/* Copyright (C) 2000 MySQL AB & MySQL Finland AB & TCX DataKonsult AB This program 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 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* Test av isam-databas: stor test */ #ifndef USE_MY_FUNC /* We want to be able to dbug this !! */ #define USE_MY_FUNC #endif #ifdef DBUG_OFF #undef DBUG_OFF #endif #ifndef SAFEMALLOC #define SAFEMALLOC #endif #include "myisamdef.h" #include #define STANDARD_LENGTH 37 #define MYISAM_KEYS 6 #define MAX_PARTS 4 #if !defined(MSDOS) && !defined(labs) #define labs(a) abs(a) #endif static void get_options(int argc, char *argv[]); static uint rnd(uint max_value); static void fix_length(byte *record,uint length); static void put_blob_in_record(char *blob_pos,char **blob_buffer); static void copy_key(struct st_myisam_info *info,uint inx, uchar *record,uchar *key); static int verbose=0,testflag=0, first_key=0,async_io=0,key_cacheing=0,write_cacheing=0,locking=0, rec_pointer_size=0,pack_fields=1,use_log=0,silent=0, opt_quick_mode=0; static int pack_seg=HA_SPACE_PACK,pack_type=HA_PACK_KEY,remove_count=-1, create_flag=0; static ulong key_cache_size=IO_SIZE*16; static uint key_cache_block_size= KEY_CACHE_BLOCK_SIZE; static uint keys=MYISAM_KEYS,recant=1000; static uint use_blob=0; static uint16 key1[1001],key3[5000]; static char record[300],record2[300],key[100],key2[100], read_record[300],read_record2[300],read_record3[300]; static HA_KEYSEG glob_keyseg[MYISAM_KEYS][MAX_PARTS]; /* Test program */ int main(int argc, char *argv[]) { uint i; int j,n1,n2,n3,error,k; uint write_count,update,dupp_keys,opt_delete,start,length,blob_pos, reclength,ant,found_parts; my_off_t lastpos; ha_rows range_records,records; MI_INFO *file; MI_KEYDEF keyinfo[10]; MI_COLUMNDEF recinfo[10]; MI_ISAMINFO info; const char *filename; char *blob_buffer; MI_CREATE_INFO create_info; MY_INIT(argv[0]); filename= "test2"; get_options(argc,argv); if (! async_io) my_disable_async_io=1; reclength=STANDARD_LENGTH+60+(use_blob ? 8 : 0); blob_pos=STANDARD_LENGTH+60; keyinfo[0].seg= &glob_keyseg[0][0]; keyinfo[0].seg[0].start=0; keyinfo[0].seg[0].length=6; keyinfo[0].seg[0].type=HA_KEYTYPE_TEXT; keyinfo[0].seg[0].language= default_charset_info->number; keyinfo[0].seg[0].flag=(uint8) pack_seg; keyinfo[0].seg[0].null_bit=0; keyinfo[0].seg[0].null_pos=0; keyinfo[0].key_alg=HA_KEY_ALG_BTREE; keyinfo[0].keysegs=1; keyinfo[0].flag = pack_type; keyinfo[1].seg= &glob_keyseg[1][0]; keyinfo[1].seg[0].start=7; keyinfo[1].seg[0].length=6; keyinfo[1].seg[0].type=HA_KEYTYPE_BINARY; keyinfo[1].seg[0].flag=0; keyinfo[1].seg[0].null_bit=0; keyinfo[1].seg[0].null_pos=0; keyinfo[1].seg[1].start=0; /* two part key */ keyinfo[1].seg[1].length=6; keyinfo[1].seg[1].type=HA_KEYTYPE_NUM; keyinfo[1].seg[1].flag=HA_REVERSE_SORT; keyinfo[1].seg[1].null_bit=0; keyinfo[1].seg[1].null_pos=0; keyinfo[1].key_alg=HA_KEY_ALG_BTREE; keyinfo[1].keysegs=2; keyinfo[1].flag =0; keyinfo[2].seg= &glob_keyseg[2][0]; keyinfo[2].seg[0].start=12; keyinfo[2].seg[0].length=8; keyinfo[2].seg[0].type=HA_KEYTYPE_BINARY; keyinfo[2].seg[0].flag=HA_REVERSE_SORT; keyinfo[2].seg[0].null_bit=0; keyinfo[2].seg[0].null_pos=0; keyinfo[2].key_alg=HA_KEY_ALG_BTREE; keyinfo[2].keysegs=1; keyinfo[2].flag =HA_NOSAME; keyinfo[3].seg= &glob_keyseg[3][0]; keyinfo[3].seg[0].start=0; keyinfo[3].seg[0].length=reclength-(use_blob ? 