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<?php defined('PHPREDIS_TESTRUN') or die("Use TestRedis.php to run tests!\n");
require_once(dirname($_SERVER['PHP_SELF'])."/TestSuite.php");
class Redis_Test extends TestSuite
{
/* City lat/long */
protected $cities = [
'Chico' => [-121.837478, 39.728494],
'Sacramento' => [-121.494400, 38.581572],
'Gridley' => [-121.693583, 39.363777],
'Marysville' => [-121.591355, 39.145725],
'Cupertino' => [-122.032182, 37.322998]
];
protected $serializers = [
Redis::SERIALIZER_NONE,
Redis::SERIALIZER_PHP,
];
/**
* @var Redis
*/
public $redis;
/**
* @var string
*/
protected $sessionPrefix = 'PHPREDIS_SESSION:';
/**
* @var string
*/
protected $sessionSaveHandler = 'redis';
public function setUp() {
$this->redis = $this->newInstance();
$info = $this->redis->info();
$this->version = (isset($info['redis_version'])?$info['redis_version']:'0.0.0');
if (defined('Redis::SERIALIZER_IGBINARY')) {
$this->serializers[] = Redis::SERIALIZER_IGBINARY;
}
}
protected function minVersionCheck($version) {
return version_compare($this->version, $version) >= 0;
}
protected function mstime() {
return round(microtime(true)*1000);
}
protected function getAuthParts(&$user, &$pass) {
$user = $pass = NULL;
$auth = $this->getAuth();
if ( ! $auth)
return;
if (is_array($auth)) {
if (count($auth) > 1) {
list($user, $pass) = $auth;
} else {
$pass = $auth[0];
}
} else {
$pass = $auth;
}
}
protected function getAuthFragment() {
static $_authidx = 0;
$_authidx++;
$this->getAuthParts($user, $pass);
if ($user && $pass) {
if ($_authidx % 2 == 0)
return "auth[user]=$user&auth[pass]=$pass";
else
return "auth[]=$user&auth[]=$pass";
} else if ($pass) {
if ($_authidx % 3 == 0)
return "auth[pass]=$pass";
if ($_authidx % 2 == 0)
return "auth[]=$pass";
else
return "auth=$pass";
} else {
return NULL;
}
}
protected function getFullHostPath()
{
$fullHostPath = parent::getFullHostPath();
$authFragment = $this->getAuthFragment();
if (isset($fullHostPath) && $authFragment) {
$fullHostPath .= "?$authFragment";
}
return $fullHostPath;
}
protected function newInstance() {
$r = new Redis();
$r->connect($this->getHost(), $this->getPort());
if($this->getAuth()) {
$this->assertTrue($r->auth($this->getAuth()));
}
return $r;
}
public function tearDown() {
if($this->redis) {
$this->redis->close();
}
}
public function reset()
{
$this->setUp();
$this->tearDown();
}
/* Helper function to determine if the clsas has pipeline support */
protected function havePipeline() {
$str_constant = get_class($this->redis) . '::PIPELINE';
return defined($str_constant);
}
public function testMinimumVersion()
{
// Minimum server version required for tests
$this->assertTrue(version_compare($this->version, "2.4.0") >= 0);
}
public function testPing() {
/* Reply literal off */
$this->assertTrue($this->redis->ping());
$this->assertTrue($this->redis->ping(NULL));
$this->assertEquals('BEEP', $this->redis->ping('BEEP'));
/* Make sure we're good in MULTI mode */
$this->redis->multi();
$this->redis->ping();
$this->redis->ping('BEEP');
$this->assertEquals([true, 'BEEP'], $this->redis->exec());
}
public function testPipelinePublish() {
if (!$this->havePipeline()) {
$this->markTestSkipped();
}
$ret = $this->redis->pipeline()
->publish('chan', 'msg')
->exec();
$this->assertTrue(is_array($ret) && count($ret) === 1 && $ret[0] >= 0);
}
// Run some simple tests against the PUBSUB command. This is problematic, as we
// can't be sure what's going on in the instance, but we can do some things.
public function testPubSub() {
// Only available since 2.8.0
if (version_compare($this->version, "2.8.0") < 0) {
$this->markTestSkipped();
return;
}
// PUBSUB CHANNELS ...
$result = $this->redis->pubsub("channels", "*");
$this->assertTrue(is_array($result));
$result = $this->redis->pubsub("channels");
$this->assertTrue(is_array($result));
// PUBSUB NUMSUB
$c1 = uniqid() . '-' . rand(1,100);
$c2 = uniqid() . '-' . rand(1,100);
$result = $this->redis->pubsub("numsub", [$c1, $c2]);
// Should get an array back, with two elements
$this->assertTrue(is_array($result));
$this->assertEquals(count($result), 2);
// Make sure the elements are correct, and have zero counts
foreach([$c1,$c2] as $channel) {
$this->assertTrue(isset($result[$channel]));
$this->assertEquals($result[$channel], 0);
}
// PUBSUB NUMPAT
$result = $this->redis->pubsub("numpat");
$this->assertTrue(is_int($result));
// Invalid calls
$this->assertFalse($this->redis->pubsub("notacommand"));
$this->assertFalse($this->redis->pubsub("numsub", "not-an-array"));
}
public function testBitsets() {
$this->redis->del('key');
$this->assertEquals(0, $this->redis->getBit('key', 0));
$this->assertEquals(FALSE, $this->redis->getBit('key', -1));
$this->assertEquals(0, $this->redis->getBit('key', 100000));
$this->redis->set('key', "\xff");
for($i = 0; $i < 8; $i++) {
$this->assertEquals(1, $this->redis->getBit('key', $i));
}
$this->assertEquals(0, $this->redis->getBit('key', 8));
// change bit 0
$this->assertEquals(1, $this->redis->setBit('key', 0, 0));
$this->assertEquals(0, $this->redis->setBit('key', 0, 0));
$this->assertEquals(0, $this->redis->getBit('key', 0));
$this->assertEquals("\x7f", $this->redis->get('key'));
// change bit 1
$this->assertEquals(1, $this->redis->setBit('key', 1, 0));
$this->assertEquals(0, $this->redis->setBit('key', 1, 0));
$this->assertEquals(0, $this->redis->getBit('key', 1));
$this->assertEquals("\x3f", $this->redis->get('key'));
// change bit > 1
$this->assertEquals(1, $this->redis->setBit('key', 2, 0));
$this->assertEquals(0, $this->redis->setBit('key', 2, 0));
$this->assertEquals(0, $this->redis->getBit('key', 2));
$this->assertEquals("\x1f", $this->redis->get('key'));
// values above 1 are changed to 1 but don't overflow on bits to the right.
$this->assertEquals(0, $this->redis->setBit('key', 0, 0xff));
$this->assertEquals("\x9f", $this->redis->get('key'));
// Verify valid offset ranges
$this->assertFalse($this->redis->getBit('key', -1));
$this->redis->setBit('key', 0x7fffffff, 1);
$this->assertEquals(1, $this->redis->getBit('key', 0x7fffffff));
}
public function testBitPos() {
if (version_compare($this->version, "2.8.7") < 0) {
$this->MarkTestSkipped();
return;
}
$this->redis->del('bpkey');
$this->redis->set('bpkey', "\xff\xf0\x00");
$this->assertEquals($this->redis->bitpos('bpkey', 0), 12);
$this->redis->set('bpkey', "\x00\xff\xf0");
$this->assertEquals($this->redis->bitpos('bpkey', 1, 0), 8);
$this->assertEquals($this->redis->bitpos('bpkey', 1, 1), 8);
$this->redis->set('bpkey', "\x00\x00\x00");
$this->assertEquals($this->redis->bitpos('bpkey', 1), -1);
}
public function test1000() {
$s = str_repeat('A', 1000);
$this->redis->set('x', $s);
$this->assertEquals($s, $this->redis->get('x'));
$s = str_repeat('A', 1000000);
$this->redis->set('x', $s);
$this->assertEquals($s, $this->redis->get('x'));
}
public function testEcho() {
$this->assertEquals($this->redis->echo("hello"), "hello");
$this->assertEquals($this->redis->echo(""), "");
$this->assertEquals($this->redis->echo(" 0123 "), " 0123 ");
}
public function testErr() {
$this->redis->set('x', '-ERR');
$this->assertEquals($this->redis->get('x'), '-ERR');
}
public function testSet()
{
$this->assertEquals(TRUE, $this->redis->set('key', 'nil'));
$this->assertEquals('nil', $this->redis->get('key'));
$this->assertEquals(TRUE, $this->redis->set('key', 'val'));
$this->assertEquals('val', $this->redis->get('key'));
$this->assertEquals('val', $this->redis->get('key'));
$this->redis->del('keyNotExist');
$this->assertEquals(FALSE, $this->redis->get('keyNotExist'));
$this->redis->set('key2', 'val');
$this->assertEquals('val', $this->redis->get('key2'));
$value = 'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA';
$this->redis->set('key2', $value);
$this->assertEquals($value, $this->redis->get('key2'));
$this->assertEquals($value, $this->redis->get('key2'));
$this->redis->del('key');
$this->redis->del('key2');
$i = 66000;
$value2 = 'X';
while($i--) {
$value2 .= 'A';
}
$value2 .= 'X';
$this->redis->set('key', $value2);
$this->assertEquals($value2, $this->redis->get('key'));
$this->redis->del('key');
$this->assertEquals(False, $this->redis->get('key'));
$data = gzcompress('42');
$this->assertEquals(True, $this->redis->set('key', $data));
$this->assertEquals('42', gzuncompress($this->redis->get('key')));
$this->redis->del('key');
$data = gzcompress('value1');
$this->assertEquals(True, $this->redis->set('key', $data));
$this->assertEquals('value1', gzuncompress($this->redis->get('key')));
$this->redis->del('key');
$this->assertEquals(TRUE, $this->redis->set('key', 0));
$this->assertEquals('0', $this->redis->get('key'));
$this->assertEquals(TRUE, $this->redis->set('key', 1));
$this->assertEquals('1', $this->redis->get('key'));
$this->assertEquals(TRUE, $this->redis->set('key', 0.1));
$this->assertEquals('0.1', $this->redis->get('key'));
$this->assertEquals(TRUE, $this->redis->set('key', '0.1'));
$this->assertEquals('0.1', $this->redis->get('key'));
$this->assertEquals(TRUE, $this->redis->set('key', TRUE));
$this->assertEquals('1', $this->redis->get('key'));
$this->assertEquals(True, $this->redis->set('key', ''));
$this->assertEquals('', $this->redis->get('key'));
$this->assertEquals(True, $this->redis->set('key', NULL));
$this->assertEquals('', $this->redis->get('key'));
$this->assertEquals(True, $this->redis->set('key', gzcompress('42')));
$this->assertEquals('42', gzuncompress($this->redis->get('key')));
}
/* Extended SET options for Redis >= 2.6.12 */
public function testExtendedSet() {
// Skip the test if we don't have a new enough version of Redis
if (version_compare($this->version, '2.6.12') < 0) {
$this->markTestSkipped();
return;
}
/* Legacy SETEX redirection */
$this->redis->del('foo');
$this->assertTrue($this->redis->set('foo','bar', 20));
$this->assertEquals($this->redis->get('foo'), 'bar');
$this->assertEquals($this->redis->ttl('foo'), 20);
/* Should coerce doubles into long */
$this->assertTrue($this->redis->set('foo', 'bar-20.5', 20.5));
$this->assertEquals($this->redis->ttl('foo'), 20);
$this->assertEquals($this->redis->get('foo'), 'bar-20.5');
/* Invalid third arguments */
$this->assertFalse(@$this->redis->set('foo','bar','baz'));
$this->assertFalse(@$this->redis->set('foo','bar',new StdClass()));
/* Set if not exist */
$this->redis->del('foo');
$this->assertTrue($this->redis->set('foo','bar', ['nx']));
$this->assertEquals($this->redis->get('foo'), 'bar');
$this->assertFalse($this->redis->set('foo','bar', ['nx']));
/* Set if exists */
$this->assertTrue($this->redis->set('foo','bar', ['xx']));
$this->assertEquals($this->redis->get('foo'), 'bar');
$this->redis->del('foo');
$this->assertFalse($this->redis->set('foo','bar', ['xx']));
/* Set with a TTL */
$this->assertTrue($this->redis->set('foo','bar', ['ex'=>100]));
$this->assertEquals($this->redis->ttl('foo'), 100);
/* Set with a PTTL */
$this->assertTrue($this->redis->set('foo','bar',['px'=>100000]));
$this->assertTrue(100000 - $this->redis->pttl('foo') < 1000);
/* Set if exists, with a TTL */
$this->assertTrue($this->redis->set('foo','bar',['xx','ex'=>105]));
$this->assertEquals($this->redis->ttl('foo'), 105);
$this->assertEquals($this->redis->get('foo'), 'bar');
/* Set if not exists, with a TTL */
$this->redis->del('foo');
$this->assertTrue($this->redis->set('foo','bar', ['nx', 'ex'=>110]));
$this->assertEquals($this->redis->ttl('foo'), 110);
$this->assertEquals($this->redis->get('foo'), 'bar');
$this->assertFalse($this->redis->set('foo','bar', ['nx', 'ex'=>110]));
/* Throw some nonsense into the array, and check that the TTL came through */
$this->redis->del('foo');
$this->assertTrue($this->redis->set('foo','barbaz', ['not-valid','nx','invalid','ex'=>200]));
$this->assertEquals($this->redis->ttl('foo'), 200);
$this->assertEquals($this->redis->get('foo'), 'barbaz');
/* Pass NULL as the optional arguments which should be ignored */
$this->redis->del('foo');
$this->redis->set('foo','bar', NULL);
$this->assertEquals($this->redis->get('foo'), 'bar');
$this->assertTrue($this->redis->ttl('foo')<0);
/* Make sure we ignore bad/non-string options (regression test for #1835) */
$this->assertTrue($this->redis->set('foo', 'bar', [NULL, 'EX' => 60]));
$this->assertTrue($this->redis->set('foo', 'bar', [NULL, new stdClass(), 'EX' => 60]));
$this->assertFalse(@$this->redis->set('foo', 'bar', [NULL, 'EX' => []]));
if (version_compare($this->version, "6.0.0") < 0)
return;
/* KEEPTTL works by itself */
$this->redis->set('foo', 'bar', ['EX' => 100]);
$this->redis->set('foo', 'bar', ['KEEPTTL']);
$this->assertTrue($this->redis->ttl('foo') > -1);
/* Works with other options */
$this->redis->set('foo', 'bar', ['XX', 'KEEPTTL']);
$this->assertTrue($this->redis->ttl('foo') > -1);
$this->redis->set('foo', 'bar', ['XX']);
$this->assertTrue($this->redis->ttl('foo') == -1);
}
public function testGetSet() {
$this->redis->del('key');
$this->assertTrue($this->redis->getSet('key', '42') === FALSE);
$this->assertTrue($this->redis->getSet('key', '123') === '42');
$this->assertTrue($this->redis->getSet('key', '123') === '123');
}
public function testRandomKey() {
for($i = 0; $i < 1000; $i++) {
$k = $this->redis->randomKey();
$this->assertEquals($this->redis->exists($k), 1);
}
}
public function testRename() {
// strings
$this->redis->del('{key}0');
$this->redis->set('{key}0', 'val0');
$this->redis->rename('{key}0', '{key}1');
$this->assertEquals(FALSE, $this->redis->get('{key}0'));
$this->assertEquals('val0', $this->redis->get('{key}1'));
}
public function testRenameNx() {
// strings
$this->redis->del('{key}0', '{key}1');
$this->redis->set('{key}0', 'val0');
$this->redis->set('{key}1', 'val1');
$this->assertTrue($this->redis->renameNx('{key}0', '{key}1') === FALSE);
$this->assertTrue($this->redis->get('{key}0') === 'val0');
$this->assertTrue($this->redis->get('{key}1') === 'val1');
// lists
$this->redis->del('{key}0');
$this->redis->del('{key}1');
$this->redis->lPush('{key}0', 'val0');
$this->redis->lPush('{key}0', 'val1');
$this->redis->lPush('{key}1', 'val1-0');
$this->redis->lPush('{key}1', 'val1-1');
$this->assertTrue($this->redis->renameNx('{key}0', '{key}1') === FALSE);
$this->assertTrue($this->redis->lRange('{key}0', 0, -1) === ['val1', 'val0']);
$this->assertTrue($this->redis->lRange('{key}1', 0, -1) === ['val1-1', 'val1-0']);
$this->redis->del('{key}2');
$this->assertTrue($this->redis->renameNx('{key}0', '{key}2') === TRUE);
$this->assertTrue($this->redis->lRange('{key}0', 0, -1) === []);
$this->assertTrue($this->redis->lRange('{key}2', 0, -1) === ['val1', 'val0']);
}
public function testMultiple() {
$this->redis->del('k1');
$this->redis->del('k2');
$this->redis->del('k3');
$this->redis->set('k1', 'v1');
$this->redis->set('k2', 'v2');
$this->redis->set('k3', 'v3');
$this->redis->set(1, 'test');
$this->assertEquals(['v1'], $this->redis->mget(['k1']));
$this->assertEquals(['v1', 'v3', false], $this->redis->mget(['k1', 'k3', 'NoKey']));
$this->assertEquals(['v1', 'v2', 'v3'], $this->redis->mget(['k1', 'k2', 'k3']));
$this->assertEquals(['v1', 'v2', 'v3'], $this->redis->mget(['k1', 'k2', 'k3']));
$this->redis->set('k5', '$1111111111');
$this->assertEquals([0 => '$1111111111'], $this->redis->mget(['k5']));
$this->assertEquals([0 => 'test'], $this->redis->mget([1])); // non-string
}
public function testMultipleBin() {
$this->redis->del('k1');
$this->redis->del('k2');
$this->redis->del('k3');
$this->redis->set('k1', gzcompress('v1'));
$this->redis->set('k2', gzcompress('v2'));
$this->redis->set('k3', gzcompress('v3'));
$this->assertEquals([gzcompress('v1'), gzcompress('v2'), gzcompress('v3')], $this->redis->mget(['k1', 'k2', 'k3']));
$this->assertEquals([gzcompress('v1'), gzcompress('v2'), gzcompress('v3')], $this->redis->mget(['k1', 'k2', 'k3']));
}
public function testSetTimeout() {
$this->redis->del('key');
$this->redis->set('key', 'value');
$this->assertEquals('value', $this->redis->get('key'));
$this->redis->expire('key', 1);
$this->assertEquals('value', $this->redis->get('key'));
sleep(2);
$this->assertEquals(False, $this->redis->get('key'));
}
/* This test is prone to failure in the Travis container, so attempt to mitigate this by running more than once */
public function testExpireAt() {
$success = false;
for ($i = 0; !$success && $i < 3; $i++) {
$this->redis->del('key');
$this->redis->set('key', 'value');
$this->redis->expireAt('key', time() + 1);
usleep(1500000);
$success = FALSE === $this->redis->get('key');
}
$this->assertTrue($success);
}
public function testSetEx() {
$this->redis->del('key');
$this->assertTrue($this->redis->setex('key', 7, 'val') === TRUE);
$this->assertTrue($this->redis->ttl('key') ===7);
$this->assertTrue($this->redis->get('key') === 'val');
}
public function testPSetEx() {
$this->redis->del('key');
$this->assertTrue($this->redis->psetex('key', 7 * 1000, 'val') === TRUE);
$this->assertTrue($this->redis->ttl('key') ===7);
$this->assertTrue($this->redis->get('key') === 'val');
}
public function testSetNX() {
$this->redis->set('key', 42);
$this->assertTrue($this->redis->setnx('key', 'err') === FALSE);
$this->assertTrue($this->redis->get('key') === '42');
$this->redis->del('key');
$this->assertTrue($this->redis->setnx('key', '42') === TRUE);
$this->assertTrue($this->redis->get('key') === '42');
}
public function testExpireAtWithLong() {
if (PHP_INT_SIZE != 8) {
$this->markTestSkipped('64 bits only');
}
$longExpiryTimeExceedingInt = 3153600000;
$this->redis->del('key');
$this->assertTrue($this->redis->setex('key', $longExpiryTimeExceedingInt, 'val') === TRUE);
$this->assertTrue($this->redis->ttl('key') === $longExpiryTimeExceedingInt);
}
public function testIncr()
{
$this->redis->set('key', 0);
$this->redis->incr('key');
$this->assertEquals(1, (int)$this->redis->get('key'));
$this->redis->incr('key');
$this->assertEquals(2, (int)$this->redis->get('key'));
$this->redis->incrBy('key', 3);
$this->assertEquals(5, (int)$this->redis->get('key'));
$this->redis->incrBy('key', 1);
$this->assertEquals(6, (int)$this->redis->get('key'));
$this->redis->incrBy('key', -1);
$this->assertEquals(5, (int)$this->redis->get('key'));
$this->redis->incr('key', 5);
$this->assertEquals(10, (int)$this->redis->get('key'));
$this->redis->del('key');
$this->redis->set('key', 'abc');
$this->redis->incr('key');
$this->assertTrue("abc" === $this->redis->get('key'));
$this->redis->incr('key');
$this->assertTrue("abc" === $this->redis->get('key'));
$this->redis->set('key', 0);
$this->assertEquals(PHP_INT_MAX, $this->redis->incrby('key', PHP_INT_MAX));
}
public function testIncrByFloat()
{
// incrbyfloat is new in 2.6.0
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
$this->redis->del('key');
$this->redis->set('key', 0);
$this->redis->incrbyfloat('key', 1.5);
$this->assertEquals('1.5', $this->redis->get('key'));
$this->redis->incrbyfloat('key', 2.25);
$this->assertEquals('3.75', $this->redis->get('key'));
$this->redis->incrbyfloat('key', -2.25);
$this->assertEquals('1.5', $this->redis->get('key'));
$this->redis->set('key', 'abc');
$this->redis->incrbyfloat('key', 1.5);
$this->assertTrue("abc" === $this->redis->get('key'));
$this->redis->incrbyfloat('key', -1.5);
$this->assertTrue("abc" === $this->redis->get('key'));
// Test with prefixing
$this->redis->setOption(Redis::OPT_PREFIX, 'someprefix:');
$this->redis->del('key');
$this->redis->incrbyfloat('key',1.8);
$this->assertEquals(1.8, floatval($this->redis->get('key'))); // convert to float to avoid rounding issue on arm
$this->redis->setOption(Redis::OPT_PREFIX, '');
$this->assertEquals(1, $this->redis->exists('someprefix:key'));
$this->redis->del('someprefix:key');
}
public function testDecr()
{
$this->redis->set('key', 5);
$this->redis->decr('key');
$this->assertEquals(4, (int)$this->redis->get('key'));
$this->redis->decr('key');
$this->assertEquals(3, (int)$this->redis->get('key'));
$this->redis->decrBy('key', 2);
$this->assertEquals(1, (int)$this->redis->get('key'));
$this->redis->decrBy('key', 1);
$this->assertEquals(0, (int)$this->redis->get('key'));
$this->redis->decrBy('key', -10);
$this->assertEquals(10, (int)$this->redis->get('key'));
$this->redis->decr('key', 10);
$this->assertEquals(0, (int)$this->redis->get('key'));
}
public function testExists()
{
/* Single key */
$this->redis->del('key');
$this->assertEquals(0, $this->redis->exists('key'));
$this->redis->set('key', 'val');
$this->assertEquals(1, $this->redis->exists('key'));
/* Add multiple keys */
$mkeys = [];
for ($i = 0; $i < 10; $i++) {
if (rand(1, 2) == 1) {
$mkey = "{exists}key:$i";
$this->redis->set($mkey, $i);
$mkeys[] = $mkey;
}
}
/* Test passing an array as well as the keys variadic */
$this->assertEquals(count($mkeys), $this->redis->exists($mkeys));
$this->assertEquals(count($mkeys), call_user_func_array([$this->redis, 'exists'], $mkeys));
}
public function testKeys()
{
$pattern = 'keys-test-';
for($i = 1; $i < 10; $i++) {
$this->redis->set($pattern.$i, $i);
}
$this->redis->del($pattern.'3');
$keys = $this->redis->keys($pattern.'*');
$this->redis->set($pattern.'3', 'something');
$keys2 = $this->redis->keys($pattern.'*');
$this->assertEquals((count($keys) + 1), count($keys2));
// empty array when no key matches
$this->assertEquals([], $this->redis->keys(rand().rand().rand().'*'));
}
protected function genericDelUnlink($cmd) {
$key = 'key' . rand();
$this->redis->set($key, 'val');
$this->assertEquals('val', $this->redis->get($key));
$this->assertEquals(1, $this->redis->$cmd($key));
$this->assertEquals(false, $this->redis->get($key));
// multiple, all existing
$this->redis->set('x', 0);
$this->redis->set('y', 1);
$this->redis->set('z', 2);
$this->assertEquals(3, $this->redis->$cmd('x', 'y', 'z'));
$this->assertEquals(false, $this->redis->get('x'));
$this->assertEquals(false, $this->redis->get('y'));
$this->assertEquals(false, $this->redis->get('z'));
// multiple, none existing
$this->assertEquals(0, $this->redis->$cmd('x', 'y', 'z'));
$this->assertEquals(false, $this->redis->get('x'));
$this->assertEquals(false, $this->redis->get('y'));
$this->assertEquals(false, $this->redis->get('z'));
// multiple, some existing
$this->redis->set('y', 1);
$this->assertEquals(1, $this->redis->$cmd('x', 'y', 'z'));
$this->assertEquals(false, $this->redis->get('y'));
$this->redis->set('x', 0);
$this->redis->set('y', 1);
$this->assertEquals(2, $this->redis->$cmd(['x', 'y']));
}
public function testDelete() {
$this->genericDelUnlink("DEL");
}
public function testUnlink() {
if (version_compare($this->version, "4.0.0") < 0) {
$this->markTestSkipped();
return;
}
$this->genericDelUnlink("UNLINK");
}
public function testType()
{
// 0 => none, (key didn't exist)
// 1=> string,
// 2 => set,
// 3 => list,
// 4 => zset,
// 5 => hash
// 6 => stream
// string
$this->redis->set('key', 'val');
$this->assertEquals(Redis::REDIS_STRING, $this->redis->type('key'));
// list
$this->redis->lPush('keyList', 'val0');
$this->redis->lPush('keyList', 'val1');
$this->assertEquals(Redis::REDIS_LIST, $this->redis->type('keyList'));
// set
$this->redis->del('keySet');
$this->redis->sAdd('keySet', 'val0');
$this->redis->sAdd('keySet', 'val1');
$this->assertEquals(Redis::REDIS_SET, $this->redis->type('keySet'));
// sadd with numeric key
$this->redis->del(123);
$this->assertTrue(1 === $this->redis->sAdd(123, 'val0'));
$this->assertTrue(['val0'] === $this->redis->sMembers(123));
// zset
$this->redis->del('keyZSet');
$this->redis->zAdd('keyZSet', 0, 'val0');
$this->redis->zAdd('keyZSet', 1, 'val1');
$this->assertEquals(Redis::REDIS_ZSET, $this->redis->type('keyZSet'));
// hash
$this->redis->del('keyHash');
$this->redis->hSet('keyHash', 'key0', 'val0');
$this->redis->hSet('keyHash', 'key1', 'val1');
$this->assertEquals(Redis::REDIS_HASH, $this->redis->type('keyHash'));
// stream
if ($this->minVersionCheck("5.0")) {
$this->redis->del('stream');
$this->redis->xAdd('stream', '*', ['foo' => 'bar']);
$this->assertEquals(Redis::REDIS_STREAM, $this->redis->type('stream'));
}
// None
$this->redis->del('keyNotExists');
$this->assertEquals(Redis::REDIS_NOT_FOUND, $this->redis->type('keyNotExists'));
}
public function testStr() {
$this->redis->set('key', 'val1');
$this->assertTrue($this->redis->append('key', 'val2') === 8);
$this->assertTrue($this->redis->get('key') === 'val1val2');
$this->redis->del('keyNotExist');
$this->assertTrue($this->redis->append('keyNotExist', 'value') === 5);
$this->assertTrue($this->redis->get('keyNotExist') === 'value');
$this->redis->set('key', 'This is a string') ;
$this->assertTrue($this->redis->getRange('key', 0, 3) === 'This');
$this->assertTrue($this->redis->getRange('key', -6, -1) === 'string');
$this->assertTrue($this->redis->getRange('key', -6, 100000) === 'string');
$this->assertTrue($this->redis->get('key') === 'This is a string');
$this->redis->set('key', 'This is a string') ;
$this->assertTrue($this->redis->strlen('key') === 16);
$this->redis->set('key', 10) ;
$this->assertTrue($this->redis->strlen('key') === 2);
$this->redis->set('key', '') ;
$this->assertTrue($this->redis->strlen('key') === 0);
$this->redis->set('key', '000') ;
$this->assertTrue($this->redis->strlen('key') === 3);
}
// PUSH, POP : LPUSH, LPOP
public function testlPop()
{
// rpush => tail
// lpush => head
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->redis->lPush('list', 'val2');
$this->redis->rPush('list', 'val3');
// 'list' = [ 'val2', 'val', 'val3']
$this->assertEquals('val2', $this->redis->lPop('list'));
$this->assertEquals('val', $this->redis->lPop('list'));
$this->assertEquals('val3', $this->redis->lPop('list'));
$this->assertEquals(FALSE, $this->redis->lPop('list'));
// testing binary data
$this->redis->del('list');
$this->assertEquals(1, $this->redis->lPush('list', gzcompress('val1')));
$this->assertEquals(2, $this->redis->lPush('list', gzcompress('val2')));
$this->assertEquals(3, $this->redis->lPush('list', gzcompress('val3')));
$this->assertEquals('val3', gzuncompress($this->redis->lPop('list')));
$this->assertEquals('val2', gzuncompress($this->redis->lPop('list')));
$this->assertEquals('val1', gzuncompress($this->redis->lPop('list')));
}
// PUSH, POP : RPUSH, RPOP
public function testrPop()
{
// rpush => tail
// lpush => head
$this->redis->del('list');
$this->redis->rPush('list', 'val');
$this->redis->rPush('list', 'val2');
$this->redis->lPush('list', 'val3');
// 'list' = [ 'val3', 'val', 'val2']
$this->assertEquals('val2', $this->redis->rPop('list'));
$this->assertEquals('val', $this->redis->rPop('list'));
$this->assertEquals('val3', $this->redis->rPop('list'));
$this->assertEquals(FALSE, $this->redis->rPop('list'));
// testing binary data
$this->redis->del('list');
$this->assertEquals(1, $this->redis->rPush('list', gzcompress('val1')));
$this->assertEquals(2, $this->redis->rPush('list', gzcompress('val2')));
$this->assertEquals(3, $this->redis->rPush('list', gzcompress('val3')));
$this->assertEquals('val3', gzuncompress($this->redis->rPop('list')));
$this->assertEquals('val2', gzuncompress($this->redis->rPop('list')));
$this->assertEquals('val1', gzuncompress($this->redis->rPop('list')));
}
public function testblockingPop() {
// non blocking blPop, brPop
$this->redis->del('list');
$this->redis->lPush('list', 'val1');
$this->redis->lPush('list', 'val2');
$this->assertTrue($this->redis->blPop(['list'], 2) === ['list', 'val2']);
$this->assertTrue($this->redis->blPop(['list'], 2) === ['list', 'val1']);
$this->redis->del('list');
$this->redis->lPush('list', 'val1');
$this->redis->lPush('list', 'val2');
$this->assertTrue($this->redis->brPop(['list'], 1) === ['list', 'val1']);
$this->assertTrue($this->redis->brPop(['list'], 1) === ['list', 'val2']);
// blocking blpop, brpop
$this->redis->del('list');
/* Also test our option that we want *-1 to be returned as NULL */
foreach ([false => [], true => NULL] as $opt => $val) {
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, $opt);
$this->assertEquals($val, $this->redis->blPop(['list'], 1));
$this->assertEquals($val, $this->redis->brPop(['list'], 1));
}
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, false);
}
public function testllen()
{
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->assertEquals(1, $this->redis->llen('list'));
$this->redis->lPush('list', 'val2');
$this->assertEquals(2, $this->redis->llen('list'));
$this->assertEquals('val2', $this->redis->lPop('list'));
$this->assertEquals(1, $this->redis->llen('list'));
$this->assertEquals('val', $this->redis->lPop('list'));
$this->assertEquals(0, $this->redis->llen('list'));
$this->assertEquals(FALSE, $this->redis->lPop('list'));
$this->assertEquals(0, $this->redis->llen('list')); // empty returns 0
$this->redis->del('list');
$this->assertEquals(0, $this->redis->llen('list')); // non-existent returns 0
$this->redis->set('list', 'actually not a list');
$this->assertEquals(FALSE, $this->redis->llen('list'));// not a list returns FALSE
}
//lInsert, lPopx, rPopx
public function testlPopx() {
//test lPushx/rPushx
$this->redis->del('keyNotExists');
$this->assertTrue($this->redis->lPushx('keyNotExists', 'value') === 0);
$this->assertTrue($this->redis->rPushx('keyNotExists', 'value') === 0);
$this->redis->del('key');
$this->redis->lPush('key', 'val0');
$this->assertTrue($this->redis->lPushx('key', 'val1') === 2);
$this->assertTrue($this->redis->rPushx('key', 'val2') === 3);
$this->assertTrue($this->redis->lrange('key', 0, -1) === ['val1', 'val0', 'val2']);
//test linsert
$this->redis->del('key');
$this->redis->lPush('key', 'val0');
$this->assertTrue($this->redis->lInsert('keyNotExists', Redis::AFTER, 'val1', 'val2') === 0);
$this->assertTrue($this->redis->lInsert('key', Redis::BEFORE, 'valX', 'val2') === -1);
$this->assertTrue($this->redis->lInsert('key', Redis::AFTER, 'val0', 'val1') === 2);
$this->assertTrue($this->redis->lInsert('key', Redis::BEFORE, 'val0', 'val2') === 3);
$this->assertTrue($this->redis->lrange('key', 0, -1) === ['val2', 'val0', 'val1']);
}
// ltrim, lsize, lpop
public function testltrim()
{
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->redis->lPush('list', 'val2');
$this->redis->lPush('list', 'val3');
$this->redis->lPush('list', 'val4');
$this->assertEquals(TRUE, $this->redis->ltrim('list', 0, 2));
$this->assertEquals(3, $this->redis->llen('list'));
$this->redis->ltrim('list', 0, 0);
$this->assertEquals(1, $this->redis->llen('list'));
$this->assertEquals('val4', $this->redis->lPop('list'));
$this->assertEquals(TRUE, $this->redis->ltrim('list', 10, 10000));
$this->assertEquals(TRUE, $this->redis->ltrim('list', 10000, 10));
// test invalid type
$this->redis->set('list', 'not a list...');
$this->assertEquals(FALSE, $this->redis->ltrim('list', 0, 2));
}
public function setupSort() {
// people with name, age, salary
$this->redis->set('person:name_1', 'Alice');
$this->redis->set('person:age_1', 27);
$this->redis->set('person:salary_1', 2500);
$this->redis->set('person:name_2', 'Bob');
$this->redis->set('person:age_2', 34);
$this->redis->set('person:salary_2', 2000);
$this->redis->set('person:name_3', 'Carol');
$this->redis->set('person:age_3', 25);
$this->redis->set('person:salary_3', 2800);
$this->redis->set('person:name_4', 'Dave');
$this->redis->set('person:age_4', 41);
$this->redis->set('person:salary_4', 3100);
// set-up
$this->redis->del('person:id');
foreach([1,2,3,4] as $id) {
$this->redis->lPush('person:id', $id);
}
}
public function testSortPrefix() {
// Make sure that sorting works with a prefix
$this->redis->setOption(Redis::OPT_PREFIX, 'some-prefix:');
$this->redis->del('some-item');
$this->redis->sadd('some-item', 1);
$this->redis->sadd('some-item', 2);
$this->redis->sadd('some-item', 3);
$this->assertEquals(['1','2','3'], $this->redis->sort('some-item', ['sort' => 'asc']));
$this->assertEquals(['3','2','1'], $this->redis->sort('some-item', ['sort' => 'desc']));
$this->assertEquals(['1','2','3'], $this->redis->sort('some-item'));
// Kill our set/prefix
$this->redis->del('some-item');
$this->redis->setOption(Redis::OPT_PREFIX, '');
}
public function testSortAsc() {
$this->setupSort();
// sort by age and get IDs
$byAgeAsc = ['3','1','2','4'];
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*']));
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'sort' => 'asc']));
$this->assertEquals(['1', '2', '3', '4'], $this->redis->sort('person:id', ['by' => NULL])); // check that NULL works.
