALL_VALUES,

     /* Print only simple values (what MI defines as "simple") for
        arguments when invoked from the MI. */
     MI_PRINT_SIMPLE_VALUES = PRINT_SIMPLE_VALUES,

     /* Print only scalar values for arguments when invoked from the CLI. */
     CLI_SCALAR_VALUES,

     /* Print all values for arguments when invoked from the CLI. */
     CLI_ALL_VALUES,

     /* Only indicate the presence of arguments when invoked from the CLI.  */
     CLI_PRESENCE
   };

 /* The possible results of
    extension_language_ops.breakpoint_cond_says_stop.  */

 enum ext_lang_bp_stop
   {
     /* No "stop" condition is set.  */
     EXT_LANG_BP_STOP_UNSET,

     /* A "stop" condition is set, and it says "don't stop".  */
     EXT_LANG_BP_STOP_NO,

     /* A "stop" condition is set, and it says "stop".  */
     EXT_LANG_BP_STOP_YES
   };

 /* Table of type printers associated with the global typedef table.  */

 struct ext_lang_type_printers
 {
   ext_lang_type_printers ();
   ~ext_lang_type_printers ();

   DISABLE_COPY_AND_ASSIGN (ext_lang_type_printers);

   /* Type-printers from Python.  */
   void *py_type_printers = nullptr;
 };

 /* The return code for some API calls.  */

 enum ext_lang_rc
 {
   /* The operation completed successfully.  */
   EXT_LANG_RC_OK,

   /* The operation was not performed (e.g., no pretty-printer).  */
   EXT_LANG_RC_NOP,

   /* There was an error (e.g., Python error while printing a value).
      When an error occurs no further extension languages are tried.
      This is to preserve existing behaviour, and because it's convenient
      for Python developers.
      Note: This is different than encountering a memory error trying to read
      a value for pretty-printing.  Here we're referring to, e.g., programming
      errors that trigger an exception in the extension language.  */
   EXT_LANG_RC_ERROR
 };

 /* A type which holds its extension language specific xmethod worker data.  */

 struct xmethod_worker
 {
   xmethod_worker (const extension_language_defn *extlang)
   : m_extlang (extlang)
   {}

   virtual ~xmethod_worker () = default;

   /* Invoke the xmethod encapsulated in this worker and return the result.
      The method is invoked on OBJ with arguments in the ARGS array.  */

   virtual value *invoke (value *obj, gdb::array_view<value *> args) = 0;

   /* Return the arg types of the xmethod encapsulated in this worker.
      The type of the 'this' object is returned as the first element of
      the vector.  */

   std::vector<type *> get_arg_types ();

   /* Return the type of the result of the xmethod encapsulated in this worker.
      OBJECT and ARGS are the same as for invoke.  */

   type *get_result_type (value *object, gdb::array_view<value *> args);

 private:

   /* Return the types of the arguments the method takes.  The types
      are returned in TYPE_ARGS, one per argument.  */

   virtual enum ext_lang_rc do_get_arg_types
     (std::vector<type *> *type_args) = 0;

   /* Fetch the type of the result of the method implemented by this
      worker.  OBJECT and ARGS are the same as for the invoked method.
      The result type is stored in *RESULT_TYPE.  */

   virtual enum ext_lang_rc do_get_result_type
     (struct value *obj, gdb::array_view<value *> args,
      struct type **result_type_ptr) = 0;

   /* The language the xmethod worker is implemented in.  */

   const extension_language_defn *m_extlang;
 };

 typedef std::unique_ptr<xmethod_worker> xmethod_worker_up;

 /* The interface for gdb's own extension(/scripting) language.  */
 extern const struct extension_language_defn extension_language_gdb;

 extern const struct extension_language_defn *get_ext_lang_defn
   (enum extension_language lang);

 extern const struct extension_language_defn *get_ext_lang_of_file
   (const char *file);

 extern int ext_lang_present_p (const struct extension_language_defn *);

 extern int ext_lang_initialized_p (const struct extension_language_defn *);

 extern void throw_ext_lang_unsupported
   (const struct extension_language_defn *);

