| |
| /*--------------------------------------------------------------------*/ |
| /*--- Cachegrind: everything but the simulation itself. ---*/ |
| /*--- cg_main.c ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| /* |
| This file is part of Cachegrind, a Valgrind tool for cache |
| profiling programs. |
| |
| Copyright (C) 2002-2011 Nicholas Nethercote |
| njn@valgrind.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. |
| */ |
| |
| #include "pub_tool_basics.h" |
| #include "pub_tool_vki.h" |
| #include "pub_tool_debuginfo.h" |
| #include "pub_tool_libcbase.h" |
| #include "pub_tool_libcassert.h" |
| #include "pub_tool_libcfile.h" |
| #include "pub_tool_libcprint.h" |
| #include "pub_tool_libcproc.h" |
| #include "pub_tool_machine.h" |
| #include "pub_tool_mallocfree.h" |
| #include "pub_tool_options.h" |
| #include "pub_tool_oset.h" |
| #include "pub_tool_tooliface.h" |
| #include "pub_tool_xarray.h" |
| #include "pub_tool_clientstate.h" |
| #include "pub_tool_machine.h" // VG_(fnptr_to_fnentry) |
| |
| #include "cg_arch.h" |
| #include "cg_sim.c" |
| #include "cg_branchpred.c" |
| |
| /*------------------------------------------------------------*/ |
| /*--- Constants ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Set to 1 for very verbose debugging */ |
| #define DEBUG_CG 0 |
| |
| #define MIN_LINE_SIZE 16 |
| #define FILE_LEN VKI_PATH_MAX |
| #define FN_LEN 256 |
| |
| /*------------------------------------------------------------*/ |
| /*--- Options ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static Bool clo_cache_sim = True; /* do cache simulation? */ |
| static Bool clo_branch_sim = False; /* do branch simulation? */ |
| static Char* clo_cachegrind_out_file = "cachegrind.out.%p"; |
| |
| /*------------------------------------------------------------*/ |
| /*--- Types and Data Structures ---*/ |
| /*------------------------------------------------------------*/ |
| |
| typedef |
| struct { |
| ULong a; /* total # memory accesses of this kind */ |
| ULong m1; /* misses in the first level cache */ |
| ULong mL; /* misses in the second level cache */ |
| } |
| CacheCC; |
| |
| typedef |
| struct { |
| ULong b; /* total # branches of this kind */ |
| ULong mp; /* number of branches mispredicted */ |
| } |
| BranchCC; |
| |
| //------------------------------------------------------------ |
| // Primary data structure #1: CC table |
| // - Holds the per-source-line hit/miss stats, grouped by file/function/line. |
| // - an ordered set of CCs. CC indexing done by file/function/line (as |
| // determined from the instrAddr). |
| // - Traversed for dumping stats at end in file/func/line hierarchy. |
| |
| typedef struct { |
| Char* file; |
| Char* fn; |
| Int line; |
| } |
| CodeLoc; |
| |
| typedef struct { |
| CodeLoc loc; /* Source location that these counts pertain to */ |
| CacheCC Ir; /* Insn read counts */ |
| CacheCC Dr; /* Data read counts */ |
| CacheCC Dw; /* Data write/modify counts */ |
| BranchCC Bc; /* Conditional branch counts */ |
| BranchCC Bi; /* Indirect branch counts */ |
| } LineCC; |
| |
| // First compare file, then fn, then line. |
| static Word cmp_CodeLoc_LineCC(const void *vloc, const void *vcc) |
| { |
| Word res; |
| CodeLoc* a = (CodeLoc*)vloc; |
| CodeLoc* b = &(((LineCC*)vcc)->loc); |
| |
| res = VG_(strcmp)(a->file, b->file); |
| if (0 != res) |
| return res; |
| |
| res = VG_(strcmp)(a->fn, b->fn); |
| if (0 != res) |
| return res; |
| |
| return a->line - b->line; |
| } |
| |
| static OSet* CC_table; |
| |
| //------------------------------------------------------------ |
| // Primary data structure #2: InstrInfo table |
| // - Holds the cached info about each instr that is used for simulation. |
| // - table(SB_start_addr, list(InstrInfo)) |
| // - For each SB, each InstrInfo in the list holds info about the |
| // instruction (instrLen, instrAddr, etc), plus a pointer to its line |
| // CC. This node is what's passed to the simulation function. |
| // - When SBs are discarded the relevant list(instr_details) is freed. |
| |
| typedef struct _InstrInfo InstrInfo; |
| struct _InstrInfo { |
| Addr instr_addr; |
| UChar instr_len; |
| LineCC* parent; // parent line-CC |
| }; |
| |
| typedef struct _SB_info SB_info; |
| struct _SB_info { |
| Addr SB_addr; // key; MUST BE FIRST |
| Int n_instrs; |
| InstrInfo instrs[0]; |
| }; |
| |
| static OSet* instrInfoTable; |
| |
| //------------------------------------------------------------ |
| // Secondary data structure: string table |
| // - holds strings, avoiding dups |
| // - used for filenames and function names, each of which will be |
| // pointed to by one or more CCs. |
| // - it also allows equality checks just by pointer comparison, which |
| // is good when printing the output file at the end. |
| |
| static OSet* stringTable; |
| |
| //------------------------------------------------------------ |
| // Stats |
| static Int distinct_files = 0; |
| static Int distinct_fns = 0; |
| static Int distinct_lines = 0; |
| static Int distinct_instrs = 0; |
| |
| static Int full_debugs = 0; |
| static Int file_line_debugs = 0; |
| static Int fn_debugs = 0; |
| static Int no_debugs = 0; |
| |
| /*------------------------------------------------------------*/ |
| /*--- String table operations ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static Word stringCmp( const void* key, const void* elem ) |
| { |
| return VG_(strcmp)(*(Char**)key, *(Char**)elem); |
| } |
| |
| // Get a permanent string; either pull it out of the string table if it's |
| // been encountered before, or dup it and put it into the string table. |
| static Char* get_perm_string(Char* s) |
| { |
| Char** s_ptr = VG_(OSetGen_Lookup)(stringTable, &s); |
| if (s_ptr) { |
| return *s_ptr; |
| } else { |
| Char** s_node = VG_(OSetGen_AllocNode)(stringTable, sizeof(Char*)); |
| *s_node = VG_(strdup)("cg.main.gps.1", s); |
| VG_(OSetGen_Insert)(stringTable, s_node); |
| return *s_node; |
| } |
| } |
| |
| /*------------------------------------------------------------*/ |
| /*--- CC table operations ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static void get_debug_info(Addr instr_addr, Char file[FILE_LEN], |
| Char fn[FN_LEN], Int* line) |
| { |
| Char dir[FILE_LEN]; |
| Bool found_dirname; |
| Bool found_file_line = VG_(get_filename_linenum)( |
| instr_addr, |
| file, FILE_LEN, |
| dir, FILE_LEN, &found_dirname, |
| line |
| ); |
| Bool found_fn = VG_(get_fnname)(instr_addr, fn, FN_LEN); |
| |
| if (!found_file_line) { |
| VG_(strcpy)(file, "???"); |
| *line = 0; |
| } |
| if (!found_fn) { |
