2 /*--------------------------------------------------------------------*/
3 /*--- An example Valgrind tool. lk_main.c ---*/
4 /*--------------------------------------------------------------------*/
7 This file is part of Lackey, an example Valgrind tool that does
8 some simple program measurement and tracing.
10 Copyright (C) 2002-2013 Nicholas Nethercote
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
28 The GNU General Public License is contained in the file COPYING.
31 // This tool shows how to do some basic instrumentation.
33 // There are four kinds of instrumentation it can do. They can be turned
34 // on/off independently with command line options:
36 // * --basic-counts : do basic counts, eg. number of instructions
37 // executed, jumps executed, etc.
38 // * --detailed-counts: do more detailed counts: number of loads, stores
39 // and ALU operations of different sizes.
40 // * --trace-mem=yes: trace all (data) memory accesses.
41 // * --trace-superblocks=yes:
42 // trace all superblock entries. Mostly of interest
43 // to the Valgrind developers.
45 // The code for each kind of instrumentation is guarded by a clo_* variable:
46 // clo_basic_counts, clo_detailed_counts, clo_trace_mem and clo_trace_sbs.
48 // If you want to modify any of the instrumentation code, look for the code
49 // that is guarded by the relevant clo_* variable (eg. clo_trace_mem)
50 // If you're not interested in the other kinds of instrumentation you can
51 // remove them. If you want to do more complex modifications, please read
52 // VEX/pub/libvex_ir.h to understand the intermediate representation.
55 // Specific Details about --trace-mem=yes
56 // --------------------------------------
57 // Lackey's --trace-mem code is a good starting point for building Valgrind
58 // tools that act on memory loads and stores. It also could be used as is,
59 // with its output used as input to a post-mortem processing step. However,
60 // because memory traces can be very large, online analysis is generally
63 // It prints memory data access traces that look like this:
65 // I 0023C790,2 # instruction read at 0x0023C790 of size 2
67 // S BE80199C,4 # data store at 0xBE80199C of size 4
69 // L BE801950,4 # data load at 0xBE801950 of size 4
71 // M 0025747C,1 # data modify at 0x0025747C of size 1
79 // Every instruction executed has an "instr" event representing it.
80 // Instructions that do memory accesses are followed by one or more "load",
81 // "store" or "modify" events. Some instructions do more than one load or
82 // store, as in the last two examples in the above trace.
84 // Here are some examples of x86 instructions that do different combinations
85 // of loads, stores, and modifies.
87 // Instruction Memory accesses Event sequence
88 // ----------- --------------- --------------
89 // add %eax, %ebx No loads or stores instr
91 // movl (%eax), %ebx loads (%eax) instr, load
93 // movl %eax, (%ebx) stores (%ebx) instr, store
95 // incl (%ecx) modifies (%ecx) instr, modify
97 // cmpsb loads (%esi), loads(%edi) instr, load, load
99 // call*l (%edx) loads (%edx), stores -4(%esp) instr, load, store
100 // pushl (%edx) loads (%edx), stores -4(%esp) instr, load, store
101 // movsw loads (%esi), stores (%edi) instr, load, store
103 // Instructions using x86 "rep" prefixes are traced as if they are repeated
106 // Lackey with --trace-mem gives good traces, but they are not perfect, for
107 // the following reasons:
109 // - It does not trace into the OS kernel, so system calls and other kernel
110 // operations (eg. some scheduling and signal handling code) are ignored.
112 // - It could model loads and stores done at the system call boundary using
113 // the pre_mem_read/post_mem_write events. For example, if you call
114 // fstat() you know that the passed in buffer has been written. But it
115 // currently does not do this.
117 // - Valgrind replaces some code (not much) with its own, notably parts of
118 // code for scheduling operations and signal handling. This code is not
121 // - There is no consideration of virtual-to-physical address mapping.
122 // This may not matter for many purposes.
124 // - Valgrind modifies the instruction stream in some very minor ways. For
125 // example, on x86 the bts, btc, btr instructions are incorrectly
126 // considered to always touch memory (this is a consequence of these
127 // instructions being very difficult to simulate).
129 // - Valgrind tools layout memory differently to normal programs, so the
130 // addresses you get will not be typical. Thus Lackey (and all Valgrind
131 // tools) is suitable for getting relative memory traces -- eg. if you
132 // want to analyse locality of memory accesses -- but is not good if
133 // absolute addresses are important.
