1/*--------------------------------------------------------------------*/ 2/*--- Callgrind data structures, functions. global.h ---*/ 3/*--------------------------------------------------------------------*/ 4 5/* 6 This file is part of Valgrind, a dynamic binary instrumentation 7 framework. 8 9 Copyright (C) 2004-2014 Josef Weidendorfer 10 josef.weidendorfer@gmx.de 11 12 This program is free software; you can redistribute it and/or 13 modify it under the terms of the GNU General Public License as 14 published by the Free Software Foundation; either version 2 of the 15 License, or (at your option) any later version. 16 17 This program is distributed in the hope that it will be useful, but 18 WITHOUT ANY WARRANTY; without even the implied warranty of 19 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 20 General Public License for more details. 21 22 You should have received a copy of the GNU General Public License 23 along with this program; if not, write to the Free Software 24 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 25 02111-1307, USA. 26 27 The GNU General Public License is contained in the file COPYING. 28*/ 29 30#ifndef CLG_GLOBAL 31#define CLG_GLOBAL 32 33#include "pub_tool_basics.h" 34#include "pub_tool_vki.h" 35#include "pub_tool_debuginfo.h" 36#include "pub_tool_libcbase.h" 37#include "pub_tool_libcassert.h" 38#include "pub_tool_libcfile.h" 39#include "pub_tool_libcprint.h" 40#include "pub_tool_libcproc.h" 41#include "pub_tool_machine.h" 42#include "pub_tool_mallocfree.h" 43#include "pub_tool_options.h" 44#include "pub_tool_tooliface.h" 45#include "pub_tool_xarray.h" 46#include "pub_tool_clientstate.h" 47#include "pub_tool_machine.h" // VG_(fnptr_to_fnentry) 48 49#include "events.h" // defines CLG_ macro 50#include "costs.h" 51 52 53/*------------------------------------------------------------*/ 54/*--- Callgrind compile options --- */ 55/*------------------------------------------------------------*/ 56 57/* Enable debug output */ 58#define CLG_ENABLE_DEBUG 1 59 60/* Enable experimental features? */ 61#define CLG_EXPERIMENTAL 0 62 63/* Syscall Timing in microseconds? 64 * (define to 0 if you get compile errors) */ 65#define CLG_MICROSYSTIME 0 66 67 68 69/*------------------------------------------------------------*/ 70/*--- Command line options ---*/ 71/*------------------------------------------------------------*/ 72 73#define DEFAULT_OUTFORMAT "callgrind.out.%p" 74 75typedef struct _CommandLineOptions CommandLineOptions; 76struct _CommandLineOptions { 77 78 /* Dump format options */ 79 const HChar* out_format; /* Format string for callgrind output file name */ 80 Bool combine_dumps; /* Dump trace parts into same file? */ 81 Bool compress_strings; 82 Bool compress_events; 83 Bool compress_pos; 84 Bool mangle_names; 85 Bool compress_mangled; 86 Bool dump_line; 87 Bool dump_instr; 88 Bool dump_bb; 89 Bool dump_bbs; /* Dump basic block information? */ 90 91 /* Dump generation options */ 92 ULong dump_every_bb; /* Dump every xxx BBs. */ 93 94 /* Collection options */ 95 Bool separate_threads; /* Separate threads in dump? */ 96 Int separate_callers; /* Separate dependent on how many callers? */ 97 Int separate_recursions; /* Max level of recursions to separate */ 98 Bool skip_plt; /* Skip functions in PLT section? */ 99 Bool skip_direct_recursion; /* Increment direct recursions the level? */ 100 101 Bool