 /* Accessors for "public" attributes of the extension language definition.  */

 extern enum extension_language ext_lang_kind
   (const struct extension_language_defn *);

 extern const char *ext_lang_name (const struct extension_language_defn *);

 extern const char *ext_lang_capitalized_name
   (const struct extension_language_defn *);

 extern const char *ext_lang_suffix (const struct extension_language_defn *);

 extern const char *ext_lang_auto_load_suffix
   (const struct extension_language_defn *);

 extern script_sourcer_func *ext_lang_script_sourcer
   (const struct extension_language_defn *);

 extern objfile_script_sourcer_func *ext_lang_objfile_script_sourcer
   (const struct extension_language_defn *);

 extern objfile_script_executor_func *ext_lang_objfile_script_executor
   (const struct extension_language_defn *);

 /* Return true if auto-loading of EXTLANG scripts is enabled.
    False is returned if support for this language isn't compiled in.  */

 extern bool ext_lang_auto_load_enabled (const struct extension_language_defn *);

 /* Wrappers for each extension language API function that iterate over all
    extension languages.  */

 extern void ext_lang_initialization (void);

 /* Shut down all extension languages.  */
 extern void ext_lang_shutdown ();

 extern void eval_ext_lang_from_control_command (struct command_line *cmd);

 extern void auto_load_ext_lang_scripts_for_objfile (struct objfile *);

 extern gdb::unique_xmalloc_ptr<char> apply_ext_lang_type_printers
      (struct ext_lang_type_printers *, struct type *);

 extern int apply_ext_lang_val_pretty_printer
   (struct value *value, struct ui_file *stream, int recurse,
    const struct value_print_options *options,
    const struct language_defn *language);

 extern enum ext_lang_bt_status apply_ext_lang_frame_filter
   (const frame_info_ptr &frame, frame_filter_flags flags,
    enum ext_lang_frame_args args_type,
    struct ui_out *out, int frame_low, int frame_high);

 extern void preserve_ext_lang_values (struct objfile *, htab_t copied_types);

 extern const struct extension_language_defn *get_breakpoint_cond_ext_lang
   (struct breakpoint *b, enum extension_language skip_lang);

 extern bool breakpoint_ext_lang_cond_says_stop (struct breakpoint *);

 /* If a method with name METHOD_NAME is to be invoked on an object of type
    TYPE, then all extension languages are searched for implementations of
    methods with name METHOD_NAME.  All matches found are appended to the WORKERS
    vector.  */

 extern void get_matching_xmethod_workers
   (struct type *type, const char *method_name,
    std::vector<xmethod_worker_up> *workers);

 /* Try to colorize some source code.  FILENAME is the name of the file
    holding the code.  CONTENTS is the source code itself.  This will
    either a colorized (using ANSI terminal escapes) version of the
    source code, or an empty value if colorizing could not be done.  */

 extern std::optional<std::string> ext_lang_colorize
   (const std::string &filename, const std::string &contents);

 /* Try to colorize a single line of disassembler output, CONTENT for
    GDBARCH.  This will return either a colorized (using ANSI terminal
    escapes) version of CONTENT, or an empty value if colorizing could not
    be done.  */

 extern std::optional<std::string> ext_lang_colorize_disasm
   (const std::string &content, gdbarch *gdbarch);

 /* Calls extension_language_ops::print_insn for each extension language,
    returning the result from the first extension language that returns a
    non-empty result (any further extension languages are not then called).

    All arguments are forwarded to extension_language_ops::print_insn, see
    that function for a full description.  */

 extern std::optional<int> ext_lang_print_insn
   (struct gdbarch *gdbarch, CORE_ADDR address, struct disassemble_info *info);

 /* When GDB calls into an extension language because an objfile was
    discovered for which GDB couldn't find any debug information, this
    structure holds the result that the extension language returns.

    There are three possible actions that might be returned by an extension;
    first an extension can return a filename, this is the path to the file
    containing the required debug  information.  The second possibility is
    to return a flag indicating that GDB should check again for the missing
    debug information, this would imply that the extension has installed
    the debug information into a location where GDB can be expected to find
    it.  And the third option is for the extension to just return a null
    result, indication there is nothing the extension can do to provide the
    missing debug information.  */
 struct ext_lang_missing_debuginfo_result
 {
   /* Default result.  The extension was unable to provide the missing debug
      info.  */
   ext_lang_missing_debuginfo_result ()
   { /* Nothing.  */ }

   /* When TRY_AGAIN is true GDB should try searching again, the extension
      may have installed the missing debug info into a suitable location.
      When TRY_AGAIN is false this is equivalent to the default, no
      argument, constructor.  */
   ext_lang_missing_debuginfo_result (bool try_again)
     : m_try_again (try_again)
   { /* Nothing.  */ }

