ha_checksum mi_checksum(MI_INFO *info, const uchar *buf) { uint i; ha_checksum crc=0; MI_COLUMNDEF *rec=info->s->rec; for (i=info->s->base.fields ; i-- ; buf+=(rec++)->length) { const uchar *pos; ulong length; switch (rec->type) { case FIELD_BLOB: { length=_mi_calc_blob_length(rec->length- portable_sizeof_char_ptr, buf); memcpy((char*) &pos, buf+rec->length- portable_sizeof_char_ptr, sizeof(char*)); break; } case FIELD_VARCHAR: { uint pack_length= HA_VARCHAR_PACKLENGTH(rec->length-1); if (pack_length == 1) length= (ulong) *(uchar*) buf; else length= uint2korr(buf); pos= buf+pack_length; break; } default: length=rec->length; pos=buf; break; } crc=my_checksum(crc, pos ? pos : (uchar*) "", length); } return crc; }
static int run_test(const char *filename) { MI_INFO *file; int i,j,error,deleted,rec_length,uniques=0; ha_rows found,row_count; my_off_t pos; uchar record[MAX_REC_LENGTH],key[MAX_REC_LENGTH],read_record[MAX_REC_LENGTH]; MI_UNIQUEDEF uniquedef; MI_CREATE_INFO create_info; bzero((char*) recinfo,sizeof(recinfo)); /* First define 2 columns */ recinfo[0].type=FIELD_NORMAL; recinfo[0].length=1; /* For NULL bits */ recinfo[1].type=key_field; recinfo[1].length= (key_field == FIELD_BLOB ? 4+portable_sizeof_char_ptr : key_length); if (key_field == FIELD_VARCHAR) recinfo[1].length+= HA_VARCHAR_PACKLENGTH(key_length);; recinfo[2].type=extra_field; recinfo[2].length= (extra_field == FIELD_BLOB ? 4 + portable_sizeof_char_ptr : 24); if (extra_field == FIELD_VARCHAR) recinfo[2].length+= HA_VARCHAR_PACKLENGTH(recinfo[2].length); if (opt_unique) { recinfo[3].type=FIELD_CHECK; recinfo[3].length=MI_UNIQUE_HASH_LENGTH; } rec_length=recinfo[0].length+recinfo[1].length+recinfo[2].length+ recinfo[3].length; if (key_type == HA_KEYTYPE_VARTEXT1 && key_length > 255) key_type= HA_KEYTYPE_VARTEXT2; /* Define a key over the first column */ keyinfo[0].seg=keyseg; keyinfo[0].keysegs=1; keyinfo[0].block_length= 0; /* Default block length */ keyinfo[0].key_alg=HA_KEY_ALG_BTREE; keyinfo[0].seg[0].type= key_type; keyinfo[0].seg[0].flag= pack_seg; keyinfo[0].seg[0].start=1; keyinfo[0].seg[0].length=key_length; keyinfo[0].seg[0].null_bit= null_fields ? 2 : 0; keyinfo[0].seg[0].null_pos=0; keyinfo[0].seg[0].language= default_charset_info->number; if (pack_seg & HA_BLOB_PART) { keyinfo[0].seg[0].bit_start=4; /* Length of blob length */ } keyinfo[0].flag = (uint8) (pack_keys | unique_key); bzero((uchar*) flags,sizeof(flags)); if (opt_unique) { uint start; uniques=1; bzero((char*) &uniquedef,sizeof(uniquedef)); bzero((char*) uniqueseg,sizeof(uniqueseg)); uniquedef.seg=uniqueseg; uniquedef.keysegs=2; /* Make a unique over all columns (except first NULL fields) */ for (i=0, start=1 ; i < 2 ; i++) { uniqueseg[i].start=start; start+=recinfo[i+1].length; uniqueseg[i].length=recinfo[i+1].length; uniqueseg[i].language= default_charset_info->number; } uniqueseg[0].type= key_type; uniqueseg[0].null_bit= null_fields ? 2 : 0; uniqueseg[1].type= HA_KEYTYPE_TEXT; if (extra_field == FIELD_BLOB) { uniqueseg[1].length=0; /* The whole blob */ uniqueseg[1].bit_start=4; /* long blob */ uniqueseg[1].flag|= HA_BLOB_PART; } else if (extra_field == FIELD_VARCHAR) uniqueseg[1].flag|= HA_VAR_LENGTH_PART; } else uniques=0; if (!silent) printf("- Creating isam-file\n"); bzero((char*) &create_info,sizeof(create_info)); create_info.max_rows=(ulong) (rec_pointer_size ? (1L << (rec_pointer_size*8))/40 : 0); if (mi_create(filename,1,keyinfo,3+opt_unique,recinfo, uniques, &uniquedef, &create_info, create_flag)) goto err; if (!