blob: 27257019f4ae4b7a34ca411e55f83081694dae24 [file] [log] [blame]
/*--------------------------------------------------------------------*/
/*--- Callgrind ---*/
/*--- dump.c ---*/
/*--------------------------------------------------------------------*/
/*
This file is part of Callgrind, a Valgrind tool for call tracing.
Copyright (C) 2002-2008, Josef Weidendorfer (Josef.Weidendorfer@gmx.de)
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 "config.h"
#include "global.h"
#include <pub_tool_threadstate.h>
#include <pub_tool_libcfile.h>
/* Dump Part Counter */
static Int out_counter = 0;
static Char* out_file = 0;
static Char* out_directory = 0;
static Bool dumps_initialized = False;
/* Command */
static Char cmdbuf[BUF_LEN];
/* Total reads/writes/misses sum over all dumps and threads.
* Updated during CC traversal at dump time.
*/
FullCost CLG_(total_cost) = 0;
static FullCost dump_total_cost = 0;
EventMapping* CLG_(dumpmap) = 0;
/* Temporary output buffer for
* print_fn_pos, fprint_apos, fprint_fcost, fprint_jcc,
* fprint_fcc_ln, dump_run_info, dump_state_info
*/
static Char outbuf[FILENAME_LEN + FN_NAME_LEN + OBJ_NAME_LEN];
Int CLG_(get_dump_counter)(void)
{
return out_counter;
}
Char* CLG_(get_out_file)()
{
CLG_(init_dumps)();
return out_file;
}
Char* CLG_(get_out_directory)()
{
CLG_(init_dumps)();
return out_directory;
}
/*------------------------------------------------------------*/
/*--- Output file related stuff ---*/
/*------------------------------------------------------------*/
/* Boolean dumping array */
static Bool* dump_array = 0;
static Int dump_array_size = 0;
static Bool* obj_dumped = 0;
static Bool* file_dumped = 0;
static Bool* fn_dumped = 0;
static Bool* cxt_dumped = 0;
static
void reset_dump_array(void)
{
int i;
CLG_ASSERT(dump_array != 0);
for(i=0;i<dump_array_size;i++)
dump_array[i] = False;
}
static
void init_dump_array(void)
{
dump_array_size = CLG_(stat).distinct_objs +
CLG_(stat).distinct_files +
CLG_(stat).distinct_fns +
CLG_(stat).context_counter;
CLG_ASSERT(dump_array == 0);
dump_array = (Bool*) CLG_MALLOC("cl.dump.ida.1",
dump_array_size * sizeof(Bool));
obj_dumped = dump_array;
file_dumped = obj_dumped + CLG_(stat).distinct_objs;
fn_dumped = file_dumped + CLG_(stat).distinct_files;
cxt_dumped = fn_dumped + CLG_(stat).distinct_fns;
reset_dump_array();
CLG_DEBUG(1, " init_dump_array: size %d\n", dump_array_size);
}
static __inline__
void free_dump_array(void)
{
CLG_ASSERT(dump_array != 0);
VG_(free)(dump_array);
dump_array = 0;
obj_dumped = 0;
file_dumped = 0;
fn_dumped = 0;
cxt_dumped = 0;
}
/* Initialize to an invalid position */
static __inline__
void init_fpos(FnPos* p)
{
p->file = 0;
p->fn = 0;
p->obj = 0;
p->cxt = 0;
p->rec_index = 0;
}
#if 0
static __inline__
static void my_fwrite(Int fd, Char* buf, Int len)
{
VG_(write)(fd, (void*)buf, len);
}
#else
#define FWRITE_BUFSIZE 32000
#define FWRITE_THROUGH 10000
static Char fwrite_buf[FWRITE_BUFSIZE];
static Int fwrite_pos;
static Int fwrite_fd = -1;
static __inline__
void fwrite_flush(void)
{
if ((fwrite_fd>=0) && (fwrite_pos>0))
VG_(write)(fwrite_fd, (void*)fwrite_buf, fwrite_pos);
fwrite_pos = 0;
}
static void my_fwrite(Int fd, Char* buf, Int len)
{
if (fwrite_fd != fd) {
fwrite_flush();
fwrite_fd = fd;
}
if (len > FWRITE_THROUGH) {
fwrite_flush();
VG_(write)(fd, (void*)buf, len);
return;
}
if (FWRITE_BUFSIZE - fwrite_pos <= len) fwrite_flush();
VG_(strncpy)(fwrite_buf + fwrite_pos, buf, len);
fwrite_pos += len;
}
#endif
static void print_obj(Char* buf, obj_node* obj)
{
int n;
if (CLG_(clo).compress_strings) {
CLG_ASSERT(obj_dumped != 0);
if (obj_dumped[obj->number])
n = VG_(sprintf)(buf, "(%d)\n", obj->number);
else {
n = VG_(sprintf)(buf, "(%d) %s\n",
obj->number, obj->name);
}
}
else
n = VG_(sprintf)(buf, "%s\n", obj->name);
#if 0
/* add mapping parameters the first time a object is dumped
* format: mp=0xSTART SIZE 0xOFFSET */
if (!obj_dumped[obj->number]) {
obj_dumped[obj->number];
VG_(sprintf)(buf+n, "mp=%p %p %p\n",
pos->obj->start, pos->obj->size, pos->obj->offset);
}
#else
obj_dumped[obj->number] = True;
#endif
}
static void print_file(Char* buf, file_node* file)
{
if (CLG_(clo).compress_strings) {
CLG_ASSERT(file_dumped != 0);
if (file_dumped[file->number])
VG_(sprintf)(buf, "(%d)\n", file->number);
else {
VG_(sprintf)(buf, "(%d) %s\n",
file->number, file->name);
file_dumped[file->number] = True;
}
}
else
VG_(sprintf)(buf, "%s\n", file->name);
}
/*
* tag can be "fn", "cfn", "jfn"
*/
static void print_fn(Int fd, Char* buf, Char* tag, fn_node* fn)
{
int p;
p = VG_(sprintf)(buf, "%s=",tag);
if (CLG_(clo).compress_strings) {
CLG_ASSERT(fn_dumped != 0);
if (fn_dumped[fn->number])
p += VG_(sprintf)(buf+p, "(%d)\n", fn->number);
else {
p += VG_(sprintf)(buf+p, "(%d) %s\n",
fn->number, fn->name);
fn_dumped[fn->number] = True;
}
}
else
p += VG_(sprintf)(buf+p, "%s\n", fn->name);
my_fwrite(fd, buf, p);
}
static void print_mangled_fn(Int fd, Char* buf, Char* tag,
Context* cxt, int rec_index)
{