| VG_(strcpy)(fn, "???"); |
| } |
| |
| if (found_dirname) { |
| // +1 for the '/'. |
| tl_assert(VG_(strlen)(dir) + VG_(strlen)(file) + 1 < FILE_LEN); |
| VG_(strcat)(dir, "/"); // Append '/' |
| VG_(strcat)(dir, file); // Append file to dir |
| VG_(strcpy)(file, dir); // Move dir+file to file |
| } |
| |
| if (found_file_line) { |
| if (found_fn) full_debugs++; |
| else file_line_debugs++; |
| } else { |
| if (found_fn) fn_debugs++; |
| else no_debugs++; |
| } |
| } |
| |
| // Do a three step traversal: by file, then fn, then line. |
| // Returns a pointer to the line CC, creates a new one if necessary. |
| static LineCC* get_lineCC(Addr origAddr) |
| { |
| Char file[FILE_LEN], fn[FN_LEN]; |
| Int line; |
| CodeLoc loc; |
| LineCC* lineCC; |
| |
| get_debug_info(origAddr, file, fn, &line); |
| |
| loc.file = file; |
| loc.fn = fn; |
| loc.line = line; |
| |
| lineCC = VG_(OSetGen_Lookup)(CC_table, &loc); |
| if (!lineCC) { |
| // Allocate and zero a new node. |
| lineCC = VG_(OSetGen_AllocNode)(CC_table, sizeof(LineCC)); |
| lineCC->loc.file = get_perm_string(loc.file); |
| lineCC->loc.fn = get_perm_string(loc.fn); |
| lineCC->loc.line = loc.line; |
| lineCC->Ir.a = 0; |
| lineCC->Ir.m1 = 0; |
| lineCC->Ir.mL = 0; |
| lineCC->Dr.a = 0; |
| lineCC->Dr.m1 = 0; |
| lineCC->Dr.mL = 0; |
| lineCC->Dw.a = 0; |
| lineCC->Dw.m1 = 0; |
| lineCC->Dw.mL = 0; |
| lineCC->Bc.b = 0; |
| lineCC->Bc.mp = 0; |
| lineCC->Bi.b = 0; |
| lineCC->Bi.mp = 0; |
| VG_(OSetGen_Insert)(CC_table, lineCC); |
| } |
| |
| return lineCC; |
| } |
| |
| /*------------------------------------------------------------*/ |
| /*--- Cache simulation functions ---*/ |
| /*------------------------------------------------------------*/ |
| |
| // Only used with --cache-sim=no. |
| static VG_REGPARM(1) |
| void log_1I(InstrInfo* n) |
| { |
| n->parent->Ir.a++; |
| } |
| |
| // Only used with --cache-sim=no. |
| static VG_REGPARM(2) |
| void log_2I(InstrInfo* n, InstrInfo* n2) |
| { |
| n->parent->Ir.a++; |
| n2->parent->Ir.a++; |
| } |
| |
| // Only used with --cache-sim=no. |
| static VG_REGPARM(3) |
| void log_3I(InstrInfo* n, InstrInfo* n2, InstrInfo* n3) |
| { |
| n->parent->Ir.a++; |
| n2->parent->Ir.a++; |
| n3->parent->Ir.a++; |
| } |
| |
| static VG_REGPARM(1) |
| void log_1I_0D_cache_access(InstrInfo* n) |
| { |
| //VG_(printf)("1I_0D : CCaddr=0x%010lx, iaddr=0x%010lx, isize=%lu\n", |
| // n, n->instr_addr, n->instr_len); |
| cachesim_I1_doref(n->instr_addr, n->instr_len, |
| &n->parent->Ir.m1, &n->parent->Ir.mL); |
| n->parent->Ir.a++; |
| } |
| |
| static VG_REGPARM(2) |
| void log_2I_0D_cache_access(InstrInfo* n, InstrInfo* n2) |
| { |
| //VG_(printf)("2I_0D : CC1addr=0x%010lx, i1addr=0x%010lx, i1size=%lu\n" |
| // " CC2addr=0x%010lx, i2addr=0x%010lx, i2size=%lu\n", |
| // n, n->instr_addr, n->instr_len, |
| // n2, n2->instr_addr, n2->instr_len); |
| cachesim_I1_doref(n->instr_addr, n->instr_len, |
| &n->parent->Ir.m1, &n->parent->Ir.mL); |
| n->parent->Ir.a++; |
| cachesim_I1_doref(n2->instr_addr, n2->instr_len, |
| &n2->parent->Ir.m1, &n2->parent->Ir.mL); |
| n2->parent->Ir.a++; |
| } |
| |
| static VG_REGPARM(3) |
| void log_3I_0D_cache_access(InstrInfo* n, InstrInfo* n2, InstrInfo* n3) |
| { |
| //VG_(printf)("3I_0D : CC1addr=0x%010lx, i1addr=0x%010lx, i1size=%lu\n" |
| // " CC2addr=0x%010lx, i2addr=0x%010lx, i2size=%lu\n" |
| // " CC3addr=0x%010lx, i3addr=0x%010lx, i3size=%lu\n", |
| // n, n->instr_addr, n->instr_len, |
| // n2, n2->instr_addr, n2->instr_len, |
| // n3, n3->instr_addr, n3->instr_len); |
| cachesim_I1_doref(n->instr_addr, n->instr_len, |
| &n->parent->Ir.m1, &n->parent->Ir.mL); |
| n->parent->Ir.a++; |
| cachesim_I1_doref(n2->instr_addr, n2->instr_len, |
| &n2->parent->Ir.m1, &n2->parent->Ir.mL); |
| n2->parent->Ir.a++; |
| cachesim_I1_doref(n3->instr_addr, n3->instr_len, |
| &n3->parent->Ir.m1, &n3->parent->Ir.mL); |
| n3->parent->Ir.a++; |
| } |
| |
| static VG_REGPARM(3) |
| void log_1I_1Dr_cache_access(InstrInfo* n, Addr data_addr, Word data_size) |
| { |
| //VG_(printf)("1I_1Dr: CCaddr=0x%010lx, iaddr=0x%010lx, isize=%lu\n" |
| // " daddr=0x%010lx, dsize=%lu\n", |
| // n, n->instr_addr, n->instr_len, data_addr, data_size); |
| cachesim_I1_doref(n->instr_addr, n->instr_len, |
| &n->parent->Ir.m1, &n->parent->Ir.mL); |
| n->parent->Ir.a++; |
| |
| cachesim_D1_doref(data_addr, data_size, |
| &n->parent->Dr.m1, &n->parent->Dr.mL); |
| n->parent->Dr.a++; |
| } |
| |
| static VG_REGPARM(3) |
| void log_1I_1Dw_cache_access(InstrInfo* n, Addr data_addr, Word data_size) |
| { |
| //VG_(printf)("1I_1Dw: CCaddr=0x%010lx, iaddr=0x%010lx, isize=%lu\n" |
| // " daddr=0x%010lx, dsize=%lu\n", |
| // n, n->instr_addr, n->instr_len, data_addr, data_size); |
| cachesim_I1_doref(n->instr_addr, n->instr_len, |
| &n->parent->Ir.m1, &n->parent->Ir.mL); |
| n->parent->Ir.a++; |
| |
| cachesim_D1_doref(data_addr, data_size, |
| &n->parent->Dw.m1, &n->parent->Dw.mL); |
| n->parent->Dw.a++; |
| } |
| |
| static VG_REGPARM(3) |
| void log_0I_1Dr_cache_access(InstrInfo* n, Addr data_addr, Word data_size) |
| { |
| //VG_(printf)("0I_1Dr: CCaddr=0x%010lx, daddr=0x%010lx, dsize=%lu\n", |
| // n, data_addr, data_size); |
| cachesim_D1_doref(data_addr, data_size, |
| &n->parent->Dr.m1, &n->parent->Dr.mL); |
| n->parent->Dr.a++; |
| } |
| |
| static VG_REGPARM(3) |
| void log_0I_1Dw_cache_access(InstrInfo* n, Addr data_addr, Word data_size) |
| { |
| //VG_(printf)("0I_1Dw: CCaddr=0x%010lx, daddr=0x%010lx, dsize=%lu\n", |
| // n, data_addr, data_size); |
| cachesim_D1_doref(data_addr, data_size, |
| &n->parent->Dw.m1, &n->parent->Dw.mL); |
| n->parent->Dw.a++; |
| } |
| |
| /* For branches, we consult two different predictors, one which |
| predicts taken/untaken for conditional branches, and the other |
| which predicts the branch target address for indirect branches |
| (jump-to-register style ones). */ |
| |
| static VG_REGPARM(2) |
| void log_cond_branch(InstrInfo* n, Word taken) |
| { |
| //VG_(printf)("cbrnch: CCaddr=0x%010lx, taken=0x%010lx\n", |
| // n, taken); |
| n->parent->Bc.b++; |
| n->parent->Bc.mp |
| += (1 & do_cond_branch_predict(n->instr_addr, taken)); |
| } |
| |
| static VG_REGPARM(2) |
| void log_ind_branch(InstrInfo* n, UWord actual_dst) |
| { |
| //VG_(printf)("ibrnch: CCaddr=0x%010lx, dst=0x%010lx\n", |
| // n, actual_dst); |
| n->parent->Bi.b++; |
| n->parent->Bi.mp |
| += (1 & do_ind_branch_predict(n->instr_addr, actual_dst)); |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Instrumentation types and structures ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Maintain an ordered list of memory events which are outstanding, in |