(file=mi_open(filename,2,HA_OPEN_ABORT_IF_LOCKED))) goto err; if (!silent) printf("- Writing key:s\n"); my_errno=0; row_count=deleted=0; for (i=49 ; i>=1 ; i-=2 ) { if (insert_count-- == 0) { VOID(mi_close(file)) ; exit(0) ; } j=i%25 +1; create_record(record,j); error=mi_write(file,record); if (!error) row_count++; flags[j]=1; if (verbose || error) printf("J= %2d mi_write: %d errno: %d\n", j,error,my_errno); } /* Insert 2 rows with null values */ if (null_fields) { create_record(record,0); error=mi_write(file,record); if (!error) row_count++; if (verbose || error) printf("J= NULL mi_write: %d errno: %d\n", error,my_errno); error=mi_write(file,record); if (!error) row_count++; if (verbose || error) printf("J= NULL mi_write: %d errno: %d\n", error,my_errno); flags[0]=2; } if (!skip_update) { if (opt_unique) { if (!silent) printf("- Checking unique constraint\n"); create_record(record,j); if (!mi_write(file,record) || my_errno != HA_ERR_FOUND_DUPP_UNIQUE) { printf("unique check failed\n"); } } if (!silent) printf("- Updating rows\n"); /* Update first last row to force extend of file */ if (mi_rsame(file,read_record,-1)) { printf("Can't find last row with mi_rsame\n"); } else { memcpy(record,read_record,rec_length); update_record(record); if (mi_update(file,read_record,record)) { printf("Can't update last row: %.*s\n", keyinfo[0].seg[0].length,read_record+1); } } /* Read through all rows and update them */ pos=(my_off_t) 0; found=0; while ((error=mi_rrnd(file,read_record,pos)) == 0) { if (update_count-- == 0) { VOID(mi_close(file)) ; exit(0) ; } memcpy(record,read_record,rec_length); update_record(record); if (mi_update(file,read_record,record)) { printf("Can't update row: %.*s, error: %d\n", keyinfo[0].seg[0].length,record+1,my_errno); } found++; pos=HA_OFFSET_ERROR; } if (found != row_count) printf("Found %ld of %ld rows\n", (ulong) found, (ulong) row_count); } if (!silent) printf("- Reopening file\n"); if (mi_close(file)) goto err; if (!(file=mi_open(filename,2,HA_OPEN_ABORT_IF_LOCKED))) goto err; if (!skip_update) { if (!silent) printf("- Removing keys\n"); for (i=0 ; i <= 10 ; i++) { /* testing */ if (remove_count-- == 0) { VOID(mi_close(file)) ; exit(0) ; } j=i*2; if (!flags[j]) continue; create_key(key,j); my_errno=0; if ((error = mi_rkey(file,read_record,0,key,HA_WHOLE_KEY, HA_READ_KEY_EXACT))) { if (verbose || (flags[j] >= 1 || (error && my_errno != HA_ERR_KEY_NOT_FOUND))) printf("key: '%.*s' mi_rkey: %3d errno: %3d\n", (int) key_length,key+test(null_fields),error,my_errno); } else { error=mi_delete(file,read_record); if (verbose || error) printf("key: '%.*s' mi_delete: %3d errno: %3d\n", (int) key_length, key+test(null_fields), error, my_errno); if (! error) { deleted++; flags[j]--; } } } } if (!silent) printf("- Reading rows with key\n"); for (i=0 ; i <= 25 ; i++) { create_key(key,i); my_errno=0; error=mi_rkey(file,read_record,0,key,HA_WHOLE_KEY,HA_READ_KEY_EXACT); if (verbose || (error == 0 && flags[i] == 0 && unique_key) || (error && (flags[i] != 0 || my_errno != HA_ERR_KEY_NOT_FOUND))) { printf("key: '%.*s' mi_rkey: %3d errno: %3d record: %s\n", (int) key_length,key+test(null_fields),error,my_errno,record+1); } } if (!silent) printf("- Reading rows with position\n"); for (i=1,found=0 ; i <= 30 ; i++) { my_errno=0; if ((error=mi_rrnd(file,read_record,i == 1 ? 