int p, i;
if (CLG_(clo).compress_strings && CLG_(clo).compress_mangled) {
int n;
Context* last;
CLG_ASSERT(cxt_dumped != 0);
if (cxt_dumped[cxt->base_number+rec_index]) {
p = VG_(sprintf)(buf, "%s=(%d)\n",
tag, cxt->base_number + rec_index);
my_fwrite(fd, buf, p);
return;
}
last = 0;
/* make sure that for all context parts compressed data is written */
for(i=cxt->size;i>0;i--) {
CLG_ASSERT(cxt->fn[i-1]->pure_cxt != 0);
n = cxt->fn[i-1]->pure_cxt->base_number;
if (cxt_dumped[n]) continue;
p = VG_(sprintf)(buf, "%s=(%d) %s\n",
tag, n, cxt->fn[i-1]->name);
my_fwrite(fd, buf, p);
cxt_dumped[n] = True;
last = cxt->fn[i-1]->pure_cxt;
}
/* If the last context was the context to print, we are finished */
if ((last == cxt) && (rec_index == 0)) return;
p = VG_(sprintf)(buf, "%s=(%d) (%d)", tag,
cxt->base_number + rec_index,
cxt->fn[0]->pure_cxt->base_number);
if (rec_index >0)
p += VG_(sprintf)(buf+p, "'%d", rec_index +1);
for(i=1;i<cxt->size;i++)
p += VG_(sprintf)(buf+p, "'(%d)",
cxt->fn[i]->pure_cxt->base_number);
p += VG_(sprintf)(buf+p, "\n");
my_fwrite(fd, buf, p);
cxt_dumped[cxt->base_number+rec_index] = True;
return;
}
p = VG_(sprintf)(buf, "%s=", tag);
if (CLG_(clo).compress_strings) {
CLG_ASSERT(cxt_dumped != 0);
if (cxt_dumped[cxt->base_number+rec_index]) {
p += VG_(sprintf)(buf+p, "(%d)\n", cxt->base_number + rec_index);
my_fwrite(fd, buf, p);
return;
}
else {
p += VG_(sprintf)(buf+p, "(%d) ", cxt->base_number + rec_index);
cxt_dumped[cxt->base_number+rec_index] = True;
}
}
p += VG_(sprintf)(buf+p, "%s", cxt->fn[0]->name);
if (rec_index >0)
p += VG_(sprintf)(buf+p, "'%d", rec_index +1);
for(i=1;i<cxt->size;i++)
p += VG_(sprintf)(buf+p, "'%s", cxt->fn[i]->name);
p += VG_(sprintf)(buf+p, "\n");
my_fwrite(fd, buf, p);
}
/**
* Print function position of the BBCC, but only print info differing to
* the <last> position, update <last>
* Return True if something changes.
*/
static Bool print_fn_pos(int fd, FnPos* last, BBCC* bbcc)
{
Bool res = False;
CLG_DEBUGIF(3) {
CLG_DEBUG(2, "+ print_fn_pos: ");
CLG_(print_cxt)(16, bbcc->cxt, bbcc->rec_index);
}
if (!CLG_(clo).mangle_names) {
if (last->rec_index != bbcc->rec_index) {
VG_(sprintf)(outbuf, "rec=%d\n\n", bbcc->rec_index);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
last->rec_index = bbcc->rec_index;
last->cxt = 0; /* reprint context */
res = True;
}
if (last->cxt != bbcc->cxt) {
fn_node* last_from = (last->cxt && last->cxt->size>1) ?
last->cxt->fn[1] : 0;
fn_node* curr_from = (bbcc->cxt && bbcc->cxt->size>1) ?
bbcc->cxt->fn[1] : 0;
if (curr_from == 0) {
if (last_from != 0) {
/* switch back to no context */
VG_(sprintf)(outbuf, "frfn=(spontaneous)\n");
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
res = True;
}
}
else if (last_from != curr_from) {
print_fn(fd,outbuf,"frfn", curr_from);
res = True;
}
last->cxt = bbcc->cxt;
}
}
if (last->obj != bbcc->cxt->fn[0]->file->obj) {
VG_(sprintf)(outbuf, "ob=");
print_obj(outbuf+3, bbcc->cxt->fn[0]->file->obj);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
last->obj = bbcc->cxt->fn[0]->file->obj;
res = True;
}
if (last->file != bbcc->cxt->fn[0]->file) {
VG_(sprintf)(outbuf, "fl=");
print_file(outbuf+3, bbcc->cxt->fn[0]->file);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
last->file = bbcc->cxt->fn[0]->file;
res = True;
}
if (!CLG_(clo).mangle_names) {
if (last->fn != bbcc->cxt->fn[0]) {
print_fn(fd,outbuf, "fn", bbcc->cxt->fn[0]);
last->fn = bbcc->cxt->fn[0];
res = True;
}
}
else {
/* Print mangled name if context or rec_index changes */
if ((last->rec_index != bbcc->rec_index) ||
(last->cxt != bbcc->cxt)) {
print_mangled_fn(fd, outbuf, "fn", bbcc->cxt, bbcc->rec_index);
last->fn = bbcc->cxt->fn[0];
last->rec_index = bbcc->rec_index;
res = True;
}
}
last->cxt = bbcc->cxt;
CLG_DEBUG(2, "- print_fn_pos: %s\n", res ? "changed" : "");
return res;
}
/* the debug lookup cache is useful if BBCC for same BB are
* dumped directly in a row. This is a direct mapped cache.
*/
#define DEBUG_CACHE_SIZE 1777
static Addr debug_cache_addr[DEBUG_CACHE_SIZE];
static file_node* debug_cache_file[DEBUG_CACHE_SIZE];
static int debug_cache_line[DEBUG_CACHE_SIZE];
static Bool debug_cache_info[DEBUG_CACHE_SIZE];
static __inline__
void init_debug_cache(void)
{
int i;
for(i=0;i<DEBUG_CACHE_SIZE;i++) {
debug_cache_addr[i] = 0;
debug_cache_file[i] = 0;
debug_cache_line[i] = 0;
debug_cache_info[i] = 0;
}
}
static /* __inline__ */
Bool get_debug_pos(BBCC* bbcc, Addr addr, AddrPos* p)
{
Char file[FILENAME_LEN];
Char dir[FILENAME_LEN];
Bool found_file_line, found_dirname;
int cachepos = addr % DEBUG_CACHE_SIZE;
if (debug_cache_addr[cachepos] == addr) {
p->line = debug_cache_line[cachepos];
p->file = debug_cache_file[cachepos];
found_file_line = debug_cache_info[cachepos];
}
else {
found_file_line = VG_(get_filename_linenum)(addr,
file, FILENAME_LEN,
dir, FILENAME_LEN,
&found_dirname,
&(p->line));
if (!found_file_line) {
VG_(strcpy)(file, "???");
p->line = 0;
}
if (found_dirname) {
// +1 for the '/'.
