Fix "make post-regtest-checks" after 441bfc5f51c7f5f80cc6491d23cbe2dc711d191f (dhat...
[valgrind.git] / include / pub_tool_tooliface.h
blob00ec5fef90e956134daa19fcfb830e965b4abbf3
2 /*--------------------------------------------------------------------*/
3 /*--- The core/tool interface. pub_tool_tooliface.h ---*/
4 /*--------------------------------------------------------------------*/
6 /*
7 This file is part of Valgrind, a dynamic binary instrumentation
8 framework.
10 Copyright (C) 2000-2017 Julian Seward
11 jseward@acm.org
13 This program is free software; you can redistribute it and/or
14 modify it under the terms of the GNU General Public License as
15 published by the Free Software Foundation; either version 2 of the
16 License, or (at your option) any later version.
18 This program is distributed in the hope that it will be useful, but
19 WITHOUT ANY WARRANTY; without even the implied warranty of
20 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
21 General Public License for more details.
23 You should have received a copy of the GNU General Public License
24 along with this program; if not, write to the Free Software
25 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
26 02111-1307, USA.
28 The GNU General Public License is contained in the file COPYING.
31 #ifndef __PUB_TOOL_TOOLIFACE_H
32 #define __PUB_TOOL_TOOLIFACE_H
34 #include "pub_tool_errormgr.h" // for Error, Supp
35 #include "libvex.h" // for all Vex stuff
37 /* ------------------------------------------------------------------ */
38 /* The interface version */
40 /* Initialise tool. Must do the following:
41 - initialise the `details' struct, via the VG_(details_*)() functions
42 - register the basic tool functions, via VG_(basic_tool_funcs)().
43 May do the following:
44 - initialise the `needs' struct to indicate certain requirements, via
45 the VG_(needs_*)() functions
46 - any other tool-specific initialisation
48 extern void (*VG_(tl_pre_clo_init)) ( void );
50 /* Every tool must include this macro somewhere, exactly once. The
51 interface version is no longer relevant, but we kept the same name
52 to avoid requiring changes to tools.
54 #define VG_DETERMINE_INTERFACE_VERSION(pre_clo_init) \
55 void (*VG_(tl_pre_clo_init)) ( void ) = pre_clo_init;
57 /* ------------------------------------------------------------------ */
58 /* Basic tool functions */
60 /* The tool_instrument function is passed as a callback to
61 LibVEX_Translate. VgCallbackClosure carries additional info
62 which the instrumenter might like to know, but which is opaque to
63 Vex.
65 typedef
66 struct {
67 Addr nraddr; /* non-redirected guest address */
68 Addr readdr; /* redirected guest address */
69 ThreadId tid; /* tid requesting translation */
71 VgCallbackClosure;
73 extern void VG_(basic_tool_funcs)(
74 // Do any initialisation that can only be done after command line
75 // processing.
76 void (*post_clo_init)(void),
78 // Instrument a basic block. Must be a true function, ie. the same
79 // input always results in the same output, because basic blocks
80 // can be retranslated, unless you're doing something really
81 // strange. Anyway, the arguments. Mostly they are straightforward
82 // except for the distinction between redirected and non-redirected
83 // guest code addresses, which is important to understand.
85 // VgCallBackClosure* closure contains extra arguments passed
86 // from Valgrind to the instrumenter, which Vex doesn't know about.
87 // You are free to look inside this structure.
89 // * closure->tid is the ThreadId of the thread requesting the
90 // translation. Not sure why this is here; perhaps callgrind
91 // uses it.
93 // * closure->nraddr is the non-redirected guest address of the
94 // start of the translation. In other words, the translation is
95 // being constructed because the guest program jumped to
96 // closure->nraddr but no translation of it was found.
98 // * closure->readdr is the redirected guest address, from which
99 // the translation was really made.
101 // To clarify this, consider what happens when, in Memcheck, the
102 // first call to malloc() happens. The guest program will be
103 // trying to jump to malloc() in libc; hence ->nraddr will contain
104 // that address. However, Memcheck intercepts and replaces
105 // malloc, hence ->readdr will be the address of Memcheck's
106 // malloc replacement in
107 // coregrind/m_replacemalloc/vg_replacemalloc.c. It follows
108 // that the first IMark in the translation will be labelled as
109 // from ->readdr rather than ->nraddr.