| the sense that no IR has yet been generated to do the relevant |
| helper calls. The BB is scanned top to bottom and memory events |
| are added to the end of the list, merging with the most recent |
| notified event where possible (Dw immediately following Dr and |
| having the same size and EA can be merged). |
| |
| This merging is done so that for architectures which have |
| load-op-store instructions (x86, amd64), the insn is treated as if |
| it makes just one memory reference (a modify), rather than two (a |
| read followed by a write at the same address). |
| |
| At various points the list will need to be flushed, that is, IR |
| generated from it. That must happen before any possible exit from |
| the block (the end, or an IRStmt_Exit). Flushing also takes place |
| when there is no space to add a new event. |
| |
| If we require the simulation statistics to be up to date with |
| respect to possible memory exceptions, then the list would have to |
| be flushed before each memory reference. That would however lose |
| performance by inhibiting event-merging during flushing. |
| |
| Flushing the list consists of walking it start to end and emitting |
| instrumentation IR for each event, in the order in which they |
| appear. It may be possible to emit a single call for two adjacent |
| events in order to reduce the number of helper function calls made. |
| For example, it could well be profitable to handle two adjacent Ir |
| events with a single helper call. */ |
| |
| typedef |
| IRExpr |
| IRAtom; |
| |
| typedef |
| enum { |
| Ev_Ir, // Instruction read |
| Ev_Dr, // Data read |
| Ev_Dw, // Data write |
| Ev_Dm, // Data modify (read then write) |
| Ev_Bc, // branch conditional |
| Ev_Bi // branch indirect (to unknown destination) |
| } |
| EventTag; |
| |
| typedef |
| struct { |
| EventTag tag; |
| InstrInfo* inode; |
| union { |
| struct { |
| } Ir; |
| struct { |
| IRAtom* ea; |
| Int szB; |
| } Dr; |
| struct { |
| IRAtom* ea; |
| Int szB; |
| } Dw; |
| struct { |
| IRAtom* ea; |
| Int szB; |
| } Dm; |
| struct { |
| IRAtom* taken; /* :: Ity_I1 */ |
| } Bc; |
| struct { |
| IRAtom* dst; |
| } Bi; |
| } Ev; |
| } |
| Event; |
| |
| static void init_Event ( Event* ev ) { |
| VG_(memset)(ev, 0, sizeof(Event)); |
| } |
| |
| static IRAtom* get_Event_dea ( Event* ev ) { |
| switch (ev->tag) { |
| case Ev_Dr: return ev->Ev.Dr.ea; |
| case Ev_Dw: return ev->Ev.Dw.ea; |
| case Ev_Dm: return ev->Ev.Dm.ea; |
| default: tl_assert(0); |
| } |
| } |
| |
| static Int get_Event_dszB ( Event* ev ) { |
| switch (ev->tag) { |
| case Ev_Dr: return ev->Ev.Dr.szB; |
| case Ev_Dw: return ev->Ev.Dw.szB; |
| case Ev_Dm: return ev->Ev.Dm.szB; |
| default: tl_assert(0); |
| } |
| } |
| |
| |
| /* Up to this many unnotified events are allowed. Number is |
| arbitrary. Larger numbers allow more event merging to occur, but |
| potentially induce more spilling due to extending live ranges of |
| address temporaries. */ |
| #define N_EVENTS 16 |
| |
| |
| /* A struct which holds all the running state during instrumentation. |
| Mostly to avoid passing loads of parameters everywhere. */ |
| typedef |
| struct { |
| /* The current outstanding-memory-event list. */ |
| Event events[N_EVENTS]; |
| Int events_used; |
| |
| /* The array of InstrInfo bins for the BB. */ |
| SB_info* sbInfo; |
| |
| /* Number InstrInfo bins 'used' so far. */ |
| Int sbInfo_i; |
| |
| /* The output SB being constructed. */ |
| IRSB* sbOut; |
| } |
| CgState; |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Instrumentation main ---*/ |
| /*------------------------------------------------------------*/ |
| |
| // Note that origAddr is the real origAddr, not the address of the first |
| // instruction in the block (they can be different due to redirection). |
| static |
| SB_info* get_SB_info(IRSB* sbIn, Addr origAddr) |
| { |
| Int i, n_instrs; |
| IRStmt* st; |
| SB_info* sbInfo; |
| |
| // Count number of original instrs in SB |
| n_instrs = 0; |
| for (i = 0; i < sbIn->stmts_used; i++) { |
| st = sbIn->stmts[i]; |
| if (Ist_IMark == st->tag) n_instrs++; |
| } |
| |
| // Check that we don't have an entry for this BB in the instr-info table. |
| // If this assertion fails, there has been some screwup: some |
| // translations must have been discarded but Cachegrind hasn't discarded |
| // the corresponding entries in the instr-info table. |
| sbInfo = VG_(OSetGen_Lookup)(instrInfoTable, &origAddr); |
| tl_assert(NULL == sbInfo); |
| |
| // BB never translated before (at this address, at least; could have |
| // been unloaded and then reloaded elsewhere in memory) |
| sbInfo = VG_(OSetGen_AllocNode)(instrInfoTable, |
| sizeof(SB_info) + n_instrs*sizeof(InstrInfo)); |
| sbInfo->SB_addr = origAddr; |
| sbInfo->n_instrs = n_instrs; |
| VG_(OSetGen_Insert)( instrInfoTable, sbInfo ); |
| distinct_instrs++; |
| |
| return sbInfo; |
| } |
| |
| |
| static void showEvent ( Event* ev ) |
| { |
| switch (ev->tag) { |
| case Ev_Ir: |
| VG_(printf)("Ir %p\n", ev->inode); |
| break; |
| case Ev_Dr: |
| VG_(printf)("Dr %p %d EA=", ev->inode, ev->Ev.Dr.szB); |
| ppIRExpr(ev->Ev.Dr.ea); |
| VG_(printf)("\n"); |
| break; |
| case Ev_Dw: |
| VG_(printf)("Dw %p %d EA=", ev->inode, ev->Ev.Dw.szB); |
| ppIRExpr(ev->Ev.Dw.ea); |
| VG_(printf)("\n"); |
| break; |
| case Ev_Dm: |
| VG_(printf)("Dm %p %d EA=", ev->inode, ev->Ev.Dm.szB); |
| ppIRExpr(ev->Ev.Dm.ea); |
| VG_(printf)("\n"); |
| break; |
| case Ev_Bc: |
| VG_(printf)("Bc %p GA=", ev->inode); |
| ppIRExpr(ev->Ev.Bc.taken); |
| VG_(printf)("\n"); |
| break; |
| case Ev_Bi: |
| VG_(printf)("Bi %p DST=", ev->inode); |
| ppIRExpr(ev->Ev.Bi.dst); |
| VG_(printf)("\n"); |
| break; |
| default: |
| tl_assert(0); |
| break; |
| } |
| } |
| |
| // Reserve and initialise an InstrInfo for the first mention of a new insn. |
| static |
| InstrInfo* setup_InstrInfo ( CgState* cgs, Addr instr_addr, UInt instr_len ) |
| { |
| InstrInfo* i_node; |
| tl_assert(cgs->sbInfo_i >= 0); |
| tl_assert(cgs->sbInfo_i < cgs->sbInfo->n_instrs); |
| i_node = &cgs->sbInfo->instrs[ cgs->sbInfo_i ]; |
| i_node->instr_addr = instr_addr; |
| i_node->instr_len = instr_len; |
| i_node->parent = get_lineCC(instr_addr); |
| cgs->sbInfo_i++; |
| return i_node; |
| } |
| |
| |
| /* Generate code for all outstanding memory events, and mark the queue |
| empty. Code is generated into cgs->bbOut, and this activity |
| 'consumes' slots in cgs->sbInfo. */ |
| |
| static void flushEvents ( CgState* cgs ) |
| { |
| Int i, regparms; |
| Char* helperName; |
| void* helperAddr; |