CLG_ASSERT(VG_(strlen)(dir) + VG_(strlen)(file) + 1 < FILENAME_LEN);
VG_(strcat)(dir, "/"); // Append '/'
VG_(strcat)(dir, file); // Append file to dir
VG_(strcpy)(file, dir); // Move dir+file to file
}
p->file = CLG_(get_file_node)(bbcc->bb->obj, file);
debug_cache_info[cachepos] = found_file_line;
debug_cache_addr[cachepos] = addr;
debug_cache_line[cachepos] = p->line;
debug_cache_file[cachepos] = p->file;
}
/* Address offset from bbcc start address */
p->addr = addr - bbcc->bb->obj->offset;
p->bb_addr = bbcc->bb->offset;
CLG_DEBUG(3, " get_debug_pos(%#lx): BB %#lx, fn '%s', file '%s', line %u\n",
addr, bb_addr(bbcc->bb), bbcc->cxt->fn[0]->name,
p->file->name, p->line);
return found_file_line;
}
/* copy file position and init cost */
static void init_apos(AddrPos* p, Addr addr, Addr bbaddr, file_node* file)
{
p->addr = addr;
p->bb_addr = bbaddr;
p->file = file;
p->line = 0;
}
static void copy_apos(AddrPos* dst, AddrPos* src)
{
dst->addr = src->addr;
dst->bb_addr = src->bb_addr;
dst->file = src->file;
dst->line = src->line;
}
/* copy file position and init cost */
static void init_fcost(AddrCost* c, Addr addr, Addr bbaddr, file_node* file)
{
init_apos( &(c->p), addr, bbaddr, file);
/* FIXME: This is a memory leak as a AddrCost is inited multiple times */
c->cost = CLG_(get_eventset_cost)( CLG_(sets).full );
CLG_(init_cost)( CLG_(sets).full, c->cost );
}
/**
* print position change inside of a BB (last -> curr)
* this doesn't update last to curr!
*/
static void fprint_apos(Int fd, AddrPos* curr, AddrPos* last, file_node* func_file)
{
CLG_ASSERT(curr->file != 0);
CLG_DEBUG(2, " print_apos(file '%s', line %d, bb %#lx, addr %#lx) fnFile '%s'\n",
curr->file->name, curr->line, curr->bb_addr, curr->addr,
func_file->name);
if (curr->file != last->file) {
/* if we switch back to orig file, use fe=... */
if (curr->file == func_file)
VG_(sprintf)(outbuf, "fe=");
else
VG_(sprintf)(outbuf, "fi=");
print_file(outbuf+3, curr->file);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
if (CLG_(clo).dump_bbs) {
if (curr->line != last->line) {
VG_(sprintf)(outbuf, "ln=%d\n", curr->line);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
}
}
/**
* Print a position.
* This prints out differences if allowed
*
* This doesn't set last to curr afterwards!
*/
static
void fprint_pos(Int fd, AddrPos* curr, AddrPos* last)
{
if (0) //CLG_(clo).dump_bbs)
VG_(sprintf)(outbuf, "%lu ", curr->addr - curr->bb_addr);
else {
int p = 0;
if (CLG_(clo).dump_instr) {
int diff = curr->addr - last->addr;
if ( CLG_(clo).compress_pos && (last->addr >0) &&
(diff > -100) && (diff < 100)) {
if (diff >0)
p = VG_(sprintf)(outbuf, "+%d ", diff);
else if (diff==0)
p = VG_(sprintf)(outbuf, "* ");
else
p = VG_(sprintf)(outbuf, "%d ", diff);
}
else
p = VG_(sprintf)(outbuf, "%#lx ", curr->addr);
}
if (CLG_(clo).dump_bb) {
int diff = curr->bb_addr - last->bb_addr;
if ( CLG_(clo).compress_pos && (last->bb_addr >0) &&
(diff > -100) && (diff < 100)) {
if (diff >0)
p += VG_(sprintf)(outbuf+p, "+%d ", diff);
else if (diff==0)
p += VG_(sprintf)(outbuf+p, "* ");
else
p += VG_(sprintf)(outbuf+p, "%d ", diff);
}
else
p += VG_(sprintf)(outbuf+p, "%#lx ", curr->bb_addr);
}
if (CLG_(clo).dump_line) {
int diff = curr->line - last->line;
if ( CLG_(clo).compress_pos && (last->line >0) &&
(diff > -100) && (diff < 100)) {
if (diff >0)
VG_(sprintf)(outbuf+p, "+%d ", diff);
else if (diff==0)
VG_(sprintf)(outbuf+p, "* ");
else
VG_(sprintf)(outbuf+p, "%d ", diff);
}
else
VG_(sprintf)(outbuf+p, "%u ", curr->line);
}
}
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
/**
* Print events.
*/
static
void fprint_cost(int fd, EventMapping* es, ULong* cost)
{
int p = CLG_(sprint_mappingcost)(outbuf, es, cost);
VG_(sprintf)(outbuf+p, "\n");
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
return;
}
/* Write the cost of a source line; only that parts of the source
* position are written that changed relative to last written position.
* funcPos is the source position of the first line of actual function.
* Something is written only if cost != 0; returns True in this case.
*/
static void fprint_fcost(Int fd, AddrCost* c, AddrPos* last)
{
CLG_DEBUGIF(3) {
CLG_DEBUG(2, " print_fcost(file '%s', line %d, bb %#lx, addr %#lx):\n",
c->p.file->name, c->p.line, c->p.bb_addr, c->p.addr);
CLG_(print_cost)(-5, CLG_(sets).full, c->cost);
}
fprint_pos(fd, &(c->p), last);
copy_apos( last, &(c->p) ); /* update last to current position */
fprint_cost(fd, CLG_(dumpmap), c->cost);
/* add cost to total */
CLG_(add_and_zero_cost)( CLG_(sets).full, dump_total_cost, c->cost );
}
/* Write out the calls from jcc (at pos)
*/
static void fprint_jcc(Int fd, jCC* jcc, AddrPos* curr, AddrPos* last, ULong ecounter)
{
static AddrPos target;
file_node* file;
obj_node* obj;
CLG_DEBUGIF(2) {
CLG_DEBUG(2, " fprint_jcc (jkind %d)\n", jcc->jmpkind);
CLG_(print_jcc)(-10, jcc);
}
if (!get_debug_pos(jcc->to, bb_addr(jcc->to->bb), &target)) {
/* if we don't have debug info, don't switch to file "???" */
target.file = last->file;
}
if (jcc->from &&
(jcc->jmpkind == JmpCond || jcc->jmpkind == Ijk_Boring)) {
/* this is a JCC for a followed conditional or boring jump. */
CLG_ASSERT(CLG_(is_zero_cost)( CLG_(sets).full, jcc->cost));
/* objects among jumps should be the same.