135 // Despite all these warnings, Lackey's results should be good enough for a
136 // wide range of purposes. For example, Cachegrind shares all the above
137 // shortcomings and it is still useful.
139 // For further inspiration, you should look at cachegrind/cg_main.c which
140 // uses the same basic technique for tracing memory accesses, but also groups
141 // events together for processing into twos and threes so that fewer C calls
142 // are made and things run faster.
144 // Specific Details about --trace-superblocks=yes
145 // ----------------------------------------------
146 // Valgrind splits code up into single entry, multiple exit blocks
147 // known as superblocks. By itself, --trace-superblocks=yes just
148 // prints a message as each superblock is run:
155 // The hex number is the address of the first instruction in the
156 // superblock. You can see the relationship more obviously if you use
157 // --trace-superblocks=yes and --trace-mem=yes together. Then a "SB"
158 // message at address X is immediately followed by an "instr:" message
159 // for that address, as the first instruction in the block is
160 // executed, for example:
172 #include "pub_tool_basics.h"
173 #include "pub_tool_tooliface.h"
174 #include "pub_tool_libcassert.h"
175 #include "pub_tool_libcprint.h"
176 #include "pub_tool_debuginfo.h"
177 #include "pub_tool_libcbase.h"
178 #include "pub_tool_options.h"
179 #include "pub_tool_machine.h" // VG_(fnptr_to_fnentry)
181 /*------------------------------------------------------------*/
182 /*--- Command line options ---*/
183 /*------------------------------------------------------------*/
185 /* Command line options controlling instrumentation kinds, as described at
186 * the top of this file. */
187 static Bool clo_basic_counts
= True
;
188 static Bool clo_detailed_counts
= False
;
189 static Bool clo_trace_mem
= False
;
190 static Bool clo_trace_sbs
= False
;
192 /* The name of the function of which the number of calls (under
193 * --basic-counts=yes) is to be counted, with default. Override with command
194 * line option --fnname. */
195 static const HChar
* clo_fnname
= "main";
197 static Bool
lk_process_cmd_line_option(const HChar
* arg
)
199 if VG_STR_CLO(arg
, "--fnname", clo_fnname
) {}
200 else if VG_BOOL_CLO(arg
, "--basic-counts", clo_basic_counts
) {}
201 else if VG_BOOL_CLO(arg
, "--detailed-counts", clo_detailed_counts
) {}
202 else if VG_BOOL_CLO(arg
, "--trace-mem", clo_trace_mem
) {}
203 else if VG_BOOL_CLO(arg
, "--trace-superblocks", clo_trace_sbs
) {}
207 tl_assert(clo_fnname
);
208 tl_assert(clo_fnname
[0]);
212 static void lk_print_usage(void)
215 " --basic-counts=no|yes count instructions, jumps, etc. [yes]\n"
216 " --detailed-counts=no|yes count loads, stores and alu ops [no]\n"
217 " --trace-mem=no|yes trace all loads and stores [no]\n"
218 " --trace-superblocks=no|yes trace all superblock entries [no]\n"
219 " --fnname=<name> count calls to <name> (only used if\n"
220 " --basic-count=yes) [main]\n"
224 static void lk_print_debug_usage(void)
231 /*------------------------------------------------------------*/
232 /*--- Stuff for --basic-counts ---*/
233 /*------------------------------------------------------------*/
235 /* Nb: use ULongs because the numbers can get very big */
236 static ULong n_func_calls
= 0;
237 static ULong n_SBs_entered
= 0;
238 static ULong n_SBs_completed
= 0;
239 static ULong n_IRStmts
= 0;
240 static ULong n_guest_instrs
= 0;
241 static ULong n_Jccs
= 0;
242 static ULong n_Jccs_untaken
= 0;
243 static ULong n_IJccs
= 0;
244 static ULong n_IJccs_untaken
= 0;
246 static void add_one_func_call(void)
251 static void add_one_SB_entered(void)
256 static void add_one_SB_completed(void)