8 : 0); keyinfo[3].seg[0].type=HA_KEYTYPE_TEXT; keyinfo[3].seg[0].language=default_charset_info->number; keyinfo[3].seg[0].flag=(uint8) pack_seg; keyinfo[3].seg[0].null_bit=0; keyinfo[3].seg[0].null_pos=0; keyinfo[3].key_alg=HA_KEY_ALG_BTREE; keyinfo[3].keysegs=1; keyinfo[3].flag = pack_type; keyinfo[4].seg= &glob_keyseg[4][0]; keyinfo[4].seg[0].start=0; keyinfo[4].seg[0].length=5; keyinfo[4].seg[0].type=HA_KEYTYPE_TEXT; keyinfo[4].seg[0].language=default_charset_info->number; keyinfo[4].seg[0].flag=0; keyinfo[4].seg[0].null_bit=0; keyinfo[4].seg[0].null_pos=0; keyinfo[4].key_alg=HA_KEY_ALG_BTREE; keyinfo[4].keysegs=1; keyinfo[4].flag = pack_type; keyinfo[5].seg= &glob_keyseg[5][0]; keyinfo[5].seg[0].start=0; keyinfo[5].seg[0].length=4; keyinfo[5].seg[0].type=HA_KEYTYPE_TEXT; keyinfo[5].seg[0].language=default_charset_info->number; keyinfo[5].seg[0].flag=pack_seg; keyinfo[5].seg[0].null_bit=0; keyinfo[5].seg[0].null_pos=0; keyinfo[5].key_alg=HA_KEY_ALG_BTREE; keyinfo[5].keysegs=1; keyinfo[5].flag = pack_type; recinfo[0].type=pack_fields ? FIELD_SKIP_PRESPACE : 0; recinfo[0].length=7; recinfo[0].null_bit=0; recinfo[0].null_pos=0; recinfo[1].type=pack_fields ? FIELD_SKIP_PRESPACE : 0; recinfo[1].length=5; recinfo[1].null_bit=0; recinfo[1].null_pos=0; recinfo[2].type=pack_fields ? FIELD_SKIP_PRESPACE : 0; recinfo[2].length=9; recinfo[2].null_bit=0; recinfo[2].null_pos=0; recinfo[3].type=FIELD_NORMAL; recinfo[3].length=STANDARD_LENGTH-7-5-9-4; recinfo[3].null_bit=0; recinfo[3].null_pos=0; recinfo[4].type=pack_fields ? FIELD_SKIP_ZERO : 0; recinfo[4].length=4; recinfo[4].null_bit=0; recinfo[4].null_pos=0; recinfo[5].type=pack_fields ? FIELD_SKIP_ENDSPACE : 0; recinfo[5].length=60; recinfo[5].null_bit=0; recinfo[5].null_pos=0; if (use_blob) { recinfo[6].type=FIELD_BLOB; recinfo[6].length=4+mi_portable_sizeof_char_ptr; recinfo[6].null_bit=0; recinfo[6].null_pos=0; } write_count=update=dupp_keys=opt_delete=0; blob_buffer=0; for (i=1000 ; i>0 ; i--) key1[i]=0; for (i=4999 ; i>0 ; i--) key3[i]=0; if (!silent) printf("- Creating isam-file\n"); /* DBUG_PUSH(""); */ /* my_delete(filename,MYF(0)); */ /* Remove old locks under gdb */ file= 0; bzero((char*) &create_info,sizeof(create_info)); create_info.max_rows=(ha_rows) (rec_pointer_size ? (1L << (rec_pointer_size*8))/ reclength : 0); create_info.reloc_rows=(ha_rows) 100; if (mi_create(filename,keys,&keyinfo[first_key], use_blob ? 7 : 6, &recinfo[0], 0,(MI_UNIQUEDEF*) 0, &create_info,create_flag)) goto err; if (use_log) mi_log(1); if (!(file=mi_open(filename,2,HA_OPEN_ABORT_IF_LOCKED))) goto err; if (!silent) printf("- Writing key:s\n"); if (key_cacheing) init_key_cache(dflt_key_cache,key_cache_block_size,key_cache_size,0,0); if (locking) mi_lock_database(file,F_WRLCK); if (write_cacheing) mi_extra(file,HA_EXTRA_WRITE_CACHE,0); if (opt_quick_mode) mi_extra(file,HA_EXTRA_QUICK,0); for (i=0 ; i < recant ; i++) { n1=rnd(1000); n2=rnd(100); n3=rnd(5000); sprintf(record,"%6d:%4d:%8d:Pos: %4d ",n1,n2,n3,write_count); int4store(record+STANDARD_LENGTH-4,(long) i); fix_length(record,(uint) STANDARD_LENGTH+rnd(60)); put_blob_in_record(record+blob_pos,&blob_buffer); DBUG_PRINT("test",("record: %d",i)); if (mi_write(file,record)) { if (my_errno != HA_ERR_FOUND_DUPP_KEY || key3[n3] == 0) { printf("Error: %d in write at record: %d\n",my_errno,i); goto err; } if (verbose) printf(" Double key: %d\n",n3); } else { if (key3[n3] == 1 && first_key <3 && first_key+keys >= 3) { printf("Error: Didn't get error when writing second key: '%8d'\n",n3); goto err; } write_count++; key1[n1]++; key3[n3]=1; } /* Check if we can find key without flushing database */ if (i == recant/2) { for (j=rnd(1000)+1 ; j>0 && key1[j] == 0 ; j--) ; if (!j) for (j=999 ; j>0 && key1[j] == 0 ; j--) ; sprintf(key,"%6d",j); if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) { printf("Test in loop: Can't find key: \"%s\"\n",key); goto err; } } } if (testflag==1) goto end; if (write_cacheing) { if (mi_extra(file,HA_EXTRA_NO_CACHE,0)) { puts("got error from mi_extra(HA_EXTRA_NO_CACHE)"); goto end; } } if (key_cacheing) resize_key_cache(dflt_key_cache,key_cache_block_size,key_cache_size*2,0,0); if (!silent) printf("- Delete\n"); for (i=0 ; i0 && key1[j] == 0 ; j--) ; if (j != 0) { sprintf(key,"%6d",j); if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) { printf("can't find key1: \"%s\"\n",key); goto err; } if (opt_delete == (uint) remove_count) /* While testing */ goto end; if (mi_delete(file,read_record)) { printf("error: %d; can't delete record: \"%s\"\n", my_errno,read_record); goto err; } opt_delete++; key1[atoi(read_record+keyinfo[0].seg[0].start)]--; key3[atoi(read_record+keyinfo[2].seg[0].start)]=0; } else puts("Warning: Skipping delete test because no dupplicate keys"); } if (testflag==2) goto end; if (!silent) printf("- Update\n"); for (i=0 ; i0 && key1[j] == 0 ; j--) ; if (j != 0) { sprintf(key,"%6d",j); if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) { printf("can't find key1: \"%s\"\n",key); goto err; } if (use_blob) { if (i & 1) put_blob_in_record(record+blob_pos,&blob_buffer); else bmove(record+blob_pos,read_record+blob_pos,8); } if (mi_update(file,read_record,record2)) { if (my_errno != HA_ERR_FOUND_DUPP_KEY || key3[n3] == 0) { printf("error: %d; can't update:\nFrom: \"%s\"\nTo: \"%s\"\n", my_errno,read_record,record2); goto err; } if (verbose) printf("Double key when tried to update:\nFrom: \"%s\"\nTo: \"%s\"\n",record,record2); } else { key1[atoi(read_record+keyinfo[0].seg[0].start)]--; key3[atoi(read_record+keyinfo[2].seg[0].start)]=0; key1[n1]++; key3[n3]=1; update++; } } } if (testflag == 3) goto end; for (i=999, dupp_keys=j=0 ; i>0 ; i--) { if (key1[i] > dupp_keys) { dupp_keys=key1[i]; j=i; } } sprintf(key,"%6d",j); start=keyinfo[0].seg[0].start; length=keyinfo[0].seg[0].length; if (dupp_keys) { if (!silent) printf("- Same key: first - next -> last - prev -> first\n"); DBUG_PRINT("progpos",("first - next -> last - prev -> first")); if (verbose) printf(" Using key: \"%s\" Keys: %d\n",key,dupp_keys); if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) goto err; if (mi_rsame(file,read_record2,-1)) goto err; if (memcmp(read_record,read_record2,reclength) != 0) { printf("mi_rsame didn't find same record\n"); goto end; } info.recpos=mi_position(file); if (mi_rfirst(file,read_record2,0) || mi_rsame_with_pos(file,read_record2,0,info.recpos) || memcmp(read_record,read_record2,reclength) != 0) { printf("mi_rsame_with_pos didn't find same record\n"); goto end; } { int skr=mi_rnext(file,read_record2,0); if ((skr && my_errno != HA_ERR_END_OF_FILE) || mi_rprev(file,read_record2,-1) || memcmp(read_record,read_record2,reclength) != 0) { printf("mi_rsame_with_pos lost position\n"); goto end; } } ant=1; while (mi_rnext(file,read_record2,0) == 0 && memcmp(read_record2+start,key,length) == 0) ant++; if (ant != dupp_keys) { printf("next: Found: %d keys of %d\n",ant,dupp_keys); goto end; } ant=0; while (mi_rprev(file,read_record3,0) == 0 && bcmp(read_record3+start,key,length) == 0) ant++; if (ant != dupp_keys) { printf("prev: Found: %d records of %d\n",ant,dupp_keys); goto end; } /* Check of mi_rnext_same */ if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) goto err; ant=1; while (!mi_rnext_same(file,read_record3) && ant < dupp_keys+10) ant++; if (ant != dupp_keys || my_errno != HA_ERR_END_OF_FILE) { printf("mi_rnext_same: Found: %d records of %d\n",ant,dupp_keys); goto end; } } if (!silent) printf("- All keys: first - next -> last - prev -> first\n"); DBUG_PRINT("progpos",("All keys: first - next -> last - prev -> first")); ant=1; if (mi_rfirst(file,read_record,0)) { printf("Can't find first record\n"); goto end; } while ((error=mi_rnext(file,read_record3,0)) == 0 && ant < write_count+10) ant++; if (ant != write_count - opt_delete || error != HA_ERR_END_OF_FILE) { printf("next: I found: %d records of %d (error: %d)\n", ant, write_count - opt_delete, error); goto end; } if (mi_rlast(file,read_record2,0) || bcmp(read_record2,read_record3,reclength)) { printf("Can't find last record\n"); DBUG_DUMP("record2",(byte*) read_record2,reclength); DBUG_DUMP("record3",(byte*) read_record3,reclength); goto end; } ant=1; while (mi_rprev(file,read_record3,0) == 0 && ant < write_count+10) ant++; if (ant != write_count - opt_delete) { printf("prev: I found: %d records of %d\n",ant,write_count); goto end; } if (bcmp(read_record,read_record3,reclength)) { printf("Can't find first record\n"); goto end; } if (!silent) printf("- Test if: Read first - next - prev - prev - next == first\n"); DBUG_PRINT("progpos",("- Read first - next - prev - prev - next == first")); if (mi_rfirst(file,read_record,0) || mi_rnext(file,read_record3,0) || mi_rprev(file,read_record3,0) || mi_rprev(file,read_record3,0) == 0 || mi_rnext(file,read_record3,0)) goto err; if (bcmp(read_record,read_record3,reclength) != 0) printf("Can't find first record\n"); if (!silent) printf("- Test if: Read last - prev - next - next - prev == last\n"); DBUG_PRINT("progpos",("Read last - prev - next - next - prev == last")); if (mi_rlast(file,read_record2,0) || mi_rprev(file,read_record3,0) || mi_rnext(file,read_record3,0) || mi_rnext(file,read_record3,0) == 0 || mi_rprev(file,read_record3,0)) goto err; if (bcmp(read_record2,read_record3,reclength)) printf("Can't find last record\n"); if (!silent) puts("- Test read key-part"); strmov(key2,key); for(i=strlen(key2) ; i-- > 1 ;) { key2[i]=0; /* The following row is just to catch some bugs in the key code */ bzero((char*) file->lastkey,file->s->base.max_key_length*2); if (mi_rkey(file,read_record,0,key2,(uint) i,HA_READ_PREFIX)) goto err; if (bcmp(read_record+start,key,(uint) i)) { puts("Didn't find right record"); goto end; } } if (dupp_keys > 2) { if (!silent) printf("- Read key (first) - next - delete - next -> last\n"); DBUG_PRINT("progpos",("first - next - delete - next -> last")); if (mi_rkey(file,read_record,0,key,0,HA_READ_KEY_EXACT)) goto err; if (mi_rnext(file,read_record3,0)) goto err; if (mi_delete(file,read_record3)) goto err; opt_delete++; ant=1; while (mi_rnext(file,read_record3,0) == 0 && bcmp(read_record3+start,key,length) == 0) ant++; if (ant != dupp_keys-1) { printf("next: I can only find: %d keys of %d\n",ant,dupp_keys-1); goto end; } } if (dupp_keys>4) { if (!silent) printf("- Read last of key - prev - delete - prev -> first\n"); DBUG_PRINT("progpos",("last - prev - delete - prev -> first")); if (mi_rprev(file,read_record3,0)) goto err; if (mi_rprev(file,read_record3,0)) goto err; if (mi_delete(file,read_record3)) goto err; opt_delete++; ant=1; while (mi_rprev(file,read_record3,0) == 0 && bcmp(read_record3+start,key,length) == 0) ant++; if (ant != dupp_keys-2) { printf("next: I can only find: %d keys of %d\n",ant,dupp_keys-2); goto end; } } if (dupp_keys > 6) { if (!silent) printf("- Read first - delete - next -> last\n"); DBUG_PRINT("progpos",("first - delete - next -> last")); if (mi_rkey(file,read_record3,0,key,0,HA_READ_KEY_EXACT)) goto err; if (mi_delete(file,read_record3)) goto err; opt_delete++; ant=1; if (mi_rnext(file,read_record,0)) goto err; /* Skall finnas poster */ while (mi_rnext(file,read_record3,0) == 0 && bcmp(read_record3+start,key,length) == 0) ant++; if (ant != dupp_keys-3) { printf("next: I can only find: %d keys of %d\n",ant,dupp_keys-3); goto end; } if (!silent) printf("- Read last - delete - prev -> first\n"); DBUG_PRINT("progpos",("last - delete - prev -> first")); if (mi_rprev(file,read_record3,0)) goto err; if (mi_delete(file,read_record3)) goto err; opt_delete++; ant=0; while (mi_rprev(file,read_record3,0) == 0 && bcmp(read_record3+start,key,length) == 0) ant++; if (ant != dupp_keys-4) { printf("next: I can only find: %d keys of %d\n",ant,dupp_keys-4); goto end; } } if (!silent) puts("- Test if: Read rrnd - same"); DBUG_PRINT("progpos",("Read rrnd - same")); for (i=0 ; i < write_count ; i++) { if (mi_rrnd(file,read_record,i == 0 ? 0L : HA_OFFSET_ERROR) == 0) break; } if (i == write_count) goto err; bmove(read_record2,read_record,reclength); for (i=min(2,keys) ; i-- > 0 ;) { if (mi_rsame(file,read_record2,(int) i)) goto err; if (bcmp(read_record,read_record2,reclength) != 0) { printf("is_rsame didn't find same record\n"); goto end; } } if (!silent) puts("- Test mi_records_in_range"); mi_status(file,&info,HA_STATUS_VARIABLE); for (i=0 ; i < info.keys ; i++) { key_range min_key, max_key; if (mi_rfirst(file,read_record,(int) i) || mi_rlast(file,read_record2,(int) i)) goto err; copy_key(file,(uint) i,(uchar*) read_record,(uchar*) key); copy_key(file,(uint) i,(uchar*) read_record2,(uchar*) key2); min_key.key= key; min_key.length= USE_WHOLE_KEY; min_key.flag= HA_READ_KEY_EXACT; max_key.key= key2; max_key.length= USE_WHOLE_KEY; max_key.flag= HA_READ_AFTER_KEY; range_records= mi_records_in_range(file,(int) i, &min_key, &max_key); if (range_records < info.records*8/10 || range_records > info.records*12/10) { printf("mi_records_range returned %ld; Should be about %ld\n", (long) range_records,(long) info.records); goto end; } if (verbose) { printf("mi_records_range returned %ld; Exact is %ld (diff: %4.2g %%)\n", (long) range_records, (long) info.records, labs((long) range_records - (long) info.records)*100.0/ info.records); } } for (i=0 ; i < 5 ; i++) { for (j=rnd(1000)+1 ; j>0 && key1[j] == 0 ; j--) ; for (k=rnd(1000)+1 ; k>0 && key1[k] == 0 ; k--) ; if (j != 0 && k != 0) { key_range min_key, max_key; if (j > k) swap_variables(int, j, k); sprintf(key,"%6d",j); sprintf(key2,"%6d",k); min_key.key= key; min_key.length= USE_WHOLE_KEY; min_key.flag= HA_READ_AFTER_KEY; max_key.key= key2; max_key.length= USE_WHOLE_KEY; max_key.flag= HA_READ_BEFORE_KEY; range_records= mi_records_in_range(file, 0, &min_key, &max_key); records=0; for (j++ ; j < k ; j++) records+=key1[j]; if ((long) range_records < (long) records*7/10-2 || (long) range_records > (long) records*14/10+2) { printf("mi_records_range for key: %d returned %lu; Should be about %lu\n", i, (ulong) range_records, (ulong) records); goto end; } if (verbose && records) { printf("mi_records_range returned %lu; Exact is %lu (diff: %4.2g %%)\n", (ulong) range_records, (ulong) records, labs((long) range_records-(long) records)*100.0/records); } } } if (!silent) printf("- mi_info\n"); mi_status(file,&info,HA_STATUS_VARIABLE | HA_STATUS_CONST); if (info.records != write_count-opt_delete || info.deleted > opt_delete + update || info.keys != keys) { puts("Wrong info from mi_info"); printf("Got: records: %lu delete: %lu i_keys: %d\n", (ulong) info.records, (ulong) info.deleted, info.keys); } if (verbose) { char buff[80]; get_date(buff,3,info.create_time); printf("info: Created %s\n",buff); get_date(buff,3,info.check_time); printf("info: checked %s\n",buff); get_date(buff,3,info.update_time); printf("info: Modified %s\n",buff); } mi_panic(HA_PANIC_WRITE); mi_panic(HA_PANIC_READ); if (mi_is_changed(file)) puts("Warning: mi_is_changed reported that datafile was changed"); if (!silent) printf("- mi_extra(CACHE) + mi_rrnd.... + mi_extra(NO_CACHE)\n"); if (mi_extra(file,HA_EXTRA_RESET,0) || mi_extra(file,HA_EXTRA_CACHE,0)) { if (locking || (!use_blob && !pack_fields)) { puts("got error from mi_extra(HA_EXTRA_CACHE)"); goto end; } } ant=0; while ((error=mi_rrnd(file,record,HA_OFFSET_ERROR)) != HA_ERR_END_OF_FILE && ant < write_count + 10) ant+= error ? 0 : 1; if (ant != write_count-opt_delete) { printf("rrnd with cache: I can only find: %d records of %d\n", ant,write_count-opt_delete); goto end; } if (mi_extra(file,HA_EXTRA_NO_CACHE,0)) { puts("got error from mi_extra(HA_EXTRA_NO_CACHE)"); goto end; } ant=0; mi_scan_init(file); while ((error=mi_scan(file,record)) != HA_ERR_END_OF_FILE && ant < write_count + 10) ant+= error ? 