include/pub_tool_tooliface.h - platform/external/valgrind - Gitiles


 /*--------------------------------------------------------------------*/
 /*--- The core/tool interface.                pub_tool_tooliface.h ---*/
 /*--------------------------------------------------------------------*/

 /*
    This file is part of Valgrind, a dynamic binary instrumentation
    framework.

    Copyright (C) 2000-2005 Julian Seward
       jseward@acm.org

    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 2 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, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
    02111-1307, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 #ifndef __PUB_TOOL_TOOLIFACE_H
 #define __PUB_TOOL_TOOLIFACE_H

 #include "pub_tool_errormgr.h"   // for Error, Supp
 #include "libvex.h"              // for VexGuestLayout

 /* ------------------------------------------------------------------ */
 /* The interface version */

 /* The version number indicates binary-incompatible changes to the
    interface;  if the core and tool versions don't match, Valgrind
    will abort.  */
 #define VG_CORE_INTERFACE_VERSION   9

 typedef struct _ToolInfo {
    Int	sizeof_ToolInfo;
    Int	interface_version;

    /* Initialise tool.   Must do the following:
       - initialise the `details' struct, via the VG_(details_*)() functions
       - register any helpers called by generated code

       May do the following:
       - initialise the `needs' struct to indicate certain requirements, via
       the VG_(needs_*)() functions
       - initialize all the tool's entrypoints via the VG_(init_*)() functions
       - register any tool-specific profiling events
       - any other tool-specific initialisation
    */
    void (*tl_pre_clo_init) ( void );
 } ToolInfo;

 extern const ToolInfo VG_(tool_info);

 /* Every tool must include this macro somewhere, exactly once. */
 #define VG_DETERMINE_INTERFACE_VERSION(pre_clo_init)           \
    const ToolInfo VG_(tool_info) = {                           \
       .sizeof_ToolInfo   = sizeof(ToolInfo),                   \
       .interface_version = VG_CORE_INTERFACE_VERSION,          \
       .tl_pre_clo_init   = pre_clo_init,                       \
    };

 /* ------------------------------------------------------------------ */
 /* Basic tool functions */

 extern void VG_(basic_tool_funcs)(
    // Do any initialisation that can only be done after command line
    // processing.
    void  (*post_clo_init)(void),

    // Instrument a basic block.  Must be a true function, ie. the same input
    // always results in the same output, because basic blocks can be
    // retranslated.  Unless you're doing something really strange...
    IRBB* (*instrument)(IRBB* bb_in, VexGuestLayout* layout,
                        IRType gWordTy, IRType hWordTy ),

    // Finish up, print out any results, etc.  `exitcode' is program's exit
    // code.  The shadow can be found with VG_(get_exit_status_shadow)().
    void  (*fini)(Int)
 );

 /* ------------------------------------------------------------------ */
 /* Details */

 /* Default value for avg_translations_sizeB (in bytes), indicating typical
    code expansion of about 6:1. */
 #define VG_DEFAULT_TRANS_SIZEB   100

 /* Information used in the startup message.  `name' also determines the
    string used for identifying suppressions in a suppression file as
    belonging to this tool.  `version' can be NULL, in which case (not
    surprisingly) no version info is printed; this mechanism is designed for
    tools distributed with Valgrind that share a version number with
    Valgrind.  Other tools not distributed as part of Valgrind should
    probably have their own version number.  */
 extern void VG_(details_name)                  ( Char* name );
 extern void VG_(details_version)               ( Char* version );
 extern void VG_(details_description)           ( Char* description );
 extern void VG_(details_copyright_author)      ( Char* copyright_author );

 /* Average size of a translation, in bytes, so that the translation
    storage machinery can allocate memory appropriately.  Not critical,
    setting is optional. */
 extern void VG_(details_avg_translation_sizeB) ( UInt size );

 /* String printed if an `tl_assert' assertion fails or VG_(tool_panic)
    is called.  Should probably be an email address. */
 extern void VG_(details_bug_reports_to)   ( Char* bug_reports_to );

 /* ------------------------------------------------------------------ */
 /* Needs */

 /* Booleans that decide core behaviour, but don't require extra
    operations to be defined if `True' */

 /* Should __libc_freeres() be run?  Bugs in it can crash the tool. */
 extern void VG_(needs_libc_freeres) ( void );