261 static void add_one_IRStmt(void)
266 static void add_one_guest_instr(void)
271 static void add_one_Jcc(void)
276 static void add_one_Jcc_untaken(void)
281 static void add_one_inverted_Jcc(void)
286 static void add_one_inverted_Jcc_untaken(void)
291 /*------------------------------------------------------------*/
292 /*--- Stuff for --detailed-counts ---*/
293 /*------------------------------------------------------------*/
299 /* --- Operations --- */
301 typedef enum { OpLoad
=0, OpStore
=1, OpAlu
=2 } Op
;
310 static Int
type2index ( IRType ty
)
313 case Ity_I1
: return 0;
314 case Ity_I8
: return 1;
315 case Ity_I16
: return 2;
316 case Ity_I32
: return 3;
317 case Ity_I64
: return 4;
318 case Ity_I128
: return 5;
319 case Ity_F32
: return 6;
320 case Ity_F64
: return 7;
321 case Ity_F128
: return 8;
322 case Ity_V128
: return 9;
323 case Ity_V256
: return 10;
324 case Ity_D32
: return 11;
325 case Ity_D64
: return 12;
326 case Ity_D128
: return 13;
327 default: tl_assert(0);
331 static const HChar
* nameOfTypeIndex ( Int i
)
334 case 0: return "I1"; break;
335 case 1: return "I8"; break;
336 case 2: return "I16"; break;
337 case 3: return "I32"; break;
338 case 4: return "I64"; break;
339 case 5: return "I128"; break;
340 case 6: return "F32"; break;
341 case 7: return "F64"; break;
342 case 8: return "F128"; break;
343 case 9: return "V128"; break;
344 case 10: return "V256"; break;
345 case 11: return "D32"; break;
346 case 12: return "D64"; break;
347 case 13: return "D128"; break;
348 default: tl_assert(0);
355 static ULong detailCounts
[N_OPS
][N_TYPES
];
357 /* The helper that is called from the instrumented code. */
359 void increment_detail(ULong
* detail
)
364 /* A helper that adds the instrumentation for a detail. guard ::
365 Ity_I1 is the guarding condition for the event. If NULL it is
366 assumed to mean "always True". */
367 static void instrument_detail(IRSB
* sb
, Op op
, IRType type
, IRAtom
* guard
)
371 const UInt typeIx
= type2index(type
);
373 tl_assert(op
< N_OPS
);
374 tl_assert(typeIx
< N_TYPES
);
376 argv
= mkIRExprVec_1( mkIRExpr_HWord( (HWord
)&detailCounts
[op
][typeIx
] ) );
377 di
= unsafeIRDirty_0_N( 1, "increment_detail",
378 VG_(fnptr_to_fnentry
)( &increment_detail
),
380 if (guard
) di
->guard
= guard
;
381 addStmtToIRSB( sb
, IRStmt_Dirty(di
) );
384 /* Summarize and print the details. */
385 static void print_details ( void )
388 VG_(umsg
)(" Type Loads Stores AluOps\n");
389 VG_(umsg
)(" -------------------------------------------\n");
390 for (typeIx
= 0; typeIx
< N_TYPES
; typeIx
++) {
391 VG_(umsg
)(" %-4s %'12llu %'12llu %'12llu\n",
392 nameOfTypeIndex( typeIx
),
393 detailCounts
[OpLoad
][typeIx
],
394 detailCounts
[OpStore
][typeIx
],
395 detailCounts
[OpAlu
][typeIx
]
401 /*------------------------------------------------------------*/
402 /*--- Stuff for --trace-mem ---*/
403 /*------------------------------------------------------------*/
405 #define MAX_DSIZE 512
408 enum { Event_Ir
, Event_Dr
, Event_Dw
, Event_Dm
}
416 IRAtom
* guard
; /* :: Ity_I1, or NULL=="always True" */
420 /* Up to this many unnotified events are allowed. Must be at least two,
421 so that reads and writes to the same address can be merged into a modify.
422 Beyond that, larger numbers just potentially induce more spilling due to
423 extending live ranges of address temporaries. */
426 /* Maintain an ordered list of memory events which are outstanding, in
427 the sense that no IR has yet been generated to do the relevant
428 helper calls. The SB is scanned top to bottom and memory events
429 are added to the end of the list, merging with the most recent
430 notified event where possible (Dw immediately following Dr and
431 having the same size and EA can be merged).