$this->assertEquals(['1', '2', '3', '4'], $this->redis->sort('person:id', ['by' => NULL, 'get' => NULL])); // for all fields.
$this->assertEquals(['1', '2', '3', '4'], $this->redis->sort('person:id', ['sort' => 'asc']));
// sort by age and get names
$byAgeAsc = ['Carol','Alice','Bob','Dave'];
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*']));
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'sort' => 'asc']));
$this->assertEquals(array_slice($byAgeAsc, 0, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [0, 2]]));
$this->assertEquals(array_slice($byAgeAsc, 0, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [0, 2], 'sort' => 'asc']));
$this->assertEquals(array_slice($byAgeAsc, 1, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [1, 2]]));
$this->assertEquals(array_slice($byAgeAsc, 1, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [1, 2], 'sort' => 'asc']));
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [0, 4]]));
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [0, "4"]])); // with strings
$this->assertEquals($byAgeAsc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => ["0", 4]]));
// sort by salary and get ages
$agesBySalaryAsc = ['34', '27', '25', '41'];
$this->assertEquals($agesBySalaryAsc, $this->redis->sort('person:id', ['by' => 'person:salary_*', 'get' => 'person:age_*']));
$this->assertEquals($agesBySalaryAsc, $this->redis->sort('person:id', ['by' => 'person:salary_*', 'get' => 'person:age_*', 'sort' => 'asc']));
$agesAndSalaries = $this->redis->sort('person:id', ['by' => 'person:salary_*', 'get' => ['person:age_*', 'person:salary_*'], 'sort' => 'asc']);
$this->assertEquals(['34', '2000', '27', '2500', '25', '2800', '41', '3100'], $agesAndSalaries);
// sort non-alpha doesn't change all-string lists
// list → [ghi, def, abc]
$list = ['abc', 'def', 'ghi'];
$this->redis->del('list');
foreach($list as $i) {
$this->redis->lPush('list', $i);
}
// SORT list → [ghi, def, abc]
if (version_compare($this->version, "2.5.0") < 0) {
$this->assertEquals(array_reverse($list), $this->redis->sort('list'));
$this->assertEquals(array_reverse($list), $this->redis->sort('list', ['sort' => 'asc']));
} else {
// TODO rewrite, from 2.6.0 release notes:
// SORT now will refuse to sort in numerical mode elements that can't be parsed
// as numbers
}
// SORT list ALPHA → [abc, def, ghi]
$this->assertEquals($list, $this->redis->sort('list', ['alpha' => TRUE]));
$this->assertEquals($list, $this->redis->sort('list', ['sort' => 'asc', 'alpha' => TRUE]));
}
public function testSortDesc() {
$this->setupSort();
// sort by age and get IDs
$byAgeDesc = ['4','2','1','3'];
$this->assertEquals($byAgeDesc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'sort' => 'desc']));
// sort by age and get names
$byAgeDesc = ['Dave', 'Bob', 'Alice', 'Carol'];
$this->assertEquals($byAgeDesc, $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'sort' => 'desc']));
$this->assertEquals(array_slice($byAgeDesc, 0, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [0, 2], 'sort' => 'desc']));
$this->assertEquals(array_slice($byAgeDesc, 1, 2), $this->redis->sort('person:id', ['by' => 'person:age_*', 'get' => 'person:name_*', 'limit' => [1, 2], 'sort' => 'desc']));
// sort by salary and get ages
$agesBySalaryDesc = ['41', '25', '27', '34'];
$this->assertEquals($agesBySalaryDesc, $this->redis->sort('person:id', ['by' => 'person:salary_*', 'get' => 'person:age_*', 'sort' => 'desc']));
// sort non-alpha doesn't change all-string lists
$list = ['def', 'abc', 'ghi'];
$this->redis->del('list');
foreach($list as $i) {
$this->redis->lPush('list', $i);
}
// SORT list → [ghi, abc, def]
if (version_compare($this->version, "2.5.0") < 0) {
$this->assertEquals(array_reverse($list), $this->redis->sort('list', ['sort' => 'desc']));
} else {
// TODO rewrite, from 2.6.0 release notes:
// SORT now will refuse to sort in numerical mode elements that can't be parsed
// as numbers
}
// SORT list ALPHA → [abc, def, ghi]
$this->assertEquals(['ghi', 'def', 'abc'], $this->redis->sort('list', ['sort' => 'desc', 'alpha' => TRUE]));
}
// LINDEX
public function testLindex() {
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->redis->lPush('list', 'val2');
$this->redis->lPush('list', 'val3');
$this->assertEquals('val3', $this->redis->lIndex('list', 0));
$this->assertEquals('val2', $this->redis->lIndex('list', 1));
$this->assertEquals('val', $this->redis->lIndex('list', 2));
$this->assertEquals('val', $this->redis->lIndex('list', -1));
$this->assertEquals('val2', $this->redis->lIndex('list', -2));
$this->assertEquals('val3', $this->redis->lIndex('list', -3));
$this->assertEquals(FALSE, $this->redis->lIndex('list', -4));
$this->redis->rPush('list', 'val4');
$this->assertEquals('val4', $this->redis->lIndex('list', 3));
$this->assertEquals('val4', $this->redis->lIndex('list', -1));
}
// lRem testing
public function testlrem() {
$this->redis->del('list');
$this->redis->lPush('list', 'a');
$this->redis->lPush('list', 'b');
$this->redis->lPush('list', 'c');
$this->redis->lPush('list', 'c');
$this->redis->lPush('list', 'b');
$this->redis->lPush('list', 'c');
// ['c', 'b', 'c', 'c', 'b', 'a']
$return = $this->redis->lrem('list', 'b', 2);
// ['c', 'c', 'c', 'a']
$this->assertEquals(2, $return);
$this->assertEquals('c', $this->redis->lIndex('list', 0));
$this->assertEquals('c', $this->redis->lIndex('list', 1));
$this->assertEquals('c', $this->redis->lIndex('list', 2));
$this->assertEquals('a', $this->redis->lIndex('list', 3));
$this->redis->del('list');
$this->redis->lPush('list', 'a');
$this->redis->lPush('list', 'b');
$this->redis->lPush('list', 'c');
$this->redis->lPush('list', 'c');
$this->redis->lPush('list', 'b');
$this->redis->lPush('list', 'c');
// ['c', 'b', 'c', 'c', 'b', 'a']
$this->redis->lrem('list', 'c', -2);
// ['c', 'b', 'b', 'a']
$this->assertEquals(2, $return);
$this->assertEquals('c', $this->redis->lIndex('list', 0));
$this->assertEquals('b', $this->redis->lIndex('list', 1));
$this->assertEquals('b', $this->redis->lIndex('list', 2));
$this->assertEquals('a', $this->redis->lIndex('list', 3));
// remove each element
$this->assertEquals(1, $this->redis->lrem('list', 'a', 0));
$this->assertEquals(0, $this->redis->lrem('list', 'x', 0));
$this->assertEquals(2, $this->redis->lrem('list', 'b', 0));
$this->assertEquals(1, $this->redis->lrem('list', 'c', 0));
$this->assertEquals(FALSE, $this->redis->get('list'));
$this->redis->set('list', 'actually not a list');
$this->assertEquals(FALSE, $this->redis->lrem('list', 'x'));
}
public function testsAdd() {
$this->redis->del('set');
$this->assertEquals(1, $this->redis->sAdd('set', 'val'));
$this->assertEquals(0, $this->redis->sAdd('set', 'val'));
$this->assertTrue($this->redis->sismember('set', 'val'));
$this->assertFalse($this->redis->sismember('set', 'val2'));
$this->assertEquals(1, $this->redis->sAdd('set', 'val2'));
$this->assertTrue($this->redis->sismember('set', 'val2'));
}
public function testscard() {
$this->redis->del('set');
$this->assertEquals(1, $this->redis->sAdd('set', 'val'));
$this->assertEquals(1, $this->redis->scard('set'));
$this->assertEquals(1, $this->redis->sAdd('set', 'val2'));
$this->assertEquals(2, $this->redis->scard('set'));
}
public function testsrem() {
$this->redis->del('set');
$this->redis->sAdd('set', 'val');
$this->redis->sAdd('set', 'val2');
$this->redis->srem('set', 'val');
$this->assertEquals(1, $this->redis->scard('set'));
$this->redis->srem('set', 'val2');
$this->assertEquals(0, $this->redis->scard('set'));
}
public function testsMove() {
$this->redis->del('{set}0');
$this->redis->del('{set}1');
$this->redis->sAdd('{set}0', 'val');
$this->redis->sAdd('{set}0', 'val2');
$this->assertTrue($this->redis->sMove('{set}0', '{set}1', 'val'));
$this->assertFalse($this->redis->sMove('{set}0', '{set}1', 'val'));
$this->assertFalse($this->redis->sMove('{set}0', '{set}1', 'val-what'));
$this->assertEquals(1, $this->redis->scard('{set}0'));
$this->assertEquals(1, $this->redis->scard('{set}1'));
$this->assertEquals(['val2'], $this->redis->smembers('{set}0'));
$this->assertEquals(['val'], $this->redis->smembers('{set}1'));
}
public function testsPop() {
$this->redis->del('set0');
$this->assertTrue($this->redis->sPop('set0') === FALSE);
$this->redis->sAdd('set0', 'val');
$this->redis->sAdd('set0', 'val2');
$v0 = $this->redis->sPop('set0');
$this->assertTrue(1 === $this->redis->scard('set0'));
$this->assertTrue($v0 === 'val' || $v0 === 'val2');
$v1 = $this->redis->sPop('set0');
$this->assertTrue(0 === $this->redis->scard('set0'));
$this->assertTrue(($v0 === 'val' && $v1 === 'val2') || ($v1 === 'val' && $v0 === 'val2'));
$this->assertTrue($this->redis->sPop('set0') === FALSE);
}
public function testsPopWithCount() {
if (!$this->minVersionCheck("3.2")) {
return $this->markTestSkipped();
}
$set = 'set0';
$prefix = 'member';
$count = 5;
/* Add a few members */
$this->redis->del($set);
for ($i = 0; $i < $count; $i++) {
$this->redis->sadd($set, $prefix.$i);
}
/* Pop them all */
$ret = $this->redis->sPop($set, $i);
/* Make sure we got an arary and the count is right */
if ($this->assertTrue(is_array($ret)) && $this->assertTrue(count($ret) == $count)) {
/* Probably overkill but validate the actual returned members */
for ($i = 0; $i < $count; $i++) {
$this->assertTrue(in_array($prefix.$i, $ret));
}
}
}
public function testsRandMember() {
$this->redis->del('set0');
$this->assertTrue($this->redis->sRandMember('set0') === FALSE);
$this->redis->sAdd('set0', 'val');
$this->redis->sAdd('set0', 'val2');
$got = [];
while(true) {
$v = $this->redis->sRandMember('set0');
$this->assertTrue(2 === $this->redis->scard('set0')); // no change.
$this->assertTrue($v === 'val' || $v === 'val2');
$got[$v] = $v;
if(count($got) == 2) {
break;
}
}
//
// With and without count, while serializing
//
$this->redis->del('set0');
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_PHP);
for($i=0;$i<5;$i++) {
$member = "member:$i";
$this->redis->sAdd('set0', $member);
$mems[] = $member;
}
$member = $this->redis->srandmember('set0');
$this->assertTrue(in_array($member, $mems));
$rmembers = $this->redis->srandmember('set0', $i);
foreach($rmembers as $reply_mem) {
$this->assertTrue(in_array($reply_mem, $mems));
}
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE);
}
public function testSRandMemberWithCount() {
// Make sure the set is nuked
$this->redis->del('set0');
// Run with a count (positive and negative) on an empty set
$ret_pos = $this->redis->sRandMember('set0', 10);
$ret_neg = $this->redis->sRandMember('set0', -10);
// Should both be empty arrays
$this->assertTrue(is_array($ret_pos) && empty($ret_pos));
$this->assertTrue(is_array($ret_neg) && empty($ret_neg));
// Add a few items to the set
for($i=0;$i<100;$i++) {
$this->redis->sadd('set0', "member$i");
}
// Get less than the size of the list
$ret_slice = $this->redis->srandmember('set0', 20);
// Should be an array with 20 items
$this->assertTrue(is_array($ret_slice) && count($ret_slice) == 20);
// Ask for more items than are in the list (but with a positive count)
$ret_slice = $this->redis->srandmember('set0', 200);
// Should be an array, should be however big the set is, exactly
$this->assertTrue(is_array($ret_slice) && count($ret_slice) == $i);
// Now ask for too many items but negative
$ret_slice = $this->redis->srandmember('set0', -200);
// Should be an array, should have exactly the # of items we asked for (will be dups)
$this->assertTrue(is_array($ret_slice) && count($ret_slice) == 200);
//
// Test in a pipeline
//
if ($this->havePipeline()) {
$pipe = $this->redis->pipeline();
$pipe->srandmember('set0', 20);
$pipe->srandmember('set0', 200);
$pipe->srandmember('set0', -200);
$ret = $this->redis->exec();
$this->assertTrue(is_array($ret[0]) && count($ret[0]) == 20);
$this->assertTrue(is_array($ret[1]) && count($ret[1]) == $i);
$this->assertTrue(is_array($ret[2]) && count($ret[2]) == 200);
// Kill the set
$this->redis->del('set0');
}
}
public function testsismember()
{
$this->redis->del('set');
$this->redis->sAdd('set', 'val');
$this->assertTrue($this->redis->sismember('set', 'val'));
$this->assertFalse($this->redis->sismember('set', 'val2'));
}
public function testsmembers()
{
$this->redis->del('set');
$this->redis->sAdd('set', 'val');
$this->redis->sAdd('set', 'val2');
$this->redis->sAdd('set', 'val3');
$array = ['val', 'val2', 'val3'];
$smembers = $this->redis->smembers('set');
sort($smembers);
$this->assertEquals($array, $smembers);
$sMembers = $this->redis->sMembers('set');
sort($sMembers);
$this->assertEquals($array, $sMembers); // test alias
}
public function testlSet() {
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->redis->lPush('list', 'val2');
$this->redis->lPush('list', 'val3');
$this->assertEquals($this->redis->lIndex('list', 0), 'val3');
$this->assertEquals($this->redis->lIndex('list', 1), 'val2');
$this->assertEquals($this->redis->lIndex('list', 2), 'val');
$this->assertEquals(TRUE, $this->redis->lSet('list', 1, 'valx'));
$this->assertEquals($this->redis->lIndex('list', 0), 'val3');
$this->assertEquals($this->redis->lIndex('list', 1), 'valx');
$this->assertEquals($this->redis->lIndex('list', 2), 'val');
}
public function testsInter() {
$this->redis->del('{set}odd'); // set of odd numbers
$this->redis->del('{set}prime'); // set of prime numbers
$this->redis->del('{set}square'); // set of squares
$this->redis->del('{set}seq'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}odd', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}prime', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}square', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}seq', $i);
}
$xy = $this->redis->sInter('{set}odd', '{set}prime'); // odd prime numbers
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_intersect($x, $y)));
}
$xy = $this->redis->sInter(['{set}odd', '{set}prime']); // odd prime numbers, as array.
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_intersect($x, $y)));
}
$yz = $this->redis->sInter('{set}prime', '{set}square'); // set of prime squares
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_intersect($y, $z)));
}
$yz = $this->redis->sInter(['{set}prime', '{set}square']); // set of odd squares, as array
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_intersect($y, $z)));
}
$zt = $this->redis->sInter('{set}square', '{set}seq'); // prime squares
$this->assertTrue($zt === []);
$zt = $this->redis->sInter(['{set}square', '{set}seq']); // prime squares, as array
$this->assertTrue($zt === []);
$xyz = $this->redis->sInter('{set}odd', '{set}prime', '{set}square');// odd prime squares
$this->assertTrue($xyz === ['1']);
$xyz = $this->redis->sInter(['{set}odd', '{set}prime', '{set}square']);// odd prime squares, with an array as a parameter
$this->assertTrue($xyz === ['1']);
$nil = $this->redis->sInter([]);
$this->assertTrue($nil === FALSE);
}
public function testsInterStore() {
$this->redis->del('{set}x'); // set of odd numbers
$this->redis->del('{set}y'); // set of prime numbers
$this->redis->del('{set}z'); // set of squares
$this->redis->del('{set}t'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}x', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}y', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}z', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}t', $i);
}
/* Regression test for passing a single array */
$this->assertEquals($this->redis->sInterStore(['{set}k', '{set}x', '{set}y']), count(array_intersect($x,$y)));
$count = $this->redis->sInterStore('{set}k', '{set}x', '{set}y'); // odd prime numbers
$this->assertEquals($count, $this->redis->scard('{set}k'));
foreach(array_intersect($x, $y) as $i) {
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sInterStore('{set}k', '{set}y', '{set}z'); // set of odd squares
$this->assertEquals($count, $this->redis->scard('{set}k'));
foreach(array_intersect($y, $z) as $i) {
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sInterStore('{set}k', '{set}z', '{set}t'); // squares of the form n^2 + 1
$this->assertEquals($count, 0);
$this->assertEquals($count, $this->redis->scard('{set}k'));
$this->redis->del('{set}z');
$xyz = $this->redis->sInterStore('{set}k', '{set}x', '{set}y', '{set}z'); // only z missing, expect 0.
$this->assertTrue($xyz === 0);
$this->redis->del('{set}y');
$xyz = $this->redis->sInterStore('{set}k', '{set}x', '{set}y', '{set}z'); // y and z missing, expect 0.
$this->assertTrue($xyz === 0);
$this->redis->del('{set}x');
$xyz = $this->redis->sInterStore('{set}k', '{set}x', '{set}y', '{set}z'); // x y and z ALL missing, expect 0.
$this->assertTrue($xyz === 0);
}
public function testsUnion() {
$this->redis->del('{set}x'); // set of odd numbers
$this->redis->del('{set}y'); // set of prime numbers
$this->redis->del('{set}z'); // set of squares
$this->redis->del('{set}t'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}x', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}y', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}z', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}t', $i);
}
$xy = $this->redis->sUnion('{set}x', '{set}y'); // x U y
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_merge($x, $y)));
}
$yz = $this->redis->sUnion('{set}y', '{set}z'); // y U Z
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_merge($y, $z)));
}
$zt = $this->redis->sUnion('{set}z', '{set}t'); // z U t
foreach($zt as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_merge($z, $t)));
}
$xyz = $this->redis->sUnion('{set}x', '{set}y', '{set}z'); // x U y U z
foreach($xyz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_merge($x, $y, $z)));
}
}
public function testsUnionStore() {
$this->redis->del('{set}x'); // set of odd numbers
$this->redis->del('{set}y'); // set of prime numbers
$this->redis->del('{set}z'); // set of squares
$this->redis->del('{set}t'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}x', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}y', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}z', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}t', $i);
}
$count = $this->redis->sUnionStore('{set}k', '{set}x', '{set}y'); // x U y
$xy = array_unique(array_merge($x, $y));
$this->assertEquals($count, count($xy));
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sUnionStore('{set}k', '{set}y', '{set}z'); // y U z
$yz = array_unique(array_merge($y, $z));
$this->assertEquals($count, count($yz));
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sUnionStore('{set}k', '{set}z', '{set}t'); // z U t
$zt = array_unique(array_merge($z, $t));
$this->assertEquals($count, count($zt));
foreach($zt as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sUnionStore('{set}k', '{set}x', '{set}y', '{set}z'); // x U y U z
$xyz = array_unique(array_merge($x, $y, $z));
$this->assertEquals($count, count($xyz));
foreach($xyz as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$this->redis->del('{set}x'); // x missing now
$count = $this->redis->sUnionStore('{set}k', '{set}x', '{set}y', '{set}z'); // x U y U z
$this->assertTrue($count === count(array_unique(array_merge($y, $z))));
$this->redis->del('{set}y'); // x and y missing
$count = $this->redis->sUnionStore('{set}k', '{set}x', '{set}y', '{set}z'); // x U y U z
$this->assertTrue($count === count(array_unique($z)));
$this->redis->del('{set}z'); // x, y, and z ALL missing
$count = $this->redis->sUnionStore('{set}k', '{set}x', '{set}y', '{set}z'); // x U y U z
$this->assertTrue($count === 0);
}
public function testsDiff() {
$this->redis->del('{set}x'); // set of odd numbers
$this->redis->del('{set}y'); // set of prime numbers
$this->redis->del('{set}z'); // set of squares
$this->redis->del('{set}t'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}x', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}y', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}z', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}t', $i);
}
$xy = $this->redis->sDiff('{set}x', '{set}y'); // x U y
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_diff($x, $y)));
}
$yz = $this->redis->sDiff('{set}y', '{set}z'); // y U Z
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_diff($y, $z)));
}
$zt = $this->redis->sDiff('{set}z', '{set}t'); // z U t
foreach($zt as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_diff($z, $t)));
}
$xyz = $this->redis->sDiff('{set}x', '{set}y', '{set}z'); // x U y U z
foreach($xyz as $i) {
$i = (int)$i;
$this->assertTrue(in_array($i, array_diff($x, $y, $z)));
}
}
public function testsDiffStore() {
$this->redis->del('{set}x'); // set of odd numbers
$this->redis->del('{set}y'); // set of prime numbers
$this->redis->del('{set}z'); // set of squares
$this->redis->del('{set}t'); // set of numbers of the form n^2 - 1
$x = [1,3,5,7,9,11,13,15,17,19,21,23,25];
foreach($x as $i) {
$this->redis->sAdd('{set}x', $i);
}
$y = [1,2,3,5,7,11,13,17,19,23];
foreach($y as $i) {
$this->redis->sAdd('{set}y', $i);
}
$z = [1,4,9,16,25];
foreach($z as $i) {
$this->redis->sAdd('{set}z', $i);
}
$t = [2,5,10,17,26];
foreach($t as $i) {
$this->redis->sAdd('{set}t', $i);
}
$count = $this->redis->sDiffStore('{set}k', '{set}x', '{set}y'); // x - y
$xy = array_unique(array_diff($x, $y));
$this->assertEquals($count, count($xy));
foreach($xy as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sDiffStore('{set}k', '{set}y', '{set}z'); // y - z
$yz = array_unique(array_diff($y, $z));
$this->assertEquals($count, count($yz));
foreach($yz as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sDiffStore('{set}k', '{set}z', '{set}t'); // z - t
$zt = array_unique(array_diff($z, $t));
$this->assertEquals($count, count($zt));
foreach($zt as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$count = $this->redis->sDiffStore('{set}k', '{set}x', '{set}y', '{set}z'); // x - y - z
$xyz = array_unique(array_diff($x, $y, $z));
$this->assertEquals($count, count($xyz));
foreach($xyz as $i) {
$i = (int)$i;
$this->assertTrue($this->redis->sismember('{set}k', $i));
}
$this->redis->del('{set}x'); // x missing now
$count = $this->redis->sDiffStore('{set}k', '{set}x', '{set}y', '{set}z'); // x - y - z
$this->assertTrue($count === 0);
$this->redis->del('{set}y'); // x and y missing
$count = $this->redis->sDiffStore('{set}k', '{set}x', '{set}y', '{set}z'); // x - y - z
$this->assertTrue($count === 0);
$this->redis->del('{set}z'); // x, y, and z ALL missing
$count = $this->redis->sDiffStore('{set}k', '{set}x', '{set}y', '{set}z'); // x - y - z
$this->assertTrue($count === 0);
}
public function testlrange() {
$this->redis->del('list');
$this->redis->lPush('list', 'val');
$this->redis->lPush('list', 'val2');
$this->redis->lPush('list', 'val3');
// pos : 0 1 2
// pos : -3 -2 -1
// list: [val3, val2, val]
$this->assertEquals($this->redis->lrange('list', 0, 0), ['val3']);
$this->assertEquals($this->redis->lrange('list', 0, 1), ['val3', 'val2']);
$this->assertEquals($this->redis->lrange('list', 0, 2), ['val3', 'val2', 'val']);
$this->assertEquals($this->redis->lrange('list', 0, 3), ['val3', 'val2', 'val']);
$this->assertEquals($this->redis->lrange('list', 0, -1), ['val3', 'val2', 'val']);
$this->assertEquals($this->redis->lrange('list', 0, -2), ['val3', 'val2']);
$this->assertEquals($this->redis->lrange('list', -2, -1), ['val2', 'val']);
$this->redis->del('list');
$this->assertEquals($this->redis->lrange('list', 0, -1), []);
}
public function testdbSize() {
$this->assertTrue($this->redis->flushDB());
$this->redis->set('x', 'y');
$this->assertTrue($this->redis->dbSize() === 1);
}
public function testttl() {
$this->redis->set('x', 'y');
$this->redis->expire('x', 5);
for($i = 5; $i > 0; $i--) {
$this->assertEquals($i, $this->redis->ttl('x'));
sleep(1);
}
// A key with no TTL
$this->redis->del('x'); $this->redis->set('x', 'bar');
$this->assertEquals($this->redis->ttl('x'), -1);
// A key that doesn't exist (> 2.8 will return -2)
if(version_compare($this->version, "2.8.0") >= 0) {
$this->redis->del('x');
$this->assertEquals($this->redis->ttl('x'), -2);
}
}
public function testPersist() {
$this->redis->set('x', 'y');
$this->redis->expire('x', 100);
$this->assertTrue(TRUE === $this->redis->persist('x')); // true if there is a timeout
$this->assertTrue(-1 === $this->redis->ttl('x')); // -1: timeout has been removed.