* Otherwise this jump would have been changed to a call
* (see setup_bbcc)
*/
CLG_ASSERT(jcc->from->bb->obj == jcc->to->bb->obj);
/* only print if target position info is usefull */
if (!CLG_(clo).dump_instr && !CLG_(clo).dump_bb && target.line==0) {
jcc->call_counter = 0;
return;
}
/* Different files/functions are possible e.g. with longjmp's
* which change the stack, and thus context
*/
if (last->file != target.file) {
VG_(sprintf)(outbuf, "jfi=");
print_file(outbuf+4, target.file);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
if (jcc->from->cxt != jcc->to->cxt) {
if (CLG_(clo).mangle_names)
print_mangled_fn(fd, outbuf, "jfn",
jcc->to->cxt, jcc->to->rec_index);
else
print_fn(fd, outbuf, "jfn", jcc->to->cxt->fn[0]);
}
if (jcc->jmpkind == JmpCond) {
/* format: jcnd=<followed>/<executions> <target> */
VG_(sprintf)(outbuf, "jcnd=%llu/%llu ",
jcc->call_counter, ecounter);
}
else {
/* format: jump=<jump count> <target> */
VG_(sprintf)(outbuf, "jump=%llu ",
jcc->call_counter);
}
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
fprint_pos(fd, &target, last);
my_fwrite(fd, "\n", 1);
fprint_pos(fd, curr, last);
my_fwrite(fd, "\n", 1);
jcc->call_counter = 0;
return;
}
CLG_ASSERT(jcc->to !=0);
file = jcc->to->cxt->fn[0]->file;
obj = jcc->to->bb->obj;
/* object of called position different to object of this function?*/
if (jcc->from->cxt->fn[0]->file->obj != obj) {
VG_(sprintf)(outbuf, "cob=");
print_obj(outbuf+4, obj);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
/* file of called position different to current file? */
if (last->file != file) {
VG_(sprintf)(outbuf, "cfi=");
print_file(outbuf+4, file);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
if (CLG_(clo).mangle_names)
print_mangled_fn(fd, outbuf, "cfn", jcc->to->cxt, jcc->to->rec_index);
else
print_fn(fd, outbuf, "cfn", jcc->to->cxt->fn[0]);
if (!CLG_(is_zero_cost)( CLG_(sets).full, jcc->cost)) {
VG_(sprintf)(outbuf, "calls=%llu ",
jcc->call_counter);
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
fprint_pos(fd, &target, last);
my_fwrite(fd, "\n", 1);
fprint_pos(fd, curr, last);
fprint_cost(fd, CLG_(dumpmap), jcc->cost);
CLG_(init_cost)( CLG_(sets).full, jcc->cost );
jcc->call_counter = 0;
}
}
/* Cost summation of functions.We use alternately ccSum[0/1], thus
* ssSum[currSum] for recently read lines with same line number.
*/
static AddrCost ccSum[2];
static int currSum;
/*
* Print all costs of a BBCC:
* - FCCs of instructions
* - JCCs of the unique jump of this BB
* returns True if something was written
*/
static Bool fprint_bbcc(Int fd, BBCC* bbcc, AddrPos* last)
{
InstrInfo* instr_info;
ULong ecounter;
Bool something_written = False;
jCC* jcc;
AddrCost *currCost, *newCost;
Int jcc_count = 0, instr, i, jmp;
BB* bb = bbcc->bb;
CLG_ASSERT(bbcc->cxt != 0);
CLG_DEBUGIF(1) {
VG_(printf)("+ fprint_bbcc (Instr %d): ", bb->instr_count);
CLG_(print_bbcc)(15, bbcc);
}
CLG_ASSERT(currSum == 0 || currSum == 1);
currCost = &(ccSum[currSum]);
newCost = &(ccSum[1-currSum]);
ecounter = bbcc->ecounter_sum;
jmp = 0;
instr_info = &(bb->instr[0]);
for(instr=0; instr<bb->instr_count; instr++, instr_info++) {
/* get debug info of current instruction address and dump cost
* if CLG_(clo).dump_bbs or file/line has changed
*/
if (!get_debug_pos(bbcc, bb_addr(bb) + instr_info->instr_offset,
&(newCost->p))) {
/* if we don't have debug info, don't switch to file "???" */
newCost->p.file = bbcc->cxt->fn[0]->file;
}
if (CLG_(clo).dump_bbs || CLG_(clo).dump_instr ||
(newCost->p.line != currCost->p.line) ||
(newCost->p.file != currCost->p.file)) {
if (!CLG_(is_zero_cost)( CLG_(sets).full, currCost->cost )) {
something_written = True;
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
fprint_fcost(fd, currCost, last);
}
/* switch buffers */
currSum = 1 - currSum;
currCost = &(ccSum[currSum]);
newCost = &(ccSum[1-currSum]);
}
/* add line cost to current cost sum */
(*CLG_(cachesim).add_icost)(currCost->cost, bbcc, instr_info, ecounter);
/* print jcc's if there are: only jumps */
if (bb->jmp[jmp].instr == instr) {
jcc_count=0;
for(jcc=bbcc->jmp[jmp].jcc_list; jcc; jcc=jcc->next_from)
if ((jcc->jmpkind != Ijk_Call) && (jcc->call_counter >0))
jcc_count++;
if (jcc_count>0) {
if (!CLG_(is_zero_cost)( CLG_(sets).full, currCost->cost )) {
/* no need to switch buffers, as position is the same */
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
fprint_fcost(fd, currCost, last);
}
get_debug_pos(bbcc, bb_addr(bb)+instr_info->instr_offset, &(currCost->p));
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
something_written = True;
for(jcc=bbcc->jmp[jmp].jcc_list; jcc; jcc=jcc->next_from) {
if ((jcc->jmpkind != Ijk_Call) && (jcc->call_counter >0))
fprint_jcc(fd, jcc, &(currCost->p), last, ecounter);
}
}
}
/* update execution counter */
if (jmp < bb->cjmp_count)
if (bb->jmp[jmp].instr == instr) {
ecounter -= bbcc->jmp[jmp].ecounter;
jmp++;
}
}
/* jCCs at end? If yes, dump cumulated line info first */
jcc_count = 0;
for(jcc=bbcc->jmp[jmp].jcc_list; jcc; jcc=jcc->next_from) {
/* yes, if JCC only counts jmp arcs or cost >0 */
if ( ((jcc->jmpkind != Ijk_Call) && (jcc->call_counter >0)) ||
(!CLG_(is_zero_cost)( CLG_(sets).full, jcc->cost )))
jcc_count++;
}
if ( (bbcc->skipped &&
!CLG_(is_zero_cost)(CLG_(sets).full, bbcc->skipped)) ||
(jcc_count>0) ) {
if (!CLG_(is_zero_cost)( CLG_(sets).full, currCost->cost )) {
/* no need to switch buffers, as position is the same */
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
fprint_fcost(fd, currCost, last);
}
get_debug_pos(bbcc, bb_jmpaddr(bb), &(currCost->p));
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
