/* testgdbm.c - Driver program to test the database routines and to help debug gdbm. Uses inside information to show "system" information */ /* This file is part of GDBM, the GNU data base manager, by Philip A. Nelson. Copyright (C) 1990, 1991, 1993 Free Software Foundation, Inc. GDBM 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, or (at your option) any later version. GDBM 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 GDBM; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. You may contact the author by: e-mail: phil@cs.wwu.edu us-mail: Philip A. Nelson Computer Science Department Western Washington University Bellingham, WA 98226 *************************************************************************/ /* AIX demands this be the very first thing in the file. */ #if !defined(__GNUC__) && defined(_AIX) #pragma alloca #endif /* include system configuration before all else. */ #include "autoconf.h" #include "gdbmdefs.h" #include "gdbmerrno.h" #include "extern.h" #include "getopt.h" extern const char * gdbm_version; extern const char *gdbm_strerror _ARGS((gdbm_error)); gdbm_file_info *gdbm_file; /* Debug procedure to print the contents of the current hash bucket. */ void print_bucket (bucket, mesg) hash_bucket *bucket; char *mesg; { int index; printf ("******* %s **********\n\nbits = %d\ncount= %d\nHash Table:\n", mesg, bucket->bucket_bits, bucket->count); printf (" # hash value key size data size data adr home\n"); for (index = 0; index < gdbm_file->header->bucket_elems; index++) printf (" %4d %12x %11d %11d %11d %5d\n", index, bucket->h_table[index].hash_value, bucket->h_table[index].key_size, bucket->h_table[index].data_size, bucket->h_table[index].data_pointer, bucket->h_table[index].hash_value % gdbm_file->header->bucket_elems); printf ("\nAvail count = %1d\n", bucket->av_count); printf ("Avail adr size\n"); for (index = 0; index < bucket->av_count; index++) printf ("%9d%9d\n", bucket->bucket_avail[index].av_adr, bucket->bucket_avail[index].av_size); } void _gdbm_print_avail_list (dbf) gdbm_file_info *dbf; { int temp; int size; avail_block *av_stk; /* Print the the header avail block. */ printf ("\nheader block\nsize = %d\ncount = %d\n", dbf->header->avail.size, dbf->header->avail.count); for (temp = 0; temp < dbf->header->avail.count; temp++) { printf (" %15d %10d \n", dbf->header->avail.av_table[temp].av_size, dbf->header->avail.av_table[temp].av_adr); } /* Initialize the variables for a pass throught the avail stack. */ temp = dbf->header->avail.next_block; size = ( ( (dbf->header->avail.size * sizeof (avail_elem)) >> 1) + sizeof (avail_block)); av_stk = (avail_block *) alloca (size); /* Print the stack. */ while (FALSE) { lseek (dbf->desc, temp, L_SET); read (dbf->desc, av_stk, size); /* Print the block! */ printf ("\nblock = %d\nsize = %d\ncount = %d\n", temp, av_stk->size, av_stk->count); for (temp = 0; temp < av_stk->count; temp++) { printf (" %15d %10d \n", av_stk->av_table[temp].av_size, av_stk->av_table[temp].av_adr); } temp = av_stk->next_block; } } void _gdbm_print_bucket_cache (dbf) gdbm_file_info *dbf; { register int index; char changed; if (dbf->bucket_cache != NULL) { printf( "Bucket Cache (size %d):\n Index: Address Changed Data_Hash \n", dbf->cache_size); for (index=0; index < dbf->cache_size; index++) { changed = dbf->bucket_cache[index].ca_changed; printf (" %5d: %7d %7s %x\n", index, dbf->bucket_cache[index].ca_adr, (changed ? "True" : "False"), dbf->bucket_cache[index].ca_data.hash_val); } } else printf("Bucket cache has not been initialized.