$this->assertTrue(FALSE === $this->redis->persist('x')); // false if there is no timeout
$this->redis->del('x');
$this->assertTrue(FALSE === $this->redis->persist('x')); // false if the key doesn’t exist.
}
public function testClient() {
/* CLIENT SETNAME */
$this->assertTrue($this->redis->client('setname', 'phpredis_unit_tests'));
/* CLIENT LIST */
$arr_clients = $this->redis->client('list');
$this->assertTrue(is_array($arr_clients));
// Figure out which ip:port is us!
$str_addr = NULL;
foreach($arr_clients as $arr_client) {
if($arr_client['name'] == 'phpredis_unit_tests') {
$str_addr = $arr_client['addr'];
}
}
// We should have found our connection
$this->assertFalse(empty($str_addr));
/* CLIENT GETNAME */
$this->assertTrue($this->redis->client('getname'), 'phpredis_unit_tests');
/* CLIENT KILL -- phpredis will reconnect, so we can do this */
$this->assertTrue($this->redis->client('kill', $str_addr));
}
public function testSlowlog() {
// We don't really know what's going to be in the slowlog, but make sure
// the command returns proper types when called in various ways
$this->assertTrue(is_array($this->redis->slowlog('get')));
$this->assertTrue(is_array($this->redis->slowlog('get', 10)));
$this->assertTrue(is_int($this->redis->slowlog('len')));
$this->assertTrue($this->redis->slowlog('reset'));
$this->assertFalse($this->redis->slowlog('notvalid'));
}
public function testWait() {
// Closest we can check based on redis commmit history
if(version_compare($this->version, '2.9.11') < 0) {
$this->markTestSkipped();
return;
}
// We could have slaves here, so determine that
$arr_slaves = $this->redis->info();
$i_slaves = $arr_slaves['connected_slaves'];
// Send a couple commands
$this->redis->set('wait-foo', 'over9000');
$this->redis->set('wait-bar', 'revo9000');
// Make sure we get the right replication count
$this->assertEquals($this->redis->wait($i_slaves, 100), $i_slaves);
// Pass more slaves than are connected
$this->redis->set('wait-foo','over9000');
$this->redis->set('wait-bar','revo9000');
$this->assertTrue($this->redis->wait($i_slaves+1, 100) < $i_slaves+1);
// Make sure when we pass with bad arguments we just get back false
$this->assertFalse($this->redis->wait(-1, -1));
$this->assertFalse($this->redis->wait(-1, 20));
}
public function testInfo() {
foreach ([false, true] as $boo_multi) {
if ($boo_multi) {
$this->redis->multi();
$this->redis->info();
$info = $this->redis->exec();
$info = $info[0];
} else {
$info = $this->redis->info();
}
$keys = [
"redis_version",
"arch_bits",
"uptime_in_seconds",
"uptime_in_days",
"connected_clients",
"connected_slaves",
"used_memory",
"total_connections_received",
"total_commands_processed",
"role"
];
if (version_compare($this->version, "2.5.0") < 0) {
array_push($keys,
"changes_since_last_save",
"bgsave_in_progress",
"last_save_time"
);
} else {
array_push($keys,
"rdb_changes_since_last_save",
"rdb_bgsave_in_progress",
"rdb_last_save_time"
);
}
foreach($keys as $k) {
$this->assertTrue(in_array($k, array_keys($info)));
}
}
}
public function testInfoCommandStats() {
// INFO COMMANDSTATS is new in 2.6.0
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
$info = $this->redis->info("COMMANDSTATS");
$this->assertTrue(is_array($info));
if (is_array($info)) {
foreach($info as $k => $value) {
$this->assertTrue(strpos($k, 'cmdstat_') !== false);
}
}
}
public function testSelect() {
$this->assertFalse($this->redis->select(-1));
$this->assertTrue($this->redis->select(0));
}
public function testSwapDB() {
if (version_compare($this->version, "4.0.0") < 0) {
$this->markTestSkipped();
}
$this->assertTrue($this->redis->swapdb(0, 1));
$this->assertTrue($this->redis->swapdb(0, 1));
}
public function testMset() {
$this->redis->del('x', 'y', 'z'); // remove x y z
$this->assertTrue($this->redis->mset(['x' => 'a', 'y' => 'b', 'z' => 'c'])); // set x y z
$this->assertEquals($this->redis->mget(['x', 'y', 'z']), ['a', 'b', 'c']); // check x y z
$this->redis->del('x'); // delete just x
$this->assertTrue($this->redis->mset(['x' => 'a', 'y' => 'b', 'z' => 'c'])); // set x y z
$this->assertEquals($this->redis->mget(['x', 'y', 'z']), ['a', 'b', 'c']); // check x y z
$this->assertFalse($this->redis->mset([])); // set ø → FALSE
/*
* Integer keys
*/
// No prefix
$set_array = [-1 => 'neg1', -2 => 'neg2', -3 => 'neg3', 1 => 'one', 2 => 'two', '3' => 'three'];
$this->redis->del(array_keys($set_array));
$this->assertTrue($this->redis->mset($set_array));
$this->assertEquals($this->redis->mget(array_keys($set_array)), array_values($set_array));
$this->redis->del(array_keys($set_array));
// With a prefix
$this->redis->setOption(Redis::OPT_PREFIX, 'pfx:');
$this->redis->del(array_keys($set_array));
$this->assertTrue($this->redis->mset($set_array));
$this->assertEquals($this->redis->mget(array_keys($set_array)), array_values($set_array));
$this->redis->del(array_keys($set_array));
$this->redis->setOption(Redis::OPT_PREFIX, '');
}
public function testMsetNX() {
$this->redis->del('x', 'y', 'z'); // remove x y z
$this->assertTrue(TRUE === $this->redis->msetnx(['x' => 'a', 'y' => 'b', 'z' => 'c'])); // set x y z
$this->assertEquals($this->redis->mget(['x', 'y', 'z']), ['a', 'b', 'c']); // check x y z
$this->redis->del('x'); // delete just x
$this->assertTrue(FALSE === $this->redis->msetnx(['x' => 'A', 'y' => 'B', 'z' => 'C'])); // set x y z
$this->assertEquals($this->redis->mget(['x', 'y', 'z']), [FALSE, 'b', 'c']); // check x y z
$this->assertFalse($this->redis->msetnx([])); // set ø → FALSE
}
public function testRpopLpush() {
// standard case.
$this->redis->del('{list}x', '{list}y');
$this->redis->lpush('{list}x', 'abc');
$this->redis->lpush('{list}x', 'def'); // x = [def, abc]
$this->redis->lpush('{list}y', '123');
$this->redis->lpush('{list}y', '456'); // y = [456, 123]
$this->assertEquals($this->redis->rpoplpush('{list}x', '{list}y'), 'abc'); // we RPOP x, yielding abc.
$this->assertEquals($this->redis->lrange('{list}x', 0, -1), ['def']); // only def remains in x.
$this->assertEquals($this->redis->lrange('{list}y', 0, -1), ['abc', '456', '123']); // abc has been lpushed to y.
// with an empty source, expecting no change.
$this->redis->del('{list}x', '{list}y');
$this->assertTrue(FALSE === $this->redis->rpoplpush('{list}x', '{list}y'));
$this->assertTrue([] === $this->redis->lrange('{list}x', 0, -1));
$this->assertTrue([] === $this->redis->lrange('{list}y', 0, -1));
}
public function testBRpopLpush() {
// standard case.
$this->redis->del('{list}x', '{list}y');
$this->redis->lpush('{list}x', 'abc');
$this->redis->lpush('{list}x', 'def'); // x = [def, abc]
$this->redis->lpush('{list}y', '123');
$this->redis->lpush('{list}y', '456'); // y = [456, 123]
$this->assertEquals($this->redis->brpoplpush('{list}x', '{list}y', 1), 'abc'); // we RPOP x, yielding abc.
$this->assertEquals($this->redis->lrange('{list}x', 0, -1), ['def']); // only def remains in x.
$this->assertEquals($this->redis->lrange('{list}y', 0, -1), ['abc', '456', '123']); // abc has been lpushed to y.
// with an empty source, expecting no change.
$this->redis->del('{list}x', '{list}y');
$this->assertTrue(FALSE === $this->redis->brpoplpush('{list}x', '{list}y', 1));
$this->assertTrue([] === $this->redis->lrange('{list}x', 0, -1));
$this->assertTrue([] === $this->redis->lrange('{list}y', 0, -1));
}
public function testZAddFirstArg() {
$this->redis->del('key');
$zsetName = 100; // not a string!
$this->assertTrue(1 === $this->redis->zAdd($zsetName, 0, 'val0'));
$this->assertTrue(1 === $this->redis->zAdd($zsetName, 1, 'val1'));
$this->assertTrue(['val0', 'val1'] === $this->redis->zRange($zsetName, 0, -1));
}
public function testZX() {
$this->redis->del('key');
$this->assertTrue([] === $this->redis->zRange('key', 0, -1));
$this->assertTrue([] === $this->redis->zRange('key', 0, -1, true));
$this->assertTrue(1 === $this->redis->zAdd('key', 0, 'val0'));
$this->assertTrue(1 === $this->redis->zAdd('key', 2, 'val2'));
$this->assertTrue(2 === $this->redis->zAdd('key', 4, 'val4', 5, 'val5')); // multiple parameters
if (version_compare($this->version, "3.0.2") < 0) {
$this->assertTrue(1 === $this->redis->zAdd('key', 1, 'val1'));
$this->assertTrue(1 === $this->redis->zAdd('key', 3, 'val3'));
} else {
$this->assertTrue(1 === $this->redis->zAdd('key', [], 1, 'val1')); // empty options
$this->assertTrue(1 === $this->redis->zAdd('key', ['nx'], 3, 'val3')); // nx option
$this->assertTrue(0 === $this->redis->zAdd('key', ['xx'], 3, 'val3')); // xx option
}
$this->assertTrue(['val0', 'val1', 'val2', 'val3', 'val4', 'val5'] === $this->redis->zRange('key', 0, -1));
// withscores
$ret = $this->redis->zRange('key', 0, -1, true);
$this->assertTrue(count($ret) == 6);
$this->assertTrue($ret['val0'] == 0);
$this->assertTrue($ret['val1'] == 1);
$this->assertTrue($ret['val2'] == 2);
$this->assertTrue($ret['val3'] == 3);
$this->assertTrue($ret['val4'] == 4);
$this->assertTrue($ret['val5'] == 5);
$this->assertTrue(0 === $this->redis->zRem('key', 'valX'));
$this->assertTrue(1 === $this->redis->zRem('key', 'val3'));
$this->assertTrue(1 === $this->redis->zRem('key', 'val4'));
$this->assertTrue(1 === $this->redis->zRem('key', 'val5'));
$this->assertTrue(['val0', 'val1', 'val2'] === $this->redis->zRange('key', 0, -1));
// zGetReverseRange
$this->assertTrue(1 === $this->redis->zAdd('key', 3, 'val3'));
$this->assertTrue(1 === $this->redis->zAdd('key', 3, 'aal3'));
$zero_to_three = $this->redis->zRangeByScore('key', 0, 3);
$this->assertTrue(['val0', 'val1', 'val2', 'aal3', 'val3'] === $zero_to_three || ['val0', 'val1', 'val2', 'val3', 'aal3'] === $zero_to_three);
$three_to_zero = $this->redis->zRevRangeByScore('key', 3, 0);
$this->assertTrue(array_reverse(['val0', 'val1', 'val2', 'aal3', 'val3']) === $three_to_zero || array_reverse(['val0', 'val1', 'val2', 'val3', 'aal3']) === $three_to_zero);
$this->assertTrue(5 === $this->redis->zCount('key', 0, 3));
// withscores
$this->redis->zRem('key', 'aal3');
$zero_to_three = $this->redis->zRangeByScore('key', 0, 3, ['withscores' => TRUE]);
$this->assertTrue(['val0' => 0, 'val1' => 1, 'val2' => 2, 'val3' => 3] == $zero_to_three);
$this->assertTrue(4 === $this->redis->zCount('key', 0, 3));
// limit
$this->assertTrue(['val0'] === $this->redis->zRangeByScore('key', 0, 3, ['limit' => [0, 1]]));
$this->assertTrue(['val0', 'val1'] === $this->redis->zRangeByScore('key', 0, 3, ['limit' => [0, 2]]));
$this->assertTrue(['val1', 'val2'] === $this->redis->zRangeByScore('key', 0, 3, ['limit' => [1, 2]]));
$this->assertTrue(['val0', 'val1'] === $this->redis->zRangeByScore('key', 0, 1, ['limit' => [0, 100]]));
// limits as references
$limit = [0, 100];
foreach ($limit as &$val) {}
$this->assertTrue(['val0', 'val1'] === $this->redis->zRangeByScore('key', 0, 1, ['limit' => $limit]));
$this->assertTrue(['val3'] === $this->redis->zRevRangeByScore('key', 3, 0, ['limit' => [0, 1]]));
$this->assertTrue(['val3', 'val2'] === $this->redis->zRevRangeByScore('key', 3, 0, ['limit' => [0, 2]]));
$this->assertTrue(['val2', 'val1'] === $this->redis->zRevRangeByScore('key', 3, 0, ['limit' => [1, 2]]));
$this->assertTrue(['val1', 'val0'] === $this->redis->zRevRangeByScore('key', 1, 0, ['limit' => [0, 100]]));
$this->assertTrue(4 === $this->redis->zCard('key'));
$this->assertTrue(1.0 === $this->redis->zScore('key', 'val1'));
$this->assertFalse($this->redis->zScore('key', 'val'));
$this->assertFalse($this->redis->zScore(3, 2));
// with () and +inf, -inf
$this->redis->del('zset');
$this->redis->zAdd('zset', 1, 'foo');
$this->redis->zAdd('zset', 2, 'bar');
$this->redis->zAdd('zset', 3, 'biz');
$this->redis->zAdd('zset', 4, 'foz');
$this->assertTrue(['foo' => 1, 'bar' => 2, 'biz' => 3, 'foz' => 4] == $this->redis->zRangeByScore('zset', '-inf', '+inf', ['withscores' => TRUE]));
$this->assertTrue(['foo' => 1, 'bar' => 2] == $this->redis->zRangeByScore('zset', 1, 2, ['withscores' => TRUE]));
$this->assertTrue(['bar' => 2] == $this->redis->zRangeByScore('zset', '(1', 2, ['withscores' => TRUE]));
$this->assertTrue([] == $this->redis->zRangeByScore('zset', '(1', '(2', ['withscores' => TRUE]));
$this->assertTrue(4 == $this->redis->zCount('zset', '-inf', '+inf'));
$this->assertTrue(2 == $this->redis->zCount('zset', 1, 2));
$this->assertTrue(1 == $this->redis->zCount('zset', '(1', 2));
$this->assertTrue(0 == $this->redis->zCount('zset', '(1', '(2'));
// zincrby
$this->redis->del('key');
$this->assertTrue(1.0 === $this->redis->zIncrBy('key', 1, 'val1'));
$this->assertTrue(1.0 === $this->redis->zScore('key', 'val1'));
$this->assertTrue(2.5 === $this->redis->zIncrBy('key', 1.5, 'val1'));
$this->assertTrue(2.5 === $this->redis->zScore('key', 'val1'));
// zUnionStore
$this->redis->del('{zset}1');
$this->redis->del('{zset}2');
$this->redis->del('{zset}3');
$this->redis->del('{zset}U');
$this->redis->zAdd('{zset}1', 0, 'val0');
$this->redis->zAdd('{zset}1', 1, 'val1');
$this->redis->zAdd('{zset}2', 2, 'val2');
$this->redis->zAdd('{zset}2', 3, 'val3');
$this->redis->zAdd('{zset}3', 4, 'val4');
$this->redis->zAdd('{zset}3', 5, 'val5');
$this->assertTrue(4 === $this->redis->zUnionStore('{zset}U', ['{zset}1', '{zset}3']));
$this->assertTrue(['val0', 'val1', 'val4', 'val5'] === $this->redis->zRange('{zset}U', 0, -1));
// Union on non existing keys
$this->redis->del('{zset}U');
$this->assertTrue(0 === $this->redis->zUnionStore('{zset}U', ['{zset}X', '{zset}Y']));
$this->assertTrue([] === $this->redis->zRange('{zset}U', 0, -1));
// !Exist U Exist → copy of existing zset.
$this->redis->del('{zset}U', 'X');
$this->assertTrue(2 === $this->redis->zUnionStore('{zset}U', ['{zset}1', '{zset}X']));
// test weighted zUnion
$this->redis->del('{zset}Z');
$this->assertTrue(4 === $this->redis->zUnionStore('{zset}Z', ['{zset}1', '{zset}2'], [1, 1]));
$this->assertTrue(['val0', 'val1', 'val2', 'val3'] === $this->redis->zRange('{zset}Z', 0, -1));
$this->redis->zRemRangeByScore('{zset}Z', 0, 10);
$this->assertTrue(4 === $this->redis->zUnionStore('{zset}Z', ['{zset}1', '{zset}2'], [5, 1]));
$this->assertTrue(['val0', 'val2', 'val3', 'val1'] === $this->redis->zRange('{zset}Z', 0, -1));
$this->redis->del('{zset}1');
$this->redis->del('{zset}2');
$this->redis->del('{zset}3');
//test zUnion with weights and aggegration function
$this->redis->zadd('{zset}1', 1, 'duplicate');
$this->redis->zadd('{zset}2', 2, 'duplicate');
$this->redis->zUnionStore('{zset}U', ['{zset}1','{zset}2'], [1,1], 'MIN');
$this->assertTrue($this->redis->zScore('{zset}U', 'duplicate')===1.0);
$this->redis->del('{zset}U');
//now test zUnion *without* weights but with aggregrate function
$this->redis->zUnionStore('{zset}U', ['{zset}1','{zset}2'], null, 'MIN');
$this->assertTrue($this->redis->zScore('{zset}U', 'duplicate')===1.0);
$this->redis->del('{zset}U', '{zset}1', '{zset}2');
// test integer and float weights (GitHub issue #109).