| IRExpr** argv; |
| IRExpr* i_node_expr; |
| IRDirty* di; |
| Event* ev; |
| Event* ev2; |
| Event* ev3; |
| |
| i = 0; |
| while (i < cgs->events_used) { |
| |
| helperName = NULL; |
| helperAddr = NULL; |
| argv = NULL; |
| regparms = 0; |
| |
| /* generate IR to notify event i and possibly the ones |
| immediately following it. */ |
| tl_assert(i >= 0 && i < cgs->events_used); |
| |
| ev = &cgs->events[i]; |
| ev2 = ( i < cgs->events_used-1 ? &cgs->events[i+1] : NULL ); |
| ev3 = ( i < cgs->events_used-2 ? &cgs->events[i+2] : NULL ); |
| |
| if (DEBUG_CG) { |
| VG_(printf)(" flush "); |
| showEvent( ev ); |
| } |
| |
| i_node_expr = mkIRExpr_HWord( (HWord)ev->inode ); |
| |
| /* Decide on helper fn to call and args to pass it, and advance |
| i appropriately. */ |
| switch (ev->tag) { |
| case Ev_Ir: |
| /* Merge an Ir with a following Dr/Dm. */ |
| if (ev2 && (ev2->tag == Ev_Dr || ev2->tag == Ev_Dm)) { |
| /* Why is this true? It's because we're merging an Ir |
| with a following Dr or Dm. The Ir derives from the |
| instruction's IMark and the Dr/Dm from data |
| references which follow it. In short it holds |
| because each insn starts with an IMark, hence an |
| Ev_Ir, and so these Dr/Dm must pertain to the |
| immediately preceding Ir. Same applies to analogous |
| assertions in the subsequent cases. */ |
| tl_assert(ev2->inode == ev->inode); |
| helperName = "log_1I_1Dr_cache_access"; |
| helperAddr = &log_1I_1Dr_cache_access; |
| argv = mkIRExprVec_3( i_node_expr, |
| get_Event_dea(ev2), |
| mkIRExpr_HWord( get_Event_dszB(ev2) ) ); |
| regparms = 3; |
| i += 2; |
| } |
| /* Merge an Ir with a following Dw. */ |
| else |
| if (ev2 && ev2->tag == Ev_Dw) { |
| tl_assert(ev2->inode == ev->inode); |
| helperName = "log_1I_1Dw_cache_access"; |
| helperAddr = &log_1I_1Dw_cache_access; |
| argv = mkIRExprVec_3( i_node_expr, |
| get_Event_dea(ev2), |
| mkIRExpr_HWord( get_Event_dszB(ev2) ) ); |
| regparms = 3; |
| i += 2; |
| } |
| /* Merge an Ir with two following Irs. */ |
| else |
| if (ev2 && ev3 && ev2->tag == Ev_Ir && ev3->tag == Ev_Ir) |
| { |
| if (clo_cache_sim) { |
| helperName = "log_3I_0D_cache_access"; |
| helperAddr = &log_3I_0D_cache_access; |
| } else { |
| helperName = "log_3I"; |
| helperAddr = &log_3I; |
| } |
| argv = mkIRExprVec_3( i_node_expr, |
| mkIRExpr_HWord( (HWord)ev2->inode ), |
| mkIRExpr_HWord( (HWord)ev3->inode ) ); |
| regparms = 3; |
| i += 3; |
| } |
| /* Merge an Ir with one following Ir. */ |
| else |
| if (ev2 && ev2->tag == Ev_Ir) { |
| if (clo_cache_sim) { |
| helperName = "log_2I_0D_cache_access"; |
| helperAddr = &log_2I_0D_cache_access; |
| } else { |
| helperName = "log_2I"; |
| helperAddr = &log_2I; |
| } |
| argv = mkIRExprVec_2( i_node_expr, |
| mkIRExpr_HWord( (HWord)ev2->inode ) ); |
| regparms = 2; |
| i += 2; |
| } |
| /* No merging possible; emit as-is. */ |
| else { |
| if (clo_cache_sim) { |
| helperName = "log_1I_0D_cache_access"; |
| helperAddr = &log_1I_0D_cache_access; |
| } else { |
| helperName = "log_1I"; |
| helperAddr = &log_1I; |
| } |
| argv = mkIRExprVec_1( i_node_expr ); |
| regparms = 1; |
| i++; |
| } |
| break; |
| case Ev_Dr: |
| case Ev_Dm: |
| /* Data read or modify */ |
| helperName = "log_0I_1Dr_cache_access"; |
| helperAddr = &log_0I_1Dr_cache_access; |
| argv = mkIRExprVec_3( i_node_expr, |
| get_Event_dea(ev), |
| mkIRExpr_HWord( get_Event_dszB(ev) ) ); |
| regparms = 3; |
| i++; |
| break; |
| case Ev_Dw: |
| /* Data write */ |
| helperName = "log_0I_1Dw_cache_access"; |
| helperAddr = &log_0I_1Dw_cache_access; |
| argv = mkIRExprVec_3( i_node_expr, |
| get_Event_dea(ev), |
| mkIRExpr_HWord( get_Event_dszB(ev) ) ); |
| regparms = 3; |
| i++; |
| break; |
| case Ev_Bc: |
| /* Conditional branch */ |
| helperName = "log_cond_branch"; |
| helperAddr = &log_cond_branch; |
| argv = mkIRExprVec_2( i_node_expr, ev->Ev.Bc.taken ); |
| regparms = 2; |
| i++; |
| break; |
| case Ev_Bi: |
| /* Branch to an unknown destination */ |
| helperName = "log_ind_branch"; |
| helperAddr = &log_ind_branch; |
| argv = mkIRExprVec_2( i_node_expr, ev->Ev.Bi.dst ); |
| regparms = 2; |
| i++; |
| break; |
| default: |
| tl_assert(0); |
| } |
| |
| /* Add the helper. */ |
| tl_assert(helperName); |
| tl_assert(helperAddr); |
| tl_assert(argv); |
| di = unsafeIRDirty_0_N( regparms, |
| helperName, VG_(fnptr_to_fnentry)( helperAddr ), |
| argv ); |
| addStmtToIRSB( cgs->sbOut, IRStmt_Dirty(di) ); |
| } |
| |
| cgs->events_used = 0; |
| } |
| |
| static void addEvent_Ir ( CgState* cgs, InstrInfo* inode ) |
| { |
| Event* evt; |
| if (cgs->events_used == N_EVENTS) |
| flushEvents(cgs); |
| tl_assert(cgs->events_used >= 0 && cgs->events_used < N_EVENTS); |
| evt = &cgs->events[cgs->events_used]; |
| init_Event(evt); |
| evt->tag = Ev_Ir; |
| evt->inode = inode; |
| cgs->events_used++; |
| } |
| |
| static |
| void addEvent_Dr ( CgState* cgs, InstrInfo* inode, Int datasize, IRAtom* ea ) |
| { |
| Event* evt; |
| tl_assert(isIRAtom(ea)); |
| tl_assert(datasize >= 1 && datasize <= MIN_LINE_SIZE); |
| if (!clo_cache_sim) |
| return; |
| if (cgs->events_used == N_EVENTS) |
| flushEvents(cgs); |
| tl_assert(cgs->events_used >= 0 && cgs->events_used < N_EVENTS); |
| evt = &cgs->events[cgs->events_used]; |
| init_Event(evt); |
| evt->tag = Ev_Dr; |
| evt->inode = inode; |
| evt->Ev.Dr.szB = datasize; |
| evt->Ev.Dr.ea = ea; |
| cgs->events_used++; |
| } |
| |
| static |
| void addEvent_Dw ( CgState* cgs, InstrInfo* inode, Int datasize, IRAtom* ea ) |
| { |
| Event* lastEvt; |
| Event* evt; |
| |
| tl_assert(isIRAtom(ea)); |
| tl_assert(datasize >= 1 && datasize <= MIN_LINE_SIZE); |
| |
| if (!clo_cache_sim) |
| return; |
| |
| /* Is it possible to merge this write with the preceding read? */ |
| lastEvt = &cgs->events[cgs->events_used-1]; |
| if (cgs->events_used > 0 |
| && lastEvt->tag == Ev_Dr |
| && lastEvt->Ev.Dr.szB == datasize |
| && lastEvt->inode == inode |
| && eqIRAtom(lastEvt->Ev.Dr.ea, ea)) |
| { |
| lastEvt->tag = Ev_Dm; |
| return; |
| } |
| |
| /* No. Add as normal. */ |
| if (cgs->events_used == N_EVENTS) |
| flushEvents(cgs); |
| tl_assert(cgs->events_used >= 0 && cgs->events_used < N_EVENTS); |
| evt = &cgs->events[cgs->events_used]; |
| init_Event(evt); |
| evt->tag = Ev_Dw; |
| evt->inode = inode; |
| evt->Ev.Dw.szB = datasize; |
| evt->Ev.Dw.ea = ea; |
| cgs->events_used++; |
| } |
| |
| static |
| void addEvent_Bc ( CgState* cgs, InstrInfo* inode, IRAtom* guard ) |
| { |
| Event* evt; |
| tl_assert(isIRAtom(guard)); |
| tl_assert(typeOfIRExpr(cgs->sbOut->tyenv, guard) |
| == (sizeof(HWord)==4 ? Ity_I32 : Ity_I64)); |