433 This merging is done so that for architectures which have
434 load-op-store instructions (x86, amd64), the instr is treated as if
435 it makes just one memory reference (a modify), rather than two (a
436 read followed by a write at the same address).
438 At various points the list will need to be flushed, that is, IR
439 generated from it. That must happen before any possible exit from
440 the block (the end, or an IRStmt_Exit). Flushing also takes place
441 when there is no space to add a new event, and before entering a
442 RMW (read-modify-write) section on processors supporting LL/SC.
444 If we require the simulation statistics to be up to date with
445 respect to possible memory exceptions, then the list would have to
446 be flushed before each memory reference. That's a pain so we don't
449 Flushing the list consists of walking it start to end and emitting
450 instrumentation IR for each event, in the order in which they
453 static Event events
[N_EVENTS
];
454 static Int events_used
= 0;
457 static VG_REGPARM(2) void trace_instr(Addr addr
, SizeT size
)
459 VG_(printf
)("I %08lx,%lu\n", addr
, size
);
462 static VG_REGPARM(2) void trace_load(Addr addr
, SizeT size
)
464 VG_(printf
)(" L %08lx,%lu\n", addr
, size
);
467 static VG_REGPARM(2) void trace_store(Addr addr
, SizeT size
)
469 VG_(printf
)(" S %08lx,%lu\n", addr
, size
);
472 static VG_REGPARM(2) void trace_modify(Addr addr
, SizeT size
)
474 VG_(printf
)(" M %08lx,%lu\n", addr
, size
);
478 static void flushEvents(IRSB
* sb
)
481 const HChar
* helperName
;
487 for (i
= 0; i
< events_used
; i
++) {
491 // Decide on helper fn to call and args to pass it.
493 case Event_Ir
: helperName
= "trace_instr";
494 helperAddr
= trace_instr
; break;
496 case Event_Dr
: helperName
= "trace_load";
497 helperAddr
= trace_load
; break;
499 case Event_Dw
: helperName
= "trace_store";
500 helperAddr
= trace_store
; break;
502 case Event_Dm
: helperName
= "trace_modify";
503 helperAddr
= trace_modify
; break;
509 argv
= mkIRExprVec_2( ev
->addr
, mkIRExpr_HWord( ev
->size
) );
510 di
= unsafeIRDirty_0_N( /*regparms*/2,
511 helperName
, VG_(fnptr_to_fnentry
)( helperAddr
),
514 di
->guard
= ev
->guard
;
516 addStmtToIRSB( sb
, IRStmt_Dirty(di
) );
522 // WARNING: If you aren't interested in instruction reads, you can omit the
523 // code that adds calls to trace_instr() in flushEvents(). However, you
524 // must still call this function, addEvent_Ir() -- it is necessary to add
525 // the Ir events to the events list so that merging of paired load/store
526 // events into modify events works correctly.
527 static void addEvent_Ir ( IRSB
* sb
, IRAtom
* iaddr
, UInt isize
)
530 tl_assert(clo_trace_mem
);
531 tl_assert( (VG_MIN_INSTR_SZB
<= isize
&& isize
<= VG_MAX_INSTR_SZB
)
532 || VG_CLREQ_SZB
== isize
);
533 if (events_used
== N_EVENTS
)
535 tl_assert(events_used
>= 0 && events_used
< N_EVENTS
);
536 evt
= &events
[events_used
];
537 evt
->ekind
= Event_Ir
;
544 /* Add a guarded read event. */
546 void addEvent_Dr_guarded ( IRSB
* sb
, IRAtom
* daddr
, Int dsize
, IRAtom
* guard
)
549 tl_assert(clo_trace_mem
);
550 tl_assert(isIRAtom(daddr
));
551 tl_assert(dsize
>= 1 && dsize
<= MAX_DSIZE
);
552 if (events_used
== N_EVENTS
)
554 tl_assert(events_used
>= 0 && events_used
< N_EVENTS
);
555 evt
= &events
[events_used
];
556 evt
->ekind
= Event_Dr
;
563 /* Add an ordinary read event, by adding a guarded read event with an
564 always-true guard. */
566 void addEvent_Dr ( IRSB
* sb
, IRAtom
* daddr
, Int dsize
)
568 addEvent_Dr_guarded(sb
, daddr
, dsize
, NULL
);
571 /* Add a guarded write event. */
573 void addEvent_Dw_guarded ( IRSB
* sb
, IRAtom
* daddr
, Int dsize
, IRAtom
* guard
)
576 tl_assert(clo_trace_mem
);
577 tl_assert(isIRAtom(daddr
));
578 tl_assert(dsize
>= 1 && dsize
<= MAX_DSIZE
);
579 if (events_used
== N_EVENTS
)
581 tl_assert(events_used
>= 0 && events_used
< N_EVENTS
);
582 evt
= &events
[events_used
];
583 evt
->ekind
= Event_Dw
;
590 /* Add an ordinary write event. Try to merge it with an immediately
591 preceding ordinary read event of the same size to the same
594 void addEvent_Dw ( IRSB
* sb
, IRAtom
* daddr
, Int dsize
)
598 tl_assert(clo_trace_mem
);
599 tl_assert(isIRAtom(daddr
));
600 tl_assert(dsize
>= 1 && dsize
<= MAX_DSIZE
);
602 // Is it possible to merge this write with the preceding read?
