/* *------------------------------------------------------------------ * Copyright (c) 2005-2016 Cisco and/or its affiliates. * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "cpel.h" #include "g2.h" typedef struct bound_event_ { u32 event_code; u8 *event_str; u8 *datum_str; } bound_event_t; bound_event_t *bound_events; int widest_track_format=8; typedef struct bound_track_ { u32 track; u8 *track_str; } bound_track_t; bound_track_t *bound_tracks; uword *the_strtab_hash; /* (name, base-VA) hash of all string tables */ uword *the_evtdef_hash; /* (event-id, event-definition) hash */ uword *the_trackdef_hash; /* (track-id, track-definition) hash */ u8 *event_strtab; /* event string-table */ void fatal(char *s) { fprintf(stderr, "%s", s); exit(1); } typedef enum { PASS1=1, PASS2=2, } pass_t; typedef struct { int (*pass1)(cpel_section_header_t *, int, FILE *); int (*pass2)(cpel_section_header_t *, int, FILE *); } section_processor_t; int bad_section(cpel_section_header_t *sh, int verbose, FILE *ofp) { fprintf(ofp, "Bad (type 0) section, skipped...\n"); return(0); } int noop_pass(cpel_section_header_t *sh, int verbose, FILE *ofp) { return(0); } int strtab_pass1(cpel_section_header_t *sh, int verbose, FILE *ofp) { uword *p; u8 *strtab_data_area = (u8 *)(sh+1); /* Multiple string tables with the same name are Bad... */ p = hash_get_mem(the_strtab_hash, strtab_data_area); if (p) { fprintf(ofp, "Duplicate string table name %s", strtab_data_area); } /* * Looks funny, but we really do want key = first string in the * table, value = address(first string in the table) */ hash_set_mem(the_strtab_hash, strtab_data_area, strtab_data_area); if (verbose) { fprintf(ofp, "String Table %s\n", strtab_data_area); } return(0); } int evtdef_pass1(cpel_section_header_t *sh, int verbose, FILE *ofp) { int i, nevents; event_definition_section_header_t *edh; event_definition_t *ep; u8 *this_strtab; u32 event_code; uword *p; bound_event_t *bp; edh = (event_definition_section_header_t *)(sh+1); nevents = ntohl(edh->number_of_event_definitions); if (verbose) { fprintf(ofp, "Event Definition Section: %d definitions\n", nevents); } p = hash_get_mem(the_strtab_hash, edh->string_table_name); if (!p) { fprintf(ofp, "Fatal: couldn't find string table\n"); return(1); } this_strtab = (u8 *)p[0]; initialize_events(); ep = (event_definition_t *)(edh+1); for (i = 0; i < nevents; i++) { event_code = ntohl(ep->event); p = hash_get(the_evtdef_hash, event_code); if (p) { fprintf(ofp, "Event %d redefined, retain first definition\n", event_code); continue; } vec_add2(bound_events, bp, 1); bp->event_code = event_code; bp->event_str = this_strtab + ntohl(ep->event_format); bp->datum_str = this_strtab + ntohl(ep->datum_format); hash_set(the_evtdef_hash, event_code, bp - bound_events); add_event_from_cpel_file(event_code, (char *) bp->event_str, (char *)bp->datum_str); ep++; } finalize_events(); return (0); } int trackdef_pass1(cpel_section_header_t *sh, int verbose, FILE *ofp) { int i, nevents; track_definition_section_header_t *tdh; track_definition_t *tp; u8 *this_strtab; u32 track_code; uword *p; bound_track_t *btp; int track_strlen; tdh = (track_definition_section_header_t *)(sh+1); nevents = ntohl(tdh->number_of_track_definitions); if (verbose) { fprintf(ofp, "Track Definition Section: %d definitions\n", nevents); } p = hash_get_mem(the_strtab_hash, tdh->string_table_name); if (!p) { fprintf(ofp, "Fatal: couldn't find string table\n"); return(1); } this_strtab = (u8 *)p[0]; tp = (track_definition_t *)(tdh+1); for (i = 0; i < nevents; i++) { track_code = ntohl(tp->track); p = hash_get(the_trackdef_hash, track_code); if (p) { fprintf(ofp, "track %d redefined, retain first definition\n", track_code); continue; } vec_add2(bound_tracks, btp, 1); btp->track = track_code; btp->track_str = this_strtab + ntohl(tp->track_format); hash_set(the_trackdef_hash, track_code, btp - bound_tracks); track_strlen = strlen((char *)btp->track_str); if (track_strlen > widest_track_format) widest_track_format = track_strlen; tp++; } return (0); } int unsupported_pass (cpel_section_header_t *sh, int verbose, FILE *ofp) { if (verbose) { fprintf(ofp, "Unsupported type %d section\n", ntohl(sh->section_type)); } return(0); } int event_pass2(cpel_section_header_t *sh, int verbose, FILE *ofp) { event_section_header_t *eh; u32 event_code, track_code, datum; u64 starttime = ~0ULL; int nevents; int i; event_entry_t *ep; u64 now; u64 delta; u32 time0, time1; double d; uword *p; eh = (event_section_header_t *)(sh+1); nevents = ntohl(eh->number_of_events); ticks_per_ns = ntohl(eh->clock_ticks_per_second)/1e9; ep = (event_entry_t *)(eh+1); p = hash_get_mem(the_strtab_hash, eh->string_table_name); if (!p) { fprintf(ofp, "Fatal: couldn't find string table\n"); return(1); } event_strtab = (u8 *)p[0]; cpel_event_init(nevents); for (i = 0; i < nevents; i++) { time0 = ntohl (ep->time[0]); time1 = ntohl (ep->time[1]); now = (((u64) time0)<<32) | time1; /* Convert from bus ticks to usec */ d = now; d /= ticks_per_ns; now = d; if (starttime == ~0ULL) starttime = now; delta = now - starttime; /* Delta = time since first event, in usec */ event_code = ntohl(ep->event_code); track_code = ntohl(ep->track); datum = ntohl(ep->event_datum); add_cpel_event(delta, track_code, event_code, datum); ep++; } cpel_event_finalize(); return(0); } char *strtab_ref(unsigned long datum) { return ((char *)(event_strtab + datum)); } /* * Note: If necessary, add passes / columns to this table to * handle section order dependencies. */ section_processor_t processors[CPEL_NUM_SECTION_TYPES+1] = { {bad_section, noop_pass}, /* type 0 -- f**ked */ {strtab_pass1, noop_pass}, /* type 1 -- STRTAB */ {unsupported_pass, noop_pass}, /* type 2 -- SYMTAB */ {evtdef_pass1, noop_pass}, /* type 3 -- EVTDEF */ {trackdef_pass1, noop_pass}, /* type 4 -- TRACKDEF */ {noop_pass, event_pass2}, /* type 5 -- EVENTS */ }; int process_section(cpel_section_header_t *sh, int verbose, FILE *ofp, pass_t pass) { u32 type; type = ntohl(sh->section_type); int rv; int (*fp)(cpel_section_header_t *, int, FILE *); if (type > CPEL_NUM_SECTION_TYPES) { fprintf(stderr, "Unknown section type %d\n", type); return(1); } switch(pass) { case PASS1: fp = processors[type].pass1; break; case PASS2: fp = processors[type].pass2; break; default: fprintf(stderr, "Unknown pass %d\n", pass); return(1); } rv = (*fp)(sh, verbose, ofp); return(rv); } int cpel_dump_file_header(cpel_file_header_t *fh, int verbose, FILE *ofp) { time_t file_time; if (verbose) { fprintf(ofp, "CPEL file: %s-endian, version %d\n", ((fh->endian_version & CPEL_FILE_LITTLE_ENDIAN) ? "little" : "big"), fh->endian_version & CPEL_FILE_VERSION_MASK); file_time = ntohl(fh->file_date); fprintf(ofp, "File created %s", ctime(&file_time)); } return(0); } int cpel_process(u8 *cpel, int verbose, FILE *ofp) { cpel_file_header_t *fh; cpel_section_header_t *sh; u16 nsections; u32 section_size; int i; /* First, the file header */ fh = (cpel_file_header_t *)cpel; if (fh->endian_version != CPEL_FILE_VERSION) { if (fh->endian_version & CPEL_FILE_LITTLE_ENDIAN) { fprintf(stderr, "Little endian data format not supported\n"); return(1); } fprintf(stderr, "Unsupported file version 0x%x\n", fh->endian_version); return(1); } cpel_dump_file_header(fh, verbose, ofp); nsections = ntohs(fh->nsections); /* * Take two passes through the file. PASS1 builds * data structures, PASS2 actually dumps the file. * Just in case the sections are in an unobvious order. */ sh = (cpel_section_header_t *)(fh+1); for (i = 0; i < nsections; i++) { section_size = ntohl(sh->data_length); if(verbose) { fprintf(ofp, "Section type %d, size %d\n", ntohl(sh->section_type), section_size); } if(process_section(sh, verbose, ofp, PASS1)) return(1); sh++; sh = (cpel_section_header_t *)(((u8 *)sh)+section_size); } sh = (cpel_section_header_t *)(fh+1); for (i = 0; i < nsections; i++) { if(process_section(sh, verbose, ofp, PASS2)) return(1); section_size = ntohl(sh->data_length); sh++; sh = (cpel_section_header_t *)(((u8 *)sh)+section_size); } return(0); } /* * read_cpel_file */ int read_cpel_file(char *cpel_file) { int verbose = 0; int rv; static u8 *cpel; static unsigned long size; static FILE *ofp; if (cpel) { unmapfile((char *)cpel, size); hash_free(the_strtab_hash); the_strtab_hash = 0; hash_free(the_evtdef_hash); the_evtdef_hash = 0; hash_free(the_trackdef_hash); the_trackdef_hash = 0; } cpel = (u8 *)mapfile((char *)cpel_file, &size); if (cpel == 0) { fprintf(stderr, "Couldn't map %s...\n", cpel_file); exit(1); } if (ofp == NULL) { ofp = fdopen(2, "w"); if (ofp == NULL) { fprintf(stderr, "Couldn't fdopen(2)?\n"); exit(1); } } the_strtab_hash = hash_create_string (0, sizeof (uword)); the_evtdef_hash = hash_create (0, sizeof (uword)); the_trackdef_hash = hash_create (0, sizeof (uword)); rv = cpel_process(cpel, verbose, ofp); set_pid_ax_width(8*widest_track_format); return(rv); } static bound_track_t generic_hex_track = {0, (u8 *) "0x%08x"}; static bound_track_t generic_decimal_track = {0, (u8 *) "%8ld"}; /* * get_track_label */ char *get_track_label(unsigned long track) { uword *p; bound_track_t *tp; p = hash_get(the_trackdef_hash, track); if (p) { tp = &bound_tracks[p[0]]; } else { if (track > 65535) tp = &generic_hex_track; else tp = &generic_decimal_track; } return((char *)tp->track_str); }