$this->redis->del('{zset}1', '{zset}2', '{zset}3');
$this->redis->zadd('{zset}1', 1, 'one');
$this->redis->zadd('{zset}1', 2, 'two');
$this->redis->zadd('{zset}2', 1, 'one');
$this->redis->zadd('{zset}2', 2, 'two');
$this->redis->zadd('{zset}2', 3, 'three');
$this->assertTrue($this->redis->zUnionStore('{zset}3', ['{zset}1', '{zset}2'], [2, 3.0]) === 3);
$this->redis->del('{zset}1');
$this->redis->del('{zset}2');
$this->redis->del('{zset}3');
// Test 'inf', '-inf', and '+inf' weights (GitHub issue #336)
$this->redis->zadd('{zset}1', 1, 'one', 2, 'two', 3, 'three');
$this->redis->zadd('{zset}2', 3, 'three', 4, 'four', 5, 'five');
// Make sure phpredis handles these weights
$this->assertTrue($this->redis->zUnionStore('{zset}3', ['{zset}1','{zset}2'], [1, 'inf']) === 5);
$this->assertTrue($this->redis->zUnionStore('{zset}3', ['{zset}1','{zset}2'], [1, '-inf']) === 5);
$this->assertTrue($this->redis->zUnionStore('{zset}3', ['{zset}1','{zset}2'], [1, '+inf']) === 5);
// Now, confirm that they're being sent, and that it works
$arr_weights = ['inf','-inf','+inf'];
foreach($arr_weights as $str_weight) {
$r = $this->redis->zUnionStore('{zset}3', ['{zset}1','{zset}2'], [1,$str_weight]);
$this->assertTrue($r===5);
$r = $this->redis->zrangebyscore('{zset}3', '(-inf', '(inf',['withscores'=>true]);
$this->assertTrue(count($r)===2);
$this->assertTrue(isset($r['one']));
$this->assertTrue(isset($r['two']));
}
$this->redis->del('{zset}1','{zset}2','{zset}3');
$this->redis->zadd('{zset}1', 2000.1, 'one');
$this->redis->zadd('{zset}1', 3000.1, 'two');
$this->redis->zadd('{zset}1', 4000.1, 'three');
$ret = $this->redis->zRange('{zset}1', 0, -1, TRUE);
$this->assertTrue(count($ret) === 3);
$retValues = array_keys($ret);
$this->assertTrue(['one', 'two', 'three'] === $retValues);
// + 0 converts from string to float OR integer
$this->assertTrue(is_float($ret['one'] + 0));
$this->assertTrue(is_float($ret['two'] + 0));
$this->assertTrue(is_float($ret['three'] + 0));
$this->redis->del('{zset}1');
// ZREMRANGEBYRANK
$this->redis->zAdd('{zset}1', 1, 'one');
$this->redis->zAdd('{zset}1', 2, 'two');
$this->redis->zAdd('{zset}1', 3, 'three');
$this->assertTrue(2 === $this->redis->zremrangebyrank('{zset}1', 0, 1));
$this->assertTrue(['three' => 3] == $this->redis->zRange('{zset}1', 0, -1, TRUE));
$this->redis->del('{zset}1');
// zInterStore
$this->redis->zAdd('{zset}1', 0, 'val0');
$this->redis->zAdd('{zset}1', 1, 'val1');
$this->redis->zAdd('{zset}1', 3, 'val3');
$this->redis->zAdd('{zset}2', 2, 'val1');
$this->redis->zAdd('{zset}2', 3, 'val3');
$this->redis->zAdd('{zset}3', 4, 'val3');
$this->redis->zAdd('{zset}3', 5, 'val5');
$this->redis->del('{zset}I');
$this->assertTrue(2 === $this->redis->zInterStore('{zset}I', ['{zset}1', '{zset}2']));
$this->assertTrue(['val1', 'val3'] === $this->redis->zRange('{zset}I', 0, -1));
// Union on non existing keys
$this->assertTrue(0 === $this->redis->zInterStore('{zset}X', ['{zset}X', '{zset}Y']));
$this->assertTrue([] === $this->redis->zRange('{zset}X', 0, -1));
// !Exist U Exist
$this->assertTrue(0 === $this->redis->zInterStore('{zset}Y', ['{zset}1', '{zset}X']));
$this->assertTrue([] === $this->redis->zRange('keyY', 0, -1));
// test weighted zInterStore
$this->redis->del('{zset}1');
$this->redis->del('{zset}2');
$this->redis->del('{zset}3');
$this->redis->zAdd('{zset}1', 0, 'val0');
$this->redis->zAdd('{zset}1', 1, 'val1');
$this->redis->zAdd('{zset}1', 3, 'val3');
$this->redis->zAdd('{zset}2', 2, 'val1');
$this->redis->zAdd('{zset}2', 1, 'val3');
$this->redis->zAdd('{zset}3', 7, 'val1');
$this->redis->zAdd('{zset}3', 3, 'val3');
$this->redis->del('{zset}I');
$this->assertTrue(2 === $this->redis->zInterStore('{zset}I', ['{zset}1', '{zset}2'], [1, 1]));
$this->assertTrue(['val1', 'val3'] === $this->redis->zRange('{zset}I', 0, -1));
$this->redis->del('{zset}I');
$this->assertTrue( 2 === $this->redis->zInterStore('{zset}I', ['{zset}1', '{zset}2', '{zset}3'], [1, 5, 1], 'min'));
$this->assertTrue(['val1', 'val3'] === $this->redis->zRange('{zset}I', 0, -1));
$this->redis->del('{zset}I');
$this->assertTrue( 2 === $this->redis->zInterStore('{zset}I', ['{zset}1', '{zset}2', '{zset}3'], [1, 5, 1], 'max'));
$this->assertTrue(['val3', 'val1'] === $this->redis->zRange('{zset}I', 0, -1));
$this->redis->del('{zset}I');
$this->assertTrue(2 === $this->redis->zInterStore('{zset}I', ['{zset}1', '{zset}2', '{zset}3'], null, 'max'));
$this->assertTrue($this->redis->zScore('{zset}I', 'val1') === floatval(7));
// zrank, zrevrank
$this->redis->del('z');
$this->redis->zadd('z', 1, 'one');
$this->redis->zadd('z', 2, 'two');
$this->redis->zadd('z', 5, 'five');
$this->assertTrue(0 === $this->redis->zRank('z', 'one'));
$this->assertTrue(1 === $this->redis->zRank('z', 'two'));
$this->assertTrue(2 === $this->redis->zRank('z', 'five'));
$this->assertTrue(2 === $this->redis->zRevRank('z', 'one'));
$this->assertTrue(1 === $this->redis->zRevRank('z', 'two'));
$this->assertTrue(0 === $this->redis->zRevRank('z', 'five'));
}
public function testZRangeScoreArg() {
$this->redis->del('{z}');
$arr_mems = ['one' => 1.0, 'two' => 2.0, 'three' => 3.0];
foreach ($arr_mems as $str_mem => $score) {
$this->redis->zAdd('{z}', $score, $str_mem);
}
/* Verify we can pass true and ['withscores' => true] */
$this->assertEquals($arr_mems, $this->redis->zRange('{z}', 0, -1, true));
$this->assertEquals($arr_mems, $this->redis->zRange('{z}', 0, -1, ['withscores' => true]));
}
public function testZRangeByLex() {
/* ZRANGEBYLEX available on versions >= 2.8.9 */
if(version_compare($this->version, "2.8.9") < 0) {
$this->MarkTestSkipped();
return;
}
$this->redis->del('key');
foreach(range('a', 'g') as $c) {
$this->redis->zAdd('key', 0, $c);
}
$this->assertEquals($this->redis->zRangeByLex('key', '-', '[c'), ['a', 'b', 'c']);
$this->assertEquals($this->redis->zRangeByLex('key', '(e', '+'), ['f', 'g']);
// with limit offset
$this->assertEquals($this->redis->zRangeByLex('key', '-', '[c', 1, 2), ['b', 'c'] );
$this->assertEquals($this->redis->zRangeByLex('key', '-', '(c', 1, 2), ['b']);
}
public function testZLexCount() {
if (version_compare($this->version, "2.8.9") < 0) {
$this->MarkTestSkipped();
return;
}
$this->redis->del('key');
foreach (range('a', 'g') as $c) {
$entries[] = $c;
$this->redis->zAdd('key', 0, $c);
}
/* Special -/+ values */
$this->assertEquals($this->redis->zLexCount('key', '-', '-'), 0);
$this->assertEquals($this->redis->zLexCount('key', '-', '+'), count($entries));
/* Verify invalid arguments return FALSE */
$this->assertFalse(@$this->redis->zLexCount('key', '[a', 'bad'));
$this->assertFalse(@$this->redis->zLexCount('key', 'bad', '[a'));
/* Now iterate through */
$start = $entries[0];
for ($i = 1; $i < count($entries); $i++) {
$end = $entries[$i];
$this->assertEquals($this->redis->zLexCount('key', "[$start", "[$end"), $i + 1);
$this->assertEquals($this->redis->zLexCount('key', "[$start", "($end"), $i);
$this->assertEquals($this->redis->zLexCount('key', "($start", "($end"), $i - 1);
}
}
public function testZRemRangeByLex() {
if (version_compare($this->version, "2.8.9") < 0) {
$this->MarkTestSkipped();
return;
}
$this->redis->del('key');
$this->redis->zAdd('key', 0, 'a', 0, 'b', 0, 'c');
$this->assertEquals($this->redis->zRemRangeByLex('key', '-', '+'), 3);
$this->redis->zAdd('key', 0, 'a', 0, 'b', 0, 'c');
$this->assertEquals($this->redis->zRemRangeByLex('key', '[a', '[c'), 3);
$this->redis->zAdd('key', 0, 'a', 0, 'b', 0, 'c');
$this->assertEquals($this->redis->zRemRangeByLex('key', '[a', '(a'), 0);
$this->assertEquals($this->redis->zRemRangeByLex('key', '(a', '(c'), 1);
$this->assertEquals($this->redis->zRemRangeByLex('key', '[a', '[c'), 2);
}
public function testBZPop() {
if (version_compare($this->version, "5.0.0") < 0) {
$this->MarkTestSkipped();
return;
}
$this->redis->del('{zs}1', '{zs}2');
$this->redis->zAdd('{zs}1', 0, 'a', 1, 'b', 2, 'c');
$this->redis->zAdd('{zs}2', 3, 'A', 4, 'B', 5, 'D');
$this->assertEquals(Array('{zs}1', 'a', '0'), $this->redis->bzPopMin('{zs}1', '{zs}2', 0));
$this->assertEquals(Array('{zs}1', 'c', '2'), $this->redis->bzPopMax(Array('{zs}1', '{zs}2'), 0));
$this->assertEquals(Array('{zs}2', 'A', '3'), $this->redis->bzPopMin('{zs}2', '{zs}1', 0));
/* Verify timeout is being sent */
$this->redis->del('{zs}1', '{zs}2');
$st = microtime(true) * 1000;
$this->redis->bzPopMin('{zs}1', '{zs}2', 1);
$et = microtime(true) * 1000;
$this->assertTrue($et - $st > 100);
}
public function testZPop() {
if (version_compare($this->version, "5.0.0") < 0) {
$this->MarkTestSkipped();
return;
}
// zPopMax and zPopMin without a COUNT argument
$this->redis->del('key');
$this->redis->zAdd('key', 0, 'a', 1, 'b', 2, 'c', 3, 'd', 4, 'e');
$this->assertTrue(array('e' => 4.0) === $this->redis->zPopMax('key'));
$this->assertTrue(array('a' => 0.0) === $this->redis->zPopMin('key'));
// zPopMax with a COUNT argument
$this->redis->del('key');
$this->redis->zAdd('key', 0, 'a', 1, 'b', 2, 'c', 3, 'd', 4, 'e');
$this->assertTrue(array('e' => 4.0, 'd' => 3.0, 'c' => 2.0) === $this->redis->zPopMax('key', 3));
// zPopMin with a COUNT argument
$this->redis->del('key');
$this->redis->zAdd('key', 0, 'a', 1, 'b', 2, 'c', 3, 'd', 4, 'e');
$this->assertTrue(array('a' => 0.0, 'b' => 1.0, 'c' => 2.0) === $this->redis->zPopMin('key', 3));
}
public function testHashes() {
$this->redis->del('h', 'key');
$this->assertTrue(0 === $this->redis->hLen('h'));
$this->assertTrue(1 === $this->redis->hSet('h', 'a', 'a-value'));
$this->assertTrue(1 === $this->redis->hLen('h'));
$this->assertTrue(1 === $this->redis->hSet('h', 'b', 'b-value'));
$this->assertTrue(2 === $this->redis->hLen('h'));
$this->assertTrue('a-value' === $this->redis->hGet('h', 'a')); // simple get
$this->assertTrue('b-value' === $this->redis->hGet('h', 'b')); // simple get
$this->assertTrue(0 === $this->redis->hSet('h', 'a', 'another-value')); // replacement
$this->assertTrue('another-value' === $this->redis->hGet('h', 'a')); // get the new value
$this->assertTrue('b-value' === $this->redis->hGet('h', 'b')); // simple get
$this->assertTrue(FALSE === $this->redis->hGet('h', 'c')); // unknown hash member
$this->assertTrue(FALSE === $this->redis->hGet('key', 'c')); // unknownkey
// hDel
$this->assertTrue(1 === $this->redis->hDel('h', 'a')); // 1 on success
$this->assertTrue(0 === $this->redis->hDel('h', 'a')); // 0 on failure
$this->redis->del('h');
$this->redis->hSet('h', 'x', 'a');
$this->redis->hSet('h', 'y', 'b');
$this->assertTrue(2 === $this->redis->hDel('h', 'x', 'y')); // variadic
// hsetnx
$this->redis->del('h');
$this->assertTrue(TRUE === $this->redis->hSetNx('h', 'x', 'a'));
$this->assertTrue(TRUE === $this->redis->hSetNx('h', 'y', 'b'));
$this->assertTrue(FALSE === $this->redis->hSetNx('h', 'x', '?'));
$this->assertTrue(FALSE === $this->redis->hSetNx('h', 'y', '?'));
$this->assertTrue('a' === $this->redis->hGet('h', 'x'));
$this->assertTrue('b' === $this->redis->hGet('h', 'y'));
// keys
$keys = $this->redis->hKeys('h');
$this->assertTrue($keys === ['x', 'y'] || $keys === ['y', 'x']);
// values
$values = $this->redis->hVals('h');
$this->assertTrue($values === ['a', 'b'] || $values === ['b', 'a']);
// keys + values
$all = $this->redis->hGetAll('h');
$this->assertTrue($all === ['x' => 'a', 'y' => 'b'] || $all === ['y' => 'b', 'x' => 'a']);
// hExists
$this->assertTrue(TRUE === $this->redis->hExists('h', 'x'));
$this->assertTrue(TRUE === $this->redis->hExists('h', 'y'));
$this->assertTrue(FALSE === $this->redis->hExists('h', 'w'));
$this->redis->del('h');
$this->assertTrue(FALSE === $this->redis->hExists('h', 'x'));
// hIncrBy
$this->redis->del('h');
$this->assertTrue(2 === $this->redis->hIncrBy('h', 'x', 2));
$this->assertTrue(3 === $this->redis->hIncrBy('h', 'x', 1));
$this->assertTrue(2 === $this->redis->hIncrBy('h', 'x', -1));
$this->assertTrue("2" === $this->redis->hGet('h', 'x'));
$this->assertTrue(PHP_INT_MAX === $this->redis->hIncrBy('h', 'x', PHP_INT_MAX-2));
$this->assertTrue("".PHP_INT_MAX === $this->redis->hGet('h', 'x'));
$this->redis->hSet('h', 'y', 'not-a-number');
$this->assertTrue(FALSE === $this->redis->hIncrBy('h', 'y', 1));
if (version_compare($this->version, "2.5.0") >= 0) {
// hIncrByFloat
$this->redis->del('h');
$this->assertTrue(1.5 === $this->redis->hIncrByFloat('h','x', 1.5));
$this->assertTrue(3.0 === $this->redis->hincrByFloat('h','x', 1.5));
$this->assertTrue(1.5 === $this->redis->hincrByFloat('h','x', -1.5));
$this->assertTrue(1000000000001.5 === $this->redis->hincrByFloat('h','x', 1000000000000));
$this->redis->hset('h','y','not-a-number');
$this->assertTrue(FALSE === $this->redis->hIncrByFloat('h', 'y', 1.5));
}
// hmset
$this->redis->del('h');
$this->assertTrue(TRUE === $this->redis->hMset('h', ['x' => 123, 'y' => 456, 'z' => 'abc']));
$this->assertTrue('123' === $this->redis->hGet('h', 'x'));
$this->assertTrue('456' === $this->redis->hGet('h', 'y'));
$this->assertTrue('abc' === $this->redis->hGet('h', 'z'));
$this->assertTrue(FALSE === $this->redis->hGet('h', 't'));
// hmget
$this->assertTrue(['x' => '123', 'y' => '456'] === $this->redis->hMget('h', ['x', 'y']));
$this->assertTrue(['z' => 'abc'] === $this->redis->hMget('h', ['z']));
$this->assertTrue(['x' => '123', 't' => FALSE, 'y' => '456'] === $this->redis->hMget('h', ['x', 't', 'y']));
$this->assertFalse([123 => 'x'] === $this->redis->hMget('h', [123]));
$this->assertTrue([123 => FALSE] === $this->redis->hMget('h', [123]));
// Test with an array populated with things we can't use as keys
$this->assertTrue($this->redis->hmget('h', [false,NULL,false]) === FALSE);
// Test with some invalid keys mixed in (which should just be ignored)
$this->assertTrue(['x'=>'123','y'=>'456','z'=>'abc'] === $this->redis->hMget('h',['x',null,'y','','z',false]));
// hmget/hmset with numeric fields
$this->redis->del('h');
$this->assertTrue(TRUE === $this->redis->hMset('h', [123 => 'x', 'y' => 456]));
$this->assertTrue('x' === $this->redis->hGet('h', 123));
$this->assertTrue('x' === $this->redis->hGet('h', '123'));
$this->assertTrue('456' === $this->redis->hGet('h', 'y'));
$this->assertTrue([123 => 'x', 'y' => '456'] === $this->redis->hMget('h', ['123', 'y']));
// references
$keys = [123, 'y'];
foreach ($keys as &$key) {}
$this->assertTrue([123 => 'x', 'y' => '456'] === $this->redis->hMget('h', $keys));
// check non-string types.
$this->redis->del('h1');
$this->assertTrue(TRUE === $this->redis->hMSet('h1', ['x' => 0, 'y' => [], 'z' => new stdclass(), 't' => NULL]));
$h1 = $this->redis->hGetAll('h1');
$this->assertTrue('0' === $h1['x']);
$this->assertTrue('Array' === $h1['y']);
$this->assertTrue('Object' === $h1['z']);
$this->assertTrue('' === $h1['t']);
// hstrlen
if (version_compare($this->version, '3.2.0') >= 0) {
$this->redis->del('h');
$this->assertTrue(0 === $this->redis->hStrLen('h', 'x')); // key doesn't exist
$this->redis->hSet('h', 'foo', 'bar');
$this->assertTrue(0 === $this->redis->hStrLen('h', 'x')); // field is not present in the hash
$this->assertTrue(3 === $this->redis->hStrLen('h', 'foo'));
}
}
public function testSetRange() {
$this->redis->del('key');
$this->redis->set('key', 'hello world');
$this->redis->setRange('key', 6, 'redis');
$this->assertTrue('hello redis' === $this->redis->get('key'));
$this->redis->setRange('key', 6, 'you'); // don't cut off the end
$this->assertTrue('hello youis' === $this->redis->get('key'));
$this->redis->set('key', 'hello world');
// $this->assertTrue(11 === $this->redis->setRange('key', -6, 'redis')); // works with negative offsets too! (disabled because not all versions support this)
// $this->assertTrue('hello redis' === $this->redis->get('key'));
// fill with zeros if needed
$this->redis->del('key');
$this->redis->setRange('key', 6, 'foo');
$this->assertTrue("\x00\x00\x00\x00\x00\x00foo" === $this->redis->get('key'));
}
public function testObject() {
/* Version 3.0.0 (represented as >= 2.9.0 in redis info) and moving
* forward uses "embstr" instead of "raw" for small string values */
if (version_compare($this->version, "2.9.0") < 0) {
$str_small_encoding = "raw";
} else {
$str_small_encoding = "embstr";
}
$this->redis->del('key');
$this->assertTrue($this->redis->object('encoding', 'key') === FALSE);
$this->assertTrue($this->redis->object('refcount', 'key') === FALSE);
$this->assertTrue($this->redis->object('idletime', 'key') === FALSE);
$this->redis->set('key', 'value');
$this->assertTrue($this->redis->object('encoding', 'key') === $str_small_encoding);
$this->assertTrue($this->redis->object('refcount', 'key') === 1);
$this->assertTrue($this->redis->object('idletime', 'key') === 0);
$this->redis->del('key');
$this->redis->lpush('key', 'value');
/* Newer versions of redis are going to encode lists as 'quicklists',
* so 'quicklist' or 'ziplist' is valid here */
$str_encoding = $this->redis->object('encoding', 'key');
$this->assertTrue($str_encoding === "ziplist" || $str_encoding === 'quicklist');
$this->assertTrue($this->redis->object('refcount', 'key') === 1);
$this->assertTrue($this->redis->object('idletime', 'key') === 0);
$this->redis->del('key');
$this->redis->sadd('key', 'value');
$this->assertTrue($this->redis->object('encoding', 'key') === "hashtable");
$this->assertTrue($this->redis->object('refcount', 'key') === 1);
$this->assertTrue($this->redis->object('idletime', 'key') === 0);
$this->redis->del('key');
$this->redis->sadd('key', 42);
$this->redis->sadd('key', 1729);
$this->assertTrue($this->redis->object('encoding', 'key') === "intset");
$this->assertTrue($this->redis->object('refcount', 'key') === 1);
$this->assertTrue($this->redis->object('idletime', 'key') === 0);
$this->redis->del('key');
$this->redis->lpush('key', str_repeat('A', pow(10,6))); // 1M elements, too big for a ziplist.
$str_encoding = $this->redis->object('encoding', 'key');
$this->assertTrue($str_encoding === "linkedlist" || $str_encoding == "quicklist");
$this->assertTrue($this->redis->object('refcount', 'key') === 1);
$this->assertTrue($this->redis->object('idletime', 'key') === 0);
}
public function testMultiExec() {
$this->sequence(Redis::MULTI);
$this->differentType(Redis::MULTI);
// with prefix as well
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->sequence(Redis::MULTI);
$this->differentType(Redis::MULTI);
$this->redis->setOption(Redis::OPT_PREFIX, "");
$this->redis->set('x', '42');
$this->assertTrue(TRUE === $this->redis->watch('x'));
$ret = $this->redis->multi()->get('x')->exec();
// successful transaction
$this->assertTrue($ret === ['42']);
}
public function testFailedTransactions() {
$this->redis->set('x', 42);
// failed transaction
$this->redis->watch('x');
$r = $this->newInstance(); // new instance, modifying `x'.
$r->incr('x');
$ret = $this->redis->multi()->get('x')->exec();
$this->assertTrue($ret === FALSE); // failed because another client changed our watched key between WATCH and EXEC.
// watch and unwatch
$this->redis->watch('x');
$r->incr('x'); // other instance
$this->redis->unwatch(); // cancel transaction watch
$ret = $this->redis->multi()->get('x')->exec();
$this->assertTrue($ret === ['44']); // succeeded since we've cancel the WATCH command.
}
public function testPipeline() {
if (!$this->havePipeline()) {
$this->markTestSkipped();
}
$this->sequence(Redis::PIPELINE);
$this->differentType(Redis::PIPELINE);
// with prefix as well
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->sequence(Redis::PIPELINE);
$this->differentType(Redis::PIPELINE);
$this->redis->setOption(Redis::OPT_PREFIX, "");
}
public function testPipelineMultiExec()
{
if (!$this->havePipeline()) {
$this->markTestSkipped();
}
$ret = $this->redis->pipeline()->multi()->exec()->exec();
$this->assertTrue(is_array($ret));
$this->assertEquals(1, count($ret)); // empty transaction
$ret = $this->redis->pipeline()
->ping()
->multi()->set('x', 42)->incr('x')->exec()
->ping()
->multi()->get('x')->del('x')->exec()
->ping()
->exec();
$this->assertTrue(is_array($ret));
$this->assertEquals(5, count($ret)); // should be 5 atomic operations
}
/* Github issue #1211 (ignore redundant calls to pipeline or multi) */
public function testDoublePipeNoOp() {
/* Only the first pipeline should be honored */
for ($i = 0; $i < 6; $i++) {
$this->redis->pipeline();
}
/* Set and get in our pipeline */
$this->redis->set('pipecount','over9000')->get('pipecount');
$data = $this->redis->exec();
$this->assertEquals([true,'over9000'], $data);
/* Only the first MULTI should be honored */
for ($i = 0; $i < 6; $i++) {
$this->redis->multi();
}
/* Set and get in our MULTI block */
$this->redis->set('multicount', 'over9000')->get('multicount');
$data = $this->redis->exec();
$this->assertEquals([true, 'over9000'], $data);
}
public function testDiscard()
{
foreach ([Redis::PIPELINE, Redis::MULTI] as $mode) {
/* start transaction */
$this->redis->multi($mode);
/* Set and get in our transaction */
$this->redis->set('pipecount','over9000')->get('pipecount');
/* first call closes transaction and clears commands queue */
$this->assertTrue($this->redis->discard());
/* next call fails because mode is ATOMIC */
$this->assertFalse($this->redis->discard());
}
}
protected function sequence($mode) {
$ret = $this->redis->multi($mode)
->set('x', 42)
->type('x')
->get('x')
->exec();
$this->assertTrue(is_array($ret));
$i = 0;
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] === Redis::REDIS_STRING);
$this->assertTrue($ret[$i] === '42' || $ret[$i] === 42);
$serializer = $this->redis->getOption(Redis::OPT_SERIALIZER);
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE); // testing incr, which doesn't work with the serializer
$ret = $this->redis->multi($mode)
->del('{key}1')
->set('{key}1', 'value1')
->get('{key}1')
->getSet('{key}1', 'value2')
->get('{key}1')
->set('{key}2', 4)
->incr('{key}2')
->get('{key}2')
->decr('{key}2')
->get('{key}2')
->rename('{key}2', '{key}3')
->get('{key}3')
->renameNx('{key}3', '{key}1')
->rename('{key}3', '{key}2')
->incrby('{key}2', 5)
->get('{key}2')
->decrby('{key}2', 5)
->get('{key}2')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++]));
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 'value1');
$this->assertTrue($ret[$i++] == 'value1');
$this->assertTrue($ret[$i++] == 'value2');
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 5);
$this->assertTrue($ret[$i++] == 5);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == FALSE);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 9);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue(count($ret) == $i);
$this->redis->setOption(Redis::OPT_SERIALIZER, $serializer);
$ret = $this->redis->multi($mode)
->del('{key}1')
->del('{key}2')
->set('{key}1', 'val1')
->setnx('{key}1', 'valX')
->setnx('{key}2', 'valX')
->exists('{key}1')
->exists('{key}3')
->exec();
$this->assertTrue(is_array($ret));
$this->assertTrue($ret[0] == TRUE);
$this->assertTrue($ret[1] == TRUE);
$this->assertTrue($ret[2] == TRUE);
$this->assertTrue($ret[3] == FALSE);
$this->assertTrue($ret[4] == TRUE);
$this->assertTrue($ret[5] == TRUE);
$this->assertTrue($ret[6] == FALSE);
// ttl, mget, mset, msetnx, expire, expireAt
$this->redis->del('key');
$ret = $this->redis->multi($mode)
->ttl('key')
->mget(['{key}1', '{key}2', '{key}3'])
->mset(['{key}3' => 'value3', '{key}4' => 'value4'])
->set('key', 'value')
->expire('key', 5)
->ttl('key')
->expireAt('key', '0000')
->exec();
$this->assertTrue(is_array($ret));
$i = 0;
$ttl = $ret[$i++];
$this->assertTrue($ttl === -1 || $ttl === -2);
$this->assertTrue($ret[$i++] === ['val1', 'valX', FALSE]); // mget
$this->assertTrue($ret[$i++] === TRUE); // mset
$this->assertTrue($ret[$i++] === TRUE); // set
$this->assertTrue($ret[$i++] === TRUE); // expire
$this->assertTrue($ret[$i++] === 5); // ttl
$this->assertTrue($ret[$i++] === TRUE); // expireAt
$this->assertTrue(count($ret) == $i);
$ret = $this->redis->multi($mode)
->set('{list}lkey', 'x')
->set('{list}lDest', 'y')
->del('{list}lkey', '{list}lDest')
->rpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->rpoplpush('{list}lkey', '{list}lDest')
->lrange('{list}lDest', 0, -1)
->lpop('{list}lkey')
->llen('{list}lkey')
->lrem('{list}lkey', 'lvalue', 3)
->llen('{list}lkey')
->lIndex('{list}lkey', 0)
->lrange('{list}lkey', 0, -1)
->lSet('{list}lkey', 1, "newValue") // check errors on key not exists
->lrange('{list}lkey', 0, -1)
->llen('{list}lkey')
->exec();
$this->assertTrue(is_array($ret));
$i = 0;
$this->assertTrue($ret[$i++] === TRUE); // SET
$this->assertTrue($ret[$i++] === TRUE); // SET
$this->assertTrue($ret[$i++] === 2); // deleting 2 keys
$this->assertTrue($ret[$i++] === 1); // rpush, now 1 element
$this->assertTrue($ret[$i++] === 2); // lpush, now 2 elements
$this->assertTrue($ret[$i++] === 3); // lpush, now 3 elements
$this->assertTrue($ret[$i++] === 4); // lpush, now 4 elements
$this->assertTrue($ret[$i++] === 5); // lpush, now 5 elements
$this->assertTrue($ret[$i++] === 6); // lpush, now 6 elements
$this->assertTrue($ret[$i++] === 'lvalue'); // rpoplpush returns the element: "lvalue"
$this->assertTrue($ret[$i++] === ['lvalue']); // lDest contains only that one element.
$this->assertTrue($ret[$i++] === 'lvalue'); // removing a second element from lkey, now 4 elements left ↓
$this->assertTrue($ret[$i++] === 4); // 4 elements left, after 2 pops.
$this->assertTrue($ret[$i++] === 3); // removing 3 elements, now 1 left.
$this->assertTrue($ret[$i++] === 1); // 1 element left
$this->assertTrue($ret[$i++] === "lvalue"); // this is the current head.
$this->assertTrue($ret[$i++] === ["lvalue"]); // this is the current list.
$this->assertTrue($ret[$i++] === FALSE); // updating a non-existent element fails.
$this->assertTrue($ret[$i++] === ["lvalue"]); // this is the current list.
$this->assertTrue($ret[$i++] === 1); // 1 element left
$this->assertTrue(count($ret) == $i);
$ret = $this->redis->multi($mode)
->del('{list}lkey', '{list}lDest')
->rpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->lpush('{list}lkey', 'lvalue')
->rpoplpush('{list}lkey', '{list}lDest')
->lrange('{list}lDest', 0, -1)
->lpop('{list}lkey')
->exec();
$this->assertTrue(is_array($ret));
$i = 0;
$this->assertTrue($ret[$i++] <= 2); // deleted 0, 1, or 2 items
$this->assertTrue($ret[$i++] === 1); // 1 element in the list
$this->assertTrue($ret[$i++] === 2); // 2 elements in the list
$this->assertTrue($ret[$i++] === 3); // 3 elements in the list
$this->assertTrue($ret[$i++] === 'lvalue'); // rpoplpush returns the element: "lvalue"
$this->assertTrue($ret[$i++] === ['lvalue']); // rpoplpush returns the element: "lvalue"
$this->assertTrue($ret[$i++] === 'lvalue'); // pop returns the front element: "lvalue"
$this->assertTrue(count($ret) == $i);
$serializer = $this->redis->getOption(Redis::OPT_SERIALIZER);
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE); // testing incr, which doesn't work with the serializer
$ret = $this->redis->multi($mode)
->del('{key}1')
->set('{key}1', 'value1')
->get('{key}1')
->getSet('{key}1', 'value2')
->get('{key}1')
->set('{key}2', 4)
->incr('{key}2')
->get('{key}2')
->decr('{key}2')
->get('{key}2')
->rename('{key}2', '{key}3')
->get('{key}3')
->renameNx('{key}3', '{key}1')
->rename('{key}3', '{key}2')
->incrby('{key}2', 5)
->get('{key}2')
->decrby('{key}2', 5)
->get('{key}2')
->set('{key}3', 'value3')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i]) && $ret[$i] <= 1); $i++;
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 'value1');
$this->assertTrue($ret[$i++] == 'value1');
$this->assertTrue($ret[$i++] == 'value2');
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 5);
$this->assertTrue($ret[$i++] == 5);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++] == FALSE);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 9);
$this->assertTrue($ret[$i++] == TRUE);
$this->assertTrue($ret[$i++] == 4);
$this->assertTrue($ret[$i++]);
$this->redis->setOption(Redis::OPT_SERIALIZER, $serializer);
$ret = $this->redis->multi($mode)
->del('{key}1')
->del('{key}2')
->del('{key}3')
->set('{key}1', 'val1')
->setnx('{key}1', 'valX')
->setnx('{key}2', 'valX')
->exists('{key}1')
->exists('{key}3')
->exec();
$this->assertTrue(is_array($ret));
$this->assertTrue($ret[0] == TRUE);
$this->assertTrue($ret[1] == TRUE);
$this->assertTrue($ret[2] == TRUE);
$this->assertTrue($ret[3] == TRUE);
$this->assertTrue($ret[4] == FALSE);
$this->assertTrue($ret[5] == TRUE);
$this->assertTrue($ret[6] == TRUE);
$this->assertTrue($ret[7] == FALSE);
// ttl, mget, mset, msetnx, expire, expireAt
$ret = $this->redis->multi($mode)
->ttl('key')
->mget(['{key}1', '{key}2', '{key}3'])
->mset(['{key}3' => 'value3', '{key}4' => 'value4'])
->set('key', 'value')
->expire('key', 5)
->ttl('key')
->expireAt('key', '0000')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++]));
$this->assertTrue(is_array($ret[$i]) && count($ret[$i]) === 3); // mget
$i++;
$this->assertTrue($ret[$i++] === TRUE); // mset always returns TRUE
$this->assertTrue($ret[$i++] === TRUE); // set always returns TRUE
$this->assertTrue($ret[$i++] === TRUE); // expire always returns TRUE
$this->assertTrue($ret[$i++] === 5); // TTL was just set.
$this->assertTrue($ret[$i++] === TRUE); // expireAt returns TRUE for an existing key
$this->assertTrue(count($ret) === $i);
// lists
$ret = $this->redis->multi($mode)
->del('{l}key', '{l}Dest')
->rpush('{l}key', 'lvalue')
->lpush('{l}key', 'lvalue')
->lpush('{l}key', 'lvalue')
->lpush('{l}key', 'lvalue')
->lpush('{l}key', 'lvalue')
->lpush('{l}key', 'lvalue')
->rpoplpush('{l}key', '{l}Dest')
->lrange('{l}Dest', 0, -1)
->lpop('{l}key')
->llen('{l}key')
->lrem('{l}key', 'lvalue', 3)
->llen('{l}key')
->lIndex('{l}key', 0)
->lrange('{l}key', 0, -1)
->lSet('{l}key', 1, "newValue") // check errors on missing key
->lrange('{l}key', 0, -1)
->llen('{l}key')
->exec();
$this->assertTrue(is_array($ret));
$i = 0;
$this->assertTrue($ret[$i] >= 0 && $ret[$i] <= 2); // del
$i++;
$this->assertTrue($ret[$i++] === 1); // 1 value
$this->assertTrue($ret[$i++] === 2); // 2 values
$this->assertTrue($ret[$i++] === 3); // 3 values
$this->assertTrue($ret[$i++] === 4); // 4 values
$this->assertTrue($ret[$i++] === 5); // 5 values
$this->assertTrue($ret[$i++] === 6); // 6 values
$this->assertTrue($ret[$i++] === 'lvalue');
$this->assertTrue($ret[$i++] === ['lvalue']); // 1 value only in lDest
$this->assertTrue($ret[$i++] === 'lvalue'); // now 4 values left
$this->assertTrue($ret[$i++] === 4);
$this->assertTrue($ret[$i++] === 3); // removing 3 elements.