collect_atstart; /* Start in collecting state ? */ 102 Bool collect_jumps; /* Collect (cond.) jumps in functions ? */ 103 104 Bool collect_alloc; /* Collect size of allocated memory */ 105 Bool collect_systime; /* Collect time for system calls */ 106 107 Bool collect_bus; /* Collect global bus events */ 108 109 /* Instrument options */ 110 Bool instrument_atstart; /* Instrument at start? */ 111 Bool simulate_cache; /* Call into cache simulator ? */ 112 Bool simulate_branch; /* Call into branch prediction simulator ? */ 113 114 /* Call graph generation */ 115 Bool pop_on_jump; /* Handle a jump between functions as ret+call */ 116 117#if CLG_ENABLE_DEBUG 118 Int verbose; 119 ULong verbose_start; 120#endif 121}; 122 123/*------------------------------------------------------------*/ 124/*--- Constants ---*/ 125/*------------------------------------------------------------*/ 126 127/* Minimum cache line size allowed */ 128#define MIN_LINE_SIZE 16 129 130 131/*------------------------------------------------------------*/ 132/*--- Statistics ---*/ 133/*------------------------------------------------------------*/ 134 135typedef struct _Statistics Statistics; 136struct _Statistics { 137 ULong call_counter; 138 ULong jcnd_counter; 139 ULong jump_counter; 140 ULong rec_call_counter; 141 ULong ret_counter; 142 ULong bb_executions; 143 144 Int context_counter; 145 Int bb_retranslations; 146 147 Int distinct_objs; 148 Int distinct_files; 149 Int distinct_fns; 150 Int distinct_contexts; 151 Int distinct_bbs; 152 Int distinct_jccs; 153 Int distinct_bbccs; 154 Int distinct_instrs; 155 Int distinct_skips; 156 157 Int bb_hash_resizes; 158 Int bbcc_hash_resizes; 159 Int jcc_hash_resizes; 160 Int cxt_hash_resizes; 161 Int fn_array_resizes; 162 Int call_stack_resizes; 163 Int fn_stack_resizes; 164 165 Int full_debug_BBs; 166 Int file_line_debug_BBs; 167 Int fn_name_debug_BBs; 168 Int no_debug_BBs; 169 Int bbcc_lru_misses; 170 Int jcc_lru_misses; 171 Int cxt_lru_misses; 172 Int bbcc_clones; 173}; 174 175 176/*------------------------------------------------------------*/ 177/*--- Structure declarations ---*/ 178/*------------------------------------------------------------*/ 179 180typedef struct _Context Context; 181typedef struct _CC CC; 182typedef struct _BB BB; 183typedef struct _BBCC BBCC; 184typedef struct _jCC jCC; 185typedef struct _fCC fCC; 186typedef struct _fn_node fn_node; 187typedef struct _file_node file_node; 188typedef struct _obj_node obj_node; 189typedef struct _fn_config fn_config; 190typedef struct _call_entry call_entry; 191typedef struct _thread_info thread_info; 192 193/* Costs of event sets. Aliases to arrays of 64-bit values */ 194typedef ULong* SimCost; /* All events the simulator can produce */ 195typedef ULong* UserCost; 196typedef ULong* FullCost; /* Simulator + User */ 197 198 199/* The types of control flow changes that can happen between 200 * execution of two BBs in a thread. 201 */ 202typedef enum { 203 jk_None = 0, /* no explicit change by a guest instruction */ 204 jk_Jump, /* regular jump */ 205 jk_Call, 206 jk_Return, 207 jk_CondJump /* conditional jump taken (only used as jCC type) */ 208} ClgJumpKind; 209 210 211/* JmpCall cost center 212 * for subroutine call (from->bb->jmp_addr => to->bb->addr) 213 * 214 * Each BB has at most one CALL instruction. The list of JCC from 215 * this call is a pointer to the list head (stored in BBCC), and 216 * <next_from> in the JCC struct. 