111 // Since most functions are not redirected, the majority of the
112 // time ->nraddr will be the same as ->readdr. However, you
113 // cannot assume this: if your tool has metadata associated
114 // with code addresses it will get into deep trouble if it does
115 // make this assumption.
117 // IRSB* sb_in is the incoming superblock to be instrumented,
118 // in flat IR form.
120 // VexGuestLayout* layout contains limited info on the layout of
121 // the guest state: where the stack pointer and program counter
122 // are, and which fields should be regarded as 'always defined'.
123 // Memcheck uses this.
125 // VexGuestExtents* vge points to a structure which states the
126 // precise byte ranges of original code from which this translation
127 // was made (there may be up to three different ranges involved).
128 // Note again that these are the real addresses from which the code
129 // came. And so it should be the case that closure->readdr is the
130 // same as vge->base[0]; indeed Cachegrind contains this assertion.
132 // Tools which associate shadow data with code addresses
133 // (cachegrind, callgrind) need to be particularly clear about
134 // whether they are making the association with redirected or
135 // non-redirected code addresses. Both approaches are viable
136 // but you do need to understand what's going on. See comments
137 // below on discard_basic_block_info().
139 // IRType gWordTy and IRType hWordTy contain the types of native
140 // words on the guest (simulated) and host (real) CPUs. They will
141 // by either Ity_I32 or Ity_I64. So far we have never built a
142 // cross-architecture Valgrind so they should always be the same.
144 /* --- Further comments about the IR that your --- */
145 /* --- instrumentation function will receive. --- */
147 In the incoming IRSB, the IR for each instruction begins with an
148 IRStmt_IMark, which states the address and length of the
149 instruction from which this IR came. This makes it easy for
150 profiling-style tools to know precisely which guest code
151 addresses are being executed.
153 However, before the first IRStmt_IMark, there may be other IR
154 statements -- a preamble. In most cases this preamble is empty,
155 but when it isn't, what it contains is some supporting IR that
156 the JIT uses to ensure control flow works correctly. This
157 preamble does not modify any architecturally defined guest state
158 (registers or memory) and so does not contain anything that will
159 be of interest to your tool.
161 You should therefore
163 (1) copy any IR preceding the first IMark verbatim to the start
164 of the output IRSB.
166 (2) not try to instrument it or modify it in any way.
168 For the record, stuff that may be in the preamble at
169 present is:
171 - A self-modifying-code check has been requested for this block.
172 The preamble will contain instructions to checksum the block,
173 compare against the expected value, and exit the dispatcher
174 requesting a discard (hence forcing a retranslation) if they
175 don't match.
177 - This block is known to be the entry point of a wrapper of some
178 function F. In this case the preamble contains code to write
179 the address of the original F (the fn being wrapped) into a
180 'hidden' guest state register _NRADDR. The wrapper can later
181 read this register using a client request and make a
182 non-redirected call to it using another client-request-like
183 magic macro.
185 - For platforms that use the AIX ABI (including ppc64-linux), it
186 is necessary to have a preamble even for replacement functions
187 (not just for wrappers), because it is necessary to switch the
188 R2 register (constant-pool pointer) to a different value when
189 swizzling the program counter.
191 Hence the preamble pushes both R2 and LR (the return address)
192 on a small 16-entry stack in the guest state and sets R2 to an
193 appropriate value for the wrapper/replacement fn. LR is then
194 set so that the wrapper/replacement fn returns to a magic IR
195 stub which restores R2 and LR and returns.
197 It's all hugely ugly and fragile. And it places a stringent
198 requirement on m_debuginfo to find out the correct R2 (toc
199 pointer) value for the wrapper/replacement function. So much
200 so that m_redir will refuse to honour a redirect-to-me request
201 if it cannot find (by asking m_debuginfo) a plausible R2 value
202 for 'me'.
204 Because this mechanism maintains a shadow stack of (R2,LR)
205 pairs in the guest state, it will fail if the
206 wrapper/redirection function, or anything it calls, longjumps
207 out past the wrapper, because then the magic return stub will
208 not be run and so the shadow stack will not be popped. So it
209 will quickly fill up. Fortunately none of this applies to
210 {x86,amd64,ppc32}-linux; on those platforms, wrappers can
211 longjump and recurse arbitrarily and everything should work
212 fine.