0L : HA_OFFSET_ERROR)) == -1) { if (found != row_count-deleted) printf("Found only %ld of %ld rows\n", (ulong) found, (ulong) (row_count - deleted)); break; } if (!error) found++; if (verbose || (error != 0 && error != HA_ERR_RECORD_DELETED && error != HA_ERR_END_OF_FILE)) { printf("pos: %2d mi_rrnd: %3d errno: %3d record: %s\n", i-1,error,my_errno,read_record+1); } } if (mi_close(file)) goto err; my_end(MY_CHECK_ERROR); return (0); err: printf("got error: %3d when using myisam-database\n",my_errno); return 1; /* skip warning */ }
static void create_record(uchar *record,uint rownr) { uchar *pos; bzero((char*) record,MAX_REC_LENGTH); record[0]=1; /* delete marker */ if (rownr == 0 && keyinfo[0].seg[0].null_bit) record[0]|=keyinfo[0].seg[0].null_bit; /* Null key */ pos=record+1; if (recinfo[1].type == FIELD_BLOB) { uint tmp; uchar *ptr; create_key_part(blob_key,rownr); tmp=strlen((char*) blob_key); int4store(pos,tmp); ptr=blob_key; memcpy_fixed(pos+4,&ptr,sizeof(char*)); pos+=recinfo[1].length; } else if (recinfo[1].type == FIELD_VARCHAR) { uint tmp, pack_length= HA_VARCHAR_PACKLENGTH(recinfo[1].length-1); create_key_part(pos+pack_length,rownr); tmp= strlen((char*) pos+pack_length); if (pack_length == 1) *(uchar*) pos= (uchar) tmp; else int2store(pos,tmp); pos+= recinfo[1].length; } else { create_key_part(pos,rownr); pos+=recinfo[1].length; } if (recinfo[2].type == FIELD_BLOB) { uint tmp; uchar *ptr;; sprintf((char*) blob_record,"... row: %d", rownr); strappend((char*) blob_record,max(MAX_REC_LENGTH-rownr,10),' '); tmp=strlen((char*) blob_record); int4store(pos,tmp); ptr=blob_record; memcpy_fixed(pos+4,&ptr,sizeof(char*)); } else if (recinfo[2].type == FIELD_VARCHAR) { uint tmp, pack_length= HA_VARCHAR_PACKLENGTH(recinfo[1].length-1); sprintf((char*) pos+pack_length, "... row: %d", rownr); tmp= strlen((char*) pos+pack_length); if (pack_length == 1) *pos= (uchar) tmp; else int2store(pos,tmp); } else { sprintf((char*) pos,"... row: %d", rownr); strappend((char*) pos,recinfo[2].length,' '); } }
static void update_record(uchar *record) { uchar *pos=record+1; if (recinfo[1].type == FIELD_BLOB) { uchar *column,*ptr; int length; length=uint4korr(pos); /* Long blob */ memcpy_fixed(&column,pos+4,sizeof(char*)); memcpy(blob_key,column,length); /* Move old key */ ptr=blob_key; memcpy_fixed(pos+4,&ptr,sizeof(char*)); /* Store pointer to new key */ if (keyinfo[0].seg[0].type != HA_KEYTYPE_NUM) default_charset_info->cset->casedn(default_charset_info, (char*) blob_key, length, (char*) blob_key, length); pos+=recinfo[1].length; } else if (recinfo[1].type == FIELD_VARCHAR) { uint pack_length= HA_VARCHAR_PACKLENGTH(recinfo[1].length-1); uint length= pack_length == 1 ? (uint) *(uchar*) pos : uint2korr(pos); default_charset_info->cset->casedn(default_charset_info, (char*) pos + pack_length, length, (char*) pos + pack_length, length); pos+=recinfo[1].length; } else { if (keyinfo[0].seg[0].type != HA_KEYTYPE_NUM) default_charset_info->cset->casedn(default_charset_info, (char*) pos, keyinfo[0].seg[0].length, (char*) pos, keyinfo[0].seg[0].length); pos+=recinfo[1].length; } if (recinfo[2].type == FIELD_BLOB) { uchar *column; int length; length=uint4korr(pos); memcpy_fixed(&column,pos+4,sizeof(char*)); memcpy(blob_record,column,length); bfill(blob_record+length,20,'.'); /* Make it larger */ length+=20; int4store(pos,length); column= blob_record; memcpy_fixed(pos+4,&column,sizeof(char*)); } else if (recinfo[2].type == FIELD_VARCHAR) { /* Second field is longer than 10 characters */ uint pack_length= HA_VARCHAR_PACKLENGTH(recinfo[1].length-1); uint length= pack_length == 1 ? (uint) *(uchar*) pos : uint2korr(pos); bfill(pos+pack_length+length,recinfo[2].length-length-pack_length,'.'); length=recinfo[2].length-pack_length; if (pack_length == 1) *(uchar*) pos= (uchar) length; else int2store(pos,length); } else { bfill(pos+recinfo[2].length-10,10,'.'); } }