603 lastEvt
= &events
[events_used
-1];
605 && lastEvt
->ekind
== Event_Dr
606 && lastEvt
->size
== dsize
607 && lastEvt
->guard
== NULL
608 && eqIRAtom(lastEvt
->addr
, daddr
))
610 lastEvt
->ekind
= Event_Dm
;
614 // No. Add as normal.
615 if (events_used
== N_EVENTS
)
617 tl_assert(events_used
>= 0 && events_used
< N_EVENTS
);
618 evt
= &events
[events_used
];
619 evt
->ekind
= Event_Dw
;
627 /*------------------------------------------------------------*/
628 /*--- Stuff for --trace-superblocks ---*/
629 /*------------------------------------------------------------*/
631 static void trace_superblock(Addr addr
)
633 VG_(printf
)("SB %08lx\n", addr
);
637 /*------------------------------------------------------------*/
638 /*--- Basic tool functions ---*/
639 /*------------------------------------------------------------*/
641 static void lk_post_clo_init(void)
645 if (clo_detailed_counts
) {
646 for (op
= 0; op
< N_OPS
; op
++)
647 for (tyIx
= 0; tyIx
< N_TYPES
; tyIx
++)
648 detailCounts
[op
][tyIx
] = 0;
653 IRSB
* lk_instrument ( VgCallbackClosure
* closure
,
655 const VexGuestLayout
* layout
,
656 const VexGuestExtents
* vge
,
657 const VexArchInfo
* archinfo_host
,
658 IRType gWordTy
, IRType hWordTy
)
663 IRTypeEnv
* tyenv
= sbIn
->tyenv
;
666 Bool condition_inverted
= False
;
668 if (gWordTy
!= hWordTy
) {
669 /* We don't currently support this case. */
670 VG_(tool_panic
)("host/guest word size mismatch");
674 sbOut
= deepCopyIRSBExceptStmts(sbIn
);
676 // Copy verbatim any IR preamble preceding the first IMark
678 while (i
< sbIn
->stmts_used
&& sbIn
->stmts
[i
]->tag
!= Ist_IMark
) {
679 addStmtToIRSB( sbOut
, sbIn
->stmts
[i
] );
683 if (clo_basic_counts
) {
684 /* Count this superblock. */
685 di
= unsafeIRDirty_0_N( 0, "add_one_SB_entered",
686 VG_(fnptr_to_fnentry
)( &add_one_SB_entered
),
688 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
692 /* Print this superblock's address. */
693 di
= unsafeIRDirty_0_N(
694 0, "trace_superblock",
695 VG_(fnptr_to_fnentry
)( &trace_superblock
),
696 mkIRExprVec_1( mkIRExpr_HWord( vge
->base
[0] ) )
698 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
705 for (/*use current i*/; i
< sbIn
->stmts_used
; i
++) {
706 IRStmt
* st
= sbIn
->stmts
[i
];
707 if (!st
|| st
->tag
== Ist_NoOp
) continue;
709 if (clo_basic_counts
) {
710 /* Count one VEX statement. */
711 di
= unsafeIRDirty_0_N( 0, "add_one_IRStmt",
712 VG_(fnptr_to_fnentry
)( &add_one_IRStmt
),
714 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
723 addStmtToIRSB( sbOut
, st
);
727 if (clo_basic_counts
) {
728 /* Needed to be able to check for inverted condition in Ist_Exit */
729 iaddr
= st
->Ist
.IMark
.addr
;
730 ilen
= st
->Ist
.IMark
.len
;
732 /* Count guest instruction. */
733 di
= unsafeIRDirty_0_N( 0, "add_one_guest_instr",
734 VG_(fnptr_to_fnentry
)( &add_one_guest_instr
),
736 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
738 /* An unconditional branch to a known destination in the
739 * guest's instructions can be represented, in the IRSB to
740 * instrument, by the VEX statements that are the
741 * translation of that known destination. This feature is
742 * called 'SB chasing' and can be influenced by command
743 * line option --vex-guest-chase-thresh.