   /* Look in FILENAME for the missing debug info.  */
   ext_lang_missing_debuginfo_result (std::string &&filename)
     : m_filename (std::move (filename))
   { /* Nothing.  */ }

   /* The filename where GDB can find the missing debuginfo.  This is empty
      if the extension didn't suggest a file that can be used.  */
   const std::string &
   filename () const
   {
     return m_filename;
   }

   /* Returns true if GDB should look again for the debug information.  */
   const bool
   try_again () const
   {
     return m_try_again;
   }

 private:
   /* The filename where the missing debuginfo can now be found.  */
   std::string m_filename;

   /* When true GDB will search again for the debuginfo using its standard
      techniques.  When false GDB will not search again.  */
   bool m_try_again = false;
 };

 /* Called when GDB failed to find any debug information for OBJFILE.  */

 extern ext_lang_missing_debuginfo_result ext_lang_handle_missing_debuginfo
   (struct objfile *objfile);

 #if GDB_SELF_TEST
 namespace selftests {
 extern void (*hook_set_active_ext_lang) ();
 }
 #endif

 /* Temporarily disable cooperative SIGINT handling.  Needed when we
    don't want a SIGINT to interrupt the currently active extension
    language.  */
 class scoped_disable_cooperative_sigint_handling
 {
 public:
   scoped_disable_cooperative_sigint_handling ();
   ~scoped_disable_cooperative_sigint_handling ();

   DISABLE_COPY_AND_ASSIGN (scoped_disable_cooperative_sigint_handling);

 private:
   struct active_ext_lang_state *m_prev_active_ext_lang_state;
   bool m_prev_cooperative_sigint_handling_disabled;
 };

 /* GDB's SIGINT handler basically sets a flag; code that might take a
    long time before it gets back to the event loop, and which ought to
    be interruptible, checks this flag using the QUIT macro, which, if
    GDB has the terminal, throws a quit exception.

    In addition to setting a flag, the SIGINT handler also marks a
    select/poll-able file descriptor as read-ready.  That is used by
    interruptible_select in order to support interrupting blocking I/O
    in a race-free manner.

    These functions use the extension_language_ops API to allow extension
    language(s) and GDB SIGINT handling to coexist seamlessly.  */

 /* Return true if the quit flag has been set, false otherwise.
    Note: The flag is cleared as a side-effect.
    The flag is checked in all extension languages that support cooperative
    SIGINT handling, not just the current one.  This simplifies transitions.  */

 extern bool check_quit_flag ();

 /* Set the quit flag.
    This only sets the flag in the currently active extension language.
    If the currently active extension language does not have cooperative
    SIGINT handling, then GDB's global flag is set, and it is up to the
    extension language to call check_quit_flag.  The extension language
    is free to install its own SIGINT handler, but we still need to handle
    the transition.  */

 extern void set_quit_flag ();

 #endif /* EXTENSION_H */
	/* Interface between gdb and its extension languages.

	Copyright (C) 2014-2024 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_H
	#define EXTENSION_H

	#include "mi/mi-cmds.h"
	#include "gdbsupport/array-view.h"
	#include "hashtab.h"
	#include <optional>

	struct breakpoint;
	struct command_line;
	class frame_info_ptr;
	struct language_defn;
	struct objfile;
	struct extension_language_defn;
	struct type;
	struct ui_file;
	struct ui_out;
	struct value;
	struct value_print_options;

	/* A function to load and process a script file.
	The file has been opened and is ready to be read from the beginning.
	Any exceptions are not caught, and are passed to the caller. */
	typedef void script_sourcer_func (const struct extension_language_defn *,
	FILE stream, const char filename);

	/* A function to load and process a script for an objfile.
	The file has been opened and is ready to be read from the beginning.
	Any exceptions are not caught, and are passed to the caller. */
	typedef void objfile_script_sourcer_func
	(const struct extension_language_defn *,
	struct objfile , FILE stream, const char *filename);

	/* A function to execute a script for an objfile.
	Any exceptions are not caught, and are passed to the caller. */
	typedef void objfile_script_executor_func
	(const struct extension_language_defn *,
	struct objfile , const char name, const char *script);

	/* Enum of each extension(/scripting) language. */

	enum extension_language
	{
	EXT_LANG_NONE,
	EXT_LANG_GDB,
	EXT_LANG_PYTHON,
	EXT_LANG_GUILE
	};