static int run_test(const char *filename) { MARIA_HA *file; int i,j= 0,error,deleted,rec_length,uniques=0; uint offset_to_key; ha_rows found,row_count; uchar record[MAX_REC_LENGTH],key[MAX_REC_LENGTH],read_record[MAX_REC_LENGTH]; MARIA_UNIQUEDEF uniquedef; MARIA_CREATE_INFO create_info; if (die_in_middle_of_transaction) null_fields= 1; bzero((char*) recinfo,sizeof(recinfo)); bzero((char*) &create_info,sizeof(create_info)); /* First define 2 columns */ create_info.null_bytes= 1; recinfo[0].type= key_field; recinfo[0].length= (key_field == FIELD_BLOB ? 4+portable_sizeof_char_ptr : key_length); if (key_field == FIELD_VARCHAR) recinfo[0].length+= HA_VARCHAR_PACKLENGTH(key_length); recinfo[1].type=extra_field; recinfo[1].length= (extra_field == FIELD_BLOB ? 4 + portable_sizeof_char_ptr : 24); if (extra_field == FIELD_VARCHAR) recinfo[1].length+= HA_VARCHAR_PACKLENGTH(recinfo[1].length); recinfo[1].null_bit= null_fields ? 2 : 0; if (opt_unique) { recinfo[2].type=FIELD_CHECK; recinfo[2].length=MARIA_UNIQUE_HASH_LENGTH; } rec_length= recinfo[0].length + recinfo[1].length + recinfo[2].length + create_info.null_bytes; if (key_type == HA_KEYTYPE_VARTEXT1 && key_length > 255) key_type= HA_KEYTYPE_VARTEXT2; /* Define a key over the first column */ keyinfo[0].seg=keyseg; keyinfo[0].keysegs=1; keyinfo[0].block_length= 0; /* Default block length */ keyinfo[0].key_alg=HA_KEY_ALG_BTREE; keyinfo[0].seg[0].type= key_type; keyinfo[0].seg[0].flag= pack_seg; keyinfo[0].seg[0].start=1; keyinfo[0].seg[0].length=key_length; keyinfo[0].seg[0].null_bit= null_fields ? 2 : 0; keyinfo[0].seg[0].null_pos=0; keyinfo[0].seg[0].language= default_charset_info->number; if (pack_seg & HA_BLOB_PART) { keyinfo[0].seg[0].bit_start=4; /* Length of blob length */ } keyinfo[0].flag = (uint8) (pack_keys | unique_key); bzero((uchar*) flags,sizeof(flags)); if (opt_unique) { uint start; uniques=1; bzero((char*) &uniquedef,sizeof(uniquedef)); bzero((char*) uniqueseg,sizeof(uniqueseg)); uniquedef.seg=uniqueseg; uniquedef.keysegs=2; /* Make a unique over all columns (except first NULL fields) */ for (i=0, start=1 ; i < 2 ; i++) { uniqueseg[i].start=start; start+=recinfo[i].length; uniqueseg[i].length=recinfo[i].length; uniqueseg[i].language= default_charset_info->number; } uniqueseg[0].type= key_type; uniqueseg[0].null_bit= null_fields ? 2 : 0; uniqueseg[1].type= HA_KEYTYPE_TEXT; if (extra_field == FIELD_BLOB) { uniqueseg[1].length=0; /* The whole blob */ uniqueseg[1].bit_start=4; /* long blob */ uniqueseg[1].flag|= HA_BLOB_PART; } else if (extra_field == FIELD_VARCHAR) { uniqueseg[1].flag|= HA_VAR_LENGTH_PART; uniqueseg[1].type= (HA_VARCHAR_PACKLENGTH(recinfo[1].length-1) == 1 ? HA_KEYTYPE_VARTEXT1 : HA_KEYTYPE_VARTEXT2); } } else uniques=0; offset_to_key= MY_TEST(null_fields); if (key_field == FIELD_BLOB || key_field == FIELD_VARCHAR) offset_to_key+= 2; if (!silent) printf("- Creating maria file\n"); create_info.max_rows=(ulong) (rec_pointer_size ? (1L << (rec_pointer_size*8))/40 : 0); create_info.transactional= transactional; if (maria_create(filename, record_type, 1, keyinfo,2+opt_unique,recinfo, uniques, &uniquedef, &create_info, create_flag)) goto err; if (!