$this->assertTrue($ret[$i++] === 1); // length is now 1
$this->assertTrue($ret[$i++] === 'lvalue'); // this is the head
$this->assertTrue($ret[$i++] === ['lvalue']); // 1 value only in lkey
$this->assertTrue($ret[$i++] === FALSE); // can't set list[1] if we only have a single value in it.
$this->assertTrue($ret[$i++] === ['lvalue']); // the previous error didn't touch anything.
$this->assertTrue($ret[$i++] === 1); // the previous error didn't change the length
$this->assertTrue(count($ret) === $i);
// sets
$ret = $this->redis->multi($mode)
->del('{s}key1', '{s}key2', '{s}keydest', '{s}keyUnion', '{s}DiffDest')
->sadd('{s}key1', 'sValue1')
->sadd('{s}key1', 'sValue2')
->sadd('{s}key1', 'sValue3')
->sadd('{s}key1', 'sValue4')
->sadd('{s}key2', 'sValue1')
->sadd('{s}key2', 'sValue2')
->scard('{s}key1')
->srem('{s}key1', 'sValue2')
->scard('{s}key1')
->sMove('{s}key1', '{s}key2', 'sValue4')
->scard('{s}key2')
->sismember('{s}key2', 'sValue4')
->sMembers('{s}key1')
->sMembers('{s}key2')
->sInter('{s}key1', '{s}key2')
->sInterStore('{s}keydest', '{s}key1', '{s}key2')
->sMembers('{s}keydest')
->sUnion('{s}key2', '{s}keydest')
->sUnionStore('{s}keyUnion', '{s}key2', '{s}keydest')
->sMembers('{s}keyUnion')
->sDiff('{s}key1', '{s}key2')
->sDiffStore('{s}DiffDest', '{s}key1', '{s}key2')
->sMembers('{s}DiffDest')
->sPop('{s}key2')
->scard('{s}key2')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i]) && $ret[$i] >= 0 && $ret[$i] <= 5); $i++; // deleted at most 5 values.
$this->assertTrue($ret[$i++] === 1); // skey1 now has 1 element.
$this->assertTrue($ret[$i++] === 1); // skey1 now has 2 elements.
$this->assertTrue($ret[$i++] === 1); // skey1 now has 3 elements.
$this->assertTrue($ret[$i++] === 1); // skey1 now has 4 elements.
$this->assertTrue($ret[$i++] === 1); // skey2 now has 1 element.
$this->assertTrue($ret[$i++] === 1); // skey2 now has 2 elements.
$this->assertTrue($ret[$i++] === 4);
$this->assertTrue($ret[$i++] === 1); // we did remove that value.
$this->assertTrue($ret[$i++] === 3); // now 3 values only.
$this->assertTrue($ret[$i++] === TRUE); // the move did succeed.
$this->assertTrue($ret[$i++] === 3); // sKey2 now has 3 values.
$this->assertTrue($ret[$i++] === TRUE); // sKey2 does contain sValue4.
foreach(['sValue1', 'sValue3'] as $k) { // sKey1 contains sValue1 and sValue3.
$this->assertTrue(in_array($k, $ret[$i]));
}
$this->assertTrue(count($ret[$i++]) === 2);
foreach(['sValue1', 'sValue2', 'sValue4'] as $k) { // sKey2 contains sValue1, sValue2, and sValue4.
$this->assertTrue(in_array($k, $ret[$i]));
}
$this->assertTrue(count($ret[$i++]) === 3);
$this->assertTrue($ret[$i++] === ['sValue1']); // intersection
$this->assertTrue($ret[$i++] === 1); // intersection + store → 1 value in the destination set.
$this->assertTrue($ret[$i++] === ['sValue1']); // sinterstore destination contents
foreach(['sValue1', 'sValue2', 'sValue4'] as $k) { // (skeydest U sKey2) contains sValue1, sValue2, and sValue4.
$this->assertTrue(in_array($k, $ret[$i]));
}
$this->assertTrue(count($ret[$i++]) === 3); // union size
$this->assertTrue($ret[$i++] === 3); // unionstore size
foreach(['sValue1', 'sValue2', 'sValue4'] as $k) { // (skeyUnion) contains sValue1, sValue2, and sValue4.
$this->assertTrue(in_array($k, $ret[$i]));
}
$this->assertTrue(count($ret[$i++]) === 3); // skeyUnion size
$this->assertTrue($ret[$i++] === ['sValue3']); // diff skey1, skey2 : only sValue3 is not shared.
$this->assertTrue($ret[$i++] === 1); // sdiffstore size == 1
$this->assertTrue($ret[$i++] === ['sValue3']); // contents of sDiffDest
$this->assertTrue(in_array($ret[$i++], ['sValue1', 'sValue2', 'sValue4'])); // we removed an element from sKey2
$this->assertTrue($ret[$i++] === 2); // sKey2 now has 2 elements only.
$this->assertTrue(count($ret) === $i);
// sorted sets
$ret = $this->redis->multi($mode)
->del('{z}key1', '{z}key2', '{z}key5', '{z}Inter', '{z}Union')
->zadd('{z}key1', 1, 'zValue1')
->zadd('{z}key1', 5, 'zValue5')
->zadd('{z}key1', 2, 'zValue2')
->zRange('{z}key1', 0, -1)
->zRem('{z}key1', 'zValue2')
->zRange('{z}key1', 0, -1)
->zadd('{z}key1', 11, 'zValue11')
->zadd('{z}key1', 12, 'zValue12')
->zadd('{z}key1', 13, 'zValue13')
->zadd('{z}key1', 14, 'zValue14')
->zadd('{z}key1', 15, 'zValue15')
->zRemRangeByScore('{z}key1', 11, 13)
->zrange('{z}key1', 0, -1)
->zRevRange('{z}key1', 0, -1)
->zRangeByScore('{z}key1', 1, 6)
->zCard('{z}key1')
->zScore('{z}key1', 'zValue15')
->zadd('{z}key2', 5, 'zValue5')
->zadd('{z}key2', 2, 'zValue2')
->zInterStore('{z}Inter', ['{z}key1', '{z}key2'])
->zRange('{z}key1', 0, -1)
->zRange('{z}key2', 0, -1)
->zRange('{z}Inter', 0, -1)
->zUnionStore('{z}Union', ['{z}key1', '{z}key2'])
->zRange('{z}Union', 0, -1)
->zadd('{z}key5', 5, 'zValue5')
->zIncrBy('{z}key5', 3, 'zValue5') // fix this
->zScore('{z}key5', 'zValue5')
->zScore('{z}key5', 'unknown')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i]) && $ret[$i] >= 0 && $ret[$i] <= 5); $i++; // deleting at most 5 keys
$this->assertTrue($ret[$i++] === 1);
$this->assertTrue($ret[$i++] === 1);
$this->assertTrue($ret[$i++] === 1);
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue2', 'zValue5']);
$this->assertTrue($ret[$i++] === 1);
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue5']);
$this->assertTrue($ret[$i++] === 1); // adding zValue11
$this->assertTrue($ret[$i++] === 1); // adding zValue12
$this->assertTrue($ret[$i++] === 1); // adding zValue13
$this->assertTrue($ret[$i++] === 1); // adding zValue14
$this->assertTrue($ret[$i++] === 1); // adding zValue15
$this->assertTrue($ret[$i++] === 3); // deleted zValue11, zValue12, zValue13
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue5', 'zValue14', 'zValue15']);
$this->assertTrue($ret[$i++] === ['zValue15', 'zValue14', 'zValue5', 'zValue1']);
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue5']);
$this->assertTrue($ret[$i++] === 4); // 4 elements
$this->assertTrue($ret[$i++] === 15.0);
$this->assertTrue($ret[$i++] === 1); // added value
$this->assertTrue($ret[$i++] === 1); // added value
$this->assertTrue($ret[$i++] === 1); // zinter only has 1 value
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue5', 'zValue14', 'zValue15']); // {z}key1 contents
$this->assertTrue($ret[$i++] === ['zValue2', 'zValue5']); // {z}key2 contents
$this->assertTrue($ret[$i++] === ['zValue5']); // {z}inter contents
$this->assertTrue($ret[$i++] === 5); // {z}Union has 5 values (1,2,5,14,15)
$this->assertTrue($ret[$i++] === ['zValue1', 'zValue2', 'zValue5', 'zValue14', 'zValue15']); // {z}Union contents
$this->assertTrue($ret[$i++] === 1); // added value to {z}key5, with score 5
$this->assertTrue($ret[$i++] === 8.0); // incremented score by 3 → it is now 8.
$this->assertTrue($ret[$i++] === 8.0); // current score is 8.
$this->assertTrue($ret[$i++] === FALSE); // score for unknown element.
$this->assertTrue(count($ret) === $i);
// hash
$ret = $this->redis->multi($mode)
->del('hkey1')
->hset('hkey1', 'key1', 'value1')
->hset('hkey1', 'key2', 'value2')
->hset('hkey1', 'key3', 'value3')
->hmget('hkey1', ['key1', 'key2', 'key3'])
->hget('hkey1', 'key1')
->hlen('hkey1')
->hdel('hkey1', 'key2')
->hdel('hkey1', 'key2')
->hexists('hkey1', 'key2')
->hkeys('hkey1')
->hvals('hkey1')
->hgetall('hkey1')
->hset('hkey1', 'valn', 1)
->hset('hkey1', 'val-fail', 'non-string')
->hget('hkey1', 'val-fail')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue($ret[$i++] <= 1); // delete
$this->assertTrue($ret[$i++] === 1); // added 1 element
$this->assertTrue($ret[$i++] === 1); // added 1 element
$this->assertTrue($ret[$i++] === 1); // added 1 element
$this->assertTrue($ret[$i++] === ['key1' => 'value1', 'key2' => 'value2', 'key3' => 'value3']); // hmget, 3 elements
$this->assertTrue($ret[$i++] === 'value1'); // hget
$this->assertTrue($ret[$i++] === 3); // hlen
$this->assertTrue($ret[$i++] === 1); // hdel succeeded
$this->assertTrue($ret[$i++] === 0); // hdel failed
$this->assertTrue($ret[$i++] === FALSE); // hexists didn't find the deleted key
$this->assertTrue($ret[$i] === ['key1', 'key3'] || $ret[$i] === ['key3', 'key1']); $i++; // hkeys
$this->assertTrue($ret[$i] === ['value1', 'value3'] || $ret[$i] === ['value3', 'value1']); $i++; // hvals
$this->assertTrue($ret[$i] === ['key1' => 'value1', 'key3' => 'value3'] || $ret[$i] === ['key3' => 'value3', 'key1' => 'value1']); $i++; // hgetall
$this->assertTrue($ret[$i++] === 1); // added 1 element
$this->assertTrue($ret[$i++] === 1); // added the element, so 1.
$this->assertTrue($ret[$i++] === 'non-string'); // hset succeeded
$this->assertTrue(count($ret) === $i);
$ret = $this->redis->multi($mode) // default to MULTI, not PIPELINE.
->del('test')
->set('test', 'xyz')
->get('test')
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue($ret[$i++] <= 1); // delete
$this->assertTrue($ret[$i++] === TRUE); // added 1 element
$this->assertTrue($ret[$i++] === 'xyz');
$this->assertTrue(count($ret) === $i);
// GitHub issue 78
$this->redis->del('test');
for($i = 1; $i <= 5; $i++)
$this->redis->zadd('test', $i, (string)$i);
$result = $this->redis->multi($mode)
->zscore('test', "1")
->zscore('test', "6")
->zscore('test', "8")
->zscore('test', "2")
->exec();
$this->assertTrue($result === [1.0, FALSE, FALSE, 2.0]);
}
protected function differentType($mode) {
// string
$key = '{hash}string';
$dkey = '{hash}' . __FUNCTION__;
$ret = $this->redis->multi($mode)
->del($key)
->set($key, 'value')
// lists I/F
->rPush($key, 'lvalue')
->lPush($key, 'lvalue')
->lLen($key)
->lPop($key)
->lrange($key, 0, -1)
->lTrim($key, 0, 1)
->lIndex($key, 0)
->lSet($key, 0, "newValue")
->lrem($key, 'lvalue', 1)
->lPop($key)
->rPop($key)
->rPoplPush($key, $dkey . 'lkey1')
// sets I/F
->sAdd($key, 'sValue1')
->srem($key, 'sValue1')
->sPop($key)
->sMove($key, $dkey . 'skey1', 'sValue1')
->scard($key)
->sismember($key, 'sValue1')
->sInter($key, $dkey . 'skey2')
->sUnion($key, $dkey . 'skey4')
->sDiff($key, $dkey . 'skey7')
->sMembers($key)
->sRandMember($key)
// sorted sets I/F
->zAdd($key, 1, 'zValue1')
->zRem($key, 'zValue1')
->zIncrBy($key, 1, 'zValue1')
->zRank($key, 'zValue1')
->zRevRank($key, 'zValue1')
->zRange($key, 0, -1)
->zRevRange($key, 0, -1)
->zRangeByScore($key, 1, 2)
->zCount($key, 0, -1)
->zCard($key)
->zScore($key, 'zValue1')
->zRemRangeByRank($key, 1, 2)
->zRemRangeByScore($key, 1, 2)
// hash I/F
->hSet($key, 'key1', 'value1')
->hGet($key, 'key1')
->hMGet($key, ['key1'])
->hMSet($key, ['key1' => 'value1'])
->hIncrBy($key, 'key2', 1)
->hExists($key, 'key2')
->hDel($key, 'key2')
->hLen($key)
->hKeys($key)
->hVals($key)
->hGetAll($key)
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++])); // delete
$this->assertTrue($ret[$i++] === TRUE); // set
$this->assertTrue($ret[$i++] === FALSE); // rpush
$this->assertTrue($ret[$i++] === FALSE); // lpush
$this->assertTrue($ret[$i++] === FALSE); // llen
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // lrange
$this->assertTrue($ret[$i++] === FALSE); // ltrim
$this->assertTrue($ret[$i++] === FALSE); // lindex
$this->assertTrue($ret[$i++] === FALSE); // lset
$this->assertTrue($ret[$i++] === FALSE); // lremove
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // rpop
$this->assertTrue($ret[$i++] === FALSE); // rpoplush
$this->assertTrue($ret[$i++] === FALSE); // sadd
$this->assertTrue($ret[$i++] === FALSE); // sremove
$this->assertTrue($ret[$i++] === FALSE); // spop
$this->assertTrue($ret[$i++] === FALSE); // smove
$this->assertTrue($ret[$i++] === FALSE); // scard
$this->assertTrue($ret[$i++] === FALSE); // sismember
$this->assertTrue($ret[$i++] === FALSE); // sinter
$this->assertTrue($ret[$i++] === FALSE); // sunion
$this->assertTrue($ret[$i++] === FALSE); // sdiff
$this->assertTrue($ret[$i++] === FALSE); // smembers
$this->assertTrue($ret[$i++] === FALSE); // srandmember
$this->assertTrue($ret[$i++] === FALSE); // zadd
$this->assertTrue($ret[$i++] === FALSE); // zrem
$this->assertTrue($ret[$i++] === FALSE); // zincrby
$this->assertTrue($ret[$i++] === FALSE); // zrank
$this->assertTrue($ret[$i++] === FALSE); // zrevrank
$this->assertTrue($ret[$i++] === FALSE); // zrange
$this->assertTrue($ret[$i++] === FALSE); // zreverserange
$this->assertTrue($ret[$i++] === FALSE); // zrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // zcount
$this->assertTrue($ret[$i++] === FALSE); // zcard
$this->assertTrue($ret[$i++] === FALSE); // zscore
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyrank
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // hset
$this->assertTrue($ret[$i++] === FALSE); // hget
$this->assertTrue($ret[$i++] === FALSE); // hmget
$this->assertTrue($ret[$i++] === FALSE); // hmset
$this->assertTrue($ret[$i++] === FALSE); // hincrby
$this->assertTrue($ret[$i++] === FALSE); // hexists
$this->assertTrue($ret[$i++] === FALSE); // hdel
$this->assertTrue($ret[$i++] === FALSE); // hlen
$this->assertTrue($ret[$i++] === FALSE); // hkeys
$this->assertTrue($ret[$i++] === FALSE); // hvals
$this->assertTrue($ret[$i++] === FALSE); // hgetall
$this->assertEquals($i, count($ret));
// list
$key = '{hash}list';
$dkey = '{hash}' . __FUNCTION__;
$ret = $this->redis->multi($mode)
->del($key)
->lpush($key, 'lvalue')
// string I/F
->get($key)
->getset($key, 'value2')
->append($key, 'append')
->getRange($key, 0, 8)
->mget([$key])
->incr($key)
->incrBy($key, 1)
->decr($key)
->decrBy($key, 1)
// sets I/F
->sAdd($key, 'sValue1')
->srem($key, 'sValue1')
->sPop($key)
->sMove($key, $dkey . 'skey1', 'sValue1')
->scard($key)
->sismember($key, 'sValue1')
->sInter($key, $dkey . 'skey2')
->sUnion($key, $dkey . 'skey4')
->sDiff($key, $dkey . 'skey7')
->sMembers($key)
->sRandMember($key)
// sorted sets I/F
->zAdd($key, 1, 'zValue1')
->zRem($key, 'zValue1')
->zIncrBy($key, 1, 'zValue1')
->zRank($key, 'zValue1')
->zRevRank($key, 'zValue1')
->zRange($key, 0, -1)
->zRevRange($key, 0, -1)
->zRangeByScore($key, 1, 2)
->zCount($key, 0, -1)
->zCard($key)
->zScore($key, 'zValue1')
->zRemRangeByRank($key, 1, 2)
->zRemRangeByScore($key, 1, 2)
// hash I/F
->hSet($key, 'key1', 'value1')
->hGet($key, 'key1')
->hMGet($key, ['key1'])
->hMSet($key, ['key1' => 'value1'])
->hIncrBy($key, 'key2', 1)
->hExists($key, 'key2')
->hDel($key, 'key2')
->hLen($key)
->hKeys($key)
->hVals($key)
->hGetAll($key)
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++])); // delete
$this->assertTrue($ret[$i++] === 1); // lpush
$this->assertTrue($ret[$i++] === FALSE); // get
$this->assertTrue($ret[$i++] === FALSE); // getset
$this->assertTrue($ret[$i++] === FALSE); // append
$this->assertTrue($ret[$i++] === FALSE); // getRange
$this->assertTrue(is_array($ret[$i]) && count($ret[$i]) === 1 && $ret[$i][0] === FALSE); // mget
$i++;
$this->assertTrue($ret[$i++] === FALSE); // incr
$this->assertTrue($ret[$i++] === FALSE); // incrBy
$this->assertTrue($ret[$i++] === FALSE); // decr
$this->assertTrue($ret[$i++] === FALSE); // decrBy
$this->assertTrue($ret[$i++] === FALSE); // sadd
$this->assertTrue($ret[$i++] === FALSE); // sremove
$this->assertTrue($ret[$i++] === FALSE); // spop
$this->assertTrue($ret[$i++] === FALSE); // smove
$this->assertTrue($ret[$i++] === FALSE); // scard
$this->assertTrue($ret[$i++] === FALSE); // sismember
$this->assertTrue($ret[$i++] === FALSE); // sinter
$this->assertTrue($ret[$i++] === FALSE); // sunion
$this->assertTrue($ret[$i++] === FALSE); // sdiff
$this->assertTrue($ret[$i++] === FALSE); // smembers
$this->assertTrue($ret[$i++] === FALSE); // srandmember
$this->assertTrue($ret[$i++] === FALSE); // zadd
$this->assertTrue($ret[$i++] === FALSE); // zrem
$this->assertTrue($ret[$i++] === FALSE); // zincrby
$this->assertTrue($ret[$i++] === FALSE); // zrank
$this->assertTrue($ret[$i++] === FALSE); // zrevrank
$this->assertTrue($ret[$i++] === FALSE); // zrange
$this->assertTrue($ret[$i++] === FALSE); // zreverserange
$this->assertTrue($ret[$i++] === FALSE); // zrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // zcount
$this->assertTrue($ret[$i++] === FALSE); // zcard
$this->assertTrue($ret[$i++] === FALSE); // zscore
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyrank
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // hset
$this->assertTrue($ret[$i++] === FALSE); // hget
$this->assertTrue($ret[$i++] === FALSE); // hmget
$this->assertTrue($ret[$i++] === FALSE); // hmset
$this->assertTrue($ret[$i++] === FALSE); // hincrby
$this->assertTrue($ret[$i++] === FALSE); // hexists
$this->assertTrue($ret[$i++] === FALSE); // hdel
$this->assertTrue($ret[$i++] === FALSE); // hlen
$this->assertTrue($ret[$i++] === FALSE); // hkeys
$this->assertTrue($ret[$i++] === FALSE); // hvals
$this->assertTrue($ret[$i++] === FALSE); // hgetall
$this->assertEquals($i, count($ret));
// set
$key = '{hash}set';
$dkey = '{hash}' . __FUNCTION__;
$ret = $this->redis->multi($mode)
->del($key)
->sAdd($key, 'sValue')
// string I/F
->get($key)
->getset($key, 'value2')
->append($key, 'append')
->getRange($key, 0, 8)
->mget([$key])
->incr($key)
->incrBy($key, 1)
->decr($key)
->decrBy($key, 1)
// lists I/F
->rPush($key, 'lvalue')
->lPush($key, 'lvalue')
->lLen($key)
->lPop($key)
->lrange($key, 0, -1)
->lTrim($key, 0, 1)
->lIndex($key, 0)
->lSet($key, 0, "newValue")
->lrem($key, 'lvalue', 1)
->lPop($key)
->rPop($key)
->rPoplPush($key, $dkey . 'lkey1')
// sorted sets I/F
->zAdd($key, 1, 'zValue1')
->zRem($key, 'zValue1')
->zIncrBy($key, 1, 'zValue1')
->zRank($key, 'zValue1')
->zRevRank($key, 'zValue1')
->zRange($key, 0, -1)
->zRevRange($key, 0, -1)
->zRangeByScore($key, 1, 2)
->zCount($key, 0, -1)
->zCard($key)
->zScore($key, 'zValue1')
->zRemRangeByRank($key, 1, 2)
->zRemRangeByScore($key, 1, 2)
// hash I/F
->hSet($key, 'key1', 'value1')
->hGet($key, 'key1')
->hMGet($key, ['key1'])
->hMSet($key, ['key1' => 'value1'])
->hIncrBy($key, 'key2', 1)
->hExists($key, 'key2')
->hDel($key, 'key2')
->hLen($key)
->hKeys($key)
->hVals($key)
->hGetAll($key)
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++])); // delete
$this->assertTrue($ret[$i++] === 1); // zadd
$this->assertTrue($ret[$i++] === FALSE); // get
$this->assertTrue($ret[$i++] === FALSE); // getset
$this->assertTrue($ret[$i++] === FALSE); // append
$this->assertTrue($ret[$i++] === FALSE); // getRange
$this->assertTrue(is_array($ret[$i]) && count($ret[$i]) === 1 && $ret[$i][0] === FALSE); // mget
$i++;
$this->assertTrue($ret[$i++] === FALSE); // incr
$this->assertTrue($ret[$i++] === FALSE); // incrBy
$this->assertTrue($ret[$i++] === FALSE); // decr
$this->assertTrue($ret[$i++] === FALSE); // decrBy
$this->assertTrue($ret[$i++] === FALSE); // rpush
$this->assertTrue($ret[$i++] === FALSE); // lpush
$this->assertTrue($ret[$i++] === FALSE); // llen
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // lrange
$this->assertTrue($ret[$i++] === FALSE); // ltrim
$this->assertTrue($ret[$i++] === FALSE); // lindex
$this->assertTrue($ret[$i++] === FALSE); // lset
$this->assertTrue($ret[$i++] === FALSE); // lremove
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // rpop
$this->assertTrue($ret[$i++] === FALSE); // rpoplush
$this->assertTrue($ret[$i++] === FALSE); // zadd
$this->assertTrue($ret[$i++] === FALSE); // zrem
$this->assertTrue($ret[$i++] === FALSE); // zincrby
$this->assertTrue($ret[$i++] === FALSE); // zrank
$this->assertTrue($ret[$i++] === FALSE); // zrevrank
$this->assertTrue($ret[$i++] === FALSE); // zrange
$this->assertTrue($ret[$i++] === FALSE); // zreverserange
$this->assertTrue($ret[$i++] === FALSE); // zrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // zcount
$this->assertTrue($ret[$i++] === FALSE); // zcard
$this->assertTrue($ret[$i++] === FALSE); // zscore
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyrank
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // hset
$this->assertTrue($ret[$i++] === FALSE); // hget
$this->assertTrue($ret[$i++] === FALSE); // hmget
$this->assertTrue($ret[$i++] === FALSE); // hmset
$this->assertTrue($ret[$i++] === FALSE); // hincrby
$this->assertTrue($ret[$i++] === FALSE); // hexists
$this->assertTrue($ret[$i++] === FALSE); // hdel
$this->assertTrue($ret[$i++] === FALSE); // hlen
$this->assertTrue($ret[$i++] === FALSE); // hkeys
$this->assertTrue($ret[$i++] === FALSE); // hvals
$this->assertTrue($ret[$i++] === FALSE); // hgetall
$this->assertEquals($i, count($ret));
// sorted set
$key = '{hash}sortedset';
$dkey = '{hash}' . __FUNCTION__;
$ret = $this->redis->multi($mode)
->del($key)
->zAdd($key, 0, 'zValue')
// string I/F
->get($key)
->getset($key, 'value2')
->append($key, 'append')
->getRange($key, 0, 8)
->mget([$key])
->incr($key)
->incrBy($key, 1)
->decr($key)
->decrBy($key, 1)
// lists I/F
->rPush($key, 'lvalue')
->lPush($key, 'lvalue')
->lLen($key)
->lPop($key)
->lrange($key, 0, -1)
->lTrim($key, 0, 1)
->lIndex($key, 0)
->lSet($key, 0, "newValue")
->lrem($key, 'lvalue', 1)
->lPop($key)
->rPop($key)
->rPoplPush($key, $dkey . 'lkey1')
// sets I/F
->sAdd($key, 'sValue1')
->srem($key, 'sValue1')
->sPop($key)
->sMove($key, $dkey . 'skey1', 'sValue1')
->scard($key)
->sismember($key, 'sValue1')
->sInter($key, $dkey . 'skey2')
->sUnion($key, $dkey . 'skey4')
->sDiff($key, $dkey . 'skey7')
->sMembers($key)
->sRandMember($key)
// hash I/F
->hSet($key, 'key1', 'value1')
->hGet($key, 'key1')
->hMGet($key, ['key1'])
->hMSet($key, ['key1' => 'value1'])
->hIncrBy($key, 'key2', 1)
->hExists($key, 'key2')
->hDel($key, 'key2')
->hLen($key)
->hKeys($key)
->hVals($key)
->hGetAll($key)
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++])); // delete
$this->assertTrue($ret[$i++] === 1); // zadd
$this->assertTrue($ret[$i++] === FALSE); // get
$this->assertTrue($ret[$i++] === FALSE); // getset
$this->assertTrue($ret[$i++] === FALSE); // append
$this->assertTrue($ret[$i++] === FALSE); // getRange
$this->assertTrue(is_array($ret[$i]) && count($ret[$i]) === 1 && $ret[$i][0] === FALSE); // mget
$i++;
$this->assertTrue($ret[$i++] === FALSE); // incr
$this->assertTrue($ret[$i++] === FALSE); // incrBy
$this->assertTrue($ret[$i++] === FALSE); // decr
$this->assertTrue($ret[$i++] === FALSE); // decrBy
$this->assertTrue($ret[$i++] === FALSE); // rpush
$this->assertTrue($ret[$i++] === FALSE); // lpush
$this->assertTrue($ret[$i++] === FALSE); // llen
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // lrange
$this->assertTrue($ret[$i++] === FALSE); // ltrim
$this->assertTrue($ret[$i++] === FALSE); // lindex
$this->assertTrue($ret[$i++] === FALSE); // lset
$this->assertTrue($ret[$i++] === FALSE); // lremove
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // rpop
$this->assertTrue($ret[$i++] === FALSE); // rpoplush
$this->assertTrue($ret[$i++] === FALSE); // sadd
$this->assertTrue($ret[$i++] === FALSE); // sremove
$this->assertTrue($ret[$i++] === FALSE); // spop
$this->assertTrue($ret[$i++] === FALSE); // smove
$this->assertTrue($ret[$i++] === FALSE); // scard
$this->assertTrue($ret[$i++] === FALSE); // sismember
$this->assertTrue($ret[$i++] === FALSE); // sinter
$this->assertTrue($ret[$i++] === FALSE); // sunion
$this->assertTrue($ret[$i++] === FALSE); // sdiff
$this->assertTrue($ret[$i++] === FALSE); // smembers
$this->assertTrue($ret[$i++] === FALSE); // srandmember
$this->assertTrue($ret[$i++] === FALSE); // hset
$this->assertTrue($ret[$i++] === FALSE); // hget
$this->assertTrue($ret[$i++] === FALSE); // hmget
$this->assertTrue($ret[$i++] === FALSE); // hmset
$this->assertTrue($ret[$i++] === FALSE); // hincrby
$this->assertTrue($ret[$i++] === FALSE); // hexists
$this->assertTrue($ret[$i++] === FALSE); // hdel
$this->assertTrue($ret[$i++] === FALSE); // hlen
$this->assertTrue($ret[$i++] === FALSE); // hkeys
$this->assertTrue($ret[$i++] === FALSE); // hvals
$this->assertTrue($ret[$i++] === FALSE); // hgetall
$this->assertEquals($i, count($ret));
// hash
$key = '{hash}hash';
$dkey = '{hash}' . __FUNCTION__;
$ret = $this->redis->multi($mode)
->del($key)
->hset($key, 'key1', 'hValue')
// string I/F
->get($key)
->getset($key, 'value2')
->append($key, 'append')
->getRange($key, 0, 8)
->mget([$key])
->incr($key)
->incrBy($key, 1)
->decr($key)
->decrBy($key, 1)
// lists I/F
->rPush($key, 'lvalue')
->lPush($key, 'lvalue')
->lLen($key)
->lPop($key)
->lrange($key, 0, -1)
->lTrim($key, 0, 1)
->lIndex($key, 0)
->lSet($key, 0, "newValue")
->lrem($key, 'lvalue', 1)
->lPop($key)
->rPop($key)
->rPoplPush($key, $dkey . 'lkey1')
// sets I/F
->sAdd($key, 'sValue1')
->srem($key, 'sValue1')
->sPop($key)
->sMove($key, $dkey . 'skey1', 'sValue1')
->scard($key)
->sismember($key, 'sValue1')
->sInter($key, $dkey . 'skey2')
->sUnion($key, $dkey . 'skey4')
->sDiff($key, $dkey . 'skey7')
->sMembers($key)
->sRandMember($key)
// sorted sets I/F
->zAdd($key, 1, 'zValue1')
->zRem($key, 'zValue1')
->zIncrBy($key, 1, 'zValue1')
->zRank($key, 'zValue1')
->zRevRank($key, 'zValue1')
->zRange($key, 0, -1)
->zRevRange($key, 0, -1)
->zRangeByScore($key, 1, 2)
->zCount($key, 0, -1)
->zCard($key)
->zScore($key, 'zValue1')