217 * 218 * For fast lookup, JCCs are reachable with a hash table, keyed by 219 * the (from_bbcc,to) pair. <next_hash> is used for the JCC chain 220 * of one hash table entry. 221 * 222 * Cost <sum> holds event counts for already returned executions. 223 * <last> are the event counters at last enter of the subroutine. 224 * <sum> is updated on returning from the subroutine by 225 * adding the diff of <last> and current event counters to <sum>. 226 * 227 * After updating, <last> is set to current event counters. Thus, 228 * events are not counted twice for recursive calls (TODO: True?) 229 */ 230 231struct _jCC { 232 ClgJumpKind jmpkind; /* jk_Call, jk_Jump, jk_CondJump */ 233 jCC* next_hash; /* for hash entry chain */ 234 jCC* next_from; /* next JCC from a BBCC */ 235 BBCC *from, *to; /* call arc from/to this BBCC */ 236 UInt jmp; /* jump no. in source */ 237 238 ULong call_counter; /* no wraparound with 64 bit */ 239 240 FullCost cost; /* simulator + user counters */ 241}; 242 243 244/* 245 * Info for one instruction of a basic block. 246 */ 247typedef struct _InstrInfo InstrInfo; 248struct _InstrInfo { 249 UInt instr_offset; 250 UInt instr_size; 251 UInt cost_offset; 252 EventSet* eventset; 253}; 254 255 256 257/* 258 * Info for a side exit in a BB 259 */ 260typedef struct _CJmpInfo CJmpInfo; 261struct _CJmpInfo { 262 UInt instr; /* instruction index for BB.instr array */ 263 ClgJumpKind jmpkind; /* jump kind when leaving BB at this side exit */ 264}; 265 266 267/** 268 * An instrumented basic block (BB). 269 * 270 * BBs are put into a resizable hash to allow for fast detection if a 271 * BB is to be retranslated but cost info is already available. 272 * The key for a BB is a (object, offset) tupel making it independent 273 * from possibly multiple mappings of the same ELF object. 274 * 275 * At the beginning of each instrumented BB, 276 * a call to setup_bbcc(), specifying a pointer to the 277 * according BB structure, is added. 278 * 279 * As cost of a BB has to be distinguished depending on the context, 280 * multiple cost centers for one BB (struct BBCC) exist and the according 281 * BBCC is set by setup_bbcc. 282 */ 283struct _BB { 284 obj_node* obj; /* ELF object of BB */ 285 PtrdiffT offset; /* offset of BB in ELF object file */ 286 BB* next; /* chaining for a hash entry */ 287 288 VgSectKind sect_kind; /* section of this BB, e.g. PLT */ 289 UInt instr_count; 290 291 /* filled by CLG_(get_fn_node) if debug info is available */ 292 fn_node* fn; /* debug info for this BB */ 293 UInt line; 294 Bool is_entry; /* True if this BB is a function entry */ 295 296 BBCC* bbcc_list; /* BBCCs for same BB (see next_bbcc in BBCC) */ 297 BBCC* last_bbcc; /* Temporary: Cached for faster access (LRU) */ 298 299 /* filled by CLG_(instrument) if not seen before */ 300 UInt cjmp_count; /* number of side exits */ 301 CJmpInfo* jmp; /* array of info for condition jumps, 302 * allocated directly after this struct */ 303 Bool cjmp_inverted; /* is last side exit actually fall through? */ 304 305 UInt instr_len; 306 UInt cost_count; 307 InstrInfo instr[0]; /* info on instruction sizes and costs */ 308}; 309 310 311 312/** 313 * Function context 314 * 315 * Basic blocks are always executed in the scope of a context. 