 /* Want to have errors detected by Valgrind's core reported?  Includes:
    - pthread API errors (many;  eg. unlocking a non-locked mutex)
      [currently disabled]
    - invalid file descriptors to syscalls like read() and write()
    - bad signal numbers passed to sigaction()
    - attempt to install signal handler for SIGKILL or SIGSTOP */
 extern void VG_(needs_core_errors) ( void );

 /* Booleans that indicate extra operations are defined;  if these are True,
    the corresponding template functions (given below) must be defined.  A
    lot like being a member of a type class. */

 /* Want to report errors from tool?  This implies use of suppressions, too. */
 extern void VG_(needs_tool_errors) (
    // Identify if two errors are equal, or equal enough.  `res' indicates how
    // close is "close enough".  `res' should be passed on as necessary, eg. if
    // the Error's `extra' part contains an ExeContext, `res' should be
    // passed to VG_(eq_ExeContext)() if the ExeContexts are considered.  Other
    // than that, probably don't worry about it unless you have lots of very
    // similar errors occurring.
    Bool (*eq_Error)(VgRes res, Error* e1, Error* e2),

    // Print error context.
    void (*pp_Error)(Error* err),

    // Should fill in any details that could be postponed until after the
    // decision whether to ignore the error (ie. details not affecting the
    // result of VG_(tdict).tool_eq_Error()).  This saves time when errors
    // are ignored.
    // Yuk.
    // Return value: must be the size of the `extra' part in bytes -- used by
    // the core to make a copy.
    UInt (*update_extra)(Error* err),

    // Return value indicates recognition.  If recognised, must set skind using
    // VG_(set_supp_kind)().
    Bool (*recognised_suppression)(Char* name, Supp* su),

    // Read any extra info for this suppression kind.  Most likely for filling
    // in the `extra' and `string' parts (with VG_(set_supp_{extra, string})())
    // of a suppression if necessary.  Should return False if a syntax error
    // occurred, True otherwise.
    Bool (*read_extra_suppression_info)(Int fd, Char* buf, Int nBuf, Supp* su),

    // This should just check the kinds match and maybe some stuff in the
    // `string' and `extra' field if appropriate (using VG_(get_supp_*)() to
    // get the relevant suppression parts).
    Bool (*error_matches_suppression)(Error* err, Supp* su),

    // This should return the suppression name, for --gen-suppressions, or NULL
    // if that error type cannot be suppressed.  This is the inverse of
    // VG_(tdict).tool_recognised_suppression().
    Char* (*get_error_name)(Error* err),

    // This should print any extra info for the error, for --gen-suppressions,
    // including the newline.  This is the inverse of
    // VG_(tdict).tool_read_extra_suppression_info().
    void (*print_extra_suppression_info)(Error* err)
 );


 /* Is information kept about specific individual basic blocks?  (Eg. for
    cachegrind there are cost-centres for every instruction, stored at a
    basic block level.)  If so, it sometimes has to be discarded, because
    .so mmap/munmap-ping or self-modifying code (informed by the
    DISCARD_TRANSLATIONS user request) can cause one instruction address
    to be used for more than one instruction in one program run...  */
 extern void VG_(needs_basic_block_discards) (
    // Should discard any information that pertains to specific basic blocks
    // or instructions within the address range given.
    void (*discard_basic_block_info)(Addr a, SizeT size)
 );

 /* Tool defines its own command line options? */
 extern void VG_(needs_command_line_options) (
    // Return True if option was recognised.  Presumably sets some state to
    // record the option as well.
    Bool (*process_cmd_line_option)(Char* argv),

    // Print out command line usage for options for normal tool operation.
    void (*print_usage)(void),

    // Print out command line usage for options for debugging the tool.
    void (*print_debug_usage)(void)
 );

 /* Tool defines its own client requests? */
 extern void VG_(needs_client_requests) (
    // If using client requests, the number of the first request should be equal
    // to VG_USERREQ_TOOL_BASE('X', 'Y'), where 'X' and 'Y' form a suitable two
    // character identification for the string.  The second and subsequent
    // requests should follow.
    //
    // This function should use the VG_IS_TOOL_USERREQ macro (in
    // include/valgrind.h) to first check if it's a request for this tool.  Then
    // should handle it if it's recognised (and return True), or return False if
    // not recognised.  arg_block[0] holds the request number, any further args
    // from the request are in arg_block[1..].  'ret' is for the return value...
    // it should probably be filled, if only with 0.
    Bool (*handle_client_request)(ThreadId tid, UWord* arg_block, UWord* ret)
 );