->zRemRangeByRank($key, 1, 2)
->zRemRangeByScore($key, 1, 2)
->exec();
$i = 0;
$this->assertTrue(is_array($ret));
$this->assertTrue(is_long($ret[$i++])); // delete
$this->assertTrue($ret[$i++] === 1); // hset
$this->assertTrue($ret[$i++] === FALSE); // get
$this->assertTrue($ret[$i++] === FALSE); // getset
$this->assertTrue($ret[$i++] === FALSE); // append
$this->assertTrue($ret[$i++] === FALSE); // getRange
$this->assertTrue(is_array($ret[$i]) && count($ret[$i]) === 1 && $ret[$i][0] === FALSE); // mget
$i++;
$this->assertTrue($ret[$i++] === FALSE); // incr
$this->assertTrue($ret[$i++] === FALSE); // incrBy
$this->assertTrue($ret[$i++] === FALSE); // decr
$this->assertTrue($ret[$i++] === FALSE); // decrBy
$this->assertTrue($ret[$i++] === FALSE); // rpush
$this->assertTrue($ret[$i++] === FALSE); // lpush
$this->assertTrue($ret[$i++] === FALSE); // llen
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // lrange
$this->assertTrue($ret[$i++] === FALSE); // ltrim
$this->assertTrue($ret[$i++] === FALSE); // lindex
$this->assertTrue($ret[$i++] === FALSE); // lset
$this->assertTrue($ret[$i++] === FALSE); // lremove
$this->assertTrue($ret[$i++] === FALSE); // lpop
$this->assertTrue($ret[$i++] === FALSE); // rpop
$this->assertTrue($ret[$i++] === FALSE); // rpoplush
$this->assertTrue($ret[$i++] === FALSE); // sadd
$this->assertTrue($ret[$i++] === FALSE); // sremove
$this->assertTrue($ret[$i++] === FALSE); // spop
$this->assertTrue($ret[$i++] === FALSE); // smove
$this->assertTrue($ret[$i++] === FALSE); // scard
$this->assertTrue($ret[$i++] === FALSE); // sismember
$this->assertTrue($ret[$i++] === FALSE); // sinter
$this->assertTrue($ret[$i++] === FALSE); // sunion
$this->assertTrue($ret[$i++] === FALSE); // sdiff
$this->assertTrue($ret[$i++] === FALSE); // smembers
$this->assertTrue($ret[$i++] === FALSE); // srandmember
$this->assertTrue($ret[$i++] === FALSE); // zadd
$this->assertTrue($ret[$i++] === FALSE); // zrem
$this->assertTrue($ret[$i++] === FALSE); // zincrby
$this->assertTrue($ret[$i++] === FALSE); // zrank
$this->assertTrue($ret[$i++] === FALSE); // zrevrank
$this->assertTrue($ret[$i++] === FALSE); // zrange
$this->assertTrue($ret[$i++] === FALSE); // zreverserange
$this->assertTrue($ret[$i++] === FALSE); // zrangebyscore
$this->assertTrue($ret[$i++] === FALSE); // zcount
$this->assertTrue($ret[$i++] === FALSE); // zcard
$this->assertTrue($ret[$i++] === FALSE); // zscore
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyrank
$this->assertTrue($ret[$i++] === FALSE); // zremrangebyscore
$this->assertEquals($i, count($ret));
}
public function testDifferentTypeString() {
$key = '{hash}string';
$dkey = '{hash}' . __FUNCTION__;
$this->redis->del($key);
$this->assertEquals(TRUE, $this->redis->set($key, 'value'));
// lists I/F
$this->assertEquals(FALSE, $this->redis->rPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lLen($key));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->lrange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->lTrim($key, 0, 1));
$this->assertEquals(FALSE, $this->redis->lIndex($key, 0));
$this->assertEquals(FALSE, $this->redis->lSet($key, 0, "newValue"));
$this->assertEquals(FALSE, $this->redis->lrem($key, 'lvalue', 1));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->rPop($key));
$this->assertEquals(FALSE, $this->redis->rPoplPush($key, $dkey . 'lkey1'));
// sets I/F
$this->assertEquals(FALSE, $this->redis->sAdd($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->srem($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sPop($key));
$this->assertEquals(FALSE, $this->redis->sMove($key, $dkey . 'skey1', 'sValue1'));
$this->assertEquals(FALSE, $this->redis->scard($key));
$this->assertEquals(FALSE, $this->redis->sismember($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sInter($key, $dkey. 'skey2'));
$this->assertEquals(FALSE, $this->redis->sUnion($key, $dkey . 'skey4'));
$this->assertEquals(FALSE, $this->redis->sDiff($key, $dkey . 'skey7'));
$this->assertEquals(FALSE, $this->redis->sMembers($key));
$this->assertEquals(FALSE, $this->redis->sRandMember($key));
// sorted sets I/F
$this->assertEquals(FALSE, $this->redis->zAdd($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRem($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zIncrBy($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRevRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRevRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRangeByScore($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zCount($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zCard($key));
$this->assertEquals(FALSE, $this->redis->zScore($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRemRangeByRank($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zRemRangeByScore($key, 1, 2));
// hash I/F
$this->assertEquals(FALSE, $this->redis->hSet($key, 'key1', 'value1'));
$this->assertEquals(FALSE, $this->redis->hGet($key, 'key1'));
$this->assertEquals(FALSE, $this->redis->hMGet($key, ['key1']));
$this->assertEquals(FALSE, $this->redis->hMSet($key, ['key1' => 'value1']));
$this->assertEquals(FALSE, $this->redis->hIncrBy($key, 'key2', 1));
$this->assertEquals(FALSE, $this->redis->hExists($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hDel($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hLen($key));
$this->assertEquals(FALSE, $this->redis->hKeys($key));
$this->assertEquals(FALSE, $this->redis->hVals($key));
$this->assertEquals(FALSE, $this->redis->hGetAll($key));
}
public function testDifferentTypeList() {
$key = '{hash}list';
$dkey = '{hash}' . __FUNCTION__;
$this->redis->del($key);
$this->assertEquals(1, $this->redis->lPush($key, 'value'));
// string I/F
$this->assertEquals(FALSE, $this->redis->get($key));
$this->assertEquals(FALSE, $this->redis->getset($key, 'value2'));
$this->assertEquals(FALSE, $this->redis->append($key, 'append'));
$this->assertEquals(FALSE, $this->redis->getRange($key, 0, 8));
$this->assertEquals([FALSE], $this->redis->mget([$key]));
$this->assertEquals(FALSE, $this->redis->incr($key));
$this->assertEquals(FALSE, $this->redis->incrBy($key, 1));
$this->assertEquals(FALSE, $this->redis->decr($key));
$this->assertEquals(FALSE, $this->redis->decrBy($key, 1));
// sets I/F
$this->assertEquals(FALSE, $this->redis->sAdd($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->srem($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sPop($key));
$this->assertEquals(FALSE, $this->redis->sMove($key, $dkey . 'skey1', 'sValue1'));
$this->assertEquals(FALSE, $this->redis->scard($key));
$this->assertEquals(FALSE, $this->redis->sismember($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sInter($key, $dkey . 'skey2'));
$this->assertEquals(FALSE, $this->redis->sUnion($key, $dkey . 'skey4'));
$this->assertEquals(FALSE, $this->redis->sDiff($key, $dkey . 'skey7'));
$this->assertEquals(FALSE, $this->redis->sMembers($key));
$this->assertEquals(FALSE, $this->redis->sRandMember($key));
// sorted sets I/F
$this->assertEquals(FALSE, $this->redis->zAdd($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRem($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zIncrBy($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRevRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRevRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRangeByScore($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zCount($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zCard($key));
$this->assertEquals(FALSE, $this->redis->zScore($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRemRangeByRank($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zRemRangeByScore($key, 1, 2));
// hash I/F
$this->assertEquals(FALSE, $this->redis->hSet($key, 'key1', 'value1'));
$this->assertEquals(FALSE, $this->redis->hGet($key, 'key1'));
$this->assertEquals(FALSE, $this->redis->hMGet($key, ['key1']));
$this->assertEquals(FALSE, $this->redis->hMSet($key, ['key1' => 'value1']));
$this->assertEquals(FALSE, $this->redis->hIncrBy($key, 'key2', 1));
$this->assertEquals(FALSE, $this->redis->hExists($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hDel($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hLen($key));
$this->assertEquals(FALSE, $this->redis->hKeys($key));
$this->assertEquals(FALSE, $this->redis->hVals($key));
$this->assertEquals(FALSE, $this->redis->hGetAll($key));
}
public function testDifferentTypeSet() {
$key = '{hash}set';
$dkey = '{hash}' . __FUNCTION__;
$this->redis->del($key);
$this->assertEquals(1, $this->redis->sAdd($key, 'value'));
// string I/F
$this->assertEquals(FALSE, $this->redis->get($key));
$this->assertEquals(FALSE, $this->redis->getset($key, 'value2'));
$this->assertEquals(FALSE, $this->redis->append($key, 'append'));
$this->assertEquals(FALSE, $this->redis->getRange($key, 0, 8));
$this->assertEquals([FALSE], $this->redis->mget([$key]));
$this->assertEquals(FALSE, $this->redis->incr($key));
$this->assertEquals(FALSE, $this->redis->incrBy($key, 1));
$this->assertEquals(FALSE, $this->redis->decr($key));
$this->assertEquals(FALSE, $this->redis->decrBy($key, 1));
// lists I/F
$this->assertEquals(FALSE, $this->redis->rPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lLen($key));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->lrange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->lTrim($key, 0, 1));
$this->assertEquals(FALSE, $this->redis->lIndex($key, 0));
$this->assertEquals(FALSE, $this->redis->lSet($key, 0, "newValue"));
$this->assertEquals(FALSE, $this->redis->lrem($key, 'lvalue', 1));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->rPop($key));
$this->assertEquals(FALSE, $this->redis->rPoplPush($key, $dkey . 'lkey1'));
// sorted sets I/F
$this->assertEquals(FALSE, $this->redis->zAdd($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRem($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zIncrBy($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRevRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRevRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRangeByScore($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zCount($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zCard($key));
$this->assertEquals(FALSE, $this->redis->zScore($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRemRangeByRank($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zRemRangeByScore($key, 1, 2));
// hash I/F
$this->assertEquals(FALSE, $this->redis->hSet($key, 'key1', 'value1'));
$this->assertEquals(FALSE, $this->redis->hGet($key, 'key1'));
$this->assertEquals(FALSE, $this->redis->hMGet($key, ['key1']));
$this->assertEquals(FALSE, $this->redis->hMSet($key, ['key1' => 'value1']));
$this->assertEquals(FALSE, $this->redis->hIncrBy($key, 'key2', 1));
$this->assertEquals(FALSE, $this->redis->hExists($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hDel($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hLen($key));
$this->assertEquals(FALSE, $this->redis->hKeys($key));
$this->assertEquals(FALSE, $this->redis->hVals($key));
$this->assertEquals(FALSE, $this->redis->hGetAll($key));
}
public function testDifferentTypeSortedSet() {
$key = '{hash}sortedset';
$dkey = '{hash}' . __FUNCTION__;
$this->redis->del($key);
$this->assertEquals(1, $this->redis->zAdd($key, 0, 'value'));
// string I/F
$this->assertEquals(FALSE, $this->redis->get($key));
$this->assertEquals(FALSE, $this->redis->getset($key, 'value2'));
$this->assertEquals(FALSE, $this->redis->append($key, 'append'));
$this->assertEquals(FALSE, $this->redis->getRange($key, 0, 8));
$this->assertEquals([FALSE], $this->redis->mget([$key]));
$this->assertEquals(FALSE, $this->redis->incr($key));
$this->assertEquals(FALSE, $this->redis->incrBy($key, 1));
$this->assertEquals(FALSE, $this->redis->decr($key));
$this->assertEquals(FALSE, $this->redis->decrBy($key, 1));
// lists I/F
$this->assertEquals(FALSE, $this->redis->rPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lLen($key));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->lrange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->lTrim($key, 0, 1));
$this->assertEquals(FALSE, $this->redis->lIndex($key, 0));
$this->assertEquals(FALSE, $this->redis->lSet($key, 0, "newValue"));
$this->assertEquals(FALSE, $this->redis->lrem($key, 'lvalue', 1));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->rPop($key));
$this->assertEquals(FALSE, $this->redis->rPoplPush($key, $dkey . 'lkey1'));
// sets I/F
$this->assertEquals(FALSE, $this->redis->sAdd($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->srem($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sPop($key));
$this->assertEquals(FALSE, $this->redis->sMove($key, $dkey . 'skey1', 'sValue1'));
$this->assertEquals(FALSE, $this->redis->scard($key));
$this->assertEquals(FALSE, $this->redis->sismember($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sInter($key, $dkey . 'skey2'));
$this->assertEquals(FALSE, $this->redis->sUnion($key, $dkey . 'skey4'));
$this->assertEquals(FALSE, $this->redis->sDiff($key, $dkey . 'skey7'));
$this->assertEquals(FALSE, $this->redis->sMembers($key));
$this->assertEquals(FALSE, $this->redis->sRandMember($key));
// hash I/F
$this->assertEquals(FALSE, $this->redis->hSet($key, 'key1', 'value1'));
$this->assertEquals(FALSE, $this->redis->hGet($key, 'key1'));
$this->assertEquals(FALSE, $this->redis->hMGet($key, ['key1']));
$this->assertEquals(FALSE, $this->redis->hMSet($key, ['key1' => 'value1']));
$this->assertEquals(FALSE, $this->redis->hIncrBy($key, 'key2', 1));
$this->assertEquals(FALSE, $this->redis->hExists($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hDel($key, 'key2'));
$this->assertEquals(FALSE, $this->redis->hLen($key));
$this->assertEquals(FALSE, $this->redis->hKeys($key));
$this->assertEquals(FALSE, $this->redis->hVals($key));
$this->assertEquals(FALSE, $this->redis->hGetAll($key));
}
public function testDifferentTypeHash() {
$key = '{hash}hash';
$dkey = '{hash}hash';
$this->redis->del($key);
$this->assertEquals(1, $this->redis->hSet($key, 'key', 'value'));
// string I/F
$this->assertEquals(FALSE, $this->redis->get($key));
$this->assertEquals(FALSE, $this->redis->getset($key, 'value2'));
$this->assertEquals(FALSE, $this->redis->append($key, 'append'));
$this->assertEquals(FALSE, $this->redis->getRange($key, 0, 8));
$this->assertEquals([FALSE], $this->redis->mget([$key]));
$this->assertEquals(FALSE, $this->redis->incr($key));
$this->assertEquals(FALSE, $this->redis->incrBy($key, 1));
$this->assertEquals(FALSE, $this->redis->decr($key));
$this->assertEquals(FALSE, $this->redis->decrBy($key, 1));
// lists I/F
$this->assertEquals(FALSE, $this->redis->rPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lPush($key, 'lvalue'));
$this->assertEquals(FALSE, $this->redis->lLen($key));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->lrange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->lTrim($key, 0, 1));
$this->assertEquals(FALSE, $this->redis->lIndex($key, 0));
$this->assertEquals(FALSE, $this->redis->lSet($key, 0, "newValue"));
$this->assertEquals(FALSE, $this->redis->lrem($key, 'lvalue', 1));
$this->assertEquals(FALSE, $this->redis->lPop($key));
$this->assertEquals(FALSE, $this->redis->rPop($key));
$this->assertEquals(FALSE, $this->redis->rPoplPush($key, $dkey . 'lkey1'));
// sets I/F
$this->assertEquals(FALSE, $this->redis->sAdd($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->srem($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sPop($key));
$this->assertEquals(FALSE, $this->redis->sMove($key, $dkey . 'skey1', 'sValue1'));
$this->assertEquals(FALSE, $this->redis->scard($key));
$this->assertEquals(FALSE, $this->redis->sismember($key, 'sValue1'));
$this->assertEquals(FALSE, $this->redis->sInter($key, $dkey . 'skey2'));
$this->assertEquals(FALSE, $this->redis->sUnion($key, $dkey . 'skey4'));
$this->assertEquals(FALSE, $this->redis->sDiff($key, $dkey . 'skey7'));
$this->assertEquals(FALSE, $this->redis->sMembers($key));
$this->assertEquals(FALSE, $this->redis->sRandMember($key));
// sorted sets I/F
$this->assertEquals(FALSE, $this->redis->zAdd($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRem($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zIncrBy($key, 1, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRevRank($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRevRange($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zRangeByScore($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zCount($key, 0, -1));
$this->assertEquals(FALSE, $this->redis->zCard($key));
$this->assertEquals(FALSE, $this->redis->zScore($key, 'zValue1'));
$this->assertEquals(FALSE, $this->redis->zRemRangeByRank($key, 1, 2));
$this->assertEquals(FALSE, $this->redis->zRemRangeByScore($key, 1, 2));
}
public function testSerializerPHP() {
$this->checkSerializer(Redis::SERIALIZER_PHP);
// with prefix
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->checkSerializer(Redis::SERIALIZER_PHP);
$this->redis->setOption(Redis::OPT_PREFIX, "");
}
public function testSerializerIGBinary() {
if(defined('Redis::SERIALIZER_IGBINARY')) {
$this->checkSerializer(Redis::SERIALIZER_IGBINARY);
// with prefix
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->checkSerializer(Redis::SERIALIZER_IGBINARY);
$this->redis->setOption(Redis::OPT_PREFIX, "");
}
}
public function testSerializerMsgPack() {
if(defined('Redis::SERIALIZER_MSGPACK')) {
$this->checkSerializer(Redis::SERIALIZER_MSGPACK);
// with prefix
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->checkSerializer(Redis::SERIALIZER_MSGPACK);
$this->redis->setOption(Redis::OPT_PREFIX, "");
}
}
public function testSerializerJSON()
{
$this->checkSerializer(Redis::SERIALIZER_JSON);
// with prefix
$this->redis->setOption(Redis::OPT_PREFIX, "test:");
$this->checkSerializer(Redis::SERIALIZER_JSON);
$this->redis->setOption(Redis::OPT_PREFIX, "");
}
private function checkSerializer($mode) {
$this->redis->del('key');
$this->assertTrue($this->redis->getOption(Redis::OPT_SERIALIZER) === Redis::SERIALIZER_NONE); // default
$this->assertTrue($this->redis->setOption(Redis::OPT_SERIALIZER, $mode) === TRUE); // set ok
$this->assertTrue($this->redis->getOption(Redis::OPT_SERIALIZER) === $mode); // get ok
// lPush, rPush
$a = ['hello world', 42, TRUE, ['<tag>' => 1729]];
$this->redis->del('key');
$this->redis->lPush('key', $a[0]);
$this->redis->rPush('key', $a[1]);
$this->redis->rPush('key', $a[2]);
$this->redis->rPush('key', $a[3]);
// lrange
$this->assertTrue($a === $this->redis->lrange('key', 0, -1));
// lIndex
$this->assertTrue($a[0] === $this->redis->lIndex('key', 0));
$this->assertTrue($a[1] === $this->redis->lIndex('key', 1));
$this->assertTrue($a[2] === $this->redis->lIndex('key', 2));
$this->assertTrue($a[3] === $this->redis->lIndex('key', 3));
// lrem
$this->assertTrue($this->redis->lrem('key', $a[3]) === 1);
$this->assertTrue(array_slice($a, 0, 3) === $this->redis->lrange('key', 0, -1));
// lSet
$a[0] = ['k' => 'v']; // update
$this->assertTrue(TRUE === $this->redis->lSet('key', 0, $a[0]));
$this->assertTrue($a[0] === $this->redis->lIndex('key', 0));
// lInsert
$this->assertTrue($this->redis->lInsert('key', Redis::BEFORE, $a[0], [1,2,3]) === 4);
$this->assertTrue($this->redis->lInsert('key', Redis::AFTER, $a[0], [4,5,6]) === 5);
$a = [[1,2,3], $a[0], [4,5,6], $a[1], $a[2]];
$this->assertTrue($a === $this->redis->lrange('key', 0, -1));
// sAdd
$this->redis->del('{set}key');
$s = [1,'a', [1,2,3], ['k' => 'v']];
$this->assertTrue(1 === $this->redis->sAdd('{set}key', $s[0]));
$this->assertTrue(1 === $this->redis->sAdd('{set}key', $s[1]));
$this->assertTrue(1 === $this->redis->sAdd('{set}key', $s[2]));
$this->assertTrue(1 === $this->redis->sAdd('{set}key', $s[3]));
// variadic sAdd
$this->redis->del('k');
$this->assertTrue(3 === $this->redis->sAdd('k', 'a', 'b', 'c'));
$this->assertTrue(1 === $this->redis->sAdd('k', 'a', 'b', 'c', 'd'));
// srem
$this->assertTrue(1 === $this->redis->srem('{set}key', $s[3]));
$this->assertTrue(0 === $this->redis->srem('{set}key', $s[3]));
// variadic
$this->redis->del('k');
$this->redis->sAdd('k', 'a', 'b', 'c', 'd');
$this->assertTrue(2 === $this->redis->sRem('k', 'a', 'd'));
$this->assertTrue(2 === $this->redis->sRem('k', 'b', 'c', 'e'));
$this->assertEquals(0, $this->redis->exists('k'));
// sismember
$this->assertTrue(TRUE === $this->redis->sismember('{set}key', $s[0]));
$this->assertTrue(TRUE === $this->redis->sismember('{set}key', $s[1]));
$this->assertTrue(TRUE === $this->redis->sismember('{set}key', $s[2]));
$this->assertTrue(FALSE === $this->redis->sismember('{set}key', $s[3]));
unset($s[3]);
// sMove
$this->redis->del('{set}tmp');
$this->redis->sMove('{set}key', '{set}tmp', $s[0]);
$this->assertTrue(FALSE === $this->redis->sismember('{set}key', $s[0]));
$this->assertTrue(TRUE === $this->redis->sismember('{set}tmp', $s[0]));
unset($s[0]);
// sorted sets
$z = ['z0', ['k' => 'v'], FALSE, NULL];
$this->redis->del('key');
// zAdd
$this->assertTrue(1 === $this->redis->zAdd('key', 0, $z[0]));
$this->assertTrue(1 === $this->redis->zAdd('key', 1, $z[1]));
$this->assertTrue(1 === $this->redis->zAdd('key', 2, $z[2]));
$this->assertTrue(1 === $this->redis->zAdd('key', 3, $z[3]));
// zRem
$this->assertTrue(1 === $this->redis->zRem('key', $z[3]));
$this->assertTrue(0 === $this->redis->zRem('key', $z[3]));
unset($z[3]);
// check that zRem doesn't crash with a missing parameter (GitHub issue #102):
$this->assertTrue(FALSE === @$this->redis->zRem('key'));
// variadic
$this->redis->del('k');
$this->redis->zAdd('k', 0, 'a');
$this->redis->zAdd('k', 1, 'b');
$this->redis->zAdd('k', 2, 'c');
$this->assertTrue(2 === $this->redis->zRem('k', 'a', 'c'));
$this->assertTrue(1.0 === $this->redis->zScore('k', 'b'));
$this->assertTrue($this->redis->zRange('k', 0, -1, true) == ['b' => 1.0]);
// zRange
$this->assertTrue($z === $this->redis->zRange('key', 0, -1));
// zScore
$this->assertTrue(0.0 === $this->redis->zScore('key', $z[0]));
$this->assertTrue(1.0 === $this->redis->zScore('key', $z[1]));
$this->assertTrue(2.0 === $this->redis->zScore('key', $z[2]));
// zRank
$this->assertTrue(0 === $this->redis->zRank('key', $z[0]));
$this->assertTrue(1 === $this->redis->zRank('key', $z[1]));
$this->assertTrue(2 === $this->redis->zRank('key', $z[2]));
// zRevRank
$this->assertTrue(2 === $this->redis->zRevRank('key', $z[0]));
$this->assertTrue(1 === $this->redis->zRevRank('key', $z[1]));
$this->assertTrue(0 === $this->redis->zRevRank('key', $z[2]));
// zIncrBy
$this->assertTrue(3.0 === $this->redis->zIncrBy('key', 1.0, $z[2]));
$this->assertTrue(3.0 === $this->redis->zScore('key', $z[2]));
$this->assertTrue(5.0 === $this->redis->zIncrBy('key', 2.0, $z[2]));
$this->assertTrue(5.0 === $this->redis->zScore('key', $z[2]));
$this->assertTrue(2.0 === $this->redis->zIncrBy('key', -3.0, $z[2]));
$this->assertTrue(2.0 === $this->redis->zScore('key', $z[2]));
// mset
$a = ['k0' => 1, 'k1' => 42, 'k2' => NULL, 'k3' => FALSE, 'k4' => ['a' => 'b']];
$this->assertTrue(TRUE === $this->redis->mset($a));
foreach($a as $k => $v) {
$this->assertTrue($this->redis->get($k) === $v);
}
$a = ['k0' => 1, 'k1' => 42, 'k2' => NULL, 'k3' => FALSE, 'k4' => ['a' => 'b']];
// hSet
$this->redis->del('key');
foreach($a as $k => $v) {
$this->assertTrue(1 === $this->redis->hSet('key', $k, $v));
}
// hGet
foreach($a as $k => $v) {
$this->assertTrue($v === $this->redis->hGet('key', $k));
}
// hGetAll
$this->assertTrue($a === $this->redis->hGetAll('key'));
$this->assertTrue(TRUE === $this->redis->hExists('key', 'k0'));
$this->assertTrue(TRUE === $this->redis->hExists('key', 'k1'));
$this->assertTrue(TRUE === $this->redis->hExists('key', 'k2'));
$this->assertTrue(TRUE === $this->redis->hExists('key', 'k3'));
$this->assertTrue(TRUE === $this->redis->hExists('key', 'k4'));
// hMSet
$this->redis->del('key');
$this->redis->hMSet('key', $a);
foreach($a as $k => $v) {
$this->assertTrue($v === $this->redis->hGet('key', $k));
}
// hMget
$hmget = $this->redis->hMget('key', array_keys($a));
foreach($hmget as $k => $v) {
$this->assertTrue($v === $a[$k]);
}
// getMultiple
$this->redis->set('a', NULL);
$this->redis->set('b', FALSE);
$this->redis->set('c', 42);
$this->redis->set('d', ['x' => 'y']);
$this->assertTrue([NULL, FALSE, 42, ['x' => 'y']] === $this->redis->mGet(['a', 'b', 'c', 'd']));
// pipeline
if ($this->havePipeline()) {
$this->sequence(Redis::PIPELINE);
}
// multi-exec
$this->sequence(Redis::MULTI);
// keys
$this->assertTrue(is_array($this->redis->keys('*')));
// issue #62, hgetall
$this->redis->del('hash1');
$this->redis->hSet('hash1','data', 'test 1');
$this->redis->hSet('hash1','session_id', 'test 2');
$data = $this->redis->hGetAll('hash1');
$this->assertTrue($data['data'] === 'test 1');
$this->assertTrue($data['session_id'] === 'test 2');
// issue #145, serializer with objects.