| if (!clo_branch_sim) |
| return; |
| if (cgs->events_used == N_EVENTS) |
| flushEvents(cgs); |
| tl_assert(cgs->events_used >= 0 && cgs->events_used < N_EVENTS); |
| evt = &cgs->events[cgs->events_used]; |
| init_Event(evt); |
| evt->tag = Ev_Bc; |
| evt->inode = inode; |
| evt->Ev.Bc.taken = guard; |
| cgs->events_used++; |
| } |
| |
| static |
| void addEvent_Bi ( CgState* cgs, InstrInfo* inode, IRAtom* whereTo ) |
| { |
| Event* evt; |
| tl_assert(isIRAtom(whereTo)); |
| tl_assert(typeOfIRExpr(cgs->sbOut->tyenv, whereTo) |
| == (sizeof(HWord)==4 ? Ity_I32 : Ity_I64)); |
| if (!clo_branch_sim) |
| return; |
| if (cgs->events_used == N_EVENTS) |
| flushEvents(cgs); |
| tl_assert(cgs->events_used >= 0 && cgs->events_used < N_EVENTS); |
| evt = &cgs->events[cgs->events_used]; |
| init_Event(evt); |
| evt->tag = Ev_Bi; |
| evt->inode = inode; |
| evt->Ev.Bi.dst = whereTo; |
| cgs->events_used++; |
| } |
| |
| //////////////////////////////////////////////////////////// |
| |
| |
| static |
| IRSB* cg_instrument ( VgCallbackClosure* closure, |
| IRSB* sbIn, |
| VexGuestLayout* layout, |
| VexGuestExtents* vge, |
| IRType gWordTy, IRType hWordTy ) |
| { |
| Int i, isize; |
| IRStmt* st; |
| Addr64 cia; /* address of current insn */ |
| CgState cgs; |
| IRTypeEnv* tyenv = sbIn->tyenv; |
| InstrInfo* curr_inode = NULL; |
| |
| if (gWordTy != hWordTy) { |
| /* We don't currently support this case. */ |
| VG_(tool_panic)("host/guest word size mismatch"); |
| } |
| |
| // Set up new SB |
| cgs.sbOut = deepCopyIRSBExceptStmts(sbIn); |
| |
| // Copy verbatim any IR preamble preceding the first IMark |
| i = 0; |
| while (i < sbIn->stmts_used && sbIn->stmts[i]->tag != Ist_IMark) { |
| addStmtToIRSB( cgs.sbOut, sbIn->stmts[i] ); |
| i++; |
| } |
| |
| // Get the first statement, and initial cia from it |
| tl_assert(sbIn->stmts_used > 0); |
| tl_assert(i < sbIn->stmts_used); |
| st = sbIn->stmts[i]; |
| tl_assert(Ist_IMark == st->tag); |
| |
| cia = st->Ist.IMark.addr; |
| isize = st->Ist.IMark.len; |
| // If Vex fails to decode an instruction, the size will be zero. |
| // Pretend otherwise. |
| if (isize == 0) isize = VG_MIN_INSTR_SZB; |
| |
| // Set up running state and get block info |
| tl_assert(closure->readdr == vge->base[0]); |
| cgs.events_used = 0; |
| cgs.sbInfo = get_SB_info(sbIn, (Addr)closure->readdr); |
| cgs.sbInfo_i = 0; |
| |
| if (DEBUG_CG) |
| VG_(printf)("\n\n---------- cg_instrument ----------\n"); |
| |
| // Traverse the block, initialising inodes, adding events and flushing as |
| // necessary. |
| for (/*use current i*/; i < sbIn->stmts_used; i++) { |
| |
| st = sbIn->stmts[i]; |
| tl_assert(isFlatIRStmt(st)); |
| |
| switch (st->tag) { |
| case Ist_NoOp: |
| case Ist_AbiHint: |
| case Ist_Put: |
| case Ist_PutI: |
| case Ist_MBE: |
| break; |
| |
| case Ist_IMark: |
| cia = st->Ist.IMark.addr; |
| isize = st->Ist.IMark.len; |
| |
| // If Vex fails to decode an instruction, the size will be zero. |
| // Pretend otherwise. |
| if (isize == 0) isize = VG_MIN_INSTR_SZB; |
| |
| // Sanity-check size. |
| tl_assert( (VG_MIN_INSTR_SZB <= isize && isize <= VG_MAX_INSTR_SZB) |
| || VG_CLREQ_SZB == isize ); |
| |
| // Get space for and init the inode, record it as the current one. |
| // Subsequent Dr/Dw/Dm events from the same instruction will |
| // also use it. |
| curr_inode = setup_InstrInfo(&cgs, cia, isize); |
| |
| addEvent_Ir( &cgs, curr_inode ); |
| break; |
| |
| case Ist_WrTmp: { |
| IRExpr* data = st->Ist.WrTmp.data; |
| if (data->tag == Iex_Load) { |
| IRExpr* aexpr = data->Iex.Load.addr; |
| // Note also, endianness info is ignored. I guess |
| // that's not interesting. |
| addEvent_Dr( &cgs, curr_inode, sizeofIRType(data->Iex.Load.ty), |
| aexpr ); |
| } |
| break; |
| } |
| |
| case Ist_Store: { |
| IRExpr* data = st->Ist.Store.data; |
| IRExpr* aexpr = st->Ist.Store.addr; |
| addEvent_Dw( &cgs, curr_inode, |
| sizeofIRType(typeOfIRExpr(tyenv, data)), aexpr ); |
| break; |
| } |
| |
| case Ist_Dirty: { |
| Int dataSize; |
| IRDirty* d = st->Ist.Dirty.details; |
| if (d->mFx != Ifx_None) { |
| /* This dirty helper accesses memory. Collect the details. */ |
| tl_assert(d->mAddr != NULL); |
| tl_assert(d->mSize != 0); |
| dataSize = d->mSize; |
| // Large (eg. 28B, 108B, 512B on x86) data-sized |
| // instructions will be done inaccurately, but they're |
| // very rare and this avoids errors from hitting more |
| // than two cache lines in the simulation. |
| if (dataSize > MIN_LINE_SIZE) |
| dataSize = MIN_LINE_SIZE; |
| if (d->mFx == Ifx_Read || d->mFx == Ifx_Modify) |
| addEvent_Dr( &cgs, curr_inode, dataSize, d->mAddr ); |
| if (d->mFx == Ifx_Write || d->mFx == Ifx_Modify) |
| addEvent_Dw( &cgs, curr_inode, dataSize, d->mAddr ); |
| } else { |
| tl_assert(d->mAddr == NULL); |
| tl_assert(d->mSize == 0); |
| } |
| break; |
| } |
| |
| case Ist_CAS: { |
| /* We treat it as a read and a write of the location. I |
| think that is the same behaviour as it was before IRCAS |
| was introduced, since prior to that point, the Vex |
| front ends would translate a lock-prefixed instruction |
| into a (normal) read followed by a (normal) write. */ |
| Int dataSize; |
| IRCAS* cas = st->Ist.CAS.details; |
| tl_assert(cas->addr != NULL); |
| tl_assert(cas->dataLo != NULL); |
| dataSize = sizeofIRType(typeOfIRExpr(tyenv, cas->dataLo)); |
| if (cas->dataHi != NULL) |
| dataSize *= 2; /* since it's a doubleword-CAS */ |
| /* I don't think this can ever happen, but play safe. */ |
| if (dataSize > MIN_LINE_SIZE) |
| dataSize = MIN_LINE_SIZE; |
| addEvent_Dr( &cgs, curr_inode, dataSize, cas->addr ); |
| addEvent_Dw( &cgs, curr_inode, dataSize, cas->addr ); |
| break; |
| } |
| |
| case Ist_LLSC: { |
| IRType dataTy; |
| if (st->Ist.LLSC.storedata == NULL) { |
| /* LL */ |
| dataTy = typeOfIRTemp(tyenv, st->Ist.LLSC.result); |
| addEvent_Dr( &cgs, curr_inode, |
| sizeofIRType(dataTy), st->Ist.LLSC.addr ); |
| } else { |
| /* SC */ |
| dataTy = typeOfIRExpr(tyenv, st->Ist.LLSC.storedata); |
| addEvent_Dw( &cgs, curr_inode, |
| sizeofIRType(dataTy), st->Ist.LLSC.addr ); |
| } |
| break; |
| } |
| |
| case Ist_Exit: { |
| // call branch predictor only if this is a branch in guest code |
| if ( (st->Ist.Exit.jk == Ijk_Boring) || |
| (st->Ist.Exit.jk == Ijk_Call) || |
| (st->Ist.Exit.jk == Ijk_Ret) ) |
| { |
| /* Stuff to widen the guard expression to a host word, so |
| we can pass it to the branch predictor simulation |
| functions easily. */ |
| Bool inverted; |
| Addr64 nia, sea; |
| IRConst* dst; |
| IRType tyW = hWordTy; |
| IROp widen = tyW==Ity_I32 ? Iop_1Uto32 : Iop_1Uto64; |