214 Note that copying the preamble verbatim may cause complications
215 for your instrumenter if you shadow IR temporaries. See big
216 comment in MC_(instrument) in memcheck/mc_translate.c for
217 details.
219 IRSB*(*instrument)(VgCallbackClosure* closure,
220 IRSB* sb_in,
221 const VexGuestLayout* layout,
222 const VexGuestExtents* vge,
223 const VexArchInfo* archinfo_host,
224 IRType gWordTy,
225 IRType hWordTy),
227 // Finish up, print out any results, etc. `exitcode' is program's exit
228 // code. The shadow can be found with VG_(get_exit_status_shadow)().
229 void (*fini)(Int)
232 /* ------------------------------------------------------------------ */
233 /* Details */
235 /* Default value for avg_translations_sizeB (in bytes), indicating typical
236 code expansion of about 6:1. */
237 #define VG_DEFAULT_TRANS_SIZEB 172
239 /* Information used in the startup message. `name' also determines the
240 string used for identifying suppressions in a suppression file as
241 belonging to this tool. `version' can be NULL, in which case (not
242 surprisingly) no version info is printed; this mechanism is designed for
243 tools distributed with Valgrind that share a version number with
244 Valgrind. Other tools not distributed as part of Valgrind should
245 probably have their own version number. */
246 extern void VG_(details_name) ( const HChar* name );
247 extern void VG_(details_version) ( const HChar* version );
248 extern void VG_(details_description) ( const HChar* description );
249 extern void VG_(details_copyright_author) ( const HChar* copyright_author );
251 /* Average size of a translation, in bytes, so that the translation
252 storage machinery can allocate memory appropriately. Not critical,
253 setting is optional. */
254 extern void VG_(details_avg_translation_sizeB) ( UInt size );
256 /* String printed if an `tl_assert' assertion fails or VG_(tool_panic)
257 is called. Should probably be an email address. */
258 extern void VG_(details_bug_reports_to) ( const HChar* bug_reports_to );
260 /* ------------------------------------------------------------------ */
261 /* Needs */
263 /* Should __libc_freeres() be run? Bugs in it can crash the tool. */
264 extern void VG_(needs_libc_freeres) ( void );
266 /* Should __gnu_cxx::__freeres() be run? Bugs in it can crash the tool. */
267 extern void VG_(needs_cxx_freeres) ( void );
269 /* Want to have errors detected by Valgrind's core reported? Includes:
270 - pthread API errors (many; eg. unlocking a non-locked mutex)
271 [currently disabled]
272 - invalid file descriptors to syscalls like read() and write()
273 - bad signal numbers passed to sigaction()
274 - attempt to install signal handler for SIGKILL or SIGSTOP */
275 extern void VG_(needs_core_errors) ( void );
277 /* Booleans that indicate extra operations are defined; if these are True,
278 the corresponding template functions (given below) must be defined. A
279 lot like being a member of a type class. */
281 /* Want to report errors from tool? This implies use of suppressions, too. */
282 extern void VG_(needs_tool_errors) (
283 // Identify if two errors are equal, or close enough. This function is
284 // only called if e1 and e2 will have the same error kind. `res' indicates
285 // how close is "close enough". `res' should be passed on as necessary,
286 // eg. if the Error's `extra' part contains an ExeContext, `res' should be
287 // passed to VG_(eq_ExeContext)() if the ExeContexts are considered. Other
288 // than that, probably don't worry about it unless you have lots of very
289 // similar errors occurring.
290 Bool (*eq_Error)(VgRes res, const Error* e1, const Error* e2),
292 // We give tools a chance to have a look at errors
293 // just before they are printed. That is, before_pp_Error is
294 // called just before pp_Error itself. This gives the tool a
295 // chance to look at the just-about-to-be-printed error, so as to
296 // emit any arbitrary output if wants to, before the error itself
297 // is printed. This functionality was added to allow Helgrind to
298 // print thread-announcement messages immediately before the
299 // errors that refer to them.
300 void (*before_pp_Error)(const Error* err),
302 // Print error context.
303 void (*pp_Error)(const Error* err),
305 // Should the core indicate which ThreadId each error comes from?