 /* Tool does stuff before and/or after system calls? */
 // Nb: If either of the pre_ functions malloc() something to return, the
 // corresponding post_ function had better free() it!
 extern void VG_(needs_syscall_wrapper) (
    void (* pre_syscall)(ThreadId tid, UInt syscallno),
    void (*post_syscall)(ThreadId tid, UInt syscallno, SysRes res)
 );

 /* Are tool-state sanity checks performed? */
 // Can be useful for ensuring a tool's correctness.  cheap_sanity_check()
 // is called very frequently;  expensive_sanity_check() is called less
 // frequently and can be more involved.
 extern void VG_(needs_sanity_checks) (
    Bool(*cheap_sanity_check)(void),
    Bool(*expensive_sanity_check)(void)
 );

 /* Do we need to see data symbols? */
 extern void VG_(needs_data_syms) ( void );

 /* Does the tool need shadow memory allocated? */
 extern void VG_(needs_shadow_memory)( void );

 /* Does the tool replace malloc() and friends with its own versions? */
 // The 'p' prefix avoids GCC complaints about overshadowing global names.
 extern void VG_(needs_malloc_replacement)(
    void* (*pmalloc)               ( ThreadId tid, SizeT n ),
    void* (*p__builtin_new)        ( ThreadId tid, SizeT n ),
    void* (*p__builtin_vec_new)    ( ThreadId tid, SizeT n ),
    void* (*pmemalign)             ( ThreadId tid, SizeT align, SizeT n ),
    void* (*pcalloc)               ( ThreadId tid, SizeT nmemb, SizeT size1 ),
    void  (*pfree)                 ( ThreadId tid, void* p ),
    void  (*p__builtin_delete)     ( ThreadId tid, void* p ),
    void  (*p__builtin_vec_delete) ( ThreadId tid, void* p ),
    void* (*prealloc)              ( ThreadId tid, void* p, SizeT new_size ),
    SizeT client_malloc_redzone_szB
 );

 /* ------------------------------------------------------------------ */
 /* Core events to track */

 /* Part of the core from which this call was made.  Useful for determining
    what kind of error message should be emitted. */
 typedef
    enum { Vg_CoreStartup, Vg_CorePThread, Vg_CoreSignal, Vg_CoreSysCall,
           Vg_CoreTranslate, Vg_CoreClientReq }
    CorePart;

 /* Events happening in core to track.  To be notified, pass a callback
    function to the appropriate function.  To ignore an event, don't do
    anything (the default is for events to be ignored).

    Note that most events aren't passed a ThreadId.  If the event is one called
    from generated code (eg. new_mem_stack_*), you can use
    VG_(get_running_tid)() to find it.  Otherwise, it has to be passed in,
    as in pre_mem_read, and so the event signature will require changing.

    Memory events (Nb: to track heap allocation/freeing, a tool must replace
    malloc() et al.  See above how to do this.)

    These ones occur at startup, upon some signals, and upon some syscalls
  */
 void VG_(track_new_mem_startup)     (void(*f)(Addr a, SizeT len,
                                               Bool rr, Bool ww, Bool xx));
 void VG_(track_new_mem_stack_signal)(void(*f)(Addr a, SizeT len));
 void VG_(track_new_mem_brk)         (void(*f)(Addr a, SizeT len));
 void VG_(track_new_mem_mmap)        (void(*f)(Addr a, SizeT len,
                                               Bool rr, Bool ww, Bool xx));

 void VG_(track_copy_mem_remap)      (void(*f)(Addr from, Addr to, SizeT len));
 void VG_(track_change_mem_mprotect) (void(*f)(Addr a, SizeT len,
                                               Bool rr, Bool ww, Bool xx));
 void VG_(track_die_mem_stack_signal)(void(*f)(Addr a, SizeT len));
 void VG_(track_die_mem_brk)         (void(*f)(Addr a, SizeT len));
 void VG_(track_die_mem_munmap)      (void(*f)(Addr a, SizeT len));

 /* These ones are called when SP changes.  A tool could track these itself
    (except for ban_mem_stack) but it's much easier to use the core's help.

    The specialised ones are called in preference to the general one, if they
    are defined.  These functions are called a lot if they are used, so
    specialising can optimise things significantly.  If any of the
    specialised cases are defined, the general case must be defined too.

