gecko-dev/dbm/tests/lots.c

620 строки
12 KiB
C

/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/* use sequental numbers printed to strings
* to store lots and lots of entries in the
* database.
*
* Start with 100 entries, put them and then
* read them out. Then delete the first
* half and verify that all of the first half
* is gone and then verify that the second
* half is still there.
* Then add the first half back and verify
* again. Then delete the middle third
* and verify again.
* Then increase the size by 1000 and do
* the whole add delete thing again.
*
* The data for each object is the number string translated
* to hex and replicated a random number of times. The
* number of times that the data is replicated is the first
* int32 in the data.
*/
#include <stdio.h>
#include <stdlib.h>
#ifdef STDC_HEADERS
#include <stdarg.h>
#else
#include <varargs.h>
#endif
#ifdef HAVE_MEMORY_H
#include <memory.h>
#endif
#include <string.h>
#include <assert.h>
#include "mcom_db.h"
DB *database=0;
int MsgPriority=5;
#if defined(_WINDOWS) && !defined(WIN32)
#define int32 long
#define uint32 unsigned long
#else
#define int32 int
#define uint32 unsigned int
#endif
typedef enum {
USE_LARGE_KEY,
USE_SMALL_KEY
} key_type_enum;
#define TraceMe(priority, msg) \
do { \
if(priority <= MsgPriority) \
{ \
ReportStatus msg; \
} \
} while(0)
int
ReportStatus(char *string, ...)
{
va_list args;
#ifdef STDC_HEADERS
va_start(args, string);
#else
va_start(args);
#endif
vfprintf(stderr, string, args);
va_end(args);
fprintf (stderr, "\n");
return(0);
}
int
ReportError(char *string, ...)
{
va_list args;
#ifdef STDC_HEADERS
va_start(args, string);
#else
va_start(args);
#endif
fprintf (stderr, "\n ");
vfprintf(stderr, string, args);
fprintf (stderr, "\n");
va_end(args);
return(0);
}
DBT * MakeLargeKey(int32 num)
{
int32 low_bits;
static DBT rv;
static char *string_rv=0;
int rep_char;
int32 size;
if(string_rv)
free(string_rv);
/* generate a really large text key derived from
* an int32
*/
low_bits = (num % 10000) + 1;
/* get the repeat char from the low 26 */
rep_char = (char) ((low_bits % 26) + 'a');
/* malloc a string low_bits wide */
size = low_bits*sizeof(char);
string_rv = (char *)malloc((size_t)size);
memset(string_rv, rep_char, (size_t)size);
rv.data = string_rv;
rv.size = size;
return(&rv);
}
DBT * MakeSmallKey(int32 num)
{
static DBT rv;
static char data_string[64];
rv.data = data_string;
sprintf(data_string, "%ld", (long)num);
rv.size = strlen(data_string);
return(&rv);
}
DBT * GenKey(int32 num, key_type_enum key_type)
{
DBT *key;
switch(key_type)
{
case USE_LARGE_KEY:
key = MakeLargeKey(num);
break;
case USE_SMALL_KEY:
key = MakeSmallKey(num);
break;
default:
abort();
break;
}
return(key);
}
int
SeqDatabase()
{
int status;
DBT key, data;
ReportStatus("SEQuencing through database...");
/* seq throught the whole database */
if(!(status = (*database->seq)(database, &key, &data, R_FIRST)))
{
while(!(status = (database->seq) (database, &key, &data, R_NEXT)));
; /* null body */
}
if(status < 0)
ReportError("Error seq'ing database");
return(status);
}
int
VerifyData(DBT *data, int32 num, key_type_enum key_type)
{
int32 count, compare_num;
uint32 size;
int32 *int32_array;
/* The first int32 is count
* The other n entries should
* all equal num
*/
if(data->size < sizeof(int32))
{
ReportError("Data size corrupted");
return -1;
}
memcpy(&count, data->data, sizeof(int32));
size = sizeof(int32)*(count+1);
if(size != data->size)
{
ReportError("Data size corrupted");
return -1;
}
int32_array = (int32*)data->data;