	/* Extension language frame-filter status return values. */

	enum ext_lang_bt_status
	{
	/* Return when an error has occurred in processing frame filters,
	or when printing the stack. */
	EXT_LANG_BT_ERROR = -1,

	/* Return from internal routines to indicate that the function
	succeeded. */
	EXT_LANG_BT_OK = 1,

	/* Return when the frame filter process is complete, but there
	were no filter registered and enabled to process. */
	EXT_LANG_BT_NO_FILTERS = 2
	};

	/* Flags to pass to apply_extlang_frame_filter. */

	enum frame_filter_flag
	{
	/* Set this flag if frame level is to be printed. */
	PRINT_LEVEL = 1 << 0,

	/* Set this flag if frame information is to be printed. */
	PRINT_FRAME_INFO = 1 << 1,

	/* Set this flag if frame arguments are to be printed. */
	PRINT_ARGS = 1 << 2,

	/* Set this flag if frame locals are to be printed. */
	PRINT_LOCALS = 1 << 3,

	/* Set this flag if a "More frames" message is to be printed. */
	PRINT_MORE_FRAMES = 1 << 4,

	/* Set this flag if elided frames should not be printed. */
	PRINT_HIDE = 1 << 5,

	/* Set this flag if pretty printers for frame arguments should not
	be invoked. */
	PRINT_RAW_FRAME_ARGUMENTS = 1 << 6,
	};

	DEF_ENUM_FLAGS_TYPE (enum frame_filter_flag, frame_filter_flags);

	/* A choice of the different frame argument printing strategies that
	can occur in different cases of frame filter instantiation. */

	enum ext_lang_frame_args
	{
	/* Print no values for arguments when invoked from the MI. */
	NO_VALUES = PRINT_NO_VALUES,

	MI_PRINT_ALL_VALUES = PRINT_ALL_VALUES,

	/* Print only simple values (what MI defines as "simple") for
	arguments when invoked from the MI. */
	MI_PRINT_SIMPLE_VALUES = PRINT_SIMPLE_VALUES,

	/* Print only scalar values for arguments when invoked from the CLI. */
	CLI_SCALAR_VALUES,

	/* Print all values for arguments when invoked from the CLI. */
	CLI_ALL_VALUES,

	/* Only indicate the presence of arguments when invoked from the CLI. */
	CLI_PRESENCE
	};

	/* The possible results of
	extension_language_ops.breakpoint_cond_says_stop. */

	enum ext_lang_bp_stop
	{
	/* No "stop" condition is set. */
	EXT_LANG_BP_STOP_UNSET,

	/* A "stop" condition is set, and it says "don't stop". */
	EXT_LANG_BP_STOP_NO,

	/* A "stop" condition is set, and it says "stop". */
	EXT_LANG_BP_STOP_YES
	};

	/* Table of type printers associated with the global typedef table. */

	struct ext_lang_type_printers
	{
	ext_lang_type_printers ();
	~ext_lang_type_printers ();

	DISABLE_COPY_AND_ASSIGN (ext_lang_type_printers);

	/* Type-printers from Python. */
	void *py_type_printers = nullptr;
	};

	/* The return code for some API calls. */

	enum ext_lang_rc
	{
	/* The operation completed successfully. */
	EXT_LANG_RC_OK,

	/* The operation was not performed (e.g., no pretty-printer). */
	EXT_LANG_RC_NOP,

	/* There was an error (e.g., Python error while printing a value).
	When an error occurs no further extension languages are tried.
	This is to preserve existing behaviour, and because it's convenient
	for Python developers.
	Note: This is different than encountering a memory error trying to read
	a value for pretty-printing. Here we're referring to, e.g., programming
	errors that trigger an exception in the extension language. */
	EXT_LANG_RC_ERROR
	};

	/* A type which holds its extension language specific xmethod worker data. */

	struct xmethod_worker
	{
	xmethod_worker (const extension_language_defn *extlang)
	: m_extlang (extlang)
	{}

	virtual ~xmethod_worker () = default;

	/* Invoke the xmethod encapsulated in this worker and return the result.
	The method is invoked on OBJ with arguments in the ARGS array. */

	virtual value invoke (value obj, gdb::array_view<value *> args) = 0;

	/* Return the arg types of the xmethod encapsulated in this worker.
	The type of the 'this' object is returned as the first element of
	the vector. */

	std::vector<type *> get_arg_types ();

