/* $OpenBSD: gprof.c,v 1.19 2009/10/27 23:59:38 deraadt Exp $ */ /* $NetBSD: gprof.c,v 1.8 1995/04/19 07:15:59 cgd Exp $ */ /* * Copyright (c) 1983, 1993 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "gprof.h" int valcmp(const void *, const void *); static struct gmonhdr gmonhdr; extern char *__progname; int main(int argc, char *argv[]) { char **sp; nltype **timesortnlp; char **defaultEs; --argc; argv++; debug = 0; bflag = TRUE; while ( *argv != 0 && **argv == '-' ) { (*argv)++; switch ( **argv ) { case 'a': aflag = TRUE; break; case 'b': bflag = FALSE; break; case 'C': Cflag = TRUE; cyclethreshold = atoi( *++argv ); break; case 'c': #if defined(__i386__) || defined(__vax__) || defined(__tahoe__) || \ defined(__sparc__) || defined(__sparc64__) cflag = TRUE; #else fprintf(stderr, "%s: -c isn't supported on this architecture yet\n", __progname); exit(1); #endif break; case 'd': dflag = TRUE; setlinebuf(stdout); debug |= atoi( *++argv ); debug |= ANYDEBUG; # ifdef DEBUG printf("[main] debug = %d\n", debug); # else /* not DEBUG */ warnx("-d ignored"); # endif /* DEBUG */ break; case 'E': ++argv; addlist( Elist , *argv ); Eflag = TRUE; addlist( elist , *argv ); eflag = TRUE; break; case 'e': addlist( elist , *++argv ); eflag = TRUE; break; case 'F': ++argv; addlist( Flist , *argv ); Fflag = TRUE; addlist( flist , *argv ); fflag = TRUE; break; case 'f': addlist( flist , *++argv ); fflag = TRUE; break; case 'k': addlist( kfromlist , *++argv ); addlist( ktolist , *++argv ); kflag = TRUE; break; case 's': sflag = TRUE; break; case 'z': zflag = TRUE; break; } argv++; } if ( *argv != 0 ) { a_outname = *argv; argv++; } else { a_outname = A_OUTNAME; } if ( *argv != 0 ) { gmonname = *argv; argv++; } else { gmonname = GMONNAME; } /* * get information about a.out file. */ if (getnfile(a_outname, &defaultEs) == -1) errx(1, "%s: bad format", a_outname); /* * sort symbol table. */ qsort(nl, nname, sizeof(nltype), valcmp); /* * turn off default functions */ for ( sp = &defaultEs[0] ; *sp ; sp++ ) { Eflag = TRUE; addlist( Elist , *sp ); eflag = TRUE; addlist( elist , *sp ); } /* * get information about mon.out file(s). */ do { getpfile( gmonname ); if ( *argv != 0 ) { gmonname = *argv; } } while ( *argv++ != 0 ); /* * how many ticks per second? * if we can't tell, report time in ticks. */ if (hz == 0) { hz = 1; warnx("time is in ticks, not seconds"); } /* * dump out a gmon.sum file if requested */ if ( sflag ) { dumpsum( GMONSUM ); } /* * assign samples to procedures */ asgnsamples(); /* * assemble the dynamic profile */ timesortnlp = doarcs(); /* * print the dynamic profile */ printgprof( timesortnlp ); /* * print the flat profile */ printprof(); /* * print the index */ printindex(); return (0); } /* * information from a gmon.out file is in two parts: * an array of sampling hits within pc ranges, * and the arcs. */ void getpfile(const char *filename) { FILE *pfile; struct rawarc arc; pfile = openpfile(filename); readsamples(pfile); /* * the rest of the file consists of * a bunch of tuples. */ while ( fread( &arc , sizeof arc , 1 , pfile ) == 1 ) { # ifdef DEBUG if ( debug & SAMPLEDEBUG ) { printf( "[getpfile] frompc 0x%lx selfpc 0x%lx count %ld\n" , arc.raw_frompc , arc.raw_selfpc , arc.raw_count ); } # endif /* DEBUG */ /* * add this arc */ tally( &arc ); } fclose(pfile); } FILE * openpfile(const char *filename) { struct gmonhdr tmp; FILE *pfile; int size; int rate; if((pfile = fopen(filename, "r")) == NULL) err(1, "fopen: %s", filename); if (fread(&tmp, sizeof(struct gmonhdr), 1, pfile) != 1) errx(1, "%s: bad gmon header", filename); if ( s_highpc != 0 && ( tmp.lpc != gmonhdr.lpc || tmp.hpc != gmonhdr.hpc || tmp.ncnt != gmonhdr.ncnt)) errx(1, "%s: incompatible with first gmon file", filename); gmonhdr = tmp; if ( gmonhdr.version == GMONVERSION ) { rate = gmonhdr.profrate; size = sizeof(struct gmonhdr); } else { fseek(pfile, sizeof(struct ophdr), SEEK_SET); size = sizeof(struct ophdr); gmonhdr.profrate = rate = hertz(); gmonhdr.version = GMONVERSION; } if (hz == 0) { hz = rate; } else if (hz != rate) errx(1, "%s: profile clock rate (%d) incompatible with clock rate " "(%ld) in first gmon file", filename, rate, hz); s_lowpc = (unsigned long) gmonhdr.lpc; s_highpc = (unsigned long) gmonhdr.hpc; lowpc = (unsigned long)gmonhdr.lpc / sizeof(UNIT); highpc = (unsigned long)gmonhdr.hpc / sizeof(UNIT); sampbytes = gmonhdr.ncnt - size; nsamples = sampbytes / sizeof (UNIT); # ifdef DEBUG if ( debug & SAMPLEDEBUG ) { printf( "[openpfile] hdr.lpc 0x%lx hdr.hpc 0x%lx hdr.ncnt %d\n", gmonhdr.lpc , gmonhdr.hpc , gmonhdr.ncnt ); printf( "[openpfile] s_lowpc 0x%lx s_highpc 0x%lx\n" , s_lowpc , s_highpc ); printf( "[openpfile] lowpc 0x%lx highpc 0x%lx\n" , lowpc , highpc ); printf( "[openpfile] sampbytes %d nsamples %d\n" , sampbytes , nsamples ); printf( "[openpfile] sample rate %ld\n" , hz ); } # endif /* DEBUG */ return(pfile); } void tally(struct rawarc *rawp) { nltype *parentp; nltype *childp; parentp = nllookup( rawp -> raw_frompc ); childp = nllookup( rawp -> raw_selfpc ); if ( parentp == 0 || childp == 0 ) return; if ( kflag && onlist( kfromlist , parentp -> name ) && onlist( ktolist , childp -> name ) ) { return; } childp -> ncall += rawp -> raw_count; # ifdef DEBUG if ( debug & TALLYDEBUG ) { printf( "[tally] arc from %s to %s traversed %ld times\n" , parentp -> name , childp -> name , rawp -> raw_count ); } # endif /* DEBUG */ addarc( parentp , childp , rawp -> raw_count ); } /* * dump out the gmon.sum file */ void dumpsum(const char *sumfile) { nltype *nlp; arctype *arcp; struct rawarc arc; FILE *sfile; if ( ( sfile = fopen ( sumfile , "w" ) ) == NULL ) err(1, "fopen: %s", sumfile); /* * dump the header; use the last header read in */ if ( fwrite( &gmonhdr , sizeof gmonhdr , 1 , sfile ) != 1 ) err(1, "fwrite: %s", sumfile); /* * dump the samples */ if (fwrite(samples, sizeof (UNIT), nsamples, sfile) != nsamples) err(1, "fwrite: %s", sumfile); /* * dump the normalized raw arc information */ for ( nlp = nl ; nlp < npe ; nlp++ ) { for ( arcp = nlp -> children ; arcp ; arcp = arcp -> arc_childlist ) { arc.raw_frompc = arcp -> arc_parentp -> value; arc.raw_selfpc = arcp -> arc_childp -> value; arc.raw_count = arcp -> arc_count; if (fwrite ( &arc , sizeof arc , 1 , sfile ) != 1) err(1, "fwrite: %s", sumfile); # ifdef DEBUG if ( debug & SAMPLEDEBUG ) { printf( "[dumpsum] frompc 0x%lx selfpc 0x%lx count %ld\n" , arc.raw_frompc , arc.raw_selfpc , arc.raw_count ); } # endif /* DEBUG */ } } fclose( sfile ); } int valcmp(const void *vp1, const void *vp2) { const nltype *p1 = vp1; const nltype *p2 = vp2; if ( p1 -> value < p2 -> value ) { return LESSTHAN; } if ( p1 -> value > p2 -> value ) { return GREATERTHAN; } return EQUALTO; } void readsamples(FILE *pfile) { UNIT sample; int i; if (samples == 0) { samples = (UNIT *) calloc(sampbytes, sizeof (UNIT)); if (samples == 0) errx(1, "No room for %ld sample pc's", sampbytes / sizeof (UNIT)); } for (i = 0; i < nsamples; i++) { fread(&sample, sizeof (UNIT), 1, pfile); if (feof(pfile)) break; samples[i] += sample; } if (i != nsamples) errx(1, "unexpected EOF after reading %d/%d samples", i, nsamples ); } /* * Assign samples to the procedures to which they belong. * * There are three cases as to where pcl and pch can be * with respect to the routine entry addresses svalue0 and svalue1 * as shown in the following diagram. overlap computes the * distance between the arrows, the fraction of the sample * that is to be credited to the routine which starts at svalue0. * * svalue0 svalue1 * | | * v v * * +-----------------------------------------------+ * | | * | ->| |<- ->| |<- ->| |<- | * | | | | | | * +---------+ +---------+ +---------+ * * ^ ^ ^ ^ ^ ^ * | | | | | | * pcl pch pcl pch pcl pch * * For the vax we assert that samples will never fall in the first * two bytes of any routine, since that is the entry mask, * thus we give call alignentries() to adjust the entry points if * the entry mask falls in one bucket but the code for the routine * doesn't start until the next bucket. In conjunction with the * alignment of routine addresses, this should allow us to have * only one sample for every four bytes of text space and never * have any overlap (the two end cases, above). */ void asgnsamples(void) { int j; UNIT ccnt; double time; unsigned long pcl, pch; unsigned long i; unsigned long overlap; unsigned long svalue0, svalue1; /* read samples and assign to namelist symbols */ scale = highpc - lowpc; scale /= nsamples; alignentries(); for (i = 0, j = 1; i < nsamples; i++) { ccnt = samples[i]; if (ccnt == 0) continue; pcl = lowpc + (unsigned long)(scale * i); pch = lowpc + (unsigned long)(scale * (i + 1)); time = ccnt; # ifdef DEBUG if ( debug & SAMPLEDEBUG ) { printf( "[asgnsamples] pcl 0x%lx pch 0x%lx ccnt %d\n" , pcl , pch , ccnt ); } # endif /* DEBUG */ totime += time; for (j = j - 1; j < nname; j++) { svalue0 = nl[j].svalue; svalue1 = nl[j+1].svalue; /* * if high end of tick is below entry address, * go for next tick. */ if (pch < svalue0) break; /* * if low end of tick into next routine, * go for next routine. */ if (pcl >= svalue1) continue; overlap = min(pch, svalue1) - max(pcl, svalue0); if (overlap > 0) { # ifdef DEBUG if (debug & SAMPLEDEBUG) { printf("[asgnsamples] (0x%lx->0x%lx-0x%lx) %s gets %f ticks %ld overlap\n", nl[j].value/sizeof(UNIT), svalue0, svalue1, nl[j].name, overlap * time / scale, overlap); } # endif /* DEBUG */ nl[j].time += overlap * time / scale; } } } # ifdef DEBUG if (debug & SAMPLEDEBUG) { printf("[asgnsamples] totime %f\n", totime); } # endif /* DEBUG */ } unsigned long min(unsigned long a, unsigned long b) { if (ab) return(a); return(b); } /* * calculate scaled entry point addresses (to save time in asgnsamples), * and possibly push the scaled entry points over the entry mask, * if it turns out that the entry point is in one bucket and the code * for a routine is in the next bucket. */ void alignentries(void) { struct nl *nlp; unsigned long bucket_of_entry; unsigned long bucket_of_code; for (nlp = nl; nlp < npe; nlp++) { nlp -> svalue = nlp -> value / sizeof(UNIT); bucket_of_entry = (nlp->svalue - lowpc) / scale; bucket_of_code = (nlp->svalue + UNITS_TO_CODE - lowpc) / scale; if (bucket_of_entry < bucket_of_code) { # ifdef DEBUG if (debug & SAMPLEDEBUG) { printf("[alignentries] pushing svalue 0x%lx to 0x%lx\n", nlp->svalue, nlp->svalue + UNITS_TO_CODE); } # endif /* DEBUG */ nlp->svalue += UNITS_TO_CODE; } } }