316 * A function context is a list of function nodes representing 317 * the call chain to the current context: I.e. fn[0] is the 318 * function we are currently in, fn[1] has called fn[0], and so on. 319 * Recursion levels are used for fn[0]. 320 * 321 * To get a unique number for a full execution context, use 322 * rec_index = min(<fn->rec_separation>,<active>) - 1; 323 * unique_no = <number> + rec_index 324 * 325 * For each Context, recursion index and BB, there can be a BBCC. 326 */ 327struct _Context { 328 UInt size; // number of function dependencies 329 UInt base_number; // for context compression & dump array 330 Context* next; // entry chaining for hash 331 UWord hash; // for faster lookup... 332 fn_node* fn[0]; 333}; 334 335 336/* 337 * Cost info for a side exits from a BB 338 */ 339typedef struct _JmpData JmpData; 340struct _JmpData { 341 ULong ecounter; /* number of times the BB was left at this exit */ 342 jCC* jcc_list; /* JCCs used for this exit */ 343}; 344 345 346/* 347 * Basic Block Cost Center 348 * 349 * On demand, multiple BBCCs will be created for the same BB 350 * dependend on command line options and: 351 * - current function (it's possible that a BB is executed in the 352 * context of different functions, e.g. in manual assembler/PLT) 353 * - current thread ID 354 * - position where current function is called from 355 * - recursion level of current function 356 * 357 * The cost centres for the instructions of a basic block are 358 * stored in a contiguous array. 359 * They are distinguishable by their tag field. 360 */ 361struct _BBCC { 362 BB* bb; /* BB for this cost center */ 363 364 Context* cxt; /* execution context of this BBCC */ 365 ThreadId tid; /* only for assertion check purpose */ 366 UInt rec_index; /* Recursion index in rec->bbcc for this bbcc */ 367 BBCC** rec_array; /* Variable sized array of pointers to 368 * recursion BBCCs. Shared. */ 369 ULong ret_counter; /* how often returned from jccs of this bbcc; 370 * used to check if a dump for this BBCC is needed */ 371 372 BBCC* next_bbcc; /* Chain of BBCCs for same BB */ 373 BBCC* lru_next_bbcc; /* BBCC executed next the last time */ 374 375 jCC* lru_from_jcc; /* Temporary: Cached for faster access (LRU) */ 376 jCC* lru_to_jcc; /* Temporary: Cached for faster access (LRU) */ 377 FullCost skipped; /* cost for skipped functions called from 378 * jmp_addr. Allocated lazy */ 379 380 BBCC* next; /* entry chain in hash */ 381 ULong* cost; /* start of 64bit costs for this BBCC */ 382 ULong ecounter_sum; /* execution counter for first instruction of BB */ 383 JmpData jmp[0]; 384}; 385 386 387/* the <number> of fn_node, file_node and obj_node are for compressed dumping 388 * and a index into the dump boolean table and fn_info_table 389 */ 390 391struct _fn_node { 392 HChar* name; 393 UInt number; 394 Context* last_cxt; /* LRU info */ 395 Context* pure_cxt; /* the context with only the function itself */ 396 file_node* file; /* reverse mapping for 2nd hash */ 397 fn_node* next; 398 399 Bool dump_before :1; 400 Bool dump_after :1; 401 Bool zero_before :1; 402 Bool toggle_collect :1; 403 Bool skip :1; 404 Bool pop_on_jump : 1; 405 406 Bool is_malloc :1; 407 Bool is_realloc :1; 408 Bool is_free :1; 409 410 Int group; 411 Int separate_callers; 412 Int separate_recursions; 413#if CLG_ENABLE_DEBUG 414 Int verbosity; /* Stores old verbosity level while in function */ 415#endif 416}; 417 418/* Quite arbitrary fixed hash sizes */ 419 420#define N_OBJ_ENTRIES 47 421#define N_FILE_ENTRIES 53 422#define N_FN_ENTRIES 87 423 424struct _file_node { 425 HChar* name; 426 fn_node* fns[N_FN_ENTRIES]; 427 UInt number; 428 obj_node* obj; 429 file_node* next; 430}; 431 432/* If an object is dlopened multiple times, we hope that <name> is unique; 433 * <start> and <offset> can change with each dlopen, and <start> is 434 * zero when object is unmapped (possible at dump time). 