for(;count > 0; count--)
{
memcpy(&compare_num, &int32_array[count], sizeof(int32));
if(compare_num != num)
{
ReportError("Data corrupted");
return -1;
}
}
return(0);
}
/* verify that a range of number strings exist
* or don't exist. And that the data is valid
*/
#define SHOULD_EXIST 1
#define SHOULD_NOT_EXIST 0
int
VerifyRange(int32 low, int32 high, int32 should_exist, key_type_enum key_type)
{
DBT *key, data;
int32 num;
int status;
TraceMe(1, ("Verifying: %ld to %ld, using %s keys",
low, high, key_type == USE_SMALL_KEY ? "SMALL" : "LARGE"));
for(num = low; num <= high; num++)
{
key = GenKey(num, key_type);
status = (*database->get)(database, key, &data, 0);
if(status == 0)
{
/* got the item */
if(!should_exist)
{
ReportError("Item exists but shouldn't: %ld", num);
}
else
{
/* else verify the data */
VerifyData(&data, num, key_type);
}
}
else if(status > 0)
{
/* item not found */
if(should_exist)
{
ReportError("Item not found but should be: %ld", num);
}
}
else
{
/* database error */
ReportError("Database error");
return(-1);
}
}
TraceMe(1, ("Correctly verified: %ld to %ld", low, high));
return(0);
}
DBT *
GenData(int32 num)
{
int32 n;
static DBT *data=0;
int32 *int32_array;
int32 size;
if(!data)
{
data = (DBT*)malloc(sizeof(DBT));
data->size = 0;
data->data = 0;
}
else if(data->data)
{
free(data->data);
}
n = rand();
n = n % 512; /* bound to a 2K size */
size = sizeof(int32)*(n+1);
int32_array = (int32 *) malloc((size_t)size);
memcpy(&int32_array[0], &n, sizeof(int32));
for(; n > 0; n--)
{
memcpy(&int32_array[n], &num, sizeof(int32));
}
data->data = (void*)int32_array;
data->size = size;
return(data);
}
#define ADD_RANGE 1
#define DELETE_RANGE 2
int
AddOrDelRange(int32 low, int32 high, int action, key_type_enum key_type)
{
DBT *key, *data;
#if 0 /* only do this if your really analy checking the puts */
DBT tmp_data;
#endif
int32 num;
int status;
if(action != ADD_RANGE && action != DELETE_RANGE)
assert(0);
if(action == ADD_RANGE)
{
TraceMe(1, ("Adding: %ld to %ld: %s keys", low, high,
key_type == USE_SMALL_KEY ? "SMALL" : "LARGE"));
}
else
{
TraceMe(1, ("Deleting: %ld to %ld: %s keys", low, high,
key_type == USE_SMALL_KEY ? "SMALL" : "LARGE"));
}
for(num = low; num <= high; num++)
{
key = GenKey(num, key_type);
if(action == ADD_RANGE)
{
data = GenData(num);
status = (*database->put)(database, key, data, 0);
}
else
{
status = (*database->del)(database, key, 0);
}
if(status < 0)
{
ReportError("Database error %s item: %ld",
action == ADD_RANGE ? "ADDING" : "DELETING",
num);
}
else if(status > 0)
{
ReportError("Could not %s item: %ld",
action == ADD_RANGE ? "ADD" : "DELETE",
num);
}
else if(action == ADD_RANGE)
{
#define SYNC_EVERY_TIME
#ifdef SYNC_EVERY_TIME
status = (*database->sync)(database, 0);
if(status != 0)
ReportError("Database error syncing after add");
#endif
#if 0 /* only do this if your really analy checking the puts */
/* make sure we can still get it
*/
status = (*database->get)(database, key, &tmp_data, 0);
if(status != 0)
{
ReportError("Database error checking item just added: %d",
num);
}
else
{
/* now verify that none of the ones we already
* put in have disappeared
*/
VerifyRange(low, num, SHOULD_EXIST, key_type);
}
#endif
}
}
if(action == ADD_RANGE)
{
TraceMe(1, ("Successfully added: %ld to %ld", low, high));
}
else
{
TraceMe(1, ("Successfully deleted: %ld to %ld", low, high));
}
return(0);
}
int
TestRange(int32 low, int32 range, key_type_enum key_type)
{
int status; int32 low_of_range1, high_of_range1; int32 low_of_range2, high_of_range2;
int32 low_of_range3, high_of_range3;