something_written = True;
/* first, print skipped costs for calls */
if (bbcc->skipped && !CLG_(is_zero_cost)( CLG_(sets).full,
bbcc->skipped )) {
CLG_(add_and_zero_cost)( CLG_(sets).full,
currCost->cost, bbcc->skipped );
#if 0
VG_(sprintf)(outbuf, "# Skipped\n");
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
#endif
fprint_fcost(fd, currCost, last);
}
if (jcc_count > 0)
for(jcc=bbcc->jmp[jmp].jcc_list; jcc; jcc=jcc->next_from) {
CLG_ASSERT(jcc->jmp == jmp);
if ( ((jcc->jmpkind != Ijk_Call) && (jcc->call_counter >0)) ||
(!CLG_(is_zero_cost)( CLG_(sets).full, jcc->cost )))
fprint_jcc(fd, jcc, &(currCost->p), last, ecounter);
}
}
if (CLG_(clo).dump_bbs || CLG_(clo).dump_bb) {
if (!CLG_(is_zero_cost)( CLG_(sets).full, currCost->cost )) {
something_written = True;
fprint_apos(fd, &(currCost->p), last, bbcc->cxt->fn[0]->file);
fprint_fcost(fd, currCost, last);
}
if (CLG_(clo).dump_bbs) my_fwrite(fd, (void*)"\n", 1);
/* when every cost was immediatly written, we must have done so,
* as this function is only called when there's cost in a BBCC
*/
CLG_ASSERT(something_written);
}
bbcc->ecounter_sum = 0;
for(i=0; i<=bbcc->bb->cjmp_count; i++)
bbcc->jmp[i].ecounter = 0;
bbcc->ret_counter = 0;
CLG_DEBUG(1, "- fprint_bbcc: JCCs %d\n", jcc_count);
return something_written;
}
/* order by
* recursion,
* from->bb->obj, from->bb->fn
* obj, fn[0]->file, fn
* address
*/
static int my_cmp(BBCC** pbbcc1, BBCC** pbbcc2)
{
#if 0
return (*pbbcc1)->bb->offset - (*pbbcc2)->bb->offset;
#else
BBCC *bbcc1 = *pbbcc1;
BBCC *bbcc2 = *pbbcc2;
Context* cxt1 = bbcc1->cxt;
Context* cxt2 = bbcc2->cxt;
int off = 1;
if (cxt1->fn[0]->file->obj != cxt2->fn[0]->file->obj)
return cxt1->fn[0]->file->obj - cxt2->fn[0]->file->obj;
if (cxt1->fn[0]->file != cxt2->fn[0]->file)
return cxt1->fn[0]->file - cxt2->fn[0]->file;
if (cxt1->fn[0] != cxt2->fn[0])
return cxt1->fn[0] - cxt2->fn[0];
if (bbcc1->rec_index != bbcc2->rec_index)
return bbcc1->rec_index - bbcc2->rec_index;
while((off < cxt1->size) && (off < cxt2->size)) {
fn_node* ffn1 = cxt1->fn[off];
fn_node* ffn2 = cxt2->fn[off];
if (ffn1->file->obj != ffn2->file->obj)
return ffn1->file->obj - ffn2->file->obj;
if (ffn1 != ffn2)
return ffn1 - ffn2;
off++;
}
if (cxt1->size > cxt2->size) return 1;
else if (cxt1->size < cxt2->size) return -1;
return bbcc1->bb->offset - bbcc2->bb->offset;
#endif
}
/* modified version of:
*
* qsort -- qsort interface implemented by faster quicksort.
* J. L. Bentley and M. D. McIlroy, SPE 23 (1993) 1249-1265.
* Copyright 1993, John Wiley.
*/
static __inline__
void swapfunc(BBCC** a, BBCC** b, int n)
{
while(n>0) {
BBCC* t = *a; *a = *b; *b = t;
a++, b++;
n--;
}
}
static __inline__
void swap(BBCC** a, BBCC** b)
{
BBCC* t;
t = *a; *a = *b; *b = t;
}
#define min(x, y) ((x)<=(y) ? (x) : (y))
static
BBCC** med3(BBCC **a, BBCC **b, BBCC **c, int (*cmp)(BBCC**,BBCC**))
{ return cmp(a, b) < 0 ?
(cmp(b, c) < 0 ? b : cmp(a, c) < 0 ? c : a)
: (cmp(b, c) > 0 ? b : cmp(a, c) > 0 ? c : a);
}
static BBCC** qsort_start = 0;
static void qsort(BBCC **a, int n, int (*cmp)(BBCC**,BBCC**))
{
BBCC **pa, **pb, **pc, **pd, **pl, **pm, **pn, **pv;
int s, r;
BBCC* v;
CLG_DEBUG(8, " qsort(%ld,%ld)\n", a-qsort_start + 0L, n + 0L);
if (n < 7) { /* Insertion sort on smallest arrays */
for (pm = a+1; pm < a+n; pm++)
for (pl = pm; pl > a && cmp(pl-1, pl) > 0; pl --)
swap(pl, pl-1);
CLG_DEBUGIF(8) {
for (pm = a; pm < a+n; pm++) {
VG_(printf)(" %3ld BB %#lx, ",
pm - qsort_start + 0L,
bb_addr((*pm)->bb));
CLG_(print_cxt)(9, (*pm)->cxt, (*pm)->rec_index);
}
}
return;
}
pm = a + n/2; /* Small arrays, middle element */
if (n > 7) {
pl = a;
pn = a + (n-1);
if (n > 40) { /* Big arrays, pseudomedian of 9 */
s = n/8;
pl = med3(pl, pl+s, pl+2*s, cmp);
pm = med3(pm-s, pm, pm+s, cmp);
pn = med3(pn-2*s, pn-s, pn, cmp);
}
pm = med3(pl, pm, pn, cmp); /* Mid-size, med of 3 */
}
v = *pm;
pv = &v;
pa = pb = a;
pc = pd = a + (n-1);
for (;;) {
while ((pb <= pc) && ((r=cmp(pb, pv)) <= 0)) {
if (r==0) {
/* same as pivot, to start */
swap(pa,pb); pa++;
}
pb ++;
}
while ((pb <= pc) && ((r=cmp(pc, pv)) >= 0)) {
if (r==0) {
/* same as pivot, to end */
swap(pc,pd); pd--;
}
pc --;
}
if (pb > pc) { break; }
swap(pb, pc);
pb ++;
pc --;
}
pb--;
pc++;
/* put pivot from start into middle */
if ((s = pa-a)>0) { for(r=0;r<s;r++) swap(a+r, pb+1-s+r); }
/* put pivot from end into middle */
if ((s = a+n-1-pd)>0) { for(r=0;r<s;r++) swap(pc+r, a+n-s+r); }
CLG_DEBUGIF(8) {
VG_(printf)(" PV BB %#lx, ", bb_addr((*pv)->bb));
CLG_(print_cxt)(9, (*pv)->cxt, (*pv)->rec_index);
s = pb-pa+1;
VG_(printf)(" Lower %ld - %ld:\n",
a-qsort_start + 0L,
a+s-1-qsort_start + 0L);
for (r=0;r<s;r++) {
pm = a+r;
VG_(printf)(" %3ld BB %#lx, ",
pm-qsort_start + 0L,
bb_addr((*pm)->bb));
CLG_(print_cxt)(9, (*pm)->cxt, (*pm)->rec_index);
}
s = pd-pc+1;
VG_(printf)(" Upper %ld - %ld:\n",
a+n-s-qsort_start + 0L,
a+n-1-qsort_start + 0L);
for (r=0;r<s;r++) {
pm = a+n-s+r;
VG_(printf)(" %3ld BB %#lx, ",
pm-qsort_start + 0L,
bb_addr((*pm)->bb));
CLG_(print_cxt)(9, (*pm)->cxt, (*pm)->rec_index);
}
}
if ((s = pb+1-pa) > 1) qsort(a, s, cmp);
if ((s = pd+1-pc) > 1) qsort(a+n-s, s, cmp);
}
/* Helpers for prepare_dump */
static Int prepare_count;
static BBCC** prepare_ptr;
static void hash_addCount(BBCC* bbcc)
{
if ((bbcc->ecounter_sum > 0) || (bbcc->ret_counter>0))
prepare_count++;
}
static void hash_addPtr(BBCC* bbcc)
{
if ((bbcc->ecounter_sum == 0) &&
(bbcc->ret_counter == 0)) return;
*prepare_ptr = bbcc;
prepare_ptr++;
}
static void cs_addCount(thread_info* ti)
{
Int i;
BBCC* bbcc;
/* add BBCCs with active call in call stack of current thread.