745 * To get an accurate count of the calls to a specific
746 * function, taking SB chasing into account, we need to
747 * check for each guest instruction (Ist_IMark) if it is
748 * the entry point of a function.
750 tl_assert(clo_fnname
);
751 tl_assert(clo_fnname
[0]);
753 if (VG_(get_fnname_if_entry
)(st
->Ist
.IMark
.addr
,
755 && 0 == VG_(strcmp
)(fnname
, clo_fnname
)) {
756 di
= unsafeIRDirty_0_N(
757 0, "add_one_func_call",
758 VG_(fnptr_to_fnentry
)( &add_one_func_call
),
760 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
764 // WARNING: do not remove this function call, even if you
765 // aren't interested in instruction reads. See the comment
766 // above the function itself for more detail.
767 addEvent_Ir( sbOut
, mkIRExpr_HWord( (HWord
)st
->Ist
.IMark
.addr
),
770 addStmtToIRSB( sbOut
, st
);
774 // Add a call to trace_load() if --trace-mem=yes.
776 IRExpr
* data
= st
->Ist
.WrTmp
.data
;
777 if (data
->tag
== Iex_Load
) {
778 addEvent_Dr( sbOut
, data
->Iex
.Load
.addr
,
779 sizeofIRType(data
->Iex
.Load
.ty
) );
782 if (clo_detailed_counts
) {
783 IRExpr
* expr
= st
->Ist
.WrTmp
.data
;
784 IRType type
= typeOfIRExpr(sbOut
->tyenv
, expr
);
785 tl_assert(type
!= Ity_INVALID
);
788 instrument_detail( sbOut
, OpLoad
, type
, NULL
/*guard*/ );
795 instrument_detail( sbOut
, OpAlu
, type
, NULL
/*guard*/ );
801 addStmtToIRSB( sbOut
, st
);
805 IRExpr
* data
= st
->Ist
.Store
.data
;
806 IRType type
= typeOfIRExpr(tyenv
, data
);
807 tl_assert(type
!= Ity_INVALID
);
809 addEvent_Dw( sbOut
, st
->Ist
.Store
.addr
,
810 sizeofIRType(type
) );
812 if (clo_detailed_counts
) {
813 instrument_detail( sbOut
, OpStore
, type
, NULL
/*guard*/ );
815 addStmtToIRSB( sbOut
, st
);
820 IRStoreG
* sg
= st
->Ist
.StoreG
.details
;
821 IRExpr
* data
= sg
->data
;
822 IRType type
= typeOfIRExpr(tyenv
, data
);
823 tl_assert(type
!= Ity_INVALID
);
825 addEvent_Dw_guarded( sbOut
, sg
->addr
,
826 sizeofIRType(type
), sg
->guard
);
828 if (clo_detailed_counts
) {
829 instrument_detail( sbOut
, OpStore
, type
, sg
->guard
);
831 addStmtToIRSB( sbOut
, st
);
836 IRLoadG
* lg
= st
->Ist
.LoadG
.details
;
837 IRType type
= Ity_INVALID
; /* loaded type */
838 IRType typeWide
= Ity_INVALID
; /* after implicit widening */
839 typeOfIRLoadGOp(lg
->cvt
, &typeWide
, &type
);
840 tl_assert(type
!= Ity_INVALID
);
842 addEvent_Dr_guarded( sbOut
, lg
->addr
,
843 sizeofIRType(type
), lg
->guard
);
845 if (clo_detailed_counts
) {
846 instrument_detail( sbOut
, OpLoad
, type
, lg
->guard
);
848 addStmtToIRSB( sbOut
, st
);
855 IRDirty
* d
= st
->Ist
.Dirty
.details
;
856 if (d
->mFx
!= Ifx_None
) {
857 // This dirty helper accesses memory. Collect the details.