306 Bool show_ThreadIDs_for_errors,
308 // Should fill in any details that could be postponed until after the
309 // decision whether to ignore the error (ie. details not affecting the
310 // result of VG_(tdict).tool_eq_Error()). This saves time when errors
311 // are ignored.
312 // Yuk.
313 // Return value: must be the size of the `extra' part in bytes -- used by
314 // the core to make a copy.
315 UInt (*update_extra)(const Error* err),
317 // Return value indicates recognition. If recognised, must set skind using
318 // VG_(set_supp_kind)().
319 Bool (*recognised_suppression)(const HChar* name, Supp* su),
321 // Read any extra info for this suppression kind. Most likely for filling
322 // in the `extra' and `string' parts (with VG_(set_supp_{extra, string})())
323 // of a suppression if necessary. Should return False if a syntax error
324 // occurred, True otherwise.
325 // fd, bufpp, nBufp and lineno are the same as for VG_(get_line).
326 Bool (*read_extra_suppression_info)(Int fd, HChar** bufpp, SizeT* nBufp,
327 Int* lineno, Supp* su),
329 // This should just check the kinds match and maybe some stuff in the
330 // `string' and `extra' field if appropriate (using VG_(get_supp_*)() to
331 // get the relevant suppression parts).
332 Bool (*error_matches_suppression)(const Error* err, const Supp* su),
334 // This should return the suppression name, for --gen-suppressions, or NULL
335 // if that error type cannot be suppressed. This is the inverse of
336 // VG_(tdict).tool_recognised_suppression().
337 const HChar* (*get_error_name)(const Error* err),
339 // This should print into buf[0..nBuf-1] any extra info for the
340 // error, for --gen-suppressions, but not including any leading
341 // spaces nor a trailing newline. The string needs to be null
342 // terminated. If the buffer is large enough to hold the string
343 // including the terminating null character the function shall
344 // return the value that strlen would return for the string.
345 // If the buffer is too small the function shall return nBuf.
346 SizeT (*print_extra_suppression_info)(const Error* err,
347 /*OUT*/HChar* buf, Int nBuf),
349 // This is similar to print_extra_suppression_info, but is used
350 // to print information such as additional statistical counters
351 // as part of the used suppression list produced by -v.
352 SizeT (*print_extra_suppression_use)(const Supp* su,
353 /*OUT*/HChar* buf, Int nBuf),
355 // Called by error mgr once it has been established that err
356 // is suppressed by su. update_extra_suppression_use typically
357 // can be used to update suppression extra information such as
358 // some statistical counters that will be printed by
359 // print_extra_suppression_use.
360 void (*update_extra_suppression_use)(const Error* err, const Supp* su)
363 /* Is information kept by the tool about specific instructions or
364 translations? (Eg. for cachegrind there are cost-centres for every
365 instruction, stored in a per-translation fashion.) If so, the info
366 may have to be discarded when translations are unloaded (eg. due to
367 .so unloading, or otherwise at the discretion of m_transtab, eg
368 when the table becomes too full) to avoid stale information being
369 reused for new translations. */
370 extern void VG_(needs_superblock_discards) (
371 // Discard any information that pertains to specific translations
372 // or instructions within the address range given. There are two
373 // possible approaches.
374 // - If info is being stored at a per-translation level, use orig_addr
375 // to identify which translation is being discarded. Each translation
376 // will be discarded exactly once.
377 // This orig_addr will match the closure->nraddr which was passed to
378 // to instrument() (see extensive comments above) when this
379 // translation was made. Note that orig_addr won't necessarily be
380 // the same as the first address in "extents".
381 // - If info is being stored at a per-instruction level, you can get
382 // the address range(s) being discarded by stepping through "extents".
383 // Note that any single instruction may belong to more than one
384 // translation, and so could be covered by the "extents" of more than
385 // one call to this function.
386 // Doing it the first way (as eg. Cachegrind does) is probably easier.
387 void (*discard_superblock_info)(Addr orig_addr, VexGuestExtents extents)
390 /* Tool defines its own command line options? */
391 extern void VG_(needs_command_line_options) (
392 // Return True if option was recognised, False if it wasn't (but also see
393 // below). Presumably sets some state to record the option as well.
395 // Nb: tools can assume that the argv will never disappear. So they can,
396 // for example, store a pointer to a string within an option, rather than
397 // having to make a copy.