	/* Return the type of the result of the xmethod encapsulated in this worker.
	OBJECT and ARGS are the same as for invoke. */

	type get_result_type (value object, gdb::array_view<value *> args);

	private:

	/* Return the types of the arguments the method takes. The types
	are returned in TYPE_ARGS, one per argument. */

	virtual enum ext_lang_rc do_get_arg_types
	(std::vector<type > type_args) = 0;

	/* Fetch the type of the result of the method implemented by this
	worker. OBJECT and ARGS are the same as for the invoked method.
	The result type is stored in RESULT_TYPE. /

	virtual enum ext_lang_rc do_get_result_type
	(struct value obj, gdb::array_view<value > args,
	struct type **result_type_ptr) = 0;

	/* The language the xmethod worker is implemented in. */

	const extension_language_defn *m_extlang;
	};

	typedef std::unique_ptr<xmethod_worker> xmethod_worker_up;

	/* The interface for gdb's own extension(/scripting) language. */
	extern const struct extension_language_defn extension_language_gdb;

	extern const struct extension_language_defn *get_ext_lang_defn
	(enum extension_language lang);

	extern const struct extension_language_defn *get_ext_lang_of_file
	(const char *file);

	extern int ext_lang_present_p (const struct extension_language_defn *);

	extern int ext_lang_initialized_p (const struct extension_language_defn *);

	extern void throw_ext_lang_unsupported
	(const struct extension_language_defn *);

	/* Accessors for "public" attributes of the extension language definition. */

	extern enum extension_language ext_lang_kind
	(const struct extension_language_defn *);

	extern const char ext_lang_name (const struct extension_language_defn );

	extern const char *ext_lang_capitalized_name
	(const struct extension_language_defn *);

	extern const char ext_lang_suffix (const struct extension_language_defn );

	extern const char *ext_lang_auto_load_suffix
	(const struct extension_language_defn *);

	extern script_sourcer_func *ext_lang_script_sourcer
	(const struct extension_language_defn *);

	extern objfile_script_sourcer_func *ext_lang_objfile_script_sourcer
	(const struct extension_language_defn *);

	extern objfile_script_executor_func *ext_lang_objfile_script_executor
	(const struct extension_language_defn *);

	/* Return true if auto-loading of EXTLANG scripts is enabled.
	False is returned if support for this language isn't compiled in. */

	extern bool ext_lang_auto_load_enabled (const struct extension_language_defn *);

	/* Wrappers for each extension language API function that iterate over all
	extension languages. */

	extern void ext_lang_initialization (void);

	/* Shut down all extension languages. */
	extern void ext_lang_shutdown ();

	extern void eval_ext_lang_from_control_command (struct command_line *cmd);

	extern void auto_load_ext_lang_scripts_for_objfile (struct objfile *);

	extern gdb::unique_xmalloc_ptr<char> apply_ext_lang_type_printers
	(struct ext_lang_type_printers , struct type );

	extern int apply_ext_lang_val_pretty_printer
	(struct value value, struct ui_file stream, int recurse,
	const struct value_print_options *options,
	const struct language_defn *language);

	extern enum ext_lang_bt_status apply_ext_lang_frame_filter
	(const frame_info_ptr &frame, frame_filter_flags flags,
	enum ext_lang_frame_args args_type,
	struct ui_out *out, int frame_low, int frame_high);

	extern void preserve_ext_lang_values (struct objfile *, htab_t copied_types);

	extern const struct extension_language_defn *get_breakpoint_cond_ext_lang
	(struct breakpoint *b, enum extension_language skip_lang);

	extern bool breakpoint_ext_lang_cond_says_stop (struct breakpoint *);

	/* If a method with name METHOD_NAME is to be invoked on an object of type
	TYPE, then all extension languages are searched for implementations of
	methods with name METHOD_NAME. All matches found are appended to the WORKERS
	vector. */

	extern void get_matching_xmethod_workers
	(struct type type, const char method_name,
	std::vector<xmethod_worker_up> *workers);

	/* Try to colorize some source code. FILENAME is the name of the file
	holding the code. CONTENTS is the source code itself. This will
	either a colorized (using ANSI terminal escapes) version of the
	source code, or an empty value if colorizing could not be done. */

	extern std::optional<std::string> ext_lang_colorize
	(const std::string &filename, const std::string &contents);

	/* Try to colorize a single line of disassembler output, CONTENT for
	GDBARCH. This will return either a colorized (using ANSI terminal
	escapes) version of CONTENT, or an empty value if colorizing could not
	be done. */

	extern std::optional<std::string> ext_lang_colorize_disasm
	(const std::string &content, gdbarch *gdbarch);

	/* Calls extension_language_ops::print_insn for each extension language,
	returning the result from the first extension language that returns a
	non-empty result (any further extension languages are not then called).