858 tl_assert(d
->mAddr
!= NULL
);
859 tl_assert(d
->mSize
!= 0);
861 if (d
->mFx
== Ifx_Read
|| d
->mFx
== Ifx_Modify
)
862 addEvent_Dr( sbOut
, d
->mAddr
, dsize
);
863 if (d
->mFx
== Ifx_Write
|| d
->mFx
== Ifx_Modify
)
864 addEvent_Dw( sbOut
, d
->mAddr
, dsize
);
866 tl_assert(d
->mAddr
== NULL
);
867 tl_assert(d
->mSize
== 0);
870 addStmtToIRSB( sbOut
, st
);
875 /* We treat it as a read and a write of the location. I
876 think that is the same behaviour as it was before IRCAS
877 was introduced, since prior to that point, the Vex
878 front ends would translate a lock-prefixed instruction
879 into a (normal) read followed by a (normal) write. */
882 IRCAS
* cas
= st
->Ist
.CAS
.details
;
883 tl_assert(cas
->addr
!= NULL
);
884 tl_assert(cas
->dataLo
!= NULL
);
885 dataTy
= typeOfIRExpr(tyenv
, cas
->dataLo
);
886 dataSize
= sizeofIRType(dataTy
);
887 if (cas
->dataHi
!= NULL
)
888 dataSize
*= 2; /* since it's a doubleword-CAS */
890 addEvent_Dr( sbOut
, cas
->addr
, dataSize
);
891 addEvent_Dw( sbOut
, cas
->addr
, dataSize
);
893 if (clo_detailed_counts
) {
894 instrument_detail( sbOut
, OpLoad
, dataTy
, NULL
/*guard*/ );
895 if (cas
->dataHi
!= NULL
) /* dcas */
896 instrument_detail( sbOut
, OpLoad
, dataTy
, NULL
/*guard*/ );
897 instrument_detail( sbOut
, OpStore
, dataTy
, NULL
/*guard*/ );
898 if (cas
->dataHi
!= NULL
) /* dcas */
899 instrument_detail( sbOut
, OpStore
, dataTy
, NULL
/*guard*/ );
901 addStmtToIRSB( sbOut
, st
);
907 if (st
->Ist
.LLSC
.storedata
== NULL
) {
909 dataTy
= typeOfIRTemp(tyenv
, st
->Ist
.LLSC
.result
);
911 addEvent_Dr( sbOut
, st
->Ist
.LLSC
.addr
,
912 sizeofIRType(dataTy
) );
913 /* flush events before LL, helps SC to succeed */
916 if (clo_detailed_counts
)
917 instrument_detail( sbOut
, OpLoad
, dataTy
, NULL
/*guard*/ );
920 dataTy
= typeOfIRExpr(tyenv
, st
->Ist
.LLSC
.storedata
);
922 addEvent_Dw( sbOut
, st
->Ist
.LLSC
.addr
,
923 sizeofIRType(dataTy
) );
924 if (clo_detailed_counts
)
925 instrument_detail( sbOut
, OpStore
, dataTy
, NULL
/*guard*/ );
927 addStmtToIRSB( sbOut
, st
);
932 if (clo_basic_counts
) {
933 // The condition of a branch was inverted by VEX if a taken
934 // branch is in fact a fall trough according to client address
935 tl_assert(iaddr
!= 0);
936 dst
= (sizeof(Addr
) == 4) ? st
->Ist
.Exit
.dst
->Ico
.U32
:
937 st
->Ist
.Exit
.dst
->Ico
.U64
;
938 condition_inverted
= (dst
== iaddr
+ ilen
);
941 if (!condition_inverted
)
942 di
= unsafeIRDirty_0_N( 0, "add_one_Jcc",
943 VG_(fnptr_to_fnentry
)( &add_one_Jcc
),
946 di
= unsafeIRDirty_0_N( 0, "add_one_inverted_Jcc",
947 VG_(fnptr_to_fnentry
)(
948 &add_one_inverted_Jcc
),
951 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
957 addStmtToIRSB( sbOut
, st
); // Original statement
959 if (clo_basic_counts