435 */ 436struct _obj_node { 437 const HChar* name; 438 UInt last_slash_pos; 439 440 Addr start; /* Start address of text segment mapping */ 441 SizeT size; /* Length of mapping */ 442 PtrdiffT offset; /* Offset between symbol address and file offset */ 443 444 file_node* files[N_FILE_ENTRIES]; 445 UInt number; 446 obj_node* next; 447}; 448 449/* an entry in the callstack 450 * 451 * <nonskipped> is 0 if the function called is not skipped (usual case). 452 * Otherwise, it is the last non-skipped BBCC. This one gets all 453 * the calls to non-skipped functions and all costs in skipped 454 * instructions. 455 */ 456struct _call_entry { 457 jCC* jcc; /* jCC for this call */ 458 FullCost enter_cost; /* cost event counters at entering frame */ 459 Addr sp; /* stack pointer directly after call */ 460 Addr ret_addr; /* address to which to return to 461 * is 0 on a simulated call */ 462 BBCC* nonskipped; /* see above */ 463 Context* cxt; /* context before call */ 464 Int fn_sp; /* function stack index before call */ 465}; 466 467 468/* 469 * Execution state of main thread or a running signal handler in 470 * a thread while interrupted by another signal handler. 471 * As there's no scheduling among running signal handlers of one thread, 472 * we only need a subset of a full thread state: 473 * - event counter 474 * - collect state 475 * - last BB, last jump kind, last nonskipped BB 476 * - callstack pointer for sanity checking and correct unwinding 477 * after exit 478 */ 479typedef struct _exec_state exec_state; 480struct _exec_state { 481 482 /* the signum of the handler, 0 for main thread context 483 */ 484 Int sig; 485 486 /* the old call stack pointer at entering the signal handler */ 487 Int orig_sp; 488 489 FullCost cost; 490 Bool collect; 491 Context* cxt; 492 493 /* number of conditional jumps passed in last BB */ 494 Int jmps_passed; 495 BBCC* bbcc; /* last BB executed */ 496 BBCC* nonskipped; 497 498 Int call_stack_bottom; /* Index into fn_stack */ 499}; 500 501/* Global state structures */ 502typedef struct _bb_hash bb_hash; 503struct _bb_hash { 504 UInt size, entries; 505 BB** table; 506}; 507 508typedef struct _cxt_hash cxt_hash; 509struct _cxt_hash { 510 UInt size, entries; 511 Context** table; 512}; 513 514/* Thread specific state structures, i.e. parts of a thread state. 515 * There are variables for the current state of each part, 516 * on which a thread state is copied at thread switch. 517 */ 518typedef struct _bbcc_hash bbcc_hash; 519struct _bbcc_hash { 520 UInt size, entries; 521 BBCC** table; 522}; 523 524typedef struct _jcc_hash jcc_hash; 525struct _jcc_hash { 526 UInt size, entries; 527 jCC** table; 528 jCC* spontaneous; 529}; 530 531typedef struct _fn_array fn_array; 532struct _fn_array { 533 UInt size; 534 UInt* array; 535}; 536 537typedef struct _call_stack call_stack; 538struct _call_stack { 539 UInt size; 540 Int sp; 541 call_entry* entry; 542}; 543 544typedef struct _fn_stack fn_stack; 545struct _fn_stack { 546 UInt size; 547 fn_node **bottom, **top; 548}; 549 550/* The maximum number of simultaneous running signal handlers per thread. 