(file=maria_open(filename,2,HA_OPEN_ABORT_IF_LOCKED))) goto err; if (!silent) printf("- Writing key:s\n"); if (maria_begin(file)) goto err; if (opt_versioning) maria_versioning(file, 1); my_errno=0; row_count=deleted=0; for (i=49 ; i>=1 ; i-=2 ) { if (insert_count-- == 0) { if (testflag) break; maria_close(file); exit(0); } j=i%25 +1; create_record(record,j); error=maria_write(file,record); if (!error) row_count++; flags[j]=1; if (verbose || error) printf("J= %2d maria_write: %d errno: %d\n", j,error,my_errno); } if (maria_commit(file) || maria_begin(file)) goto err; if (checkpoint == 1 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE)) goto err; if (testflag == 1) goto end; /* Insert 2 rows with null values */ if (null_fields) { create_record(record,0); error=maria_write(file,record); if (!error) row_count++; if (verbose || error) printf("J= NULL maria_write: %d errno: %d\n", error,my_errno); error=maria_write(file,record); if (!error) row_count++; if (verbose || error) printf("J= NULL maria_write: %d errno: %d\n", error,my_errno); flags[0]=2; } if (checkpoint == 2 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE)) goto err; if (testflag == 2) { printf("Terminating after inserts\n"); goto end; } if (maria_commit(file) || maria_begin(file)) goto err; if (!skip_update) { if (opt_unique) { if (!silent) printf("- Checking unique constraint\n"); create_record(record,j); /* Check last created row */ if (!maria_write(file,record) || my_errno != HA_ERR_FOUND_DUPP_UNIQUE) { printf("unique check failed\n"); } } if (!silent) printf("- Updating rows\n"); /* Update first last row to force extend of file */ if (maria_rsame(file,read_record,-1)) { printf("Can't find last row with maria_rsame\n"); } else { memcpy(record,read_record,rec_length); update_record(record); if (maria_update(file,read_record,record)) { printf("Can't update last row: %.*s\n", keyinfo[0].seg[0].length,read_record+1); } } /* Read through all rows and update them */ maria_scan_init(file); found=0; while ((error= maria_scan(file,read_record)) == 0) { if (--update_count == 0) { maria_close(file); exit(0) ; } memcpy(record,read_record,rec_length); update_record(record); if (maria_update(file,read_record,record)) { printf("Can't update row: %.*s, error: %d\n", keyinfo[0].seg[0].length,record+1,my_errno); } found++; } if (found != row_count) printf("Found %ld of %ld rows\n", (ulong) found, (ulong) row_count); maria_scan_end(file); } if (checkpoint == 3 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE)) goto err; if (testflag == 3) { printf("Terminating after updates\n"); goto end; } if (!silent) printf("- Reopening file\n"); if (maria_commit(file)) goto err; if (maria_close(file)) goto err; if (!(file=maria_open(filename,2,HA_OPEN_ABORT_IF_LOCKED))) goto err; if (maria_begin(file)) goto err; if (opt_versioning) maria_versioning(file, 1); if (!skip_delete) { if (!silent) printf("- Removing keys\n"); for (i=0 ; i <= 10 ; i++) { /* If you want to debug the problem in ma_test_recovery with BLOBs (see @todo there), you can break out of the loop after just one delete, it is enough, like this: if (i==1) break; */ /* testing */ if (remove_count-- == 0) { fprintf(stderr, "delete-rows number of rows deleted; Going down hard!