status = AddOrDelRange(low, low+range, ADD_RANGE, key_type);
status = VerifyRange(low, low+range, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 1"));
SeqDatabase();
low_of_range1 = low;
high_of_range1 = low+(range/2);
low_of_range2 = high_of_range1+1;
high_of_range2 = low+range;
status = AddOrDelRange(low_of_range1, high_of_range1, DELETE_RANGE, key_type);
status = VerifyRange(low_of_range1, high_of_range1, SHOULD_NOT_EXIST, key_type);
status = VerifyRange(low_of_range2, low_of_range2, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 2"));
SeqDatabase();
status = AddOrDelRange(low_of_range1, high_of_range1, ADD_RANGE, key_type);
/* the whole thing should exist now */
status = VerifyRange(low, low+range, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 3"));
SeqDatabase();
status = AddOrDelRange(low_of_range2, high_of_range2, DELETE_RANGE, key_type);
status = VerifyRange(low_of_range1, high_of_range1, SHOULD_EXIST, key_type);
status = VerifyRange(low_of_range2, high_of_range2, SHOULD_NOT_EXIST, key_type);
TraceMe(1, ("Finished with sub test 4"));
SeqDatabase();
status = AddOrDelRange(low_of_range2, high_of_range2, ADD_RANGE, key_type);
/* the whole thing should exist now */
status = VerifyRange(low, low+range, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 5"));
SeqDatabase();
low_of_range1 = low;
high_of_range1 = low+(range/3);
low_of_range2 = high_of_range1+1;
high_of_range2 = high_of_range1+(range/3);
low_of_range3 = high_of_range2+1;
high_of_range3 = low+range;
/* delete range 2 */
status = AddOrDelRange(low_of_range2, high_of_range2, DELETE_RANGE, key_type);
status = VerifyRange(low_of_range1, high_of_range1, SHOULD_EXIST, key_type);
status = VerifyRange(low_of_range2, low_of_range2, SHOULD_NOT_EXIST, key_type);
status = VerifyRange(low_of_range3, low_of_range2, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 6"));
SeqDatabase();
status = AddOrDelRange(low_of_range2, high_of_range2, ADD_RANGE, key_type);
/* the whole thing should exist now */
status = VerifyRange(low, low+range, SHOULD_EXIST, key_type);
TraceMe(1, ("Finished with sub test 7"));
return(0);
}
#define START_RANGE 109876
int
main(int argc, char **argv)
{
int32 i, j=0;
int quick_exit = 0;
int large_keys = 0;
HASHINFO hash_info = {
16*1024,
0,
0,
0,
0,
0};
if(argc > 1)
{
while(argc > 1)
{
if(!strcmp(argv[argc-1], "-quick"))
quick_exit = 1;
else if(!strcmp(argv[argc-1], "-large"))
{
large_keys = 1;
}
argc--;
}
}
database = dbopen("test.db", O_RDWR | O_CREAT, 0644, DB_HASH, &hash_info);
if(!database)
{
ReportError("Could not open database");
#ifdef unix
perror("");
#endif
exit(1);
}
if(quick_exit)
{
if(large_keys)
TestRange(START_RANGE, 200, USE_LARGE_KEY);
else
TestRange(START_RANGE, 200, USE_SMALL_KEY);
(*database->sync)(database, 0);
(*database->close)(database);
exit(0);
}
for(i=100; i < 10000000; i+=200)
{
if(1 || j)
{
TestRange(START_RANGE, i, USE_LARGE_KEY);
j = 0;
}
else
{
TestRange(START_RANGE, i, USE_SMALL_KEY);
j = 1;
}
if(1 == rand() % 3)
{
(*database->sync)(database, 0);
}
if(1 == rand() % 3)
{
/* close and reopen */
(*database->close)(database);
database = dbopen("test.db", O_RDWR | O_CREAT, 0644, DB_HASH, 0);
if(!database)
{
ReportError("Could not reopen database");
#ifdef unix
perror("");
#endif
exit(1);
}
}
else
{
/* reopen database without closeing the other */
database = dbopen("test.db", O_RDWR | O_CREAT, 0644, DB_HASH, 0);
if(!database)
{
ReportError("Could not reopen database "
"after not closing the other");
#ifdef unix
perror("");
#endif
exit(1);
}
}
}
return(0);
}