551 * This is the number of execution states storable in a thread. 552 */ 553#define MAX_SIGHANDLERS 10 554 555typedef struct _exec_stack exec_stack; 556struct _exec_stack { 557 Int sp; /* > 0 if a handler is running */ 558 exec_state* entry[MAX_SIGHANDLERS]; 559}; 560 561/* Thread State 562 * 563 * This structure stores thread specific info while a thread is *not* 564 * running. See function switch_thread() for save/restore on thread switch. 565 * 566 * If --separate-threads=no, BBCCs and JCCs can be shared by all threads, i.e. 567 * only structures of thread 1 are used. 568 * This involves variables fn_info_table, bbcc_table and jcc_table. 569 */ 570struct _thread_info { 571 572 /* state */ 573 fn_stack fns; /* function stack */ 574 call_stack calls; /* context call arc stack */ 575 exec_stack states; /* execution states interrupted by signals */ 576 577 /* dump statistics */ 578 FullCost lastdump_cost; /* Cost at last dump */ 579 FullCost sighandler_cost; 580 581 /* thread specific data structure containers */ 582 fn_array fn_active; 583 jcc_hash jccs; 584 bbcc_hash bbccs; 585}; 586 587/* Structs used for dumping */ 588 589/* Address position inside of a BBCC: 590 * This includes 591 * - the address offset from the BB start address 592 * - file/line from debug info for that address (can change inside a BB) 593 */ 594typedef struct _AddrPos AddrPos; 595struct _AddrPos { 596 Addr addr; 597 Addr bb_addr; 598 file_node* file; 599 UInt line; 600}; 601 602/* a simulator cost entity that can be written out in one line */ 603typedef struct _AddrCost AddrCost; 604struct _AddrCost { 605 AddrPos p; 606 SimCost cost; 607}; 608 609/* A function in an execution context */ 610typedef struct _FnPos FnPos; 611struct _FnPos { 612 file_node* file; 613 fn_node* fn; 614 obj_node* obj; 615 Context* cxt; 616 int rec_index; 617 UInt line; 618}; 619 620/*------------------------------------------------------------*/ 621/*--- Cache simulator interface ---*/ 622/*------------------------------------------------------------*/ 623 624struct cachesim_if 625{ 626 void (*print_opts)(void); 627 Bool (*parse_opt)(const HChar* arg); 628 void (*post_clo_init)(void); 629 void (*clear)(void); 630 void (*dump_desc)(VgFile *fp); 631 void (*printstat)(Int,Int,Int); 632 void (*add_icost)(SimCost, BBCC*, InstrInfo*, ULong); 633 void (*finish)(void); 634 635 void (*log_1I0D)(InstrInfo*) VG_REGPARM(1); 636 void (*log_2I0D)(InstrInfo*, InstrInfo*) VG_REGPARM(2); 637 void (*log_3I0D)(InstrInfo*, InstrInfo*, InstrInfo*) VG_REGPARM(3); 638 639 void (*log_1I1Dr)(InstrInfo*, Addr, Word) VG_REGPARM(3); 640 void (*log_1I1Dw)(InstrInfo*, Addr, Word) VG_REGPARM(3); 641 642 void (*log_0I1Dr)(InstrInfo*, Addr, Word) VG_REGPARM(3); 643 void (*log_0I1Dw)(InstrInfo*, Addr, Word) VG_REGPARM(3); 644 645 // function names of helpers (for debugging generated code) 646 const HChar *log_1I0D_name, *log_2I0D_name, *log_3I0D_name; 647 const HChar *log_1I1Dr_name, *log_1I1Dw_name; 648 const HChar *log_0I1Dr_name, *log_0I1Dw_name; 649}; 650 651// Event groups 652#define EG_USE 0 653#define EG_IR 1 654#define EG_DR 2 655#define EG_DW 3 656#define EG_BC 4 657#define EG_BI 5 658#define EG_BUS 6 659#define EG_ALLOC 7 660#define EG_SYS 8 661 662struct event_sets { 663 EventSet *base, *full; 664}; 