#include #ifndef VMS #include #include #else #include "file.h" #include "ndbm.h" #endif #include /***************************************************************************\ ** ** ** Function name: getopt() ** ** Author: Henry Spencer, UofT ** ** Coding date: 84/04/28 ** ** ** ** Description: ** ** ** ** Parses argv[] for arguments. ** ** Works with Whitesmith's C compiler. ** ** ** ** Inputs - The number of arguments ** ** - The base address of the array of arguments ** ** - A string listing the valid options (':' indicates an ** ** argument to the preceding option is required, a ';' ** ** indicates an argument to the preceding option is optional) ** ** ** ** Outputs - Returns the next option character, ** ** '?' for non '-' arguments ** ** or ':' when there is no more arguments. ** ** ** ** Side Effects + The argument to an option is pointed to by 'optarg' ** ** ** ***************************************************************************** ** ** ** REVISION HISTORY: ** ** ** ** DATE NAME DESCRIPTION ** ** YY/MM/DD ------------------ ------------------------------------ ** ** 88/10/20 Janick Bergeron Returns '?' on unamed arguments ** ** returns '!' on unknown options ** ** and 'EOF' only when exhausted. ** ** 88/11/18 Janick Bergeron Return ':' when no more arguments ** ** 89/08/11 Janick Bergeron Optional optarg when ';' in optstring ** ** ** \***************************************************************************/ char *optarg; /* Global argument pointer. */ #ifdef VMS #define index strchr #endif char getopt(int argc, char **argv, char *optstring) { int c; char *place; extern char *index(); static int optind = 0; static char *scan = NULL; optarg = NULL; if (scan == NULL || *scan == '\0') { if (optind == 0) optind++; if (optind >= argc) return ':'; optarg = place = argv[optind++]; if (place[0] != '-' || place[1] == '\0') return '?'; if (place[1] == '-' && place[2] == '\0') return '?'; scan = place + 1; } c = *scan++; place = index(optstring, c); if (place == NULL || c == ':' || c == ';') { (void) fprintf(stderr, "%s: unknown option %c\n", argv[0], c); scan = NULL; return '!'; } if (*++place == ':') { if (*scan != '\0') { optarg = scan; scan = NULL; } else { if (optind >= argc) { (void) fprintf(stderr, "%s: %c requires an argument\n", argv[0], c); return '!'; } optarg = argv[optind]; optind++; } } else if (*place == ';') { if (*scan != '\0') { optarg = scan; scan = NULL; } else { if (optind >= argc || *argv[optind] == '-') optarg = NULL; else { optarg = argv[optind]; optind++; } } } return c; } void print_datum(datum db) { int i; putchar('"'); for (i = 0; i < db.dsize; i++) { if (isprint((unsigned char)db.dptr[i])) putchar(db.dptr[i]); else { putchar('\\'); putchar('0' + ((db.dptr[i] >> 6) & 0x07)); putchar('0' + ((db.dptr[i] >> 3) & 0x07)); putchar('0' + (db.dptr[i] & 0x07)); } } putchar('"'); } datum read_datum(char *s) { datum db; char *p; int i; db.dsize = 0; db.dptr = (char *) malloc(strlen(s) * sizeof(char)); if (!db.dptr) oops("cannot get memory"); for (p = db.dptr; *s != '\0'; p++, db.dsize++, s++) { if (*s == '\\') { if (*++s == 'n') *p = '\n'; else if (*s == 'r') *p = '\r'; else if (*s == 'f') *p = '\f'; else if (*s == 't') *p = '\t'; else if (isdigit((unsigned char)*s) && isdigit((unsigned char)*(s + 1)) && isdigit((unsigned char)*(s + 2))) { i = (*s++ - '0') << 6; i |= (*s++ - '0') << 3; i |= *s - '0'; *p = i; } else if (*s == '0') *p = '\0'; else *p = *s; } else *p = *s; } return db; } char * key2s(datum db) { char *buf; char *p1, *p2; buf = (char *) malloc((db.dsize + 1) * sizeof(char)); if (!buf) oops("cannot get memory"); for (p1 = buf, p2 = db.dptr; *p2 != '\0'; *p1++ = *p2++); *p1 = '\0'; return buf; } int main(int argc, char **argv) { typedef enum { YOW, FETCH, STORE, DELETE, SCAN, REGEXP } commands; char opt; int flags; int giveusage = 0; int verbose = 0; commands what = YOW; char *comarg[3]; int st_flag = DBM_INSERT; int argn; DBM *db; datum key; datum content; flags = O_RDWR; argn = 0; while ((opt = getopt(argc, argv, "acdfFm:rstvx")) != ':') { switch (opt) { case 'a': what = SCAN; break; case 'c': flags |= O_CREAT; break; case 'd': what = DELETE; break; case 'f': what = FETCH; break; case 'F': what = REGEXP; break; case 'm': flags &= ~(000007); if (strcmp(optarg, "r") == 0) flags |= O_RDONLY; else if (strcmp(optarg, "w") == 0) flags |= O_WRONLY; else if (strcmp(optarg, "rw") == 0) flags |= O_RDWR; else { fprintf(stderr, "Invalid mode: \"%s\"\n", optarg); giveusage = 1; } break; case 'r': st_flag = DBM_REPLACE; break; case 's': what = STORE; break; case 't': flags |= O_TRUNC; break; case 'v': verbose = 1; break; case 'x': flags |= O_EXCL; break; case '!': giveusage = 1; break; case '?': if (argn < 3) comarg[argn++] = optarg; else { fprintf(stderr, "Too many arguments.\n"); giveusage = 1; } break; } } if (giveusage || what == YOW || argn < 1) { fprintf(stderr, "Usage: %s database [-m r|w|rw] [-crtx] -a|-d|-f|-F|-s [key [content]]\n", argv[0]); exit(-1); } if ((db = dbm_open(comarg[0], flags, 0777)) == NULL) { fprintf(stderr, "Error opening database \"%s\"\n", comarg[0]); exit(-1); } if (argn > 1) key = read_datum(comarg[1]); if (argn > 2) content = read_datum(comarg[2]); switch (what) { case SCAN: key = dbm_firstkey(db); if (dbm_error(db)) { fprintf(stderr, "Error when fetching first key\n"); goto db_exit; } while (key.dptr != NULL) { content = dbm_fetch(db, key); if (dbm_error(db)) { fprintf(stderr, "Error when fetching "); print_datum(key); printf("\n"); goto db_exit; } print_datum(key); printf(": "); print_datum(content); printf("\n"); if (dbm_error(db)) { fprintf(stderr, "Error when fetching next key\n"); goto db_exit; } key = dbm_nextkey(db); } break; case REGEXP: if (argn < 2) { fprintf(stderr, "Missing regular expression.\n"); goto db_exit; } if (re_comp(comarg[1])) { fprintf(stderr, "Invalid regular expression\n"); goto db_exit; } key = dbm_firstkey(db); if (dbm_error(db)) { fprintf(stderr, "Error when fetching first key\n"); goto db_exit; } while (key.dptr != NULL) { if (re_exec(key2s(key))) { content = dbm_fetch(db, key); if (dbm_error(db)) { fprintf(stderr, "Error when fetching "); print_datum(key); printf("\n"); goto db_exit; } print_datum(key); printf(": "); print_datum(content); printf("\n"); if (dbm_error(db)) { fprintf(stderr, "Error when fetching next key\n"); goto db_exit; } } key = dbm_nextkey(db); } break; case FETCH: if (argn < 2) { fprintf(stderr, "Missing fetch key.\n"); goto db_exit; } content = dbm_fetch(db, key); if (dbm_error(db)) { fprintf(stderr, "Error when fetching "); print_datum(key); printf("\n"); goto db_exit; } if (content.dptr == NULL) { fprintf(stderr, "Cannot find "); print_datum(key); printf("\n"); goto db_exit; } print_datum(key); printf(": "); print_datum(content); printf("\n"); break; case DELETE: if (argn < 2) { fprintf(stderr, "Missing delete key.\n"); goto db_exit; } if (dbm_delete(db, key) || dbm_error(db)) { fprintf(stderr, "Error when deleting "); print_datum(key); printf("\n"); goto db_exit; } if (verbose) { print_datum(key); printf(": DELETED\n"); } break; case STORE: if (argn < 3) { fprintf(stderr, "Missing key and/or content.\n"); goto db_exit; } if (dbm_store(db, key, content, st_flag) || dbm_error(db)) { fprintf(stderr, "Error when storing "); print_datum(key); printf("\n"); goto db_exit; } if (verbose) { print_datum(key); printf(": "); print_datum(content); printf(" STORED\n"); } break; } db_exit: dbm_clearerr(db); dbm_close(db); if (dbm_error(db)) { fprintf(stderr, "Error closing database \"%s\"\n", comarg[0]); exit(-1); } }