399 // Options (and combinations of options) should be checked in this function
400 // if possible rather than in post_clo_init(), and if they are bad then
401 // VG_(fmsg_bad_option)() should be called. This ensures that the
402 // messaging is consistent with command line option errors from the core.
403 Bool (*process_cmd_line_option)(const HChar* argv),
405 // Print out command line usage for options for normal tool operation.
406 void (*print_usage)(void),
408 // Print out command line usage for options for debugging the tool.
409 void (*print_debug_usage)(void)
412 /* Tool defines its own client requests? */
413 extern void VG_(needs_client_requests) (
414 // If using client requests, the number of the first request should be equal
415 // to VG_USERREQ_TOOL_BASE('X', 'Y'), where 'X' and 'Y' form a suitable two
416 // character identification for the string. The second and subsequent
417 // requests should follow.
419 // This function should use the VG_IS_TOOL_USERREQ macro (in
420 // include/valgrind.h) to first check if it's a request for this tool. Then
421 // should handle it if it's recognised (and return True), or return False if
422 // not recognised. arg_block[0] holds the request number, any further args
423 // from the request are in arg_block[1..]. 'ret' is for the return value...
424 // it should probably be filled, if only with 0.
425 Bool (*handle_client_request)(ThreadId tid, UWord* arg_block, UWord* ret)
428 /* Tool does stuff before and/or after system calls? */
429 // Nb: If either of the pre_ functions malloc() something to return, the
430 // corresponding post_ function had better free() it!
431 // Also, the args are the 'original args' -- that is, it may be
432 // that the syscall pre-wrapper will modify the args before the
433 // syscall happens. So these args are the original, un-modified
434 // args. Finally, nArgs merely indicates the length of args[..],
435 // it does not indicate how many of those values are actually
436 // relevant to the syscall. args[0 .. nArgs-1] is guaranteed
437 // to be defined and to contain all the args for this syscall,
438 // possibly including some trailing zeroes.
439 extern void VG_(needs_syscall_wrapper) (
440 void (* pre_syscall)(ThreadId tid, UInt syscallno,
441 UWord* args, UInt nArgs),
442 void (*post_syscall)(ThreadId tid, UInt syscallno,
443 UWord* args, UInt nArgs, SysRes res)
446 /* Are tool-state sanity checks performed? */
447 // Can be useful for ensuring a tool's correctness. cheap_sanity_check()
448 // is called very frequently; expensive_sanity_check() is called less
449 // frequently and can be more involved.
450 extern void VG_(needs_sanity_checks) (
451 Bool(*cheap_sanity_check)(void),
452 Bool(*expensive_sanity_check)(void)
455 /* Can the tool produce stats during execution? */
456 extern void VG_(needs_print_stats) (
457 // Print out tool status. Note that the stats at end of execution
458 // should be output by the VG_(basic_tool_funcs) "fini" function.
459 void (*print_stats)(void)
462 /* Has the tool a tool specific function to retrieve and print location info
463 of an address ? */
464 extern void VG_(needs_info_location) (
465 // Get and pp information about Addr
466 void (*info_location)(DiEpoch, Addr)
469 /* Do we need to see variable type and location information? */
470 extern void VG_(needs_var_info) ( void );
472 /* Does the tool replace malloc() and friends with its own versions?
473 This has to be combined with the use of a vgpreload_<tool>.so module
474 or it won't work. See massif/Makefile.am for how to build it. */
475 // The 'p' prefix avoids GCC complaints about overshadowing global names.