\n"); } void usage (s) char *s; { printf( "Usage: %s [-r or -nf] [-b block-size] [-c cache-size] [-g gdbm-file]\n", s); exit (2); } /* The test program allows one to call all the routines plus the hash function. The commands are single letter commands. The user is prompted for all other information. See the help command (?) for a list of all commands. */ int main (argc, argv) int argc; char *argv[]; { char cmd_ch; datum key_data; datum data_data; datum return_data; char key_line[500]; char data_line[1000]; char done = FALSE; int opt; char reader = FALSE; char newdb = FALSE; int fast = 0; int cache_size = DEFAULT_CACHESIZE; int block_size = 0; char *file_name = NULL; /* Argument checking. */ opterr = 0; while ((opt = getopt (argc, argv, "frnc:b:g:")) != -1) switch (opt) { case 'f': fast = GDBM_FAST; if (reader) usage (argv[0]); break; case 'r': reader = TRUE; if (newdb) usage (argv[0]); break; case 'n': newdb = TRUE; if (reader) usage (argv[0]); break; case 'c': cache_size = atoi(optarg); break; case 'b': block_size = atoi(optarg); break; case 'g': file_name = optarg; break; default: usage(argv[0]); } if(file_name == NULL) file_name = "junk.gdbm"; /* Initialize variables. */ key_data.dptr = NULL; data_data.dptr = data_line; if (reader) { gdbm_file = gdbm_open (file_name, block_size, GDBM_READER, 00664, NULL); } else if (newdb) { gdbm_file = gdbm_open (file_name, block_size, GDBM_NEWDB | fast, 00664, NULL); } else { gdbm_file = gdbm_open (file_name, block_size, GDBM_WRCREAT | fast, 00664, NULL); } if (gdbm_file == NULL) { printf("gdbm_open failed, %s\n", gdbm_strerror(gdbm_errno)); exit (2); } if (gdbm_setopt(gdbm_file, GDBM_CACHESIZE, &cache_size, sizeof(int)) == -1) { printf("gdbm_setopt failed, %s\n", gdbm_strerror(gdbm_errno)); exit(2); } /* Welcome message. */ printf ("\nWelcome to the gdbm test program. Type ? for help.\n\n"); while (!done) { printf ("com -> "); cmd_ch = getchar (); if (cmd_ch != '\n') { char temp; do temp = getchar (); while (temp != '\n' && temp != EOF); } if (cmd_ch == EOF) cmd_ch = 'q'; switch (cmd_ch) { /* Standard cases found in all test{dbm,ndbm,gdbm} programs. */ case '\n': printf ("\n"); break; case 'c': { int temp; temp = 0; if (key_data.dptr != NULL) free (key_data.dptr); return_data = gdbm_firstkey (gdbm_file); while (return_data.dptr != NULL) { temp++; key_data = return_data; return_data = gdbm_nextkey (gdbm_file, key_data); free (key_data.dptr); } printf ("There are %d items in the database.\n\n", temp); key_data.dptr = NULL; } break; case 'd': if (key_data.dptr != NULL) free (key_data.dptr); printf ("key -> "); gets (key_line); key_data.dptr = key_line; key_data.dsize = strlen (key_line)+1; if (gdbm_delete (gdbm_file, key_data) != 0) printf ("Item not found or deleted\n"); printf ("\n"); key_data.dptr = NULL; break; case 'f': if (key_data.dptr != NULL) free (key_data.dptr); printf ("key -> "); gets (key_line); key_data.dptr = key_line; key_data.dsize = strlen (key_line)+1; return_data = gdbm_fetch (gdbm_file, key_data); if (return_data.dptr != NULL) { printf ("data is ->%s\n\n", return_data.dptr); free (return_data.dptr); } else printf ("No such item found.\n\n"); key_data.dptr = NULL; break; case 'n': if (key_data.dptr != NULL) free (key_data.dptr); printf ("key -> "); gets (key_line); key_data.dptr = key_line; key_data.dsize = strlen (key_line)+1; return_data = gdbm_nextkey (gdbm_file, key_data); if (return_data.dptr != NULL) { key_data = return_data; printf ("key is ->%s\n", key_data.dptr); return_data = gdbm_fetch (gdbm_file, key_data); printf ("data is ->%s\n\n", return_data.dptr); free (return_data.dptr); } else { printf ("No such item found.