665 666#define fullOffset(group) (CLG_(sets).full->offset[group]) 667 668 669/*------------------------------------------------------------*/ 670/*--- Functions ---*/ 671/*------------------------------------------------------------*/ 672 673/* from clo.c */ 674 675void CLG_(set_clo_defaults)(void); 676void CLG_(update_fn_config)(fn_node*); 677Bool CLG_(process_cmd_line_option)(const HChar*); 678void CLG_(print_usage)(void); 679void CLG_(print_debug_usage)(void); 680 681/* from sim.c */ 682void CLG_(init_eventsets)(void); 683 684/* from main.c */ 685Bool CLG_(get_debug_info)(Addr, const HChar **dirname, 686 const HChar **filename, 687 const HChar **fn_name, UInt*, DebugInfo**); 688void CLG_(collectBlockInfo)(IRSB* bbIn, UInt*, UInt*, Bool*); 689void CLG_(set_instrument_state)(const HChar*,Bool); 690void CLG_(dump_profile)(const HChar* trigger,Bool only_current_thread); 691void CLG_(zero_all_cost)(Bool only_current_thread); 692Int CLG_(get_dump_counter)(void); 693void CLG_(fini)(Int exitcode); 694 695/* from bb.c */ 696void CLG_(init_bb_hash)(void); 697bb_hash* CLG_(get_bb_hash)(void); 698BB* CLG_(get_bb)(Addr addr, IRSB* bb_in, Bool *seen_before); 699void CLG_(delete_bb)(Addr addr); 700 701static __inline__ Addr bb_addr(BB* bb) 702 { return bb->offset + bb->obj->offset; } 703static __inline__ Addr bb_jmpaddr(BB* bb) 704 { UInt off = (bb->instr_count > 0) ? bb->instr[bb->instr_count-1].instr_offset : 0; 705 return off + bb->offset + bb->obj->offset; } 706 707/* from fn.c */ 708void CLG_(init_fn_array)(fn_array*); 709void CLG_(copy_current_fn_array)(fn_array* dst); 710fn_array* CLG_(get_current_fn_array)(void); 711void CLG_(set_current_fn_array)(fn_array*); 712UInt* CLG_(get_fn_entry)(Int n); 713 714void CLG_(init_obj_table)(void); 715obj_node* CLG_(get_obj_node)(DebugInfo* si); 716file_node* CLG_(get_file_node)(obj_node*, const HChar *dirname, 717 const HChar* filename); 718fn_node* CLG_(get_fn_node)(BB* bb); 719 720/* from bbcc.c */ 721void CLG_(init_bbcc_hash)(bbcc_hash* bbccs); 722void CLG_(copy_current_bbcc_hash)(bbcc_hash* dst); 723bbcc_hash* CLG_(get_current_bbcc_hash)(void); 724void CLG_(set_current_bbcc_hash)(bbcc_hash*); 725void CLG_(forall_bbccs)(void (*func)(BBCC*)); 726void CLG_(zero_bbcc)(BBCC* bbcc); 727BBCC* CLG_(get_bbcc)(BB* bb); 728BBCC* CLG_(clone_bbcc)(BBCC* orig, Context* cxt, Int rec_index); 729void CLG_(setup_bbcc)(BB* bb) VG_REGPARM(1); 730 731 732/* from jumps.c */ 733void CLG_(init_jcc_hash)(jcc_hash*); 734void CLG_(copy_current_jcc_hash)(jcc_hash* dst); 735void CLG_(set_current_jcc_hash)(jcc_hash*); 736jCC* CLG_(get_jcc)(BBCC* from, UInt, BBCC* to); 737 738/* from callstack.c */ 739void CLG_(init_call_stack)(call_stack*); 740void CLG_(copy_current_call_stack)(call_stack* dst); 741void CLG_(set_current_call_stack)(call_stack*); 742call_entry* CLG_(get_call_entry)(Int n); 743 744void CLG_(push_call_stack)(BBCC* from, UInt jmp, BBCC* to, Addr sp, Bool skip); 745void CLG_(pop_call_stack)(void); 746Int CLG_(unwind_call_stack)(Addr sp, Int); 747 748/* from context.c */ 749void CLG_(init_fn_stack)(fn_stack*); 750void CLG_(copy_current_fn_stack)(fn_stack*); 751void CLG_(set_current_fn_stack)(fn_stack*); 752 753void CLG_(init_cxt_table)(void); 754Context* CLG_(get_cxt)(fn_node** fn); 755void CLG_(push_cxt)(fn_node* fn); 756 757/* from threads.c */ 758void CLG_(init_threads)(void); 759thread_info** CLG_(get_threads)(void); 