476 extern void VG_(needs_malloc_replacement)(
477 void* (*pmalloc) ( ThreadId tid, SizeT n ),
478 void* (*p__builtin_new) ( ThreadId tid, SizeT n ),
479 void* (*p__builtin_vec_new) ( ThreadId tid, SizeT n ),
480 void* (*pmemalign) ( ThreadId tid, SizeT align, SizeT n ),
481 void* (*pcalloc) ( ThreadId tid, SizeT nmemb, SizeT size1 ),
482 void (*pfree) ( ThreadId tid, void* p ),
483 void (*p__builtin_delete) ( ThreadId tid, void* p ),
484 void (*p__builtin_vec_delete) ( ThreadId tid, void* p ),
485 void* (*prealloc) ( ThreadId tid, void* p, SizeT new_size ),
486 SizeT (*pmalloc_usable_size) ( ThreadId tid, void* p),
487 SizeT client_malloc_redzone_szB
490 /* Can the tool do XML output? This is a slight misnomer, because the tool
491 * is not requesting the core to do anything, rather saying "I can handle
492 * it". */
493 extern void VG_(needs_xml_output) ( void );
495 /* Does the tool want to have one final pass over the IR after tree
496 building but before instruction selection? If so specify the
497 function here. */
498 extern void VG_(needs_final_IR_tidy_pass) ( IRSB*(*final_tidy)(IRSB*) );
501 /* ------------------------------------------------------------------ */
502 /* Core events to track */
504 /* Part of the core from which this call was made. Useful for determining
505 what kind of error message should be emitted. */
506 typedef
507 enum { Vg_CoreStartup=1, Vg_CoreSignal, Vg_CoreSysCall,
508 // This is for platforms where syscall args are passed on the
509 // stack; although pre_mem_read is the callback that will be
510 // called, such an arg should be treated (with respect to
511 // presenting information to the user) as if it was passed in a
512 // register, ie. like pre_reg_read.
513 Vg_CoreSysCallArgInMem,
514 Vg_CoreTranslate, Vg_CoreClientReq
515 } CorePart;
517 /* Events happening in core to track. To be notified, pass a callback
518 function to the appropriate function. To ignore an event, don't do
519 anything (the default is for events to be ignored).
521 Note that most events aren't passed a ThreadId. If the event is one called
522 from generated code (eg. new_mem_stack_*), you can use
523 VG_(get_running_tid)() to find it. Otherwise, it has to be passed in,
524 as in pre_mem_read, and so the event signature will require changing.
526 Memory events (Nb: to track heap allocation/freeing, a tool must replace
527 malloc() et al. See above how to do this.)
529 These ones occur at startup, upon some signals, and upon some syscalls.
531 For new_mem_brk and new_mem_stack_signal, the supplied ThreadId
532 indicates the thread for whom the new memory is being allocated.
534 For new_mem_startup and new_mem_mmap, the di_handle argument is a
535 handle which can be used to retrieve debug info associated with the
536 mapping or allocation (because it is of a file that Valgrind has
537 decided to read debug info from). If the value is zero, there is
538 no associated debug info. If the value exceeds zero, it can be
539 supplied as an argument to selected queries in m_debuginfo.
541 void VG_(track_new_mem_startup) (void(*f)(Addr a, SizeT len,
542 Bool rr, Bool ww, Bool xx,
543 ULong di_handle));
544 void VG_(track_new_mem_stack_signal)(void(*f)(Addr a, SizeT len, ThreadId tid));
545 void VG_(track_new_mem_brk) (void(*f)(Addr a, SizeT len, ThreadId tid));
546 void VG_(track_new_mem_mmap) (void(*f)(Addr a, SizeT len,
547 Bool rr, Bool ww, Bool xx,
548 ULong di_handle));
550 void VG_(track_copy_mem_remap) (void(*f)(Addr from, Addr to, SizeT len));
551 void VG_(track_change_mem_mprotect) (void(*f)(Addr a, SizeT len,
552 Bool rr, Bool ww, Bool xx));
553 void VG_(track_die_mem_stack_signal)(void(*f)(Addr a, SizeT len));
554 void VG_(track_die_mem_brk) (void(*f)(Addr a, SizeT len));
555 void VG_(track_die_mem_munmap) (void(*f)(Addr a, SizeT len));
557 /* These ones are called when SP changes. A tool could track these itself
558 (except for ban_mem_stack) but it's much easier to use the core's help.
560 The specialised ones are called in preference to the general one, if they
561 are defined. These functions are called a lot if they are used, so
562 specialising can optimise things significantly. If any of the
563 specialised cases are defined, the general case must be defined too.
565 Nb: all the specialised ones must use the VG_REGPARM(n) attribute.
567 For the _new functions, a tool may specify with with-ECU
568 (ExeContext Unique) or without-ECU version for each size, but not
569 both. If the with-ECU version is supplied, then the core will
570 arrange to pass, as the ecu argument, a 32-bit int which uniquely
571 identifies the instruction moving the stack pointer down. This
572 32-bit value is as obtained from VG_(get_ECU_from_ExeContext).