    Nb: all the specialised ones must use the VG_REGPARM(n) attribute.
  */
 void VG_(track_new_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr new_ESP));
 void VG_(track_new_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr new_ESP));
 void VG_(track_new_mem_stack_12)(VG_REGPARM(1) void(*f)(Addr new_ESP));
 void VG_(track_new_mem_stack_16)(VG_REGPARM(1) void(*f)(Addr new_ESP));
 void VG_(track_new_mem_stack_32)(VG_REGPARM(1) void(*f)(Addr new_ESP));
 void VG_(track_new_mem_stack)                 (void(*f)(Addr a, SizeT len));

 void VG_(track_die_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr die_ESP));
 void VG_(track_die_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr die_ESP));
 void VG_(track_die_mem_stack_12)(VG_REGPARM(1) void(*f)(Addr die_ESP));
 void VG_(track_die_mem_stack_16)(VG_REGPARM(1) void(*f)(Addr die_ESP));
 void VG_(track_die_mem_stack_32)(VG_REGPARM(1) void(*f)(Addr die_ESP));
 void VG_(track_die_mem_stack)                 (void(*f)(Addr a, SizeT len));

 /* Used for redzone at end of thread stacks */
 void VG_(track_ban_mem_stack)      (void(*f)(Addr a, SizeT len));

 /* These ones occur around syscalls, signal handling, etc */
 void VG_(track_pre_mem_read)       (void(*f)(CorePart part, ThreadId tid,
                                              Char* s, Addr a, SizeT size));
 void VG_(track_pre_mem_read_asciiz)(void(*f)(CorePart part, ThreadId tid,
                                              Char* s, Addr a));
 void VG_(track_pre_mem_write)      (void(*f)(CorePart part, ThreadId tid,
                                              Char* s, Addr a, SizeT size));
 void VG_(track_post_mem_write)     (void(*f)(CorePart part, ThreadId tid,
                                              Addr a, SizeT size));

 /* Register events.  Use VG_(set_shadow_state_area)() to set the shadow regs
    for these events.  */
 void VG_(track_pre_reg_read)  (void(*f)(CorePart part, ThreadId tid,
                                         Char* s, OffT guest_state_offset,
                                         SizeT size));
 void VG_(track_post_reg_write)(void(*f)(CorePart part, ThreadId tid,
                                         OffT guest_state_offset,
                                         SizeT size));

 /* This one is called for malloc() et al if they are replaced by a tool. */
 void VG_(track_post_reg_write_clientcall_return)(
       void(*f)(ThreadId tid, OffT guest_state_offset, SizeT size, Addr f));


 /* Scheduler events (not exhaustive) */
 void VG_(track_thread_run)(void(*f)(ThreadId tid));


 /* Thread events (not exhaustive)

    Called during thread create, before the new thread has run any
    instructions (or touched any memory).
  */
 void VG_(track_post_thread_create)(void(*f)(ThreadId tid, ThreadId child));
 void VG_(track_post_thread_join)  (void(*f)(ThreadId joiner, ThreadId joinee));

 /* Mutex events (not exhaustive)
    "void *mutex" is really a pthread_mutex *

    Called before a thread can block while waiting for a mutex (called
    regardless of whether the thread will block or not).  */
 void VG_(track_pre_mutex_lock)(void(*f)(ThreadId tid, void* mutex));

 /* Called once the thread actually holds the mutex (always paired with
    pre_mutex_lock).  */
 void VG_(track_post_mutex_lock)(void(*f)(ThreadId tid, void* mutex));

 /* Called after a thread has released a mutex (no need for a corresponding
    pre_mutex_unlock, because unlocking can't block).  */
 void VG_(track_post_mutex_unlock)(void(*f)(ThreadId tid, void* mutex));

 /* Signal events (not exhaustive)

    ... pre_send_signal, post_send_signal ...