	All arguments are forwarded to extension_language_ops::print_insn, see
	that function for a full description. */

	extern std::optional<int> ext_lang_print_insn
	(struct gdbarch gdbarch, CORE_ADDR address, struct disassemble_info info);

	/* When GDB calls into an extension language because an objfile was
	discovered for which GDB couldn't find any debug information, this
	structure holds the result that the extension language returns.

	There are three possible actions that might be returned by an extension;
	first an extension can return a filename, this is the path to the file
	containing the required debug information. The second possibility is
	to return a flag indicating that GDB should check again for the missing
	debug information, this would imply that the extension has installed
	the debug information into a location where GDB can be expected to find
	it. And the third option is for the extension to just return a null
	result, indication there is nothing the extension can do to provide the
	missing debug information. */
	struct ext_lang_missing_debuginfo_result
	{
	/* Default result. The extension was unable to provide the missing debug
	info. */
	ext_lang_missing_debuginfo_result ()
	{ /* Nothing. */ }

	/* When TRY_AGAIN is true GDB should try searching again, the extension
	may have installed the missing debug info into a suitable location.
	When TRY_AGAIN is false this is equivalent to the default, no
	argument, constructor. */
	ext_lang_missing_debuginfo_result (bool try_again)
	: m_try_again (try_again)
	{ /* Nothing. */ }

	/* Look in FILENAME for the missing debug info. */
	ext_lang_missing_debuginfo_result (std::string &&filename)
	: m_filename (std::move (filename))
	{ /* Nothing. */ }

	/* The filename where GDB can find the missing debuginfo. This is empty
	if the extension didn't suggest a file that can be used. */
	const std::string &
	filename () const
	{
	return m_filename;
	}

	/* Returns true if GDB should look again for the debug information. */
	const bool
	try_again () const
	{
	return m_try_again;
	}

	private:
	/* The filename where the missing debuginfo can now be found. */
	std::string m_filename;

	/* When true GDB will search again for the debuginfo using its standard
	techniques. When false GDB will not search again. */
	bool m_try_again = false;
	};

	/* Called when GDB failed to find any debug information for OBJFILE. */

	extern ext_lang_missing_debuginfo_result ext_lang_handle_missing_debuginfo
	(struct objfile *objfile);

	#if GDB_SELF_TEST
	namespace selftests {
	extern void (*hook_set_active_ext_lang) ();
	}
	#endif

	/* Temporarily disable cooperative SIGINT handling. Needed when we
	don't want a SIGINT to interrupt the currently active extension
	language. */
	class scoped_disable_cooperative_sigint_handling
	{
	public:
	scoped_disable_cooperative_sigint_handling ();
	~scoped_disable_cooperative_sigint_handling ();

	DISABLE_COPY_AND_ASSIGN (scoped_disable_cooperative_sigint_handling);

	private:
	struct active_ext_lang_state *m_prev_active_ext_lang_state;
	bool m_prev_cooperative_sigint_handling_disabled;
	};

	/* GDB's SIGINT handler basically sets a flag; code that might take a
	long time before it gets back to the event loop, and which ought to
	be interruptible, checks this flag using the QUIT macro, which, if
	GDB has the terminal, throws a quit exception.

	In addition to setting a flag, the SIGINT handler also marks a
	select/poll-able file descriptor as read-ready. That is used by
	interruptible_select in order to support interrupting blocking I/O
	in a race-free manner.

	These functions use the extension_language_ops API to allow extension
	language(s) and GDB SIGINT handling to coexist seamlessly. */

	/* Return true if the quit flag has been set, false otherwise.
	Note: The flag is cleared as a side-effect.
	The flag is checked in all extension languages that support cooperative
	SIGINT handling, not just the current one. This simplifies transitions. */

	extern bool check_quit_flag ();

	/* Set the quit flag.
	This only sets the flag in the currently active extension language.
	If the currently active extension language does not have cooperative
	SIGINT handling, then GDB's global flag is set, and it is up to the
	extension language to call check_quit_flag. The extension language
	is free to install its own SIGINT handler, but we still need to handle
	the transition. */

	extern void set_quit_flag ();

	#endif /* EXTENSION_H */