573 VG_(get_ExeContext_from_ECU) can then be used to retrieve the
574 associated depth-1 ExeContext for the location. All this
575 complexity is provided to support origin tracking in Memcheck.
577 void VG_(track_new_mem_stack_4_w_ECU) (VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
578 void VG_(track_new_mem_stack_8_w_ECU) (VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
579 void VG_(track_new_mem_stack_12_w_ECU) (VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
580 void VG_(track_new_mem_stack_16_w_ECU) (VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
581 void VG_(track_new_mem_stack_32_w_ECU) (VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
582 void VG_(track_new_mem_stack_112_w_ECU)(VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
583 void VG_(track_new_mem_stack_128_w_ECU)(VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
584 void VG_(track_new_mem_stack_144_w_ECU)(VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
585 void VG_(track_new_mem_stack_160_w_ECU)(VG_REGPARM(2) void(*f)(Addr new_ESP, UInt ecu));
586 void VG_(track_new_mem_stack_w_ECU) (void(*f)(Addr a, SizeT len,
587 UInt ecu));
589 void VG_(track_new_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr new_ESP));
590 void VG_(track_new_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr new_ESP));
591 void VG_(track_new_mem_stack_12) (VG_REGPARM(1) void(*f)(Addr new_ESP));
592 void VG_(track_new_mem_stack_16) (VG_REGPARM(1) void(*f)(Addr new_ESP));
593 void VG_(track_new_mem_stack_32) (VG_REGPARM(1) void(*f)(Addr new_ESP));
594 void VG_(track_new_mem_stack_112)(VG_REGPARM(1) void(*f)(Addr new_ESP));
595 void VG_(track_new_mem_stack_128)(VG_REGPARM(1) void(*f)(Addr new_ESP));
596 void VG_(track_new_mem_stack_144)(VG_REGPARM(1) void(*f)(Addr new_ESP));
597 void VG_(track_new_mem_stack_160)(VG_REGPARM(1) void(*f)(Addr new_ESP));
598 void VG_(track_new_mem_stack) (void(*f)(Addr a, SizeT len));
600 void VG_(track_die_mem_stack_4) (VG_REGPARM(1) void(*f)(Addr die_ESP));
601 void VG_(track_die_mem_stack_8) (VG_REGPARM(1) void(*f)(Addr die_ESP));
602 void VG_(track_die_mem_stack_12) (VG_REGPARM(1) void(*f)(Addr die_ESP));
603 void VG_(track_die_mem_stack_16) (VG_REGPARM(1) void(*f)(Addr die_ESP));
604 void VG_(track_die_mem_stack_32) (VG_REGPARM(1) void(*f)(Addr die_ESP));
605 void VG_(track_die_mem_stack_112)(VG_REGPARM(1) void(*f)(Addr die_ESP));
606 void VG_(track_die_mem_stack_128)(VG_REGPARM(1) void(*f)(Addr die_ESP));
607 void VG_(track_die_mem_stack_144)(VG_REGPARM(1) void(*f)(Addr die_ESP));
608 void VG_(track_die_mem_stack_160)(VG_REGPARM(1) void(*f)(Addr die_ESP));
609 void VG_(track_die_mem_stack) (void(*f)(Addr a, SizeT len));
611 /* Used for redzone at end of thread stacks */
612 void VG_(track_ban_mem_stack) (void(*f)(Addr a, SizeT len));
614 /* These ones occur around syscalls, signal handling, etc */
615 void VG_(track_pre_mem_read) (void(*f)(CorePart part, ThreadId tid,
616 const HChar* s, Addr a, SizeT size));
617 void VG_(track_pre_mem_read_asciiz)(void(*f)(CorePart part, ThreadId tid,
618 const HChar* s, Addr a));
619 void VG_(track_pre_mem_write) (void(*f)(CorePart part, ThreadId tid,
620 const HChar* s, Addr a, SizeT size));
621 void VG_(track_post_mem_write) (void(*f)(CorePart part, ThreadId tid,
622 Addr a, SizeT size));
624 /* Register events. Use VG_(set_shadow_state_area)() to set the shadow regs
625 for these events. */
626 void VG_(track_pre_reg_read) (void(*f)(CorePart part, ThreadId tid,
627 const HChar* s, PtrdiffT guest_state_offset,
628 SizeT size));
629 void VG_(track_post_reg_write)(void(*f)(CorePart part, ThreadId tid,
630 PtrdiffT guest_state_offset,
631 SizeT size));
633 /* This one is called for malloc() et al if they are replaced by a tool. */
634 void VG_(track_post_reg_write_clientcall_return)(
635 void(*f)(ThreadId tid, PtrdiffT guest_state_offset, SizeT size, Addr f));
637 /* Mem-to-reg or reg-to-mem copy functions, these ones occur around syscalls
638 and signal handling when the VCPU state is saved to (or restored from) the
639 client memory. */
640 void VG_(track_copy_mem_to_reg)(void(*f)(CorePart part, ThreadId tid,
641 Addr a, PtrdiffT guest_state_offset,
642 SizeT size));
643 void VG_(track_copy_reg_to_mem)(void(*f)(CorePart part, ThreadId tid,
644 PtrdiffT guest_state_offset,
645 Addr a, SizeT size));
648 /* Scheduler events (not exhaustive) */
650 /* Called when 'tid' starts or stops running client code blocks.