$this->redis->set('x', [new stdClass, new stdClass]);
$x = $this->redis->get('x');
$this->assertTrue(is_array($x));
if ($mode === Redis::SERIALIZER_JSON) {
$this->assertTrue(is_array($x[0]));
$this->assertTrue(is_array($x[1]));
} else {
$this->assertTrue(is_object($x[0]) && get_class($x[0]) === 'stdClass');
$this->assertTrue(is_object($x[1]) && get_class($x[1]) === 'stdClass');
}
// revert
$this->assertTrue($this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE) === TRUE); // set ok
$this->assertTrue($this->redis->getOption(Redis::OPT_SERIALIZER) === Redis::SERIALIZER_NONE); // get ok
}
public function testCompressionLZF()
{
if (!defined('Redis::COMPRESSION_LZF')) {
$this->markTestSkipped();
}
$this->checkCompression(Redis::COMPRESSION_LZF, 0);
}
public function testCompressionZSTD()
{
if (!defined('Redis::COMPRESSION_ZSTD')) {
$this->markTestSkipped();
}
/* Issue 1936 regression. Make sure we don't overflow on bad data */
$this->redis->del('badzstd');
$this->redis->set('badzstd', '123');
$this->redis->setOption(Redis::OPT_COMPRESSION, Redis::COMPRESSION_ZSTD);
$this->assertEquals('123', $this->redis->get('badzstd'));
$this->redis->setOption(Redis::OPT_COMPRESSION, Redis::COMPRESSION_NONE);
$this->checkCompression(Redis::COMPRESSION_ZSTD, 0);
$this->checkCompression(Redis::COMPRESSION_ZSTD, 9);
}
public function testCompressionLZ4()
{
if (!defined('Redis::COMPRESSION_LZ4')) {
$this->markTestSkipped();
}
$this->checkCompression(Redis::COMPRESSION_LZ4, 0);
$this->checkCompression(Redis::COMPRESSION_LZ4, 9);
}
private function checkCompression($mode, $level)
{
$this->assertTrue($this->redis->setOption(Redis::OPT_COMPRESSION, $mode) === TRUE); // set ok
$this->assertTrue($this->redis->getOption(Redis::OPT_COMPRESSION) === $mode); // get ok
$this->assertTrue($this->redis->setOption(Redis::OPT_COMPRESSION_LEVEL, $level) === TRUE);
$this->assertTrue($this->redis->getOption(Redis::OPT_COMPRESSION_LEVEL) === $level);
$val = 'xxxxxxxxxx';
$this->redis->set('key', $val);
$this->assertEquals($val, $this->redis->get('key'));
/* Empty data */
$this->redis->set('key', '');
$this->assertEquals('', $this->redis->get('key'));
/* Iterate through class sizes */
for ($i = 1; $i <= 65536; $i *= 2) {
foreach ([str_repeat('A', $i), random_bytes($i)] as $val) {
$this->redis->set('key', $val);
$this->assertEquals($val, $this->redis->get('key'));
}
}
// Issue 1945. Ensure we decompress data with hmget.
$this->redis->hset('hkey', 'data', 'abc');
$this->assertEquals('abc', current($this->redis->hmget('hkey', ['data'])));
}
public function testDumpRestore() {
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
$this->redis->del('foo');
$this->redis->del('bar');
$this->redis->set('foo', 'this-is-foo');
$this->redis->set('bar', 'this-is-bar');
$d_foo = $this->redis->dump('foo');
$d_bar = $this->redis->dump('bar');
$this->redis->del('foo');
$this->redis->del('bar');
// Assert returns from restore
$this->assertTrue($this->redis->restore('foo', 0, $d_bar));
$this->assertTrue($this->redis->restore('bar', 0, $d_foo));
// Now check that the keys have switched
$this->assertTrue($this->redis->get('foo') === 'this-is-bar');
$this->assertTrue($this->redis->get('bar') === 'this-is-foo');
$this->redis->del('foo');
$this->redis->del('bar');
}
public function testGetLastError() {
// We shouldn't have any errors now
$this->assertTrue($this->redis->getLastError() === NULL);
// test getLastError with a regular command
$this->redis->set('x', 'a');
$this->assertFalse($this->redis->incr('x'));
$incrError = $this->redis->getLastError();
$this->assertTrue(strlen($incrError) > 0);
// clear error
$this->redis->clearLastError();
$this->assertTrue($this->redis->getLastError() === NULL);
}
// Helper function to compare nested results -- from the php.net array_diff page, I believe
private function array_diff_recursive($aArray1, $aArray2) {
$aReturn = [];
foreach ($aArray1 as $mKey => $mValue) {
if (array_key_exists($mKey, $aArray2)) {
if (is_array($mValue)) {
$aRecursiveDiff = $this->array_diff_recursive($mValue, $aArray2[$mKey]);
if (count($aRecursiveDiff)) {
$aReturn[$mKey] = $aRecursiveDiff;
}
} else {
if ($mValue != $aArray2[$mKey]) {
$aReturn[$mKey] = $mValue;
}
}
} else {
$aReturn[$mKey] = $mValue;
}
}
return $aReturn;
}
public function testScript() {
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
// Flush any scripts we have
$this->assertTrue($this->redis->script('flush'));
// Silly scripts to test against
$s1_src = 'return 1';
$s1_sha = sha1($s1_src);
$s2_src = 'return 2';
$s2_sha = sha1($s2_src);
$s3_src = 'return 3';
$s3_sha = sha1($s3_src);
// None should exist
$result = $this->redis->script('exists', $s1_sha, $s2_sha, $s3_sha);
$this->assertTrue(is_array($result) && count($result) == 3);
$this->assertTrue(is_array($result) && count(array_filter($result)) == 0);
// Load them up
$this->assertTrue($this->redis->script('load', $s1_src) == $s1_sha);
$this->assertTrue($this->redis->script('load', $s2_src) == $s2_sha);
$this->assertTrue($this->redis->script('load', $s3_src) == $s3_sha);
// They should all exist
$result = $this->redis->script('exists', $s1_sha, $s2_sha, $s3_sha);
$this->assertTrue(is_array($result) && count(array_filter($result)) == 3);
}
public function testEval() {
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
// Basic single line response tests
$this->assertTrue(1 == $this->redis->eval('return 1'));
$this->assertTrue(1.55 == $this->redis->eval("return '1.55'"));
$this->assertTrue("hello, world" == $this->redis->eval("return 'hello, world'"));
/*
* Keys to be incorporated into lua results
*/
// Make a list
$this->redis->del('{eval-key}-list');
$this->redis->rpush('{eval-key}-list', 'a');
$this->redis->rpush('{eval-key}-list', 'b');
$this->redis->rpush('{eval-key}-list', 'c');
// Make a set
$this->redis->del('{eval-key}-zset');
$this->redis->zadd('{eval-key}-zset', 0, 'd');
$this->redis->zadd('{eval-key}-zset', 1, 'e');
$this->redis->zadd('{eval-key}-zset', 2, 'f');
// Basic keys
$this->redis->set('{eval-key}-str1', 'hello, world');
$this->redis->set('{eval-key}-str2', 'hello again!');
// Use a script to return our list, and verify its response
$list = $this->redis->eval("return redis.call('lrange', KEYS[1], 0, -1)", ['{eval-key}-list'], 1);
$this->assertTrue($list === ['a','b','c']);
// Use a script to return our zset
$zset = $this->redis->eval("return redis.call('zrange', KEYS[1], 0, -1)", ['{eval-key}-zset'], 1);
$this->assertTrue($zset == ['d','e','f']);
// Test an empty MULTI BULK response
$this->redis->del('{eval-key}-nolist');
$empty_resp = $this->redis->eval("return redis.call('lrange', '{eval-key}-nolist', 0, -1)",
['{eval-key}-nolist'], 1);
$this->assertTrue(is_array($empty_resp) && empty($empty_resp));
// Now test a nested reply
$nested_script = "
return {
1,2,3, {
redis.call('get', '{eval-key}-str1'),
redis.call('get', '{eval-key}-str2'),
redis.call('lrange', 'not-any-kind-of-list', 0, -1),
{
redis.call('zrange','{eval-key}-zset', 0, -1),
redis.call('lrange', '{eval-key}-list', 0, -1)
}
}
}
";
$expected = [
1, 2, 3, [
'hello, world',
'hello again!',
[],
[
['d','e','f'],
['a','b','c']
]
]
];
// Now run our script, and check our values against each other
$eval_result = $this->redis->eval($nested_script, ['{eval-key}-str1', '{eval-key}-str2', '{eval-key}-zset', '{eval-key}-list'], 4);
$this->assertTrue(is_array($eval_result) && count($this->array_diff_recursive($eval_result, $expected)) == 0);
/*
* Nested reply wihin a multi/pipeline block
*/
$num_scripts = 10;
$arr_modes = [Redis::MULTI];
if ($this->havePipeline()) $arr_modes[] = Redis::PIPELINE;
foreach($arr_modes as $mode) {
$this->redis->multi($mode);
for($i=0;$i<$num_scripts;$i++) {
$this->redis->eval($nested_script, ['{eval-key}-dummy'], 1);
}
$replies = $this->redis->exec();
foreach($replies as $reply) {
$this->assertTrue(is_array($reply) && count($this->array_diff_recursive($reply, $expected)) == 0);
}
}
/*
* KEYS/ARGV
*/
$args_script = "return {KEYS[1],KEYS[2],KEYS[3],ARGV[1],ARGV[2],ARGV[3]}";
$args_args = ['{k}1','{k}2','{k}3','v1','v2','v3'];
$args_result = $this->redis->eval($args_script, $args_args, 3);
$this->assertTrue($args_result === $args_args);
// turn on key prefixing
$this->redis->setOption(Redis::OPT_PREFIX, 'prefix:');
$args_result = $this->redis->eval($args_script, $args_args, 3);
// Make sure our first three are prefixed
for($i=0;$i<count($args_result);$i++) {
if($i<3) {
// Should be prefixed
$this->assertTrue($args_result[$i] == 'prefix:' . $args_args[$i]);
} else {
// Should not be prefixed
$this->assertTrue($args_result[$i] == $args_args[$i]);
}
}
}
public function testEvalSHA() {
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
// Flush any loaded scripts
$this->redis->script('flush');
// Non existant script (but proper sha1), and a random (not) sha1 string
$this->assertFalse($this->redis->evalsha(sha1(uniqid())));
$this->assertFalse($this->redis->evalsha('some-random-data'));
// Load a script
$cb = uniqid(); // To ensure the script is new
$scr = "local cb='$cb' return 1";
$sha = sha1($scr);
// Run it when it doesn't exist, run it with eval, and then run it with sha1
$this->assertTrue(false === $this->redis->evalsha($scr));
$this->assertTrue(1 === $this->redis->eval($scr));
$this->assertTrue(1 === $this->redis->evalsha($sha));
}
public function testSerialize() {
$vals = [1, 1.5, 'one', ['here','is','an','array']];
// Test with no serialization at all
$this->assertTrue($this->redis->_serialize('test') === 'test');
$this->assertTrue($this->redis->_serialize(1) === '1');
$this->assertTrue($this->redis->_serialize([]) === 'Array');
$this->assertTrue($this->redis->_serialize(new stdClass) === 'Object');
$arr_serializers = [Redis::SERIALIZER_PHP];
if(defined('Redis::SERIALIZER_IGBINARY')) {
$arr_serializers[] = Redis::SERIALIZER_IGBINARY;
}
if(defined('Redis::SERIALIZER_MSGPACK')) {
$arr_serializers[] = Redis::SERIALIZER_MSGPACK;
}
foreach($arr_serializers as $mode) {
$arr_enc = [];
$arr_dec = [];
foreach($vals as $k => $v) {
$enc = $this->redis->_serialize($v);
$dec = $this->redis->_unserialize($enc);
// They should be the same
$this->assertTrue($enc == $dec);
}
}
}
public function testUnserialize() {
$vals = [
1,1.5,'one',['this','is','an','array']
];
$serializers = Array(Redis::SERIALIZER_PHP);
if(defined('Redis::SERIALIZER_IGBINARY')) {
$serializers[] = Redis::SERIALIZER_IGBINARY;
}
if(defined('Redis::SERIALIZER_MSGPACK')) {
$serializers[] = Redis::SERIALIZER_MSGPACK;
}
foreach($serializers as $mode) {
$vals_enc = [];
// Pass them through redis so they're serialized
foreach($vals as $key => $val) {
$this->redis->setOption(Redis::OPT_SERIALIZER, $mode);
$key = "key" . ++$key;
$this->redis->del($key);
$this->redis->set($key, $val);
// Clear serializer, get serialized value
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE);
$vals_enc[] = $this->redis->get($key);
}
// Run through our array comparing values
for($i=0;$i<count($vals);$i++) {
// reset serializer
$this->redis->setOption(Redis::OPT_SERIALIZER, $mode);
$this->assertTrue($vals[$i] == $this->redis->_unserialize($vals_enc[$i]));
$this->redis->setOption(Redis::OPT_SERIALIZER, Redis::SERIALIZER_NONE);
}
}
}
public function testPrefix() {
// no prefix
$this->redis->setOption(Redis::OPT_PREFIX, '');
$this->assertTrue('key' == $this->redis->_prefix('key'));
// with a prefix
$this->redis->setOption(Redis::OPT_PREFIX, 'some-prefix:');
$this->assertTrue('some-prefix:key' == $this->redis->_prefix('key'));
// Clear prefix
$this->redis->setOption(Redis::OPT_PREFIX, '');
}
public function testReplyLiteral() {
$this->redis->setOption(Redis::OPT_REPLY_LITERAL, false);
$this->assertTrue($this->redis->rawCommand('set', 'foo', 'bar'));
$this->assertTrue($this->redis->eval("return redis.call('set', 'foo', 'bar')", [], 0));
$rv = $this->redis->eval("return {redis.call('set', KEYS[1], 'bar'), redis.call('ping')}", ['foo'], 1);
$this->assertEquals([true, true], $rv);
$this->redis->setOption(Redis::OPT_REPLY_LITERAL, true);
$this->assertEquals('OK', $this->redis->rawCommand('set', 'foo', 'bar'));
$this->assertEquals('OK', $this->redis->eval("return redis.call('set', 'foo', 'bar')", [], 0));
// Nested
$rv = $this->redis->eval("return {redis.call('set', KEYS[1], 'bar'), redis.call('ping')}", ['foo'], 1);
$this->assertEquals(['OK', 'PONG'], $rv);
// Reset
$this->redis->setOption(Redis::OPT_REPLY_LITERAL, false);
}
public function testNullArray() {
$key = "key:arr";
$this->redis->del($key);
foreach ([false => [], true => NULL] as $opt => $test) {
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, $opt);
$r = $this->redis->rawCommand("BLPOP", $key, .05);
$this->assertEquals($test, $r);
$this->redis->multi();
$this->redis->rawCommand("BLPOP", $key, .05);
$r = $this->redis->exec();
$this->assertEquals([$test], $r);
}
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, false);
}
/* Test that we can configure PhpRedis to return NULL for *-1 even nestedwithin replies */
public function testNestedNullArray() {
$this->redis->del('{notaset}');
foreach ([false => [], true => NULL] as $opt => $test) {
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, $opt);
$this->assertEquals([$test, $test], $this->redis->geoPos('{notaset}', 'm1', 'm2'));
$this->redis->multi();
$this->redis->geoPos('{notaset}', 'm1', 'm2');
$this->assertEquals([[$test, $test]], $this->redis->exec());
}
$this->redis->setOption(Redis::OPT_NULL_MULTIBULK_AS_NULL, false);
}
public function testReconnectSelect() {
$key = 'reconnect-select';
$value = 'Has been set!';
$original_cfg = $this->redis->config('GET', 'timeout');
// Make sure the default DB doesn't have the key.
$this->redis->select(0);
$this->redis->del($key);
// Set the key on a different DB.
$this->redis->select(5);
$this->redis->set($key, $value);
// Time out after 1 second.
$this->redis->config('SET', 'timeout', '1');
// Wait for the timeout. With Redis 2.4, we have to wait up to 10 s
// for the server to close the connection, regardless of the timeout
// setting.
sleep(11);
// Make sure we're still using the same DB.
$this->assertEquals($value, $this->redis->get($key));
// Revert the setting.
$this->redis->config('SET', 'timeout', $original_cfg['timeout']);
}
public function testTime() {
if (version_compare($this->version, "2.5.0") < 0) {
$this->markTestSkipped();
}
$time_arr = $this->redis->time();
$this->assertTrue(is_array($time_arr) && count($time_arr) == 2 &&
strval(intval($time_arr[0])) === strval($time_arr[0]) &&
strval(intval($time_arr[1])) === strval($time_arr[1]));
}
public function testReadTimeoutOption() {
$this->assertTrue(defined('Redis::OPT_READ_TIMEOUT'));
$this->redis->setOption(Redis::OPT_READ_TIMEOUT, "12.3");
$this->assertEquals(12.3, $this->redis->getOption(Redis::OPT_READ_TIMEOUT));
}
public function testIntrospection() {
// Simple introspection tests
$this->assertTrue($this->redis->getHost() === $this->getHost());
$this->assertTrue($this->redis->getPort() === $this->getPort());
$this->assertTrue($this->redis->getAuth() === $this->getAuth());
}
/**
* Scan and variants
*/
protected function get_keyspace_count($str_db) {
$arr_info = $this->redis->info();
if (isset($arr_info[$str_db])) {
$arr_info = $arr_info[$str_db];
$arr_info = explode(',', $arr_info);
$arr_info = explode('=', $arr_info[0]);
return $arr_info[1];
} else {
return 0;
}
}
public function testScan() {
if(version_compare($this->version, "2.8.0") < 0) {
$this->markTestSkipped();
return;
}
// Key count
$i_key_count = $this->get_keyspace_count('db0');
// Have scan retry
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_RETRY);
// Scan them all
$it = NULL;
while($arr_keys = $this->redis->scan($it)) {
$i_key_count -= count($arr_keys);
}
// Should have iterated all keys
$this->assertEquals(0, $i_key_count);
// Unique keys, for pattern matching
$str_uniq = uniqid() . '-' . uniqid();
for($i=0;$i<10;$i++) {
$this->redis->set($str_uniq . "::$i", "bar::$i");
}
// Scan just these keys using a pattern match
$it = NULL;
while($arr_keys = $this->redis->scan($it, "*$str_uniq*")) {
$i -= count($arr_keys);
}
$this->assertEquals(0, $i);
// SCAN with type is scheduled for release in Redis 6.
if (version_compare($this->version, "6.0.0") >= 0) {
// Use a unique ID so we can find our type keys
$id = uniqid();
// Create some simple keys and lists
for ($i = 0; $i < 3; $i++) {
$str_simple = "simple:{$id}:$i";
$str_list = "list:{$id}:$i";
$this->redis->set($str_simple, $i);
$this->redis->del($str_list);
$this->redis->rpush($str_list, ['foo']);
$arr_keys["STRING"][] = $str_simple;
$arr_keys["LIST"][] = $str_list;
}
// Make sure we can scan for specific types
foreach ($arr_keys as $str_type => $arr_vals) {
foreach ([NULL, 10] as $i_count) {
$arr_resp = [];
$it = NULL;
while ($arr_scan = $this->redis->scan($it, "*$id*", $i_count, $str_type)) {
$arr_resp = array_merge($arr_resp, $arr_scan);
}
sort($arr_vals); sort($arr_resp);
$this->assertEquals($arr_vals, $arr_resp);
}
}
}
}
public function testScanPrefix() {
$keyid = uniqid();
/* Set some keys with different prefixes */
$arr_prefixes = ['prefix-a:', 'prefix-b:'];
foreach ($arr_prefixes as $str_prefix) {
$this->redis->setOption(Redis::OPT_PREFIX, $str_prefix);
$this->redis->set("$keyid", "LOLWUT");
$arr_all_keys["${str_prefix}${keyid}"] = true;
}
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_RETRY);
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_PREFIX);
foreach ($arr_prefixes as $str_prefix) {
$this->redis->setOption(Redis::OPT_PREFIX, $str_prefix);
$it = NULL;
$arr_keys = $this->redis->scan($it, "*$keyid*");
$this->assertEquals($arr_keys, ["${str_prefix}${keyid}"]);
}
/* Unset the prefix option */
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_NOPREFIX);
$it = NULL;
while ($arr_keys = $this->redis->scan($it, "*$keyid*")) {
foreach ($arr_keys as $str_key) {
unset($arr_all_keys[$str_key]);
}
}
/* Should have touched every key */
$this->assertTrue(count($arr_all_keys) == 0);
}
public function testHScan() {
if (version_compare($this->version, "2.8.0") < 0) {
$this->markTestSkipped();
return;
}
// Never get empty sets
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_RETRY);
$this->redis->del('hash');
$i_foo_mems = 0;
for($i=0;$i<100;$i++) {
if($i>3) {
$this->redis->hset('hash', "member:$i", "value:$i");
} else {
$this->redis->hset('hash', "foomember:$i", "value:$i");
$i_foo_mems++;
}
}
// Scan all of them
$it = NULL;
while($arr_keys = $this->redis->hscan('hash', $it)) {
$i -= count($arr_keys);
}
$this->assertEquals(0, $i);
// Scan just *foomem* (should be 4)
$it = NULL;
while($arr_keys = $this->redis->hscan('hash', $it, '*foomember*')) {
$i_foo_mems -= count($arr_keys);
foreach($arr_keys as $str_mem => $str_val) {
$this->assertTrue(strpos($str_mem, 'member')!==FALSE);
$this->assertTrue(strpos($str_val, 'value')!==FALSE);
}
}
$this->assertEquals(0, $i_foo_mems);
}
public function testSScan() {
if (version_compare($this->version, "2.8.0") < 0) {
$this->markTestSkipped();
return;
}
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_RETRY);
$this->redis->del('set');
for($i=0;$i<100;$i++) {
$this->redis->sadd('set', "member:$i");
}
// Scan all of them
$it = NULL;
while($arr_keys = $this->redis->sscan('set', $it)) {
$i -= count($arr_keys);
foreach($arr_keys as $str_mem) {
$this->assertTrue(strpos($str_mem,'member')!==FALSE);
}
}
$this->assertEquals(0, $i);
// Scan just ones with zero in them (0, 10, 20, 30, 40, 50, 60, 70, 80, 90)
$it = NULL;
$i_w_zero = 0;
while($arr_keys = $this->redis->sscan('set', $it, '*0*')) {
$i_w_zero += count($arr_keys);
}
$this->assertEquals(10, $i_w_zero);
}
public function testZScan() {
if (version_compare($this->version, "2.8.0") < 0) {
$this->markTestSkipped();
return;
}
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_RETRY);
$this->redis->del('zset');
$i_tot_score = 0;
$i_p_score = 0;
$i_p_count = 0;
for($i=0;$i<2000;$i++) {
if($i<10) {
$this->redis->zadd('zset', $i, "pmem:$i");
$i_p_score += $i;
$i_p_count += 1;
} else {
$this->redis->zadd('zset', $i, "mem:$i");
}
$i_tot_score += $i;
}
// Scan them all
$it = NULL;
while($arr_keys = $this->redis->zscan('zset', $it)) {
foreach($arr_keys as $str_mem => $f_score) {
$i_tot_score -= $f_score;
$i--;
}
}
$this->assertEquals(0, $i);
$this->assertEquals((float)0, $i_tot_score);
// Just scan "pmem" members
$it = NULL;
$i_p_score_old = $i_p_score;
$i_p_count_old = $i_p_count;
while($arr_keys = $this->redis->zscan('zset', $it, "*pmem*")) {
foreach($arr_keys as $str_mem => $f_score) {
$i_p_score -= $f_score;
$i_p_count -= 1;
}
}
$this->assertEquals((float)0, $i_p_score);
$this->assertEquals(0, $i_p_count);
// Turn off retrying and we should get some empty results
$this->redis->setOption(Redis::OPT_SCAN, Redis::SCAN_NORETRY);
$i_skips = 0;
$i_p_score = $i_p_score_old;
$i_p_count = $i_p_count_old;
$it = NULL;
while(($arr_keys = $this->redis->zscan('zset', $it, "*pmem*")) !== FALSE) {
if(count($arr_keys) == 0) $i_skips++;
foreach($arr_keys as $str_mem => $f_score) {
$i_p_score -= $f_score;
$i_p_count -= 1;
}
}
// We should still get all the keys, just with several empty results
$this->assertTrue($i_skips > 0);
$this->assertEquals((float)0, $i_p_score);
$this->assertEquals(0, $i_p_count);
}
//
// HyperLogLog (PF) commands
//
protected function createPFKey($str_key, $i_count) {
$arr_mems = [];
for($i=0;$i<$i_count;$i++) {
$arr_mems[] = uniqid() . '-' . $i;
}
// Estimation by Redis
$this->redis->pfadd($str_key, $i_count);
}
public function testPFCommands() {
// Isn't available until 2.8.9
if (version_compare($this->version, "2.8.9") < 0) {
$this->markTestSkipped();
return;
}
$str_uniq = uniqid();
$arr_mems = [];
for($i=0;$i<1000;$i++) {
if($i%2 == 0) {
$arr_mems[] = $str_uniq . '-' . $i;
} else {
$arr_mems[] = $i;
}
}
// How many keys to create
$i_keys = 10;
// Iterate prefixing/serialization options
foreach([Redis::SERIALIZER_NONE, Redis::SERIALIZER_PHP] as $str_ser) {
foreach(['', 'hl-key-prefix:'] as $str_prefix) {
$arr_keys = [];
// Now add for each key
for($i=0;$i<$i_keys;$i++) {
$str_key = "{key}:$i";
$arr_keys[] = $str_key;
// Clean up this key
$this->redis->del($str_key);
// Add to our cardinality set, and confirm we got a valid response
$this->assertTrue($this->redis->pfadd($str_key, $arr_mems));
// Grab estimated cardinality
$i_card = $this->redis->pfcount($str_key);
$this->assertTrue(is_int($i_card));
// Count should be close
$this->assertLess(abs($i_card-count($arr_mems)), count($arr_mems) * .1);
// The PFCOUNT on this key should be the same as the above returned response
$this->assertEquals($this->redis->pfcount($str_key), $i_card);
}
// Clean up merge key
$this->redis->del('pf-merge-{key}');
// Merge the counters
$this->assertTrue($this->redis->pfmerge('pf-merge-{key}', $arr_keys));
// Validate our merged count
$i_redis_card = $this->redis->pfcount('pf-merge-{key}');
// Merged cardinality should still be roughly 1000
$this->assertLess(abs($i_redis_card-count($arr_mems)), count($arr_mems) * .1);
// Clean up merge key
$this->redis->del('pf-merge-{key}');
}
}
}
//
// GEO* command tests
//
protected function rawCommandArray($key, $args) {
return call_user_func_array([$this->redis, 'rawCommand'], $args);
}
protected function addCities($key) {
$this->redis->del($key);
foreach ($this->cities as $city => $longlat) {
$this->redis->geoadd($key, $longlat[0], $longlat[1], $city);
}
}
/* GEOADD */
public function testGeoAdd() {
if (!$this->minVersionCheck("3.2")) {
return $this->markTestSkipped();
}
$this->redis->del('geokey');
/* Add them one at a time */
foreach ($this->cities as $city => $longlat) {
$this->assertEquals($this->redis->geoadd('geokey', $longlat[0], $longlat[1], $city), 1);
}
/* Add them again, all at once */
$args = ['geokey'];
foreach ($this->cities as $city => $longlat) {
$args = array_merge($args, [$longlat[0], $longlat[1], $city]);
}
/* They all exist, should be nothing added */
$this->assertEquals(call_user_func_array([$this->redis, 'geoadd'], $args), 0);
}
/* GEORADIUS */
public function genericGeoRadiusTest($cmd) {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
/* Chico */
$city = 'Chico';
$lng = -121.837478;
$lat = 39.728494;
$this->addCities('{gk}');
/* Pre tested with redis-cli. We're just verifying proper delivery of distance and unit */
if ($cmd == 'georadius' || $cmd == 'georadius_ro') {
$this->assertEquals($this->redis->$cmd('{gk}', $lng, $lat, 10, 'mi'), Array('Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $lng, $lat, 30, 'mi'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $lng, $lat, 50, 'km'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $lng, $lat, 50000, 'm'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $lng, $lat, 150000, 'ft'), Array('Gridley', 'Chico'));
$args = Array($cmd, '{gk}', $lng, $lat, 500, 'mi');
/* Test a bad COUNT argument */
foreach (Array(-1, 0, 'notanumber') as $count) {
$this->assertFalse(@$this->redis->$cmd('{gk}', $lng, $lat, 10, 'mi', Array('count' => $count)));
}
} else {
$this->assertEquals($this->redis->$cmd('{gk}', $city, 10, 'mi'), Array('Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $city, 30, 'mi'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $city, 50, 'km'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $city, 50000, 'm'), Array('Gridley','Chico'));