\n"); goto end; } j=i*2; if (!flags[j]) continue; create_key(key,j); my_errno=0; if ((error = maria_rkey(file, read_record, 0, key, HA_WHOLE_KEY, HA_READ_KEY_EXACT))) { if (verbose || (flags[j] >= 1 || (error && my_errno != HA_ERR_KEY_NOT_FOUND))) printf("key: '%.*s' maria_rkey: %3d errno: %3d\n", (int) key_length,key+offset_to_key,error,my_errno); } else { error=maria_delete(file,read_record); if (verbose || error) printf("key: '%.*s' maria_delete: %3d errno: %3d\n", (int) key_length, key+offset_to_key, error, my_errno); if (! error) { deleted++; flags[j]--; } } } } if (checkpoint == 4 && ma_checkpoint_execute(CHECKPOINT_MEDIUM, FALSE)) goto err; if (testflag == 4) { printf("Terminating after deletes\n"); goto end; } if (!silent) printf("- Reading rows with key\n"); record[1]= 0; /* For nicer printf */ if (record_type == NO_RECORD) maria_extra(file, HA_EXTRA_KEYREAD, 0); for (i=0 ; i <= 25 ; i++) { create_key(key,i); my_errno=0; error=maria_rkey(file,read_record,0,key,HA_WHOLE_KEY,HA_READ_KEY_EXACT); if (verbose || (error == 0 && flags[i] == 0 && unique_key) || (error && (flags[i] != 0 || my_errno != HA_ERR_KEY_NOT_FOUND))) { printf("key: '%.*s' maria_rkey: %3d errno: %3d record: %s\n", (int) key_length,key+offset_to_key,error,my_errno,record+1); } } if (record_type == NO_RECORD) { maria_extra(file, HA_EXTRA_NO_KEYREAD, 0); goto end; } if (!silent) printf("- Reading rows with position\n"); if (maria_scan_init(file)) { fprintf(stderr, "maria_scan_init failed\n"); goto err; } for (i=1,found=0 ; i <= 30 ; i++) { my_errno=0; if ((error= maria_scan(file, read_record)) == HA_ERR_END_OF_FILE) { if (found != row_count-deleted) printf("Found only %ld of %ld rows\n", (ulong) found, (ulong) (row_count - deleted)); break; } if (!error) found++; if (verbose || (error != 0 && error != HA_ERR_RECORD_DELETED && error != HA_ERR_END_OF_FILE)) { printf("pos: %2d maria_rrnd: %3d errno: %3d record: %s\n", i-1,error,my_errno,read_record+1); } } maria_scan_end(file); end: if (die_in_middle_of_transaction) { /* As commit record is not done, UNDO entries needs to be rolled back */ switch (die_in_middle_of_transaction) { case 1: /* Flush changed pages go to disk. That will also flush log. Recovery will skip REDOs and apply UNDOs. */ _ma_flush_table_files(file, MARIA_FLUSH_DATA | MARIA_FLUSH_INDEX, FLUSH_RELEASE, FLUSH_RELEASE); break; case 2: /* Just flush log. Pages are likely to not be on disk. Recovery will then execute REDOs and UNDOs. */ if (translog_flush(file->trn->undo_lsn)) goto err; break; case 3: /* Flush nothing. Pages and log are likely to not be on disk. Recovery will then do nothing. */ break; case 4: /* Flush changed data pages go to disk. Changed index pages are not flushed. Recovery will skip some REDOs and apply UNDOs. */ _ma_flush_table_files(file, MARIA_FLUSH_DATA, FLUSH_RELEASE, FLUSH_RELEASE); /* We have to flush log separately as the redo for the last key page may not be flushed */ if (translog_flush(file->trn->undo_lsn)) goto err; break; } printf("Dying on request without maria_commit()/maria_close()\n"); sf_leaking_memory= 1; exit(0); } if (maria_commit(file)) goto err; if (maria_close(file)) goto err; maria_end(); my_uuid_end(); my_end(MY_CHECK_ERROR); return (0); err: printf("got error: %3d when using maria-database\n",my_errno); return 1; /* skip warning */ }