* update cost sums for active calls
*/
for(i = 0; i < CLG_(current_call_stack).sp; i++) {
call_entry* e = &(CLG_(current_call_stack).entry[i]);
if (e->jcc == 0) continue;
CLG_(add_diff_cost_lz)( CLG_(sets).full, &(e->jcc->cost),
e->enter_cost, CLG_(current_state).cost);
bbcc = e->jcc->from;
CLG_DEBUG(1, " [%2d] (tid %d), added active: %s\n",
i,CLG_(current_tid),bbcc->cxt->fn[0]->name);
if (bbcc->ecounter_sum>0 || bbcc->ret_counter>0) {
/* already counted */
continue;
}
prepare_count++;
}
}
static void cs_addPtr(thread_info* ti)
{
Int i;
BBCC* bbcc;
/* add BBCCs with active call in call stack of current thread.
* update cost sums for active calls
*/
for(i = 0; i < CLG_(current_call_stack).sp; i++) {
call_entry* e = &(CLG_(current_call_stack).entry[i]);
if (e->jcc == 0) continue;
bbcc = e->jcc->from;
if (bbcc->ecounter_sum>0 || bbcc->ret_counter>0) {
/* already counted */
continue;
}
*prepare_ptr = bbcc;
prepare_ptr++;
}
}
/**
* Put all BBCCs with costs into a sorted array.
* The returned arrays ends with a null pointer.
* Must be freed after dumping.
*/
static
BBCC** prepare_dump(void)
{
BBCC **array;
prepare_count = 0;
/* if we do not separate among threads, this gives all */
/* count number of BBCCs with >0 executions */
CLG_(forall_bbccs)(hash_addCount);
/* even if we do not separate among threads,
* call stacks are separated */
if (CLG_(clo).separate_threads)
cs_addCount(0);
else
CLG_(forall_threads)(cs_addCount);
CLG_DEBUG(0, "prepare_dump: %d BBCCs\n", prepare_count);
/* allocate bbcc array, insert BBCCs and sort */
prepare_ptr = array =
(BBCC**) CLG_MALLOC("cl.dump.pd.1",
(prepare_count+1) * sizeof(BBCC*));
CLG_(forall_bbccs)(hash_addPtr);
if (CLG_(clo).separate_threads)
cs_addPtr(0);
else
CLG_(forall_threads)(cs_addPtr);
CLG_ASSERT(array + prepare_count == prepare_ptr);
/* end mark */
*prepare_ptr = 0;
CLG_DEBUG(0," BBCCs inserted\n");
qsort_start = array;
qsort(array, prepare_count, my_cmp);
CLG_DEBUG(0," BBCCs sorted\n");
return array;
}
static void fprint_cost_ln(int fd, Char* prefix,
EventMapping* em, ULong* cost)
{
int p;
p = VG_(sprintf)(outbuf, "%s", prefix);
p += CLG_(sprint_mappingcost)(outbuf + p, em, cost);
VG_(sprintf)(outbuf + p, "\n");
my_fwrite(fd, (void*)outbuf, VG_(strlen)(outbuf));
}
static ULong bbs_done = 0;
static Char* filename = 0;
static
void file_err(void)
{
VG_(message)(Vg_UserMsg,
"Error: can not open cache simulation output file `%s'",
filename );
VG_(exit)(1);
}
/**
* Create a new dump file and write header.
