libmdbx/test/jitter.cc
Leonid Yuriev 251eda6fb8 mdbx: HNY!
Change-Id: I86c7028001b349e3d06b837dc8e2f7e60fb3b1a2
2021-01-26 07:27:13 +03:00

141 lines
4.6 KiB
C++

/*
* Copyright 2017-2021 Leonid Yuriev <leo@yuriev.ru>
* and other libmdbx authors: please see AUTHORS file.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted only as authorized by the OpenLDAP
* Public License.
*
* A copy of this license is available in the file LICENSE in the
* top-level directory of the distribution or, alternatively, at
* <http://www.OpenLDAP.org/license.html>.
*/
#include "test.h"
void testcase_jitter::check_dbi_error(int expect, const char *stage) {
MDBX_stat stat;
int err = mdbx_dbi_stat(txn_guard.get(), dbi, &stat, sizeof(stat));
if (err != expect)
failure("unexpected result for %s dbi-handle: expect %d, got %d", stage,
expect, err);
}
bool testcase_jitter::run() {
int err;
size_t upper_limit = config.params.size_upper;
if (upper_limit < 1)
upper_limit = config.params.size_now * 2;
while (should_continue()) {
jitter_delay();
db_open();
if (!dbi && !mode_readonly()) {
// create table
txn_begin(false);
dbi = db_table_open(true);
check_dbi_error(MDBX_SUCCESS, "created-uncommitted");
// note: here and below the 4-byte length keys and value are used
// to be compatible with any Db-flags given from command line.
MDBX_val key = {(void *)"k000", 4}, value = {(void *)"v001", 4};
err = mdbx_put(txn_guard.get(), dbi, &key, &value, MDBX_UPSERT);
if (err != MDBX_SUCCESS)
failure_perror("jitter.put-1", err);
txn_end(false);
// drop & re-create table, but abort txn
txn_begin(false);
check_dbi_error(MDBX_SUCCESS, "created-committed");
err = mdbx_drop(txn_guard.get(), dbi, true);
if (unlikely(err != MDBX_SUCCESS))
failure_perror("mdbx_drop(delete=true)", err);
check_dbi_error(MDBX_BAD_DBI, "dropped-uncommitted");
dbi = db_table_open(true);
check_dbi_error(MDBX_SUCCESS, "recreated-uncommitted");
txn_end(true);
// check after aborted txn
txn_begin(false);
value = {(void *)"v002", 4};
err = mdbx_put(txn_guard.get(), dbi, &key, &value, MDBX_UPSERT);
if (err != MDBX_BAD_DBI)
failure_perror("jitter.put-2", err);
check_dbi_error(MDBX_BAD_DBI, "dropped-recreated-aborted");
// restore DBI
dbi = db_table_open(false);
check_dbi_error(MDBX_SUCCESS, "dropped-recreated-aborted+reopened");
value = {(void *)"v003", 4};
err = mdbx_put(txn_guard.get(), dbi, &key, &value, MDBX_UPSERT);
if (err != MDBX_SUCCESS)
failure_perror("jitter.put-3", err);
txn_end(false);
}
if (upper_limit < 1) {
MDBX_envinfo info;
err = mdbx_env_info_ex(db_guard.get(), txn_guard.get(), &info,
sizeof(info));
if (err)
failure_perror("mdbx_env_info_ex()", err);
upper_limit = (info.mi_geo.upper < INTPTR_MAX)
? (intptr_t)info.mi_geo.upper
: INTPTR_MAX;
}
if (flipcoin()) {
jitter_delay();
txn_begin(true);
fetch_canary();
jitter_delay();
txn_end(flipcoin());
}
const bool coin4size = flipcoin();
jitter_delay();
txn_begin(mode_readonly());
jitter_delay();
if (!mode_readonly()) {
fetch_canary();
update_canary(1);
err = mdbx_env_set_geometry(
db_guard.get(), -1, -1,
coin4size ? upper_limit * 2 / 3 : upper_limit * 3 / 2, -1, -1, -1);
if (err != MDBX_SUCCESS && err != MDBX_UNABLE_EXTEND_MAPSIZE &&
err != MDBX_MAP_FULL && err != MDBX_TOO_LARGE)
failure_perror("mdbx_env_set_geometry-1", err);
}
txn_end(flipcoin());
err = mdbx_env_set_geometry(
db_guard.get(), -1, -1,
!coin4size ? upper_limit * 2 / 3 : upper_limit * 3 / 2, -1, -1, -1);
if (err != MDBX_SUCCESS && err != MDBX_UNABLE_EXTEND_MAPSIZE &&
err != MDBX_MAP_FULL && err != MDBX_TOO_LARGE)
failure_perror("mdbx_env_set_geometry-2", err);
if (flipcoin()) {
jitter_delay();
txn_begin(true);
jitter_delay();
txn_end(flipcoin());
}
jitter_delay();
err =
mdbx_env_set_geometry(db_guard.get(), -1, -1, upper_limit, -1, -1, -1);
if (err != MDBX_SUCCESS && err != MDBX_UNABLE_EXTEND_MAPSIZE &&
err != MDBX_MAP_FULL && err != MDBX_TOO_LARGE)
failure_perror("mdbx_env_set_geometry-3", err);
db_close();
/* just 'align' nops with other tests with batching */
const auto batching =
std::max(config.params.batch_read, config.params.batch_write);
report(std::max(1u, batching / 2));
}
return true;
}