$this->assertEquals($this->redis->$cmd('{gk}', $city, 150000, 'ft'), Array('Gridley', 'Chico'));
$args = Array($cmd, '{gk}', $city, 500, 'mi');
/* Test a bad COUNT argument */
foreach (Array(-1, 0, 'notanumber') as $count) {
$this->assertFalse(@$this->redis->$cmd('{gk}', $city, 10, 'mi', Array('count' => $count)));
}
}
/* Options */
$opts = ['WITHCOORD', 'WITHDIST', 'WITHHASH'];
$sortopts = ['', 'ASC', 'DESC'];
$storeopts = ['', 'STORE', 'STOREDIST'];
for ($i = 0; $i < count($opts); $i++) {
$subopts = array_slice($opts, 0, $i);
shuffle($subopts);
$subargs = $args;
foreach ($subopts as $opt) {
$subargs[] = $opt;
}
/* Cannot mix STORE[DIST] with the WITH* arguments */
$realstoreopts = count($subopts) == 0 ? $storeopts : [];
$base_subargs = $subargs;
$base_subopts = $subopts;
foreach ($realstoreopts as $store_type) {
for ($c = 0; $c < 3; $c++) {
$subargs = $base_subargs;
$subopts = $base_subopts;
/* Add a count if we're past first iteration */
if ($c > 0) {
$subopts['count'] = $c;
$subargs[] = 'count';
$subargs[] = $c;
}
/* Adding optional sort */
foreach ($sortopts as $sortopt) {
$realargs = $subargs;
$realopts = $subopts;
if ($sortopt) {
$realargs[] = $sortopt;
$realopts[] = $sortopt;
}
if ($store_type) {
$realopts[$store_type] = "{gk}-$store_type";
$realargs[] = $store_type;
$realargs[] = "{gk}-$store_type";
}
$ret1 = $this->rawCommandArray('{gk}', $realargs);
if ($cmd == 'georadius' || $cmd == 'georadius_ro') {
$ret2 = $this->redis->$cmd('{gk}', $lng, $lat, 500, 'mi', $realopts);
} else {
$ret2 = $this->redis->$cmd('{gk}', $city, 500, 'mi', $realopts);
}
$this->assertEquals($ret1, $ret2);
}
}
}
}
}
public function testGeoRadius() {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
$this->genericGeoRadiusTest('georadius');
$this->genericGeoRadiusTest('georadius_ro');
}
public function testGeoRadiusByMember() {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
$this->genericGeoRadiusTest('georadiusbymember');
$this->genericGeoRadiusTest('georadiusbymember_ro');
}
public function testGeoPos() {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
$this->addCities('gk');
$this->assertEquals($this->redis->geopos('gk', 'Chico', 'Sacramento'), $this->rawCommandArray('gk', ['geopos', 'gk', 'Chico', 'Sacramento']));
$this->assertEquals($this->redis->geopos('gk', 'Cupertino'), $this->rawCommandArray('gk', ['geopos', 'gk', 'Cupertino']));
}
public function testGeoHash() {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
$this->addCities('gk');
$this->assertEquals($this->redis->geohash('gk', 'Chico', 'Sacramento'), $this->rawCommandArray('gk', ['geohash', 'gk', 'Chico', 'Sacramento']));
$this->assertEquals($this->redis->geohash('gk', 'Chico'), $this->rawCommandArray('gk', ['geohash', 'gk', 'Chico']));
}
public function testGeoDist() {
if (!$this->minVersionCheck("3.2.0")) {
return $this->markTestSkipped();
}
$this->addCities('gk');
$r1 = $this->redis->geodist('gk', 'Chico', 'Cupertino');
$r2 = $this->rawCommandArray('gk', ['geodist', 'gk', 'Chico', 'Cupertino']);
$this->assertEquals(round($r1, 8), round($r2, 8));
$r1 = $this->redis->geodist('gk', 'Chico', 'Cupertino', 'km');
$r2 = $this->rawCommandArray('gk', ['geodist', 'gk', 'Chico', 'Cupertino', 'km']);
$this->assertEquals(round($r1, 8), round($r2, 8));
}
/* Test a 'raw' command */
public function testRawCommand() {
$this->redis->set('mykey','some-value');
$str_result = $this->redis->rawCommand('get', 'mykey');
$this->assertEquals($str_result, 'some-value');
$this->redis->del('mylist');
$this->redis->rpush('mylist', 'A', 'B', 'C', 'D');
$this->assertEquals($this->redis->lrange('mylist', 0, -1), ['A','B','C','D']);
}
/* STREAMS */
protected function addStreamEntries($key, $count) {
$ids = [];
$this->redis->del($key);
for ($i = 0; $i < $count; $i++) {
$ids[] = $this->redis->xAdd($key, '*', ['field' => "value:$i"]);
}
return $ids;
}
protected function addStreamsAndGroups($arr_streams, $count, $arr_groups) {
$ids = [];
foreach ($arr_streams as $str_stream) {
$ids[$str_stream] = $this->addStreamEntries($str_stream, $count);
foreach ($arr_groups as $str_group => $str_id) {
$this->redis->xGroup('CREATE', $str_stream, $str_group, $str_id);
}
}
return $ids;
}
public function testXAdd() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
$this->redis->del('stream');
for ($i = 0; $i < 5; $i++) {
$id = $this->redis->xAdd("stream", '*', ['k1' => 'v1', 'k2' => 'v2']);
$this->assertEquals($this->redis->xLen('stream'), $i+1);
/* Redis should return <timestamp>-<sequence> */
$bits = explode('-', $id);
$this->assertEquals(count($bits), 2);
$this->assertTrue(is_numeric($bits[0]));
$this->assertTrue(is_numeric($bits[1]));
}
/* Test an absolute maximum length */
for ($i = 0; $i < 100; $i++) {
$this->redis->xAdd('stream', '*', ['k' => 'v'], 10);
}
$this->assertEquals($this->redis->xLen('stream'), 10);
/* Not the greatest test but I'm unsure if approximate trimming is
* totally deterministic, so just make sure we are able to add with
* an approximate maxlen argument structure */
$id = $this->redis->xAdd('stream', '*', ['k' => 'v'], 10, true);
$this->assertEquals(count(explode('-', $id)), 2);
/* Empty message should fail */
$this->redis->xAdd('stream', '*', []);
}
protected function doXRangeTest($reverse) {
$key = '{stream}';
if ($reverse) {
list($cmd,$a1,$a2) = ['xRevRange', '+', 0];
} else {
list($cmd,$a1,$a2) = ['xRange', 0, '+'];
}
$this->redis->del($key);
for ($i = 0; $i < 3; $i++) {
$msg = ['field' => "value:$i"];
$id = $this->redis->xAdd($key, '*', $msg);
$rows[$id] = $msg;
}
$messages = $this->redis->$cmd($key, $a1, $a2);
$this->assertEquals(count($messages), 3);
$i = $reverse ? 2 : 0;
foreach ($messages as $seq => $v) {
$this->assertEquals(count(explode('-', $seq)), 2);
$this->assertEquals($v, ['field' => "value:$i"]);
$i += $reverse ? -1 : 1;
}
/* Test COUNT option */
for ($count = 1; $count <= 3; $count++) {
$messages = $this->redis->$cmd($key, $a1, $a2, $count);
$this->assertEquals(count($messages), $count);
}
}
public function testXRange() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
foreach ([false, true] as $reverse) {
foreach ($this->serializers as $serializer) {
foreach ([NULL, 'prefix:'] as $prefix) {
$this->redis->setOption(Redis::OPT_PREFIX, $prefix);
$this->redis->setOption(Redis::OPT_SERIALIZER, $serializer);
$this->doXRangeTest($reverse);
}
}
}
}
protected function testXLen() {
if (!$this->minVersionCheck("5.0"))
$this->markTestSkipped();
$this->redis->del('{stream}');
for ($i = 0; $i < 5; $i++) {
$this->redis->xadd('{stream}', '*', ['foo' => 'bar']);
$this->assertEquals($this->redis->xLen('{stream}'), $i+1);
}
}
public function testXGroup() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
/* CREATE MKSTREAM */
$str_key = 's:' . uniqid();
$this->assertFalse($this->redis->xGroup('CREATE', $str_key, 'g0', 0));
$this->assertTrue($this->redis->xGroup('CREATE', $str_key, 'g1', 0, true));
/* XGROUP DESTROY */
$this->assertEquals($this->redis->xGroup('DESTROY', $str_key, 'g1'), 1);
/* Populate some entries in stream 's' */
$this->addStreamEntries('s', 2);
/* CREATE */
$this->assertTrue($this->redis->xGroup('CREATE', 's', 'mygroup', '$'));
$this->assertFalse($this->redis->xGroup('CREATE', 's', 'mygroup', 'BAD_ID'));
/* BUSYGROUP */
$this->redis->xGroup('CREATE', 's', 'mygroup', '$');
$this->assertTrue(strpos($this->redis->getLastError(), 'BUSYGROUP') === 0);
/* SETID */
$this->assertTrue($this->redis->xGroup('SETID', 's', 'mygroup', '$'));
$this->assertFalse($this->redis->xGroup('SETID', 's', 'mygroup', 'BAD_ID'));
$this->assertEquals($this->redis->xGroup('DELCONSUMER', 's', 'mygroup', 'myconsumer'),0);
}
public function testXAck() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
for ($n = 1; $n <= 3; $n++) {
$this->addStreamsAndGroups(['{s}'], 3, ['g1' => 0]);
$msg = $this->redis->xReadGroup('g1', 'c1', ['{s}' => '>']);
/* Extract IDs */
$smsg = array_shift($msg);
$ids = array_keys($smsg);
/* Now ACK $n messages */
$ids = array_slice($ids, 0, $n);
$this->assertEquals($this->redis->xAck('{s}', 'g1', $ids), $n);
}
/* Verify sending no IDs is a failure */
$this->assertFalse($this->redis->xAck('{s}', 'g1', []));
}
protected function doXReadTest() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
$row = ['f1' => 'v1', 'f2' => 'v2'];
$msgdata = [
'{stream}-1' => $row,
'{stream}-2' => $row,
];
/* Append a bit of data and populate STREAM queries */
$this->redis->del(array_keys($msgdata));
foreach ($msgdata as $key => $message) {
for ($r = 0; $r < 2; $r++) {
$id = $this->redis->xAdd($key, '*', $message);
$qresult[$key][$id] = $message;
}
$qzero[$key] = 0;
$qnew[$key] = '$';
$keys[] = $key;
}
/* Everything from both streams */
$rmsg = $this->redis->xRead($qzero);
$this->assertEquals($rmsg, $qresult);
/* Test COUNT option */
for ($count = 1; $count <= 2; $count++) {
$rmsg = $this->redis->xRead($qzero, $count);
foreach ($keys as $key) {
$this->assertEquals(count($rmsg[$key]), $count);
}
}
/* Should be empty (no new entries) */
$this->assertEquals(count($this->redis->xRead($qnew)),0);
/* Test against a specific ID */
$id = $this->redis->xAdd('{stream}-1', '*', $row);
$new_id = $this->redis->xAdd('{stream}-1', '*', ['final' => 'row']);
$rmsg = $this->redis->xRead(['{stream}-1' => $id]);
$this->assertEquals(
$this->redis->xRead(['{stream}-1' => $id]),
['{stream}-1' => [$new_id => ['final' => 'row']]]
);
/* Emtpy query should fail */
$this->assertFalse($this->redis->xRead([]));
}
public function testXRead() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
foreach ($this->serializers as $serializer) {
$this->redis->setOption(Redis::OPT_SERIALIZER, $serializer);
$this->doXReadTest();
}
/* Don't need to test BLOCK multiple times */
$m1 = round(microtime(true)*1000);
$this->redis->xRead(['somestream' => '$'], -1, 100);
$m2 = round(microtime(true)*1000);
$this->assertTrue($m2 - $m1 >= 100);
}
protected function compareStreamIds($redis, $control) {
foreach ($control as $stream => $ids) {
$rcount = count($redis[$stream]);
$lcount = count($control[$stream]);
/* We should have the same number of messages */
$this->assertEquals($rcount, $lcount);
/* We should have the exact same IDs */
foreach ($ids as $k => $id) {
$this->assertTrue(isset($redis[$stream][$id]));
}
}
}
public function testXReadGroup() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
/* Create some streams and groups */
$streams = ['{s}-1', '{s}-2'];
$groups = ['g1' => 0, 'g2' => 0];
/* I'm not totally sure why Redis behaves this way, but we have to
* send '>' first and then send ID '0' for subsequent xReadGroup calls
* or Redis will not return any messages. This behavior changed from
* redis 5.0.1 and 5.0.2 but doing it this way works for both versions. */
$qcount = 0;
$query1 = ['{s}-1' => '>', '{s}-2' => '>'];
$query2 = ['{s}-1' => '0', '{s}-2' => '0'];
$ids = $this->addStreamsAndGroups($streams, 1, $groups);
/* Test that we get get the IDs we should */
foreach (['g1', 'g2'] as $group) {
foreach ($ids as $stream => $messages) {
while ($ids[$stream]) {
/* Read more messages */
$query = !$qcount++ ? $query1 : $query2;
$resp = $this->redis->xReadGroup($group, 'consumer', $query);
/* They should match with our local control array */
$this->compareStreamIds($resp, $ids);
/* Remove a message from our control *and* XACK it in Redis */
$id = array_shift($ids[$stream]);
$this->redis->xAck($stream, $group, [$id]);
}
}
}
/* Test COUNT option */
for ($c = 1; $c <= 3; $c++) {
$this->addStreamsAndGroups($streams, 3, $groups);
$resp = $this->redis->xReadGroup('g1', 'consumer', $query1, $c);
foreach ($resp as $stream => $smsg) {
$this->assertEquals(count($smsg), $c);
}
}
/* Test COUNT option with NULL (should be ignored) */
$this->addStreamsAndGroups($streams, 3, $groups, NULL);
$resp = $this->redis->xReadGroup('g1', 'consumer', $query1, NULL);
foreach ($resp as $stream => $smsg) {
$this->assertEquals(count($smsg), 3);
}
/* Finally test BLOCK with a sloppy timing test */
$t1 = $this->mstime();
$qnew = ['{s}-1' => '>', '{s}-2' => '>'];
$this->redis->xReadGroup('g1', 'c1', $qnew, NULL, 100);
$t2 = $this->mstime();
$this->assertTrue($t2 - $t1 >= 100);
/* Make sure passing NULL to block doesn't block */
$t1 = $this->mstime();
$this->redis->xReadGroup('g1', 'c1', $qnew, NULL, NULL);
$t2 = $this->mstime();
$this->assertTrue($t2 - $t1 < 100);
/* Make sure passing bad values to BLOCK or COUNT immediately fails */
$this->assertFalse(@$this->redis->xReadGroup('g1', 'c1', $qnew, -1));
$this->assertFalse(@$this->redis->xReadGroup('g1', 'c1', $qnew, NULL, -1));
}
public function testXPending() {
if (!$this->minVersionCheck("5.0")) {
return $this->markTestSkipped();
}
$rows = 5;
$this->addStreamsAndGroups(['s'], $rows, ['group' => 0]);
$msg = $this->redis->xReadGroup('group', 'consumer', ['s' => 0]);
$ids = array_keys($msg['s']);
for ($n = count($ids); $n >= 0; $n--) {
$xp = $this->redis->xPending('s', 'group');
$this->assertEquals($xp[0], count($ids));
/* Verify we're seeing the IDs themselves */
for ($idx = 1; $idx <= 2; $idx++) {
if ($xp[$idx]) {
$this->assertPatternMatch($xp[$idx], "/^[0-9].*-[0-9].*/");
}
}
if ($ids) {
$id = array_shift($ids);
$this->redis->xAck('s', 'group', [$id]);
}
}
}
public function testXDel() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
for ($n = 5; $n > 0; $n--) {
$ids = $this->addStreamEntries('s', 5);
$todel = array_slice($ids, 0, $n);
$this->assertEquals($this->redis->xDel('s', $todel), count($todel));
}
/* Empty array should fail */
$this->assertFalse($this->redis->xDel('s', []));
}
public function testXTrim() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
for ($maxlen = 0; $maxlen <= 50; $maxlen += 10) {
$this->addStreamEntries('stream', 100);
$trimmed = $this->redis->xTrim('stream', $maxlen);
$this->assertEquals($trimmed, 100 - $maxlen);
}
/* APPROX trimming isn't easily deterministic, so just make sure we
can call it with the flag */
$this->addStreamEntries('stream', 100);
$this->assertFalse($this->redis->xTrim('stream', 1, true) === false);
}
/* XCLAIM is one of the most complicated commands, with a great deal of different options
* The following test attempts to verify every combination of every possible option. */
public function testXClaim() {
if (!$this->minVersionCheck("5.0"))
return $this->markTestSkipped();
foreach ([0, 100] as $min_idle_time) {
foreach ([false, true] as $justid) {
foreach ([0, 10] as $retrycount) {
/* We need to test not passing TIME/IDLE as well as passing either */
if ($min_idle_time == 0) {
$topts = [[], ['IDLE', 1000000], ['TIME', time() * 1000]];
} else {
$topts = [NULL];
}
foreach ($topts as $tinfo) {
if ($tinfo) {
list($ttype, $tvalue) = $tinfo;
} else {
$ttype = NULL; $tvalue = NULL;
}
/* Add some messages and create a group */
$this->addStreamsAndGroups(['s'], 10, ['group1' => 0]);
/* Create a second stream we can FORCE ownership on */
$fids = $this->addStreamsAndGroups(['f'], 10, ['group1' => 0]);
$fids = $fids['f'];
/* Have consumer 'Mike' read the messages */
$oids = $this->redis->xReadGroup('group1', 'Mike', ['s' => '>']);
$oids = array_keys($oids['s']); /* We're only dealing with stream 's' */
/* Construct our options array */
$opts = [];
if ($justid) $opts[] = 'JUSTID';
if ($retrycount) $opts['RETRYCOUNT'] = $retrycount;
if ($tvalue !== NULL) $opts[$ttype] = $tvalue;
/* Now have pavlo XCLAIM them */
$cids = $this->redis->xClaim('s', 'group1', 'Pavlo', $min_idle_time, $oids, $opts);
if (!$justid) $cids = array_keys($cids);
if ($min_idle_time == 0) {
$this->assertEquals($cids, $oids);
/* Append the FORCE option to our second stream where we have not already
* assigned to a PEL group */
$opts[] = 'FORCE';
$freturn = $this->redis->xClaim('f', 'group1', 'Test', 0, $fids, $opts);
if (!$justid) $freturn = array_keys($freturn);
$this->assertEquals($freturn, $fids);
if ($retrycount || $tvalue !== NULL) {
$pending = $this->redis->xPending('s', 'group1', 0, '+', 1, 'Pavlo');
if ($retrycount) {
$this->assertEquals($pending[0][3], $retrycount);
}
if ($tvalue !== NULL) {
if ($ttype == 'IDLE') {
/* If testing IDLE the value must be >= what we set */
$this->assertTrue($pending[0][2] >= $tvalue);
} else {
/* Timing tests are notoriously irritating but I don't see
* how we'll get >= 20,000 ms between XCLAIM and XPENDING no
* matter how slow the machine/VM running the tests is */
$this->assertTrue($pending[0][2] <= 20000);
}
}
}
} else {
/* We're verifying that we get no messages when we've set 100 seconds
* as our idle time, which should match nothing */
$this->assertEquals($cids, []);
}
}
}
}
}
}
public function testXInfo()
{
if (!$this->minVersionCheck("5.0")) {
return $this->markTestSkipped();
}
/* Create some streams and groups */
$stream = 's';
$groups = ['g1' => 0, 'g2' => 0];
$this->addStreamsAndGroups([$stream], 1, $groups);
$info = $this->redis->xInfo('GROUPS', $stream);
$this->assertTrue(is_array($info));
$this->assertEquals(count($info), count($groups));
foreach ($info as $group) {
$this->assertTrue(array_key_exists('name', $group));
$this->assertTrue(array_key_exists($group['name'], $groups));
}
$info = $this->redis->xInfo('STREAM', $stream);
$this->assertTrue(is_array($info));
$this->assertTrue(array_key_exists('groups', $info));
$this->assertEquals($info['groups'], count($groups));
foreach (['first-entry', 'last-entry'] as $key) {
$this->assertTrue(array_key_exists($key, $info));
$this->assertTrue(is_array($info[$key]));
}
/* XINFO STREAM FULL [COUNT N] Requires >= 6.0.0 */
if (!$this->minVersionCheck("6.0"))
return;
/* Add some items to the stream so we can test COUNT */
for ($i = 0; $i < 5; $i++) {
$this->redis->xAdd($stream, '*', ['foo' => 'bar']);
}
$info = $this->redis->xInfo('STREAM', $stream, 'full');
$this->assertTrue(isset($info['groups']));
for ($count = 1; $count < 5; $count++) {
$info = $this->redis->xInfo('STREAM', $stream, 'full', $count);
$n = isset($info['entries']) ? count($info['entries']) : 0;
$this->assertEquals($n, $count);
}
/* Count <= 0 should be ignored */
foreach ([-1, 0] as $count) {
$info = $this->redis->xInfo('STREAM', $stream, 'full', 0);
$n = isset($info['entries']) ? count($info['entries']) : 0;
$this->assertEquals($n, $this->redis->xLen($stream));
}
}
/* Regression test for issue-1831 (XINFO STREAM on an empty stream) */
public function testXInfoEmptyStream() {
/* Configure an empty stream */
$this->redis->del('s');
$this->redis->xAdd('s', '*', ['foo' => 'bar']);
$this->redis->xTrim('s', 0);
$arr_info = $this->redis->xInfo('STREAM', 's');
$this->assertTrue(is_array($arr_info));
$this->assertEquals(0, $arr_info['length']);
$this->assertEquals(NULL, $arr_info['first-entry']);
$this->assertEquals(NULL, $arr_info['last-entry']);
}
public function testInvalidAuthArgs() {
$obj_new = $this->newInstance();
$arr_args = [
NULL,
[],
[NULL, NULL],
['foo', 'bar', 'baz'],
['a','b','c','d'],
['a','b','c'],
[['a','b'], 'a'],
[['a','b','c']],
[[NULL, 'pass']],
[[NULL, NULL]],
];
foreach ($arr_args as $arr_arg) {
try {
if (is_array($arr_arg)) {
@call_user_func_array([$obj_new, 'auth'], $arr_arg);
} else {
@call_user_func([$obj_new, 'auth']);
}
} catch (Exception $ex) {
unset($ex); /* Suppress intellisense warning */
} catch (ArgumentCountError $ex) {
unset($ex); /* Suppress intellisense warning */
}
}
}
public function testAcl() {
if ( ! $this->minVersionCheck("6.0"))
return $this->markTestSkipped();
/* ACL USERS/SETUSER */
$this->assertTrue(in_array('default', $this->redis->acl('USERS')));
$this->assertTrue($this->redis->acl('SETUSER', 'admin', 'on', '>admin', '+@all'));
$this->assertTrue($this->redis->acl('SETUSER', 'noperm', 'on', '>noperm', '-@all'));
$this->assertInArray('default', $this->redis->acl('USERS'));
/* Verify ACL GETUSER has the correct hash and is in 'nice' format */
$arr_admin = $this->redis->acl('GETUSER', 'admin');
$this->assertInArray(hash('sha256', 'admin'), $arr_admin['passwords']);
/* Now nuke our 'admin' user and make sure it went away */
$this->assertTrue($this->redis->acl('DELUSER', 'admin'));
$this->assertTrue(!in_array('admin', $this->redis->acl('USERS')));
/* Try to log in with a bad username/password */
$this->assertThrowsMatch($this->redis,
function($o) { $o->auth(['1337haxx00r', 'lolwut']); }, '/^WRONGPASS.*$/');
/* We attempted a bad login. We should have an ACL log entry */
$arr_log = $this->redis->acl('log');
if (! $arr_log || !is_array($arr_log)) {
$this->assertTrue(false);
return;
}
/* Make sure our ACL LOG entries are nice for the user */
$arr_entry = array_shift($arr_log);
$this->assertArrayKey($arr_entry, 'age-seconds', 'is_numeric');
$this->assertArrayKey($arr_entry, 'count', 'is_int');
/* ACL CAT */
$cats = $this->redis->acl('CAT');
foreach (['read', 'write', 'slow'] as $cat) {
$this->assertInArray($cat, $cats);
}
/* ACL CAT <string> */
$cats = $this->redis->acl('CAT', 'string');
foreach (['get', 'set', 'setnx'] as $cat) {
$this->assertInArray($cat, $cats);
}
/* ctype_xdigit even if PHP doesn't have it */
$ctype_xdigit = function($v) {
if (function_exists('ctype_xdigit')) {
return ctype_xdigit($v);
} else {
return strspn(strtoupper($v), '0123456789ABCDEF') == strlen($v);
}
};
/* ACL GENPASS/ACL GENPASS <bits> */
$this->assertValidate($this->redis->acl('GENPASS'), $ctype_xdigit);
$this->assertValidate($this->redis->acl('GENPASS', 1024), $ctype_xdigit);
/* ACL WHOAMI */
$this->assertValidate($this->redis->acl('WHOAMI'), 'strlen');
/* Finally make sure AUTH errors throw an exception */
$r2 = $this->newInstance(true);
/* Test NOPERM exception */
$this->assertTrue($r2->auth(['noperm', 'noperm']));
$this->assertThrowsMatch($r2, function($r) { $r->set('foo', 'bar'); }, '/^NOPERM.*$/');
}
/* If we detect a unix socket make sure we can connect to it in a variety of ways */
public function testUnixSocket() {
if ( ! file_exists("/tmp/redis.sock")) {
return $this->markTestSkipped();
}
$arr_sock_tests = [
["/tmp/redis.sock"],
["/tmp/redis.sock", null],
["/tmp/redis.sock", 0],
["/tmp/redis.sock", -1],
];
try {
foreach ($arr_sock_tests as $arr_args) {
$obj_r = new Redis();
if (count($arr_args) == 2) {
@$obj_r->connect($arr_args[0], $arr_args[1]);
} else {
@$obj_r->connect($arr_args[0]);
}
if ($this->getAuth()) {
$this->assertTrue($obj_r->auth($this->getAuth()));
}
$this->assertTrue($obj_r->ping());
}
} catch (Exception $ex) {
$this->assertTrue(false);
}
}
/* Test high ports if we detect Redis running there */
public function testHighPorts() {
$arr_ports = [32767, 32768, 32769];
$arr_test_ports = [];
foreach ($arr_ports as $port) {
if (is_resource(@fsockopen('localhost', $port))) {
$arr_test_ports[] = $port;
}
}
if ( ! $arr_test_ports) {
return $this->markTestSkipped();
}
foreach ($arr_test_ports as $port) {
$obj_r = new Redis();
try {
@$obj_r->connect('localhost', $port);
if ($this->getAuth()) {
$this->assertTrue($obj_r->auth($this->getAuth()));
}
$this->assertTrue($obj_r->ping());
} catch(Exception $ex) {
$this->assertTrue(false);
}
}
}
public function testSession_savedToRedis()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$sessionSuccessful = $this->startSessionProcess($sessionId, 0, false);
$this->assertTrue($this->redis->exists($this->sessionPrefix . $sessionId));
$this->assertTrue($sessionSuccessful);
}
public function testSession_lockKeyCorrect()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 5, true);
$maxwait = (ini_get('redis.session.lock_wait_time') *
ini_get('redis.session.lock_retries') /
1000000.00);
$exist = $this->waitForSessionLockKey($sessionId, $maxwait + 1);
$this->assertTrue($exist);
$this->redis->del($this->sessionPrefix . $sessionId . '_LOCK');
}
public function testSession_lockingDisabledByDefault()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 5, true, 300, false);
usleep(100000);
$start = microtime(true);
$sessionSuccessful = $sessionSuccessful = $this->startSessionProcess($sessionId, 0, false, 300, false);
$end = microtime(true);
$elapsedTime = $end - $start;
$this->assertFalse($this->redis->exists($this->sessionPrefix . $sessionId . '_LOCK'));
$this->assertTrue($elapsedTime < 1);
$this->assertTrue($sessionSuccessful);
}
public function testSession_lockReleasedOnClose()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 1, true);
$this->waitForProcess('startSession.php', 5);
$this->assertFalse($this->redis->exists($this->sessionPrefix . $sessionId . '_LOCK'));
}
public function testSession_lock_ttlMaxExecutionTime()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 10, true, 2);
usleep(100000);
$start = microtime(true);
$sessionSuccessful = $this->startSessionProcess($sessionId, 0, false);
$end = microtime(true);
$elapsedTime = $end - $start;
$this->assertTrue($elapsedTime < 3);
$this->assertTrue($sessionSuccessful);
}
public function testSession_lock_ttlLockExpire()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 10, true, 300, true, null, -1, 2);
usleep(100000);
$start = microtime(true);
$sessionSuccessful = $this->startSessionProcess($sessionId, 0, false);
$end = microtime(true);
$elapsedTime = $end - $start;
$this->assertTrue($elapsedTime < 3);
$this->assertTrue($sessionSuccessful);
}
public function testSession_lockHoldCheckBeforeWrite_otherProcessHasLock()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 2, true, 300, true, null, -1, 1, 'firstProcess');
usleep(1500000); // 1.5 sec
$writeSuccessful = $this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 10, 'secondProcess');
sleep(1);
$this