| IROp opXOR = tyW==Ity_I32 ? Iop_Xor32 : Iop_Xor64; |
| IRTemp guard1 = newIRTemp(cgs.sbOut->tyenv, Ity_I1); |
| IRTemp guardW = newIRTemp(cgs.sbOut->tyenv, tyW); |
| IRTemp guard = newIRTemp(cgs.sbOut->tyenv, tyW); |
| IRExpr* one = tyW==Ity_I32 ? IRExpr_Const(IRConst_U32(1)) |
| : IRExpr_Const(IRConst_U64(1)); |
| |
| /* First we need to figure out whether the side exit got |
| inverted by the ir optimiser. To do that, figure out |
| the next (fallthrough) instruction's address and the |
| side exit address and see if they are the same. */ |
| nia = cia + (Addr64)isize; |
| if (tyW == Ity_I32) |
| nia &= 0xFFFFFFFFULL; |
| |
| /* Side exit address */ |
| dst = st->Ist.Exit.dst; |
| if (tyW == Ity_I32) { |
| tl_assert(dst->tag == Ico_U32); |
| sea = (Addr64)(UInt)dst->Ico.U32; |
| } else { |
| tl_assert(tyW == Ity_I64); |
| tl_assert(dst->tag == Ico_U64); |
| sea = dst->Ico.U64; |
| } |
| |
| inverted = nia == sea; |
| |
| /* Widen the guard expression. */ |
| addStmtToIRSB( cgs.sbOut, |
| IRStmt_WrTmp( guard1, st->Ist.Exit.guard )); |
| addStmtToIRSB( cgs.sbOut, |
| IRStmt_WrTmp( guardW, |
| IRExpr_Unop(widen, |
| IRExpr_RdTmp(guard1))) ); |
| /* If the exit is inverted, invert the sense of the guard. */ |
| addStmtToIRSB( |
| cgs.sbOut, |
| IRStmt_WrTmp( |
| guard, |
| inverted ? IRExpr_Binop(opXOR, IRExpr_RdTmp(guardW), one) |
| : IRExpr_RdTmp(guardW) |
| )); |
| /* And post the event. */ |
| addEvent_Bc( &cgs, curr_inode, IRExpr_RdTmp(guard) ); |
| } |
| |
| /* We may never reach the next statement, so need to flush |
| all outstanding transactions now. */ |
| flushEvents( &cgs ); |
| break; |
| } |
| |
| default: |
| tl_assert(0); |
| break; |
| } |
| |
| /* Copy the original statement */ |
| addStmtToIRSB( cgs.sbOut, st ); |
| |
| if (DEBUG_CG) { |
| ppIRStmt(st); |
| VG_(printf)("\n"); |
| } |
| } |
| |
| /* Deal with branches to unknown destinations. Except ignore ones |
| which are function returns as we assume the return stack |
| predictor never mispredicts. */ |
| if ((sbIn->jumpkind == Ijk_Boring) || (sbIn->jumpkind == Ijk_Call)) { |
| if (0) { ppIRExpr( sbIn->next ); VG_(printf)("\n"); } |
| switch (sbIn->next->tag) { |
| case Iex_Const: |
| break; /* boring - branch to known address */ |
| case Iex_RdTmp: |
| /* looks like an indirect branch (branch to unknown) */ |
| addEvent_Bi( &cgs, curr_inode, sbIn->next ); |
| break; |
| default: |
| /* shouldn't happen - if the incoming IR is properly |
| flattened, should only have tmp and const cases to |
| consider. */ |
| tl_assert(0); |
| } |
| } |
| |
| /* At the end of the bb. Flush outstandings. */ |
| flushEvents( &cgs ); |
| |
| /* done. stay sane ... */ |
| tl_assert(cgs.sbInfo_i == cgs.sbInfo->n_instrs); |
| |
| if (DEBUG_CG) { |
| VG_(printf)( "goto {"); |
| ppIRJumpKind(sbIn->jumpkind); |
| VG_(printf)( "} "); |
| ppIRExpr( sbIn->next ); |
| VG_(printf)( "}\n"); |
| } |
| |
| return cgs.sbOut; |
| } |
| |
| /*------------------------------------------------------------*/ |
| /*--- Cache configuration ---*/ |
| /*------------------------------------------------------------*/ |
| |
| #define UNDEFINED_CACHE { -1, -1, -1 } |
| |
| static cache_t clo_I1_cache = UNDEFINED_CACHE; |
| static cache_t clo_D1_cache = UNDEFINED_CACHE; |
| static cache_t clo_LL_cache = UNDEFINED_CACHE; |
| |
| /*------------------------------------------------------------*/ |
| /*--- cg_fini() and related function ---*/ |
| /*------------------------------------------------------------*/ |
| |
| // Total reads/writes/misses. Calculated during CC traversal at the end. |
| // All auto-zeroed. |
| static CacheCC Ir_total; |
| static CacheCC Dr_total; |
| static CacheCC Dw_total; |
| static BranchCC Bc_total; |
| static BranchCC Bi_total; |
| |
| static void fprint_CC_table_and_calc_totals(void) |
| { |
| Int i, fd; |
| SysRes sres; |
| Char buf[512], *currFile = NULL, *currFn = NULL; |
| LineCC* lineCC; |
| |
| // Setup output filename. Nb: it's important to do this now, ie. as late |
| // as possible. If we do it at start-up and the program forks and the |
| // output file format string contains a %p (pid) specifier, both the |
| // parent and child will incorrectly write to the same file; this |
| // happened in 3.3.0. |
| Char* cachegrind_out_file = |
| VG_(expand_file_name)("--cachegrind-out-file", clo_cachegrind_out_file); |
| |
| sres = VG_(open)(cachegrind_out_file, VKI_O_CREAT|VKI_O_TRUNC|VKI_O_WRONLY, |
| VKI_S_IRUSR|VKI_S_IWUSR); |
| if (sr_isError(sres)) { |
| // If the file can't be opened for whatever reason (conflict |
| // between multiple cachegrinded processes?), give up now. |
| VG_(umsg)("error: can't open cache simulation output file '%s'\n", |
| cachegrind_out_file ); |
| VG_(umsg)(" ... so simulation results will be missing.\n"); |
| VG_(free)(cachegrind_out_file); |
| return; |
| } else { |
| fd = sr_Res(sres); |
| VG_(free)(cachegrind_out_file); |
| } |
| |
| // "desc:" lines (giving I1/D1/LL cache configuration). The spaces after |
| // the 2nd colon makes cg_annotate's output look nicer. |
| VG_(sprintf)(buf, "desc: I1 cache: %s\n" |
| "desc: D1 cache: %s\n" |
| "desc: LL cache: %s\n", |
| I1.desc_line, D1.desc_line, LL.desc_line); |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| |
| // "cmd:" line |
| VG_(strcpy)(buf, "cmd:"); |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| if (VG_(args_the_exename)) { |
| VG_(write)(fd, " ", 1); |
| VG_(write)(fd, VG_(args_the_exename), |
| VG_(strlen)( VG_(args_the_exename) )); |
| } |
| for (i = 0; i < VG_(sizeXA)( VG_(args_for_client) ); i++) { |
| HChar* arg = * (HChar**) VG_(indexXA)( VG_(args_for_client), i ); |
| if (arg) { |
| VG_(write)(fd, " ", 1); |
| VG_(write)(fd, arg, VG_(strlen)( arg )); |
| } |
| } |
| // "events:" line |
| if (clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "\nevents: Ir I1mr ILmr Dr D1mr DLmr Dw D1mw DLmw " |
| "Bc Bcm Bi Bim\n"); |
| } |
| else if (clo_cache_sim && !clo_branch_sim) { |
| VG_(sprintf)(buf, "\nevents: Ir I1mr ILmr Dr D1mr DLmr Dw D1mw DLmw " |
| "\n"); |
| } |
| else if (!clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "\nevents: Ir " |
| "Bc Bcm Bi Bim\n"); |
| } |
| else { |
| VG_(sprintf)(buf, "\nevents: Ir\n"); |
| } |
| |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| |
| // Traverse every lineCC |
| VG_(OSetGen_ResetIter)(CC_table); |
| while ( (lineCC = VG_(OSetGen_Next)(CC_table)) ) { |
| Bool just_hit_a_new_file = False; |
| // If we've hit a new file, print a "fl=" line. Note that because |
| // each string is stored exactly once in the string table, we can use |
