Mercurial > libpst
view src/readpstlog.c @ 80:4a760802ef29 stable-0-6-13
bump version number
author | Carl Byington <carl@five-ten-sg.com> |
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date | Fri, 13 Jun 2008 20:49:29 -0700 |
parents | 987aa872294e |
children | 0f1492b7fe8b |
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line source
#include "define.h" #define BUF_SIZE 4096 int usage(); size_t get(void * buf, int size, unsigned int count, FILE *fp); int split_args(char *args, int **targ); int is_in(int a, int *b, int c); int main(int argc, char** argv) { int identity = 0; int level = 0; int x, ptr, stop=0, flag; char *fname, *buf, rec_type; unsigned char version; int *show_type=NULL, show_size=0; int *ex_type=NULL, ex_size=0; unsigned int funcname=0, filename=0, text=0, end=0, dtype=0, line=0; int c; char ch; FILE *fp; struct pst_debug_file_rec_m mfile_rec; struct pst_debug_file_rec_l lfile_rec; char format = 'D'; // default while ((c = getopt(argc, argv, "f:t:x:")) != -1) { ch = c; switch(ch) { case 'f': // change the output format format = toupper(optarg[0]); break; case 't': //change the type of statements shown show_size = split_args(optarg, &show_type); // type = atoi(optarg); break; case 'x': // change the type of statements excluded ex_size = split_args(optarg, &ex_type); break; } } if (argc > optind) { fname = argv[optind++]; } else { usage(); exit(2); } fp = fopen(fname, "rb"); if (fp == NULL) { printf("Error. couldn't open debug file\n"); return 2; } if (get(&version, sizeof(char), 1, fp)==0) { printf("Error. could not read version byte from front of file"); return 3; } if (version > DEBUG_VERSION) { printf("Version number is higher than the format I know about."); return 4; } buf = (char*) xmalloc(BUF_SIZE); while (!stop) { off_t temp; if (fread(&temp, sizeof(off_t), 1, fp)<=0) break; x = (int)temp; ptr = 0; if (x > 0) { off_t i[x+1]; // plus 1 because we want to read the offset of the next index if (get(i, sizeof(off_t), x+1, fp)==0) { // we have reached the end of the debug file printf("oh dear. we must now end\n"); break; } while (ptr < x) { fseeko(fp, i[ptr++], SEEK_SET); get(&rec_type, 1, sizeof(char), fp); if (rec_type == 'L') { get(&lfile_rec, sizeof(lfile_rec), 1, fp); funcname=lfile_rec.funcname; filename=lfile_rec.filename; text = lfile_rec.text; end = lfile_rec.end; dtype = lfile_rec.type; line = lfile_rec.line; } else if (rec_type == 'M') { get(&mfile_rec, sizeof(mfile_rec), 1, fp); funcname = mfile_rec.funcname; filename = mfile_rec.filename; text = mfile_rec.text; end = mfile_rec.end; dtype = mfile_rec.type; line = mfile_rec.line; } if (dtype == DEBUG_FUNCENT_NO) level++; if ((show_type == NULL || is_in(dtype, show_type, show_size)) && (ex_type == NULL || !is_in(dtype, ex_type, ex_size))) { unsigned int c = 0; flag = 0; while (c < end) { int ii = (level-1) * 4; if (ii < 0) ii = 0; if (ii > 64) ii = 64; char indent[ii+1]; memset(indent, ' ', ii); indent[ii] = '\0'; if (c + (BUF_SIZE-1) < end) { get(buf, 1, BUF_SIZE-1, fp); buf[BUF_SIZE-1] = '\0'; c += BUF_SIZE-1; } else { get(buf, 1, end-c, fp); buf[end-c] = '\0'; c = end; } if (flag == 0) { if (format == 'I') { // indented text format char *b = buf+text; identity++; //printf("%s %d %s/%s[%d]: ", indent, identity, &buf[filename], &buf[funcname], line); printf("%s %s/%s[%d]: ", indent, &buf[filename], &buf[funcname], line); while (b) { char *p = strchr(b, '\n'); if (p) { *p = '\0'; printf("%s\n%s ", b, indent); b = p + 1; } else { printf("%s", b); b = NULL; } } } else if (format == 'T') { // text format printf("%s/%s[%d]: %s", &buf[filename], &buf[funcname], line, &buf[text]); } else { printf("Type: %d\nFile[line]: %s[%d]\nFunction:%s\nText:%s", dtype, &buf[filename], line, &buf[funcname], &buf[text]); } flag = 1; } else { if (format == 'I') { char *b = buf; while (b) { char *p = strchr(b, '\n'); if (p) { *p = '\0'; printf("%s\n%s ", b, indent); b = p + 1; } else { printf("%s", b); b = NULL; } } } else printf("%s", buf); } } printf("\n"); } if (dtype == DEBUG_FUNCRET_NO) level--; } if (fseeko(fp, i[ptr], SEEK_SET)==-1) { printf("finished\n"); break; } } else { printf("...no more items\n"); break; } } free(buf); fclose(fp); if (format == 'I') printf("final indent level = %i\n", level); return 0; } size_t get(void *buf, int size, unsigned int count, FILE *fp) { size_t z; if ((z=fread(buf, size, count, fp)) < count) { printf("Read Failed! (size=%d, count=%d,z=%ld)\n", size, count, (long)z); exit(1); } return z; } int usage() { printf("readlog -t[show_type] -x[exclude_type] -f[format] filename\n"); printf("\tformat:\n\t\tt: text log format\n"); printf("\t\ti: indented text log format\n"); printf("\tshow_type:\n\t\tcomma separated list of types to show " "[ie, 2,4,1,6]\n"); printf("\texclude_type:\n\t\tcomma separated list of types to exclude " "[ie, 1,5,3,7]\n"); return 0; } int split_args(char *args, int **targ) { int count = 1, *i, x, z; char *tmp = args, *y; if (*targ != NULL) { free(*targ); } // find the number of tokens in the string. Starting // from 1 cause there will always be one while ((tmp = strchr(tmp, ',')) != NULL) { tmp++; count++; } *targ = (int*)xmalloc(count * sizeof(int)); i = *targ; // for convienience tmp = args; z = 0; for (x = 0; x < count; x++) { y = strtok(tmp, ","); tmp = NULL; // must be done after first call if (y != NULL) { i[x] = atoi(y); z++; } } return z; } // checks to see if the first arg is in the array of the second arg, // the size of which is specified with the third arg. If the second // arg is NULL, then it is obvious that it is not there. int is_in(int a, int *b, int c){ int d = 0; if (b == NULL || c == 0) { // no array or no items in array return 0; } while (d < c) { if (a == b[d]) return 1; d++; } return 0; }