    Called before a signal is delivered;  `alt_stack' indicates if it is
    delivered on an alternative stack.  */
 void VG_(track_pre_deliver_signal) (void(*f)(ThreadId tid, Int sigNo,
                                              Bool alt_stack));
 /* Called after a signal is delivered.  Nb: unfortunately, if the signal
    handler longjmps, this won't be called.  */
 void VG_(track_post_deliver_signal)(void(*f)(ThreadId tid, Int sigNo));

 /* Others... condition variables...
    ...
  */

 #endif   // __PUB_TOOL_TOOLIFACE_H

 /*--------------------------------------------------------------------*/
 /*--- end                                                          ---*/
 /*--------------------------------------------------------------------*/

	/--------------------------------------------------------------------/
	/--- The core/tool interface. pub_tool_tooliface.h ---/
	/--------------------------------------------------------------------/

	/*
	This file is part of Valgrind, a dynamic binary instrumentation
	framework.

	Copyright (C) 2000-2005 Julian Seward
	jseward@acm.org

	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 2 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, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
	02111-1307, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	#ifndef __PUB_TOOL_TOOLIFACE_H
	#define __PUB_TOOL_TOOLIFACE_H

	#include "pub_tool_errormgr.h" // for Error, Supp
	#include "libvex.h" // for VexGuestLayout

	/* ------------------------------------------------------------------ */
	/* The interface version */

	/* The version number indicates binary-incompatible changes to the
	interface; if the core and tool versions don't match, Valgrind
	will abort. */
	#define VG_CORE_INTERFACE_VERSION 9

	typedef struct _ToolInfo {
	Int sizeof_ToolInfo;
	Int interface_version;

	/* Initialise tool. Must do the following:
	- initialise the `details' struct, via the VG_(details_*)() functions
	- register any helpers called by generated code

	May do the following:
	- initialise the `needs' struct to indicate certain requirements, via
	the VG_(needs_*)() functions
	- initialize all the tool's entrypoints via the VG_(init_*)() functions
	- register any tool-specific profiling events
	- any other tool-specific initialisation
	*/
	void (*tl_pre_clo_init) ( void );
	} ToolInfo;

	extern const ToolInfo VG_(tool_info);

	/* Every tool must include this macro somewhere, exactly once. */
	#define VG_DETERMINE_INTERFACE_VERSION(pre_clo_init) \
	const ToolInfo VG_(tool_info) = { \
	.sizeof_ToolInfo = sizeof(ToolInfo), \
	.interface_version = VG_CORE_INTERFACE_VERSION, \
	.tl_pre_clo_init = pre_clo_init, \
	};

	/* ------------------------------------------------------------------ */
	/* Basic tool functions */

	extern void VG_(basic_tool_funcs)(
	// Do any initialisation that can only be done after command line
	// processing.
	void (*post_clo_init)(void),

	// Instrument a basic block. Must be a true function, ie. the same input
	// always results in the same output, because basic blocks can be
	// retranslated. Unless you're doing something really strange...
	IRBB* (instrument)(IRBB bb_in, VexGuestLayout* layout,
	IRType gWordTy, IRType hWordTy ),

	// Finish up, print out any results, etc. `exitcode' is program's exit
	// code. The shadow can be found with VG_(get_exit_status_shadow)().
	void (*fini)(Int)
	);

	/* ------------------------------------------------------------------ */
	/* Details */

	/* Default value for avg_translations_sizeB (in bytes), indicating typical
	code expansion of about 6:1. */
	#define VG_DEFAULT_TRANS_SIZEB 100

	/* Information used in the startup message. `name' also determines the
	string used for identifying suppressions in a suppression file as
	belonging to this tool. `version' can be NULL, in which case (not
	surprisingly) no version info is printed; this mechanism is designed for
	tools distributed with Valgrind that share a version number with
	Valgrind. Other tools not distributed as part of Valgrind should
	probably have their own version number. */
	extern void VG_(details_name) ( Char* name );
	extern void VG_(details_version) ( Char* version );
	extern void VG_(details_description) ( Char* description );
	extern void VG_(details_copyright_author) ( Char* copyright_author );

	/* Average size of a translation, in bytes, so that the translation
	storage machinery can allocate memory appropriately. Not critical,
	setting is optional. */
	extern void VG_(details_avg_translation_sizeB) ( UInt size );

	/* String printed if an `tl_assert' assertion fails or VG_(tool_panic)
	is called. Should probably be an email address. */
	extern void VG_(details_bug_reports_to) ( Char* bug_reports_to );

	/* ------------------------------------------------------------------ */
	/* Needs */

	/* Booleans that decide core behaviour, but don't require extra
	operations to be defined if `True' */

	/* Should __libc_freeres() be run? Bugs in it can crash the tool. */
	extern void VG_(needs_libc_freeres) ( void );