| // pointer comparison rather than strcmp() to test for equality, which |
| // is good because most of the time the comparisons are equal and so |
| // the whole strings would have to be checked. |
| if ( lineCC->loc.file != currFile ) { |
| currFile = lineCC->loc.file; |
| VG_(sprintf)(buf, "fl=%s\n", currFile); |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| distinct_files++; |
| just_hit_a_new_file = True; |
| } |
| // If we've hit a new function, print a "fn=" line. We know to do |
| // this when the function name changes, and also every time we hit a |
| // new file (in which case the new function name might be the same as |
| // in the old file, hence the just_hit_a_new_file test). |
| if ( just_hit_a_new_file || lineCC->loc.fn != currFn ) { |
| currFn = lineCC->loc.fn; |
| VG_(sprintf)(buf, "fn=%s\n", currFn); |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| distinct_fns++; |
| } |
| |
| // Print the LineCC |
| if (clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "%u %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu %llu\n", |
| lineCC->loc.line, |
| lineCC->Ir.a, lineCC->Ir.m1, lineCC->Ir.mL, |
| lineCC->Dr.a, lineCC->Dr.m1, lineCC->Dr.mL, |
| lineCC->Dw.a, lineCC->Dw.m1, lineCC->Dw.mL, |
| lineCC->Bc.b, lineCC->Bc.mp, |
| lineCC->Bi.b, lineCC->Bi.mp); |
| } |
| else if (clo_cache_sim && !clo_branch_sim) { |
| VG_(sprintf)(buf, "%u %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu\n", |
| lineCC->loc.line, |
| lineCC->Ir.a, lineCC->Ir.m1, lineCC->Ir.mL, |
| lineCC->Dr.a, lineCC->Dr.m1, lineCC->Dr.mL, |
| lineCC->Dw.a, lineCC->Dw.m1, lineCC->Dw.mL); |
| } |
| else if (!clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "%u %llu" |
| " %llu %llu %llu %llu\n", |
| lineCC->loc.line, |
| lineCC->Ir.a, |
| lineCC->Bc.b, lineCC->Bc.mp, |
| lineCC->Bi.b, lineCC->Bi.mp); |
| } |
| else { |
| VG_(sprintf)(buf, "%u %llu\n", |
| lineCC->loc.line, |
| lineCC->Ir.a); |
| } |
| |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| |
| // Update summary stats |
| Ir_total.a += lineCC->Ir.a; |
| Ir_total.m1 += lineCC->Ir.m1; |
| Ir_total.mL += lineCC->Ir.mL; |
| Dr_total.a += lineCC->Dr.a; |
| Dr_total.m1 += lineCC->Dr.m1; |
| Dr_total.mL += lineCC->Dr.mL; |
| Dw_total.a += lineCC->Dw.a; |
| Dw_total.m1 += lineCC->Dw.m1; |
| Dw_total.mL += lineCC->Dw.mL; |
| Bc_total.b += lineCC->Bc.b; |
| Bc_total.mp += lineCC->Bc.mp; |
| Bi_total.b += lineCC->Bi.b; |
| Bi_total.mp += lineCC->Bi.mp; |
| |
| distinct_lines++; |
| } |
| |
| // Summary stats must come after rest of table, since we calculate them |
| // during traversal. */ |
| if (clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "summary:" |
| " %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu %llu\n", |
| Ir_total.a, Ir_total.m1, Ir_total.mL, |
| Dr_total.a, Dr_total.m1, Dr_total.mL, |
| Dw_total.a, Dw_total.m1, Dw_total.mL, |
| Bc_total.b, Bc_total.mp, |
| Bi_total.b, Bi_total.mp); |
| } |
| else if (clo_cache_sim && !clo_branch_sim) { |
| VG_(sprintf)(buf, "summary:" |
| " %llu %llu %llu" |
| " %llu %llu %llu" |
| " %llu %llu %llu\n", |
| Ir_total.a, Ir_total.m1, Ir_total.mL, |
| Dr_total.a, Dr_total.m1, Dr_total.mL, |
| Dw_total.a, Dw_total.m1, Dw_total.mL); |
| } |
| else if (!clo_cache_sim && clo_branch_sim) { |
| VG_(sprintf)(buf, "summary:" |
| " %llu" |
| " %llu %llu %llu %llu\n", |
| Ir_total.a, |
| Bc_total.b, Bc_total.mp, |
| Bi_total.b, Bi_total.mp); |
| } |
| else { |
| VG_(sprintf)(buf, "summary:" |
| " %llu\n", |
| Ir_total.a); |
| } |
| |
| VG_(write)(fd, (void*)buf, VG_(strlen)(buf)); |
| VG_(close)(fd); |
| } |
| |
| static UInt ULong_width(ULong n) |
| { |
| UInt w = 0; |
| while (n > 0) { |
| n = n / 10; |
| w++; |
| } |
| if (w == 0) w = 1; |
| return w + (w-1)/3; // add space for commas |
| } |
| |
| static void cg_fini(Int exitcode) |
| { |
| static Char buf1[128], buf2[128], buf3[128], buf4[123], fmt[128]; |
| |
| CacheCC D_total; |
| BranchCC B_total; |
| ULong LL_total_m, LL_total_mr, LL_total_mw, |
| LL_total, LL_total_r, LL_total_w; |
| Int l1, l2, l3; |
| |
| fprint_CC_table_and_calc_totals(); |
| |
| if (VG_(clo_verbosity) == 0) |
| return; |
| |
| // Nb: this isn't called "MAX" because that overshadows a global on Darwin. |
| #define CG_MAX(a, b) ((a) >= (b) ? (a) : (b)) |
| |
| /* I cache results. Use the I_refs value to determine the first column |
| * width. */ |
| l1 = ULong_width(Ir_total.a); |
| l2 = ULong_width(CG_MAX(Dr_total.a, Bc_total.b)); |
| l3 = ULong_width(CG_MAX(Dw_total.a, Bi_total.b)); |
| |
| /* Make format string, getting width right for numbers */ |
| VG_(sprintf)(fmt, "%%s %%,%dllu\n", l1); |
| |
| /* Always print this */ |
| VG_(umsg)(fmt, "I refs: ", Ir_total.a); |
| |
| /* If cache profiling is enabled, show D access numbers and all |
| miss numbers */ |
| if (clo_cache_sim) { |
| VG_(umsg)(fmt, "I1 misses: ", Ir_total.m1); |
| VG_(umsg)(fmt, "LLi misses: ", Ir_total.mL); |
| |
| if (0 == Ir_total.a) Ir_total.a = 1; |
| VG_(percentify)(Ir_total.m1, Ir_total.a, 2, l1+1, buf1); |
| VG_(umsg)("I1 miss rate: %s\n", buf1); |
| |
| VG_(percentify)(Ir_total.mL, Ir_total.a, 2, l1+1, buf1); |
| VG_(umsg)("LLi miss rate: %s\n", buf1); |
| VG_(umsg)("\n"); |
| |
| /* D cache results. Use the D_refs.rd and D_refs.wr values to |
| * determine the width of columns 2 & 3. */ |
| D_total.a = Dr_total.a + Dw_total.a; |
| D_total.m1 = Dr_total.m1 + Dw_total.m1; |
| D_total.mL = Dr_total.mL + Dw_total.mL; |
| |
| /* Make format string, getting width right for numbers */ |
| VG_(sprintf)(fmt, "%%s %%,%dllu (%%,%dllu rd + %%,%dllu wr)\n", |
| l1, l2, l3); |
| |
| VG_(umsg)(fmt, "D refs: ", |
| D_total.a, Dr_total.a, Dw_total.a); |
| VG_(umsg)(fmt, "D1 misses: ", |
| D_total.m1, Dr_total.m1, Dw_total.m1); |
| VG_(umsg)(fmt, "LLd misses: ", |
| D_total.mL, Dr_total.mL, Dw_total.mL); |
| |
| if (0 == D_total.a) D_total.a = 1; |
| if (0 == Dr_total.a) Dr_total.a = 1; |
| if (0 == Dw_total.a) Dw_total.a = 1; |
| VG_(percentify)( D_total.m1, D_total.a, 1, l1+1, buf1); |
| VG_(percentify)(Dr_total.m1, Dr_total.a, 1, l2+1, buf2); |
| VG_(percentify)(Dw_total.m1, Dw_total.a, 1, l3+1, buf3); |
| VG_(umsg)("D1 miss rate: %s (%s + %s )\n", buf1, buf2,buf3); |
| |
| VG_(percentify)( D_total.mL, D_total.a, 1, l1+1, buf1); |
| VG_(percentify)(Dr_total.mL, Dr_total.a, 1, l2+1, buf2); |
| VG_(percentify)(Dw_total.mL, Dw_total.a, 1, l3+1, buf3); |
| VG_(umsg)("LLd miss rate: %s (%s + %s )\n", buf1, buf2,buf3); |
| VG_(umsg)("\n"); |
| |
| /* LL overall results */ |
| |
| LL_total = Dr_total.m1 + Dw_total.m1 + Ir_total.m1; |
| LL_total_r = Dr_total.m1 + Ir_total.m1; |