*
* Naming: <CLG_(clo).filename_base>.<pid>[.<part>][-<tid>]
* <part> is skipped for final dump (trigger==0)
* <tid> is skipped for thread 1 with CLG_(clo).separate_threads=no
*
* Returns the file descriptor, and -1 on error (no write permission)
*/
static int new_dumpfile(Char buf[BUF_LEN], int tid, Char* trigger)
{
Bool appending = False;
int i, fd;
FullCost sum = 0;
SysRes res;
CLG_ASSERT(dumps_initialized);
CLG_ASSERT(filename != 0);
if (!CLG_(clo).combine_dumps) {
i = VG_(sprintf)(filename, "%s", out_file);
if (trigger)
i += VG_(sprintf)(filename+i, ".%d", out_counter);
if (CLG_(clo).separate_threads)
i += VG_(sprintf)(filename+i, "-%02d", tid);
res = VG_(open)(filename, VKI_O_WRONLY|VKI_O_TRUNC, 0);
}
else {
VG_(sprintf)(filename, "%s", out_file);
res = VG_(open)(filename, VKI_O_WRONLY|VKI_O_APPEND, 0);
if (!res.isError && out_counter>1)
appending = True;
}
if (res.isError) {
res = VG_(open)(filename, VKI_O_CREAT|VKI_O_WRONLY,
VKI_S_IRUSR|VKI_S_IWUSR);
if (res.isError) {
/* If the file can not be opened for whatever reason (conflict
between multiple supervised processes?), give up now. */
file_err();
}
}
fd = (Int) res.res;
CLG_DEBUG(2, " new_dumpfile '%s'\n", filename);
if (!appending)
reset_dump_array();
if (!appending) {
/* version */
VG_(sprintf)(buf, "version: 1\n");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
/* creator */
VG_(sprintf)(buf, "creator: callgrind-" VERSION "\n");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
/* "pid:" line */
VG_(sprintf)(buf, "pid: %d\n", VG_(getpid)());
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
/* "cmd:" line */
VG_(strcpy)(buf, "cmd: ");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
my_fwrite(fd, (void*)cmdbuf, VG_(strlen)(cmdbuf));
}
VG_(sprintf)(buf, "\npart: %d\n", out_counter);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
if (CLG_(clo).separate_threads) {
VG_(sprintf)(buf, "thread: %d\n", tid);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
/* "desc:" lines */
if (!appending) {
my_fwrite(fd, "\n", 1);
#if 0
/* Global options changing the tracing behaviour */
VG_(sprintf)(buf, "\ndesc: Option: --skip-plt=%s\n",
CLG_(clo).skip_plt ? "yes" : "no");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Option: --collect-jumps=%s\n",
CLG_(clo).collect_jumps ? "yes" : "no");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Option: --separate-recs=%d\n",
CLG_(clo).separate_recursions);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Option: --separate-callers=%d\n",
CLG_(clo).separate_callers);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Option: --dump-bbs=%s\n",
CLG_(clo).dump_bbs ? "yes" : "no");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Option: --separate-threads=%s\n",
CLG_(clo).separate_threads ? "yes" : "no");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
#endif
(*CLG_(cachesim).getdesc)(buf);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
VG_(sprintf)(buf, "\ndesc: Timerange: Basic block %llu - %llu\n",
bbs_done, CLG_(stat).bb_executions);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
VG_(sprintf)(buf, "desc: Trigger: %s\n",
trigger ? trigger : (Char*)"Program termination");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
#if 0
/* Output function specific config
* FIXME */
for (i = 0; i < N_FNCONFIG_ENTRIES; i++) {
fnc = fnc_table[i];
while (fnc) {
if (fnc->skip) {
VG_(sprintf)(buf, "desc: Option: --fn-skip=%s\n", fnc->name);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
if (fnc->dump_at_enter) {
VG_(sprintf)(buf, "desc: Option: --fn-dump-at-enter=%s\n",
fnc->name);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
if (fnc->dump_at_leave) {
VG_(sprintf)(buf, "desc: Option: --fn-dump-at-leave=%s\n",
fnc->name);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
if (fnc->separate_callers != CLG_(clo).separate_callers) {
VG_(sprintf)(buf, "desc: Option: --separate-callers%d=%s\n",
fnc->separate_callers, fnc->name);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
if (fnc->separate_recursions != CLG_(clo).separate_recursions) {
VG_(sprintf)(buf, "desc: Option: --separate-recs%d=%s\n",
fnc->separate_recursions, fnc->name);
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
}
fnc = fnc->next;
}
}
#endif
/* "positions:" line */
VG_(sprintf)(buf, "\npositions:%s%s%s\n",
CLG_(clo).dump_instr ? " instr" : "",
CLG_(clo).dump_bb ? " bb" : "",
CLG_(clo).dump_line ? " line" : "");
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
/* "events:" line */
i = VG_(sprintf)(buf, "events: ");
CLG_(sprint_eventmapping)(buf+i, CLG_(dumpmap));
my_fwrite(fd, (void*)buf, VG_(strlen)(buf));
my_fwrite(fd, "\n", 1);
/* summary lines */
sum = CLG_(get_eventset_cost)( CLG_(sets).full );
CLG_(zero_cost)(CLG_(sets).full, sum);
if (CLG_(clo).separate_threads) {
thread_info* ti = CLG_(get_current_thread)();
CLG_(add_diff_cost)(CLG_(sets).full, sum, ti->lastdump_cost,
ti->states.entry[0]->cost);
}
else {
/* This function is called once for thread 1, where
* all costs are summed up when not dumping separate per thread.
* But this is not true for summary: we need to add all threads.
*/
int t;
thread_info** thr = CLG_(get_threads)();
for(t=1;t<VG_N_THREADS;t++) {
if (!thr[t]) continue;
CLG_(add_diff_cost)(CLG_(sets).full, sum,
thr[t]->lastdump_cost,
thr[t]->states.entry[0]->cost);
}
}
fprint_cost_ln(fd, "summary: ", CLG_(dumpmap), sum);
/* all dumped cost will be added to total_fcc */
CLG_(init_cost_lz)( CLG_(sets).full, &dump_total_cost );
my_fwrite(fd, "\n\n",2);
if (VG_(clo_verbosity) > 1)
VG_(message)(Vg_DebugMsg, "Dump to %s", filename);
return fd;
}
static void close_dumpfile(int fd)
{
if (fd <0) return;
fprint_cost_ln(fd, "totals: ", CLG_(dumpmap),
dump_total_cost);
//fprint_fcc_ln(fd, "summary: ", &dump_total_fcc);
CLG_(add_cost_lz)(CLG_(sets).full,
&CLG_(total_cost), dump_total_cost);
fwrite_flush();
VG_(close)(fd);
if (filename[0] == '.') {
if (-1 == VG_(rename) (filename, filename+1)) {
/* Can not rename to correct file name: give out warning */
VG_(message)(Vg_DebugMsg, "Warning: Can not rename .%s to %s",
filename, filename);
}
}
}
/* Helper for print_bbccs */
static Int print_fd;
static Char* print_trigger;
static Char print_buf[BUF_LEN];