	/* Want to have errors detected by Valgrind's core reported? Includes:
	- pthread API errors (many; eg. unlocking a non-locked mutex)
	[currently disabled]
	- invalid file descriptors to syscalls like read() and write()
	- bad signal numbers passed to sigaction()
	- attempt to install signal handler for SIGKILL or SIGSTOP */
	extern void VG_(needs_core_errors) ( void );

	/* Booleans that indicate extra operations are defined; if these are True,
	the corresponding template functions (given below) must be defined. A
	lot like being a member of a type class. */

	/* Want to report errors from tool? This implies use of suppressions, too. */
	extern void VG_(needs_tool_errors) (
	// Identify if two errors are equal, or equal enough. `res' indicates how
	// close is "close enough". `res' should be passed on as necessary, eg. if
	// the Error's `extra' part contains an ExeContext, `res' should be
	// passed to VG_(eq_ExeContext)() if the ExeContexts are considered. Other
	// than that, probably don't worry about it unless you have lots of very
	// similar errors occurring.
	Bool (eq_Error)(VgRes res, Error e1, Error* e2),

	// Print error context.
	void (pp_Error)(Error err),

	// Should fill in any details that could be postponed until after the
	// decision whether to ignore the error (ie. details not affecting the
	// result of VG_(tdict).tool_eq_Error()). This saves time when errors
	// are ignored.
	// Yuk.
	// Return value: must be the size of the `extra' part in bytes -- used by
	// the core to make a copy.
	UInt (update_extra)(Error err),

	// Return value indicates recognition. If recognised, must set skind using
	// VG_(set_supp_kind)().
	Bool (recognised_suppression)(Char name, Supp* su),

	// Read any extra info for this suppression kind. Most likely for filling
	// in the `extra' and `string' parts (with VG_(set_supp_{extra, string})())
	// of a suppression if necessary. Should return False if a syntax error
	// occurred, True otherwise.
	Bool (read_extra_suppression_info)(Int fd, Char buf, Int nBuf, Supp* su),

	// This should just check the kinds match and maybe some stuff in the
	// `string' and `extra' field if appropriate (using VG_(get_supp_*)() to
	// get the relevant suppression parts).
	Bool (error_matches_suppression)(Error err, Supp* su),

	// This should return the suppression name, for --gen-suppressions, or NULL
	// if that error type cannot be suppressed. This is the inverse of
	// VG_(tdict).tool_recognised_suppression().
	Char* (get_error_name)(Error err),

	// This should print any extra info for the error, for --gen-suppressions,
	// including the newline. This is the inverse of
	// VG_(tdict).tool_read_extra_suppression_info().
	void (print_extra_suppression_info)(Error err)
	);


	/* Is information kept about specific individual basic blocks? (Eg. for
	cachegrind there are cost-centres for every instruction, stored at a
	basic block level.) If so, it sometimes has to be discarded, because
	.so mmap/munmap-ping or self-modifying code (informed by the
	DISCARD_TRANSLATIONS user request) can cause one instruction address
	to be used for more than one instruction in one program run... */
	extern void VG_(needs_basic_block_discards) (
	// Should discard any information that pertains to specific basic blocks
	// or instructions within the address range given.
	void (*discard_basic_block_info)(Addr a, SizeT size)
	);

	/* Tool defines its own command line options? */
	extern void VG_(needs_command_line_options) (
	// Return True if option was recognised. Presumably sets some state to
	// record the option as well.
	Bool (process_cmd_line_option)(Char argv),

	// Print out command line usage for options for normal tool operation.
	void (*print_usage)(void),

	// Print out command line usage for options for debugging the tool.
	void (*print_debug_usage)(void)
	);

	/* Tool defines its own client requests? */
	extern void VG_(needs_client_requests) (
	// If using client requests, the number of the first request should be equal
	// to VG_USERREQ_TOOL_BASE('X', 'Y'), where 'X' and 'Y' form a suitable two
	// character identification for the string. The second and subsequent
	// requests should follow.
	//
	// This function should use the VG_IS_TOOL_USERREQ macro (in
	// include/valgrind.h) to first check if it's a request for this tool. Then
	// should handle it if it's recognised (and return True), or return False if
	// not recognised. arg_block[0] holds the request number, any further args
	// from the request are in arg_block[1..]. 'ret' is for the return value...
	// it should probably be filled, if only with 0.
	Bool (handle_client_request)(ThreadId tid, UWord arg_block, UWord* ret)
	);