| LL_total_w = Dw_total.m1; |
| VG_(umsg)(fmt, "LL refs: ", |
| LL_total, LL_total_r, LL_total_w); |
| |
| LL_total_m = Dr_total.mL + Dw_total.mL + Ir_total.mL; |
| LL_total_mr = Dr_total.mL + Ir_total.mL; |
| LL_total_mw = Dw_total.mL; |
| VG_(umsg)(fmt, "LL misses: ", |
| LL_total_m, LL_total_mr, LL_total_mw); |
| |
| VG_(percentify)(LL_total_m, (Ir_total.a + D_total.a), 1, l1+1, buf1); |
| VG_(percentify)(LL_total_mr, (Ir_total.a + Dr_total.a), 1, l2+1, buf2); |
| VG_(percentify)(LL_total_mw, Dw_total.a, 1, l3+1, buf3); |
| VG_(umsg)("LL miss rate: %s (%s + %s )\n", buf1, buf2,buf3); |
| } |
| |
| /* If branch profiling is enabled, show branch overall results. */ |
| if (clo_branch_sim) { |
| /* Make format string, getting width right for numbers */ |
| VG_(sprintf)(fmt, "%%s %%,%dllu (%%,%dllu cond + %%,%dllu ind)\n", |
| l1, l2, l3); |
| |
| if (0 == Bc_total.b) Bc_total.b = 1; |
| if (0 == Bi_total.b) Bi_total.b = 1; |
| B_total.b = Bc_total.b + Bi_total.b; |
| B_total.mp = Bc_total.mp + Bi_total.mp; |
| |
| VG_(umsg)("\n"); |
| VG_(umsg)(fmt, "Branches: ", |
| B_total.b, Bc_total.b, Bi_total.b); |
| |
| VG_(umsg)(fmt, "Mispredicts: ", |
| B_total.mp, Bc_total.mp, Bi_total.mp); |
| |
| VG_(percentify)(B_total.mp, B_total.b, 1, l1+1, buf1); |
| VG_(percentify)(Bc_total.mp, Bc_total.b, 1, l2+1, buf2); |
| VG_(percentify)(Bi_total.mp, Bi_total.b, 1, l3+1, buf3); |
| |
| VG_(umsg)("Mispred rate: %s (%s + %s )\n", buf1, buf2,buf3); |
| } |
| |
| // Various stats |
| if (VG_(clo_stats)) { |
| Int debug_lookups = full_debugs + fn_debugs + |
| file_line_debugs + no_debugs; |
| |
| VG_(dmsg)("\n"); |
| VG_(dmsg)("cachegrind: distinct files: %d\n", distinct_files); |
| VG_(dmsg)("cachegrind: distinct fns: %d\n", distinct_fns); |
| VG_(dmsg)("cachegrind: distinct lines: %d\n", distinct_lines); |
| VG_(dmsg)("cachegrind: distinct instrs:%d\n", distinct_instrs); |
| VG_(dmsg)("cachegrind: debug lookups : %d\n", debug_lookups); |
| |
| VG_(percentify)(full_debugs, debug_lookups, 1, 6, buf1); |
| VG_(percentify)(file_line_debugs, debug_lookups, 1, 6, buf2); |
| VG_(percentify)(fn_debugs, debug_lookups, 1, 6, buf3); |
| VG_(percentify)(no_debugs, debug_lookups, 1, 6, buf4); |
| VG_(dmsg)("cachegrind: with full info:%s (%d)\n", |
| buf1, full_debugs); |
| VG_(dmsg)("cachegrind: with file/line info:%s (%d)\n", |
| buf2, file_line_debugs); |
| VG_(dmsg)("cachegrind: with fn name info:%s (%d)\n", |
| buf3, fn_debugs); |
| VG_(dmsg)("cachegrind: with zero info:%s (%d)\n", |
| buf4, no_debugs); |
| |
| VG_(dmsg)("cachegrind: string table size: %lu\n", |
| VG_(OSetGen_Size)(stringTable)); |
| VG_(dmsg)("cachegrind: CC table size: %lu\n", |
| VG_(OSetGen_Size)(CC_table)); |
| VG_(dmsg)("cachegrind: InstrInfo table size: %lu\n", |
| VG_(OSetGen_Size)(instrInfoTable)); |
| } |
| } |
| |
| /*--------------------------------------------------------------------*/ |
| /*--- Discarding BB info ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| // Called when a translation is removed from the translation cache for |
| // any reason at all: to free up space, because the guest code was |
| // unmapped or modified, or for any arbitrary reason. |
| static |
| void cg_discard_superblock_info ( Addr64 orig_addr64, VexGuestExtents vge ) |
| { |
| SB_info* sbInfo; |
| Addr orig_addr = (Addr)vge.base[0]; |
| |
| tl_assert(vge.n_used > 0); |
| |
| if (DEBUG_CG) |
| VG_(printf)( "discard_basic_block_info: %p, %p, %llu\n", |
| (void*)(Addr)orig_addr, |
| (void*)(Addr)vge.base[0], (ULong)vge.len[0]); |
| |
| // Get BB info, remove from table, free BB info. Simple! Note that we |
| // use orig_addr, not the first instruction address in vge. |
| sbInfo = VG_(OSetGen_Remove)(instrInfoTable, &orig_addr); |
| tl_assert(NULL != sbInfo); |
| VG_(OSetGen_FreeNode)(instrInfoTable, sbInfo); |
| } |
| |
| /*--------------------------------------------------------------------*/ |
| /*--- Command line processing ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| static Bool cg_process_cmd_line_option(Char* arg) |
| { |
| if (VG_(str_clo_cache_opt)(arg, |
| &clo_I1_cache, |
| &clo_D1_cache, |
| &clo_LL_cache)) {} |
| |
| else if VG_STR_CLO( arg, "--cachegrind-out-file", clo_cachegrind_out_file) {} |
| else if VG_BOOL_CLO(arg, "--cache-sim", clo_cache_sim) {} |
| else if VG_BOOL_CLO(arg, "--branch-sim", clo_branch_sim) {} |
| else |
| return False; |
| |
| return True; |
| } |
| |
| static void cg_print_usage(void) |
| { |
| VG_(print_cache_clo_opts)(); |
| VG_(printf)( |
| " --cache-sim=yes|no [yes] collect cache stats?\n" |
| " --branch-sim=yes|no [no] collect branch prediction stats?\n" |
| " --cachegrind-out-file=<file> output file name [cachegrind.out.%%p]\n" |
| ); |
| } |
| |
| static void cg_print_debug_usage(void) |
| { |
| VG_(printf)( |
| " (none)\n" |
| ); |
| } |
| |
| /*--------------------------------------------------------------------*/ |
| /*--- Setup ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| static void cg_post_clo_init(void); /* just below */ |
| |
| static void cg_pre_clo_init(void) |
| { |
| VG_(details_name) ("Cachegrind"); |
| VG_(details_version) (NULL); |
| VG_(details_description) ("a cache and branch-prediction profiler"); |
| VG_(details_copyright_author)( |
| "Copyright (C) 2002-2011, and GNU GPL'd, by Nicholas Nethercote et al."); |
| VG_(details_bug_reports_to) (VG_BUGS_TO); |
| VG_(details_avg_translation_sizeB) ( 500 ); |
| |
| VG_(basic_tool_funcs) (cg_post_clo_init, |
| cg_instrument, |
| cg_fini); |
| |
| VG_(needs_superblock_discards)(cg_discard_superblock_info); |
| VG_(needs_command_line_options)(cg_process_cmd_line_option, |
| cg_print_usage, |
| cg_print_debug_usage); |
| } |
| |
| static void cg_post_clo_init(void) |
| { |
| cache_t I1c, D1c, LLc; |
| |
| CC_table = |
| VG_(OSetGen_Create)(offsetof(LineCC, loc), |
| cmp_CodeLoc_LineCC, |
| VG_(malloc), "cg.main.cpci.1", |
| VG_(free)); |
| instrInfoTable = |
| VG_(OSetGen_Create)(/*keyOff*/0, |
| NULL, |
| VG_(malloc), "cg.main.cpci.2", |
| VG_(free)); |
| stringTable = |
| VG_(OSetGen_Create)(/*keyOff*/0, |
| stringCmp, |
| VG_(malloc), "cg.main.cpci.3", |
| VG_(free)); |
| |
| VG_(post_clo_init_configure_caches)(&I1c, &D1c, &LLc, |
| &clo_I1_cache, |
| &clo_D1_cache, |
| &clo_LL_cache); |
| |
| cachesim_I1_initcache(I1c); |
| cachesim_D1_initcache(D1c); |
| cachesim_LL_initcache(LLc); |
| } |
| |
| VG_DETERMINE_INTERFACE_VERSION(cg_pre_clo_init) |
| |
| /*--------------------------------------------------------------------*/ |
| /*--- end ---*/ |
| /*--------------------------------------------------------------------*/ |
| |