0 : 1; if (ant != write_count-opt_delete) { printf("scan with cache: I can only find: %d records of %d\n", ant,write_count-opt_delete); goto end; } if (testflag == 4) goto end; if (!silent) printf("- Removing keys\n"); DBUG_PRINT("progpos",("Removing keys")); lastpos = HA_OFFSET_ERROR; /* DBUG_POP(); */ mi_extra(file,HA_EXTRA_RESET,0); found_parts=0; while ((error=mi_rrnd(file,read_record,HA_OFFSET_ERROR)) != HA_ERR_END_OF_FILE) { info.recpos=mi_position(file); if (lastpos >= info.recpos && lastpos != HA_OFFSET_ERROR) { printf("mi_rrnd didn't advance filepointer; old: %ld, new: %ld\n", (long) lastpos, (long) info.recpos); goto err; } lastpos=info.recpos; if (error == 0) { if (opt_delete == (uint) remove_count) /* While testing */ goto end; if (mi_rsame(file,read_record,-1)) { printf("can't find record %lx\n",(long) info.recpos); goto err; } if (use_blob) { ulong blob_length,pos; uchar *ptr; longget(blob_length,read_record+blob_pos+4); ptr=(uchar*) blob_length; longget(blob_length,read_record+blob_pos); for (pos=0 ; pos < blob_length ; pos++) { if (ptr[pos] != (uchar) (blob_length+pos)) { printf("found blob with wrong info at %ld\n",(long) lastpos); use_blob=0; break; } } } if (mi_delete(file,read_record)) { printf("can't delete record: %6.6s, delete_count: %d\n", read_record, opt_delete); goto err; } opt_delete++; } else found_parts++; } if (my_errno != HA_ERR_END_OF_FILE && my_errno != HA_ERR_RECORD_DELETED) printf("error: %d from mi_rrnd\n",my_errno); if (write_count != opt_delete) { printf("Deleted only %d of %d records (%d parts)\n",opt_delete,write_count, found_parts); goto err; } end: if (mi_close(file)) goto err; mi_panic(HA_PANIC_CLOSE); /* Should close log */ if (!silent) { printf("\nFollowing test have been made:\n"); printf("Write records: %d\nUpdate records: %d\nSame-key-read: %d\nDelete records: %d\n", write_count,update,dupp_keys,opt_delete); if (rec_pointer_size) printf("Record pointer size: %d\n",rec_pointer_size); printf("myisam_block_size: %u\n", myisam_block_size); if (key_cacheing) { puts("Key cache used"); printf("key_cache_block_size: %u\n", key_cache_block_size); if (write_cacheing) puts("Key cache resized"); } if (write_cacheing) puts("Write cacheing used"); if (write_cacheing) puts("quick mode"); if (async_io && locking) puts("Asyncron io with locking used"); else if (locking) puts("Locking used"); if (use_blob) puts("blobs used"); printf("key cache status: \n\ blocks used:%10lu\n\ not flushed:%10lu\n\ w_requests: %10lu\n\ writes: %10lu\n\ r_requests: %10lu\n\ reads: %10lu\n", dflt_key_cache->blocks_used, dflt_key_cache->global_blocks_changed, (ulong) dflt_key_cache->global_cache_w_requests, (ulong) dflt_key_cache->global_cache_write, (ulong) dflt_key_cache->global_cache_r_requests, (ulong) dflt_key_cache->global_cache_read); } end_key_cache(dflt_key_cache,1); if (blob_buffer) my_free(blob_buffer,MYF(0)); my_end(silent ? MY_CHECK_ERROR : MY_CHECK_ERROR | MY_GIVE_INFO); return(0); err: printf("got error: %d when using MyISAM-database\n",my_errno); if (file) VOID(mi_close(file)); return(1); } /* main */ /* l{ser optioner */ /* OBS! intierar endast DEBUG - ingen debuggning h{r ! */ static void get_options(int argc, char **argv) { char *pos,*progname; DEBUGGER_OFF; progname= argv[0]; while (--argc >0 && *(pos = *(++argv)) == '-' ) { switch(*++pos) { case 'B': pack_type= HA_BINARY_PACK_KEY; break; case 'b': use_blob=1; break; case 'K': /* Use key cacheing */ key_cacheing=1; if (*++pos) key_cache_size=atol(pos); break; case 'W': /* Use write cacheing */ write_cacheing=1; if (*++pos) my_default_record_cache_size=atoi(pos); break; case 'd': remove_count= atoi(++pos); break; case 'i': if (*++pos) srand(atoi(pos)); break; case 'l': use_log=1; break; case 'L': locking=1; break; case 'A': /* use asyncron io */ async_io=1; if (*++pos) my_default_record_cache_size=atoi(pos); break; case 'v': /* verbose */ verbose=1; break; case 'm': /* records */ if ((recant=atoi(++pos)) < 10) { fprintf(stderr,"record count must be >= 10\n"); exit(1); } break; case 'e': /* myisam_block_length */ if ((myisam_block_size=atoi(++pos)) < MI_MIN_KEY_BLOCK_LENGTH || myisam_block_size > MI_MAX_KEY_BLOCK_LENGTH) { fprintf(stderr,"Wrong myisam_block_length\n"); exit(1); } myisam_block_size=1 << my_bit_log2(myisam_block_size); break; case 'E': /* myisam_block_length */ if ((key_cache_block_size=atoi(++pos)) < MI_MIN_KEY_BLOCK_LENGTH || key_cache_block_size > MI_MAX_KEY_BLOCK_LENGTH) { fprintf(stderr,"Wrong key_cache_block_size\n"); exit(1); } key_cache_block_size=1 << my_bit_log2(key_cache_block_size); break; case 'f': if ((first_key=atoi(++pos)) < 0 || first_key >= MYISAM_KEYS) first_key=0; break; case 'k': if ((keys=(uint) atoi(++pos)) < 1 || keys > (uint) (MYISAM_KEYS-first_key)) keys=MYISAM_KEYS-first_key; break; case 'P': pack_type=0; /* Don't use DIFF_LENGTH */ pack_seg=0; break; case 'R': /* Length of record pointer */ rec_pointer_size=atoi(++pos); if (rec_pointer_size > 7) rec_pointer_size=0; break; case 'S': pack_fields=0; /* Static-length-records */ break; case 's': silent=1; break; case 't': testflag=atoi(++pos); /* testmod */ break; case 'q': opt_quick_mode=1; break; case 'c': create_flag|= HA_CREATE_CHECKSUM; break; case 'D': create_flag|=HA_CREATE_DELAY_KEY_WRITE; break; case '?': case 'I': case 'V': printf("%s Ver 1.2 for %s at %s\n",progname,SYSTEM_TYPE,MACHINE_TYPE); puts("By Monty, for your professional use\n"); printf("Usage: %s [-?AbBcDIKLPRqSsVWltv] [-k#] [-f#] [-m#] [-e#] [-E#] [-t#]\n", progname); exit(0); case '#': DEBUGGER_ON; DBUG_PUSH (++pos); break; default: printf("Illegal option: '%c'\n",*pos); break; } } return; } /* get options */ /* Get a random value 0 <= x <= n */ static uint rnd(uint max_value) { return (uint) ((rand() & 32767)/32767.0*max_value); } /* rnd */ /* Create a variable length record */ static void fix_length(byte *rec, uint length) { bmove(rec+STANDARD_LENGTH, "0123456789012345678901234567890123456789012345678901234567890", length-STANDARD_LENGTH); strfill(rec+length,STANDARD_LENGTH+60-length,' '); } /* fix_length */ /* Put maybe a blob in record */ static void put_blob_in_record(char *blob_pos, char **blob_buffer) { ulong i,length; if (use_blob) { if (rnd(10) == 0) { if (! *blob_buffer && !(*blob_buffer=my_malloc((uint) use_blob,MYF(MY_WME)))) { use_blob=0; return; } length=rnd(use_blob); for (i=0 ; i < length ; i++) (*blob_buffer)[i]=(char) (length+i); int4store(blob_pos,length); memcpy_fixed(blob_pos+4,(char*) blob_buffer,sizeof(char*)); } else { int4store(blob_pos,0); } } return; } static void copy_key(MI_INFO *info,uint inx,uchar *rec,uchar *key_buff) { HA_KEYSEG *keyseg; for (keyseg=info->s->keyinfo[inx].seg ; keyseg->type ; keyseg++) { memcpy(key_buff,rec+keyseg->start,(size_t) keyseg->length); key_buff+=keyseg->length; } return; }