760thread_info* CLG_(get_current_thread)(void); 761void CLG_(switch_thread)(ThreadId tid); 762void CLG_(forall_threads)(void (*func)(thread_info*)); 763void CLG_(run_thread)(ThreadId tid); 764 765void CLG_(init_exec_state)(exec_state* es); 766void CLG_(init_exec_stack)(exec_stack*); 767void CLG_(copy_current_exec_stack)(exec_stack*); 768void CLG_(set_current_exec_stack)(exec_stack*); 769void CLG_(pre_signal)(ThreadId tid, Int sigNum, Bool alt_stack); 770void CLG_(post_signal)(ThreadId tid, Int sigNum); 771void CLG_(run_post_signal_on_call_stack_bottom)(void); 772 773/* from dump.c */ 774void CLG_(init_dumps)(void); 775 776/*------------------------------------------------------------*/ 777/*--- Exported global variables ---*/ 778/*------------------------------------------------------------*/ 779 780extern CommandLineOptions CLG_(clo); 781extern Statistics CLG_(stat); 782extern EventMapping* CLG_(dumpmap); 783 784/* Function active counter array, indexed by function number */ 785extern UInt* CLG_(fn_active_array); 786extern Bool CLG_(instrument_state); 787 /* min of L1 and LL cache line sizes */ 788extern Int CLG_(min_line_size); 789extern call_stack CLG_(current_call_stack); 790extern fn_stack CLG_(current_fn_stack); 791extern exec_state CLG_(current_state); 792extern ThreadId CLG_(current_tid); 793extern FullCost CLG_(total_cost); 794extern struct cachesim_if CLG_(cachesim); 795extern struct event_sets CLG_(sets); 796 797// set by setup_bbcc at start of every BB, and needed by log_* helpers 798extern Addr CLG_(bb_base); 799extern ULong* CLG_(cost_base); 800 801 802/*------------------------------------------------------------*/ 803/*--- Debug output ---*/ 804/*------------------------------------------------------------*/ 805 806#if CLG_ENABLE_DEBUG 807 808#define CLG_DEBUGIF(x) \ 809 if (UNLIKELY( (CLG_(clo).verbose >x) && \ 810 (CLG_(stat).bb_executions >= CLG_(clo).verbose_start))) 811 812#define CLG_DEBUG(x,format,args...) \ 813 CLG_DEBUGIF(x) { \ 814 CLG_(print_bbno)(); \ 815 VG_(printf)(format,##args); \ 816 } 817 818#define CLG_ASSERT(cond) \ 819 if (UNLIKELY(!(cond))) { \ 820 CLG_(print_context)(); \ 821 CLG_(print_bbno)(); \ 822 tl_assert(cond); \ 823 } 824 825#else 826#define CLG_DEBUGIF(x) if (0) 827#define CLG_DEBUG(x...) {} 828#define CLG_ASSERT(cond) tl_assert(cond); 829#endif 830 831/* from debug.c */ 832void CLG_(print_bbno)(void); 833void CLG_(print_context)(void); 834void CLG_(print_jcc)(int s, jCC* jcc); 835void CLG_(print_bbcc)(int s, BBCC* bbcc); 836void CLG_(print_bbcc_fn)(BBCC* bbcc); 837void CLG_(print_execstate)(int s, exec_state* es); 838void CLG_(print_eventset)(int s, EventSet* es); 839void CLG_(print_cost)(int s, EventSet*, ULong* cost); 840void CLG_(print_bb)(int s, BB* bb); 841void CLG_(print_bbcc_cost)(int s, BBCC*); 842void CLG_(print_cxt)(int s, Context* cxt, int rec_index); 843void CLG_(print_short_jcc)(jCC* jcc); 844void CLG_(print_stackentry)(int s, int sp); 845void CLG_(print_addr)(Addr addr); 846void CLG_(print_addr_ln)(Addr addr); 847 848void* CLG_(malloc)(const HChar* cc, UWord s, const HChar* f); 849void* CLG_(free)(void* p, const HChar* f); 850#if 0 851#define CLG_MALLOC(_cc,x) CLG_(malloc)((_cc),x,__FUNCTION__) 852#define CLG_FREE(p) CLG_(free)(p,__FUNCTION__) 853#else 854#define CLG_MALLOC(_cc,x) VG_(malloc)((_cc),x) 855#define CLG_FREE(p) VG_(free)(p) 856#endif 857 858#endif /* CLG_GLOBAL */ 859