	/* Tool does stuff before and/or after system calls? */
	// Nb: If either of the pre_ functions malloc() something to return, the
	// corresponding post_ function had better free() it!
	extern void VG_(needs_syscall_wrapper) (
	void (* pre_syscall)(ThreadId tid, UInt syscallno),
	void (*post_syscall)(ThreadId tid, UInt syscallno, SysRes res)
	);

	/* Are tool-state sanity checks performed? */
	// Can be useful for ensuring a tool's correctness. cheap_sanity_check()
	// is called very frequently; expensive_sanity_check() is called less
	// frequently and can be more involved.
	extern void VG_(needs_sanity_checks) (
	Bool(*cheap_sanity_check)(void),
	Bool(*expensive_sanity_check)(void)
	);

	/* Do we need to see data symbols? */
	extern void VG_(needs_data_syms) ( void );

	/* Does the tool need shadow memory allocated? */
	extern void VG_(needs_shadow_memory)( void );

	/* Does the tool replace malloc() and friends with its own versions? */
	// The 'p' prefix avoids GCC complaints about overshadowing global names.
	extern void VG_(needs_malloc_replacement)(
	void* (*pmalloc) ( ThreadId tid, SizeT n ),
	void* (*p__builtin_new) ( ThreadId tid, SizeT n ),
	void* (*p__builtin_vec_new) ( ThreadId tid, SizeT n ),
	void* (*pmemalign) ( ThreadId tid, SizeT align, SizeT n ),
	void* (*pcalloc) ( ThreadId tid, SizeT nmemb, SizeT size1 ),
	void (pfree) ( ThreadId tid, void p ),
	void (p__builtin_delete) ( ThreadId tid, void p ),
	void (p__builtin_vec_delete) ( ThreadId tid, void p ),
	void* (prealloc) ( ThreadId tid, void p, SizeT new_size ),
	SizeT client_malloc_redzone_szB
	);

	/* ------------------------------------------------------------------ */
	/* Core events to track */

	/* Part of the core from which this call was made. Useful for determining
	what kind of error message should be emitted. */
	typedef
	enum { Vg_CoreStartup, Vg_CorePThread, Vg_CoreSignal, Vg_CoreSysCall,
	Vg_CoreTranslate, Vg_CoreClientReq }
	CorePart;

	/* Events happening in core to track. To be notified, pass a callback
	function to the appropriate function. To ignore an event, don't do
	anything (the default is for events to be ignored).

	Note that most events aren't passed a ThreadId. If the event is one called
	from generated code (eg. new_mem_stack_*), you can use
	VG_(get_running_tid)() to find it. Otherwise, it has to be passed in,
	as in pre_mem_read, and so the event signature will require changing.

	Memory events (Nb: to track heap allocation/freeing, a tool must replace
	malloc() et al. See above how to do this.)

	These ones occur at startup, upon some signals, and upon some syscalls
	*/
	void VG_(track_new_mem_startup) (void(*f)(Addr a, SizeT len,
	Bool rr, Bool ww, Bool xx));
	void VG_(track_new_mem_stack_signal)(void(*f)(Addr a, SizeT len));
	void VG_(track_new_mem_brk) (void(*f)(Addr a, SizeT len));
	void VG_(track_new_mem_mmap) (void(*f)(Addr a, SizeT len,
	Bool rr, Bool ww, Bool xx));

	void VG_(track_copy_mem_remap) (void(*f)(Addr from, Addr to, SizeT len));
	void VG_(track_change_mem_mprotect) (void(*f)(Addr a, SizeT len,
	Bool rr, Bool ww, Bool xx));
	void VG_(track_die_mem_stack_signal)(void(*f)(Addr a, SizeT len));
	void VG_(track_die_mem_brk) (void(*f)(Addr a, SizeT len));
	void VG_(track_die_mem_munmap) (void(*f)(Addr a, SizeT len));

	/* These ones are called when SP changes. A tool could track these itself
	(except for ban_mem_stack) but it's much easier to use the core's help.

	The specialised ones are called in preference to the general one, if they
	are defined. These functions are called a lot if they are used, so
	specialising can optimise things significantly. If any of the
	specialised cases are defined, the general case must be defined too.