651 Gives the total dispatched block count at that event. Note, this
652 is not the same as 'tid' holding the BigLock (the lock that ensures
653 that only one thread runs at a time): a thread can hold the lock
654 for other purposes (making translations, etc) yet not be running
655 client blocks. Obviously though, a thread must hold the lock in
656 order to run client code blocks, so the times bracketed by
657 'start_client_code'..'stop_client_code' are a subset of the times
658 when thread 'tid' holds the cpu lock.
660 void VG_(track_start_client_code)(
661 void(*f)(ThreadId tid, ULong blocks_dispatched)
663 void VG_(track_stop_client_code)(
664 void(*f)(ThreadId tid, ULong blocks_dispatched)
668 /* Thread events (not exhaustive)
670 ll_create: low level thread creation. Called before the new thread
671 has run any instructions (or touched any memory). In fact, called
672 immediately before the new thread has come into existence; the new
673 thread can be assumed to exist when notified by this call.
675 ll_exit: low level thread exit. Called after the exiting thread
676 has run its last instruction.
678 The _ll_ part makes it clear these events are not to do with
679 pthread_create or pthread_exit/pthread_join (etc), which are a
680 higher level abstraction synthesised by libpthread. What you can
681 be sure of from _ll_create/_ll_exit is the absolute limits of each
682 thread's lifetime, and hence be assured that all memory references
683 made by the thread fall inside the _ll_create/_ll_exit pair. This
684 is important for tools that need a 100% accurate account of which
685 thread is responsible for every memory reference in the process.
687 pthread_create/join/exit do not give this property. Calls/returns
688 to/from them happen arbitrarily far away from the relevant
689 low-level thread create/quit event. In general a few hundred
690 instructions; hence a few hundred(ish) memory references could get
691 misclassified each time.
693 pre_thread_first_insn: is called when the thread is all set up and
694 ready to go (stack in place, etc) but has not executed its first
695 instruction yet. Gives threading tools a chance to ask questions
696 about the thread (eg, what is its initial client stack pointer)
697 that are not easily answered at pre_thread_ll_create time.
699 For a given thread, the call sequence is:
700 ll_create (in the parent's context)
701 first_insn (in the child's context)
702 ll_exit (in the child's context)
704 void VG_(track_pre_thread_ll_create) (void(*f)(ThreadId tid, ThreadId child));
705 void VG_(track_pre_thread_first_insn)(void(*f)(ThreadId tid));
706 void VG_(track_pre_thread_ll_exit) (void(*f)(ThreadId tid));
709 /* Signal events (not exhaustive)
711 ... pre_send_signal, post_send_signal ...
713 Called before a signal is delivered; `alt_stack' indicates if it is
714 delivered on an alternative stack. */
715 void VG_(track_pre_deliver_signal) (void(*f)(ThreadId tid, Int sigNo,
716 Bool alt_stack));
717 /* Called after a signal is delivered. Nb: unfortunately, if the signal
718 handler longjmps, this won't be called. */
719 void VG_(track_post_deliver_signal)(void(*f)(ThreadId tid, Int sigNo));
721 #endif // __PUB_TOOL_TOOLIFACE_H
723 /*--------------------------------------------------------------------*/
724 /*--- end ---*/
725 /*--------------------------------------------------------------------*/