) {
960 /* Count non-taken Jcc */
961 if (!condition_inverted
)
962 di
= unsafeIRDirty_0_N( 0, "add_one_Jcc_untaken",
963 VG_(fnptr_to_fnentry
)(
964 &add_one_Jcc_untaken
),
967 di
= unsafeIRDirty_0_N( 0, "add_one_inverted_Jcc_untaken",
968 VG_(fnptr_to_fnentry
)(
969 &add_one_inverted_Jcc_untaken
),
972 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
982 if (clo_basic_counts
) {
983 /* Count this basic block. */
984 di
= unsafeIRDirty_0_N( 0, "add_one_SB_completed",
985 VG_(fnptr_to_fnentry
)( &add_one_SB_completed
),
987 addStmtToIRSB( sbOut
, IRStmt_Dirty(di
) );
991 /* At the end of the sbIn. Flush outstandings. */
998 static void lk_fini(Int exitcode
)
1000 tl_assert(clo_fnname
);
1001 tl_assert(clo_fnname
[0]);
1003 if (clo_basic_counts
) {
1004 ULong total_Jccs
= n_Jccs
+ n_IJccs
;
1005 ULong taken_Jccs
= (n_Jccs
- n_Jccs_untaken
) + n_IJccs_untaken
;
1007 VG_(umsg
)("Counted %'llu call%s to %s()\n",
1008 n_func_calls
, ( n_func_calls
==1 ? "" : "s" ), clo_fnname
);
1011 VG_(umsg
)("Jccs:\n");
1012 VG_(umsg
)(" total: %'llu\n", total_Jccs
);
1013 VG_(umsg
)(" taken: %'llu (%.0f%%)\n",
1014 taken_Jccs
, taken_Jccs
* 100.0 / total_Jccs
?: 1);
1017 VG_(umsg
)("Executed:\n");
1018 VG_(umsg
)(" SBs entered: %'llu\n", n_SBs_entered
);
1019 VG_(umsg
)(" SBs completed: %'llu\n", n_SBs_completed
);
1020 VG_(umsg
)(" guest instrs: %'llu\n", n_guest_instrs
);
1021 VG_(umsg
)(" IRStmts: %'llu\n", n_IRStmts
);
1024 VG_(umsg
)("Ratios:\n");
1025 tl_assert(n_SBs_entered
); // Paranoia time.
1026 VG_(umsg
)(" guest instrs : SB entered = %'llu : 10\n",
1027 10 * n_guest_instrs
/ n_SBs_entered
);
1028 VG_(umsg
)(" IRStmts : SB entered = %'llu : 10\n",
1029 10 * n_IRStmts
/ n_SBs_entered
);
1030 tl_assert(n_guest_instrs
); // Paranoia time.
1031 VG_(umsg
)(" IRStmts : guest instr = %'llu : 10\n",
1032 10 * n_IRStmts
/ n_guest_instrs
);
1035 if (clo_detailed_counts
) {
1037 VG_(umsg
)("IR-level counts by type:\n");
1041 if (clo_basic_counts
) {
1043 VG_(umsg
)("Exit code: %d\n", exitcode
);
1047 static void lk_pre_clo_init(void)
1049 VG_(details_name
) ("Lackey");
1050 VG_(details_version
) (NULL
);
1051 VG_(details_description
) ("an example Valgrind tool");
1052 VG_(details_copyright_author
)(
1053 "Copyright (C) 2002-2013, and GNU GPL'd, by Nicholas Nethercote.");
1054 VG_(details_bug_reports_to
) (VG_BUGS_TO
);
1055 VG_(details_avg_translation_sizeB
) ( 200 );
1057 VG_(basic_tool_funcs
) (lk_post_clo_init
,
1060 VG_(needs_command_line_options
)(lk_process_cmd_line_option
,
1062 lk_print_debug_usage
);
1065 VG_DETERMINE_INTERFACE_VERSION(lk_pre_clo_init
)
1067 /*--------------------------------------------------------------------*/
1068 /*--- end lk_main.c ---*/
1069 /*--------------------------------------------------------------------*/