\n\n"); key_data.dptr = NULL; } break; case 'q': done = TRUE; break; case 's': if (key_data.dptr != NULL) free (key_data.dptr); printf ("key -> "); gets (key_line); key_data.dptr = key_line; key_data.dsize = strlen (key_line)+1; printf ("data -> "); gets (data_line); data_data.dsize = strlen (data_line)+1; if (gdbm_store (gdbm_file, key_data, data_data, GDBM_REPLACE) != 0) printf ("Item not inserted. \n"); printf ("\n"); key_data.dptr = NULL; break; case '1': if (key_data.dptr != NULL) free (key_data.dptr); key_data = gdbm_firstkey (gdbm_file); if (key_data.dptr != NULL) { printf ("key is ->%s\n", key_data.dptr); return_data = gdbm_fetch (gdbm_file, key_data); printf ("data is ->%s\n\n", return_data.dptr); free (return_data.dptr); } else printf ("No such item found.\n\n"); break; case '2': return_data = gdbm_nextkey (gdbm_file, key_data); if (return_data.dptr != NULL) { free (key_data.dptr); key_data = return_data; printf ("key is ->%s\n", key_data.dptr); return_data = gdbm_fetch (gdbm_file, key_data); printf ("data is ->%s\n\n", return_data.dptr); free (return_data.dptr); } else printf ("No such item found.\n\n"); break; /* Special cases for the testgdbm program. */ case 'r': { if (gdbm_reorganize (gdbm_file)) printf ("Reorganization failed. \n\n"); else printf ("Reorganization succeeded. \n\n"); } break; case 'A': _gdbm_print_avail_list (gdbm_file); printf ("\n"); break; case 'B': { int temp; char number[80]; printf ("bucket? "); gets (number); sscanf (number,"%d",&temp); if (temp >= gdbm_file->header->dir_size /4) { printf ("Not a bucket. \n\n"); break; } _gdbm_get_bucket (gdbm_file, temp); } printf ("Your bucket is now "); case 'C': print_bucket (gdbm_file->bucket, "Current bucket"); printf ("\n current directory entry = %d.\n", gdbm_file->bucket_dir); printf (" current bucket address = %d.\n\n", gdbm_file->cache_entry->ca_adr); break; case 'D': printf ("Hash table directory.\n"); printf (" Size = %d. Bits = %d. \n\n",gdbm_file->header->dir_size, gdbm_file->header->dir_bits); { int temp; for (temp = 0; temp < gdbm_file->header->dir_size / 4; temp++) { printf (" %10d: %12d\n", temp, gdbm_file->dir[temp]); if ( (temp+1) % 20 == 0 && isatty (0)) { printf ("*** CR to continue: "); while (getchar () != '\n') /* Do nothing. */; } } } printf ("\n"); break; case 'F': { printf ("\nFile Header: \n\n"); printf (" table = %d\n", gdbm_file->header->dir); printf (" table size = %d\n", gdbm_file->header->dir_size); printf (" table bits = %d\n", gdbm_file->header->dir_bits); printf (" block size = %d\n", gdbm_file->header->block_size); printf (" bucket elems = %d\n", gdbm_file->header->bucket_elems); printf (" bucket size = %d\n", gdbm_file->header->bucket_size); printf (" header magic = %x\n", gdbm_file->header->header_magic); printf (" next block = %d\n", gdbm_file->header->next_block); printf (" avail size = %d\n", gdbm_file->header->avail.size); printf (" avail count = %d\n", gdbm_file->header->avail.count); printf (" avail nx blk = %d\n", gdbm_file->header->avail.next_block); printf ("\n"); } break; case 'H': if (key_data.dptr != NULL) free (key_data.dptr); printf ("key -> "); gets (key_line); key_data.dptr = key_line; key_data.dsize = strlen (key_line)+1; printf ("hash value = %x. \n\n", _gdbm_hash (key_data)); key_data.dptr = NULL; break; case 'K': _gdbm_print_bucket_cache (gdbm_file); break; case 'V': printf ("%s\n\n", gdbm_version); break; case '?': printf ("c - count (number of entries)\n"); printf ("d - delete\n"); printf ("f - fetch\n"); printf ("n - nextkey\n"); printf ("q - quit\n"); printf ("s - store\n"); printf ("1 - firstkey\n"); printf ("2 - nextkey on last key (from n, 1 or 2)\n\n"); printf ("r - reorganize\n"); printf ("A - print avail list\n"); printf ("B - get and print current bucket n\n"); printf ("C - print current bucket\n"); printf ("D - print hash directory\n"); printf ("F - print file header\n"); printf ("H - hash value of key\n"); printf ("K - print the bucket cache\n"); printf ("V - print version of gdbm\n"); break; default: printf ("What? \n\n"); break; } } /* Quit normally. */ exit (0); }