	Nb: all the specialised ones must use the VG_REGPARM(n) attribute.
	*/
	void VG_(track_new_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr new_ESP));
	void VG_(track_new_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr new_ESP));
	void VG_(track_new_mem_stack_12)(VG_REGPARM(1) void(*f)(Addr new_ESP));
	void VG_(track_new_mem_stack_16)(VG_REGPARM(1) void(*f)(Addr new_ESP));
	void VG_(track_new_mem_stack_32)(VG_REGPARM(1) void(*f)(Addr new_ESP));
	void VG_(track_new_mem_stack) (void(*f)(Addr a, SizeT len));

	void VG_(track_die_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr die_ESP));
	void VG_(track_die_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr die_ESP));
	void VG_(track_die_mem_stack_12)(VG_REGPARM(1) void(*f)(Addr die_ESP));
	void VG_(track_die_mem_stack_16)(VG_REGPARM(1) void(*f)(Addr die_ESP));
	void VG_(track_die_mem_stack_32)(VG_REGPARM(1) void(*f)(Addr die_ESP));
	void VG_(track_die_mem_stack) (void(*f)(Addr a, SizeT len));

	/* Used for redzone at end of thread stacks */
	void VG_(track_ban_mem_stack) (void(*f)(Addr a, SizeT len));

	/* These ones occur around syscalls, signal handling, etc */
	void VG_(track_pre_mem_read) (void(*f)(CorePart part, ThreadId tid,
	Char* s, Addr a, SizeT size));
	void VG_(track_pre_mem_read_asciiz)(void(*f)(CorePart part, ThreadId tid,
	Char* s, Addr a));
	void VG_(track_pre_mem_write) (void(*f)(CorePart part, ThreadId tid,
	Char* s, Addr a, SizeT size));
	void VG_(track_post_mem_write) (void(*f)(CorePart part, ThreadId tid,
	Addr a, SizeT size));

	/* Register events. Use VG_(set_shadow_state_area)() to set the shadow regs
	for these events. */
	void VG_(track_pre_reg_read) (void(*f)(CorePart part, ThreadId tid,
	Char* s, OffT guest_state_offset,
	SizeT size));
	void VG_(track_post_reg_write)(void(*f)(CorePart part, ThreadId tid,
	OffT guest_state_offset,
	SizeT size));

	/* This one is called for malloc() et al if they are replaced by a tool. */
	void VG_(track_post_reg_write_clientcall_return)(
	void(*f)(ThreadId tid, OffT guest_state_offset, SizeT size, Addr f));


	/* Scheduler events (not exhaustive) */
	void VG_(track_thread_run)(void(*f)(ThreadId tid));


	/* Thread events (not exhaustive)

	Called during thread create, before the new thread has run any
	instructions (or touched any memory).
	*/
	void VG_(track_post_thread_create)(void(*f)(ThreadId tid, ThreadId child));
	void VG_(track_post_thread_join) (void(*f)(ThreadId joiner, ThreadId joinee));

	/* Mutex events (not exhaustive)
	"void mutex" is really a pthread_mutex

	Called before a thread can block while waiting for a mutex (called
	regardless of whether the thread will block or not). */
	void VG_(track_pre_mutex_lock)(void(f)(ThreadId tid, void mutex));

	/* Called once the thread actually holds the mutex (always paired with
	pre_mutex_lock). */
	void VG_(track_post_mutex_lock)(void(f)(ThreadId tid, void mutex));

	/* Called after a thread has released a mutex (no need for a corresponding
	pre_mutex_unlock, because unlocking can't block). */
	void VG_(track_post_mutex_unlock)(void(f)(ThreadId tid, void mutex));

	/* Signal events (not exhaustive)

	... pre_send_signal, post_send_signal ...

	Called before a signal is delivered; `alt_stack' indicates if it is
	delivered on an alternative stack. */
	void VG_(track_pre_deliver_signal) (void(*f)(ThreadId tid, Int sigNo,
	Bool alt_stack));
	/* Called after a signal is delivered. Nb: unfortunately, if the signal
	handler longjmps, this won't be called. */
	void VG_(track_post_deliver_signal)(void(*f)(ThreadId tid, Int sigNo));

	/* Others... condition variables...
	...
	*/

	#endif // __PUB_TOOL_TOOLIFACE_H

	/--------------------------------------------------------------------/
	/--- end ---/
	/--------------------------------------------------------------------/