static void print_bbccs_of_thread(thread_info* ti)
{
BBCC **p, **array;
FnPos lastFnPos;
AddrPos lastAPos;
CLG_DEBUG(1, "+ print_bbccs(tid %d)\n", CLG_(current_tid));
print_fd = new_dumpfile(print_buf, CLG_(current_tid), print_trigger);
if (print_fd <0) {
CLG_DEBUG(1, "- print_bbccs(tid %d): No output...\n", CLG_(current_tid));
return;
}
p = array = prepare_dump();
init_fpos(&lastFnPos);
init_apos(&lastAPos, 0, 0, 0);
if (p) while(1) {
/* on context/function change, print old cost buffer before */
if (lastFnPos.cxt && ((*p==0) ||
(lastFnPos.cxt != (*p)->cxt) ||
(lastFnPos.rec_index != (*p)->rec_index))) {
if (!CLG_(is_zero_cost)( CLG_(sets).full, ccSum[currSum].cost )) {
/* no need to switch buffers, as position is the same */
fprint_apos(print_fd, &(ccSum[currSum].p), &lastAPos,
lastFnPos.cxt->fn[0]->file);
fprint_fcost(print_fd, &ccSum[currSum], &lastAPos);
}
if (ccSum[currSum].p.file != lastFnPos.cxt->fn[0]->file) {
/* switch back to file of function */
VG_(sprintf)(print_buf, "fe=");
print_file(print_buf+3, lastFnPos.cxt->fn[0]->file);
my_fwrite(print_fd, (void*)print_buf, VG_(strlen)(print_buf));
}
my_fwrite(print_fd, "\n", 1);
}
if (*p == 0) break;
if (print_fn_pos(print_fd, &lastFnPos, *p)) {
/* new function */
init_apos(&lastAPos, 0, 0, (*p)->cxt->fn[0]->file);
init_fcost(&ccSum[0], 0, 0, 0);
init_fcost(&ccSum[1], 0, 0, 0);
currSum = 0;
}
if (CLG_(clo).dump_bbs) {
/* FIXME: Specify Object of BB if different to object of fn */
int i, pos = 0;
ULong ecounter = (*p)->ecounter_sum;
pos = VG_(sprintf)(print_buf, "bb=%#lx ", (*p)->bb->offset);
for(i = 0; i<(*p)->bb->cjmp_count;i++) {
pos += VG_(sprintf)(print_buf+pos, "%d %llu ",
(*p)->bb->jmp[i].instr,
ecounter);
ecounter -= (*p)->jmp[i].ecounter;
}
VG_(sprintf)(print_buf+pos, "%d %llu\n",
(*p)->bb->instr_count,
ecounter);
my_fwrite(print_fd, (void*)print_buf, VG_(strlen)(print_buf));
}
fprint_bbcc(print_fd, *p, &lastAPos);
p++;
}
close_dumpfile(print_fd);
if (array) VG_(free)(array);
/* set counters of last dump */
CLG_(copy_cost)( CLG_(sets).full, ti->lastdump_cost,
CLG_(current_state).cost );
CLG_DEBUG(1, "- print_bbccs(tid %d)\n", CLG_(current_tid));
}
static void print_bbccs(Char* trigger, Bool only_current_thread)
{
init_dump_array();
init_debug_cache();
print_fd = -1;
print_trigger = trigger;
if (!CLG_(clo).separate_threads) {
/* All BBCC/JCC costs is stored for thread 1 */
Int orig_tid = CLG_(current_tid);
CLG_(switch_thread)(1);
print_bbccs_of_thread( CLG_(get_current_thread)() );
CLG_(switch_thread)(orig_tid);
}
else if (only_current_thread)
print_bbccs_of_thread( CLG_(get_current_thread)() );
else
CLG_(forall_threads)(print_bbccs_of_thread);
free_dump_array();
}
void CLG_(dump_profile)(Char* trigger, Bool only_current_thread)
{
CLG_DEBUG(2, "+ dump_profile(Trigger '%s')\n",
trigger ? trigger : (Char*)"Prg.Term.");
CLG_(init_dumps)();
if (VG_(clo_verbosity) > 1)
VG_(message)(Vg_DebugMsg, "Start dumping at BB %llu (%s)...",
CLG_(stat).bb_executions,
trigger ? trigger : (Char*)"Prg.Term.");
out_counter++;
print_bbccs(trigger, only_current_thread);
bbs_done = CLG_(stat).bb_executions++;
if (VG_(clo_verbosity) > 1)
VG_(message)(Vg_DebugMsg, "Dumping done.");
}
/* copy command to cmd buffer (could change) */
static
void init_cmdbuf(void)
{
Int i,j,size = 0;
HChar* argv;
#if VG_CORE_INTERFACE_VERSION > 8
if (VG_(args_the_exename))
size = VG_(sprintf)(cmdbuf, " %s", VG_(args_the_exename));
for(i = 0; i < VG_(sizeXA)( VG_(args_for_client) ); i++) {
argv = * (HChar**) VG_(indexXA)( VG_(args_for_client), i );
if (!argv) continue;
if ((size>0) && (size < BUF_LEN)) cmdbuf[size++] = ' ';
for(j=0;argv[j]!=0;j++)
if (size < BUF_LEN) cmdbuf[size++] = argv[j];
}
#else
for(i = 0; i < VG_(client_argc); i++) {
argv = VG_(client_argv)[i];
if (!argv) continue;
if ((size>0) && (size < BUF_LEN)) cmdbuf[size++] = ' ';
for(j=0;argv[j]!=0;j++)
if (size < BUF_LEN) cmdbuf[size++] = argv[j];
}
#endif
if (size == BUF_LEN) size--;
cmdbuf[size] = 0;
}
/*
* Set up file names for dump output: <out_directory>, <out_file>.
* <out_file> is derived from the output format string, which defaults
* to "callgrind.out.%p", where %p is replaced with the PID.
* For the final file name, on intermediate dumps a counter is appended,
* and further, if separate dumps per thread are requested, the thread ID.
*
* <out_file> always starts with a full absolute path.
* If the output format string represents a relative path, the current
* working directory at program start is used.
*
* This function has to be called every time a profile dump is generated
* to be able to react on PID changes.
*/
void CLG_(init_dumps)()
{
Int lastSlash, i;
SysRes res;
static int thisPID = 0;
int currentPID = VG_(getpid)();
if (currentPID == thisPID) {
/* already initialized, and no PID change */
CLG_ASSERT(out_file != 0);
return;
}
thisPID = currentPID;
if (!CLG_(clo).out_format)
CLG_(clo).out_format = DEFAULT_OUTFORMAT;
/* If a file name was already set, clean up before */
if (out_file) {
VG_(free)(out_file);
VG_(free)(out_directory);
VG_(free)(filename);
out_counter = 0;
}
// Setup output filename.
out_file =
VG_(expand_file_name)("--callgrind-out-file", CLG_(clo).out_format);
/* get base directory for dump/command/result files */
CLG_ASSERT(out_file[0] == '/');
lastSlash = 0;
i = 1;
while(out_file[i]) {
if (out_file[i] == '/') lastSlash = i;
i++;
}
i = lastSlash;
out_directory = (Char*) CLG_MALLOC("cl.dump.init_dumps.1", i+1);
VG_(strncpy)(out_directory, out_file, i);
out_directory[i] = 0;
/* allocate space big enough for final filenames */
filename = (Char*) CLG_MALLOC("cl.dump.init_dumps.2",
VG_(strlen)(out_file)+32);
CLG_ASSERT(filename != 0);
/* Make sure the output base file can be written.
* This is used for the dump at program termination.
* We stop with an error here if we can not create the
* file: This is probably because of missing rights,
* and trace parts wouldn't be allowed to be written, too.
*/
VG_(strcpy)(filename, out_file);
res = VG_(open)(filename, VKI_O_WRONLY|VKI_O_TRUNC, 0);
if (res.isError) {
res = VG_(open)(filename, VKI_O_CREAT|VKI_O_WRONLY,
VKI_S_IRUSR|VKI_S_IWUSR);
if (res.isError) {
file_err();
}
}
if (!res.isError) VG_(close)( (Int)res.res );
if (!dumps_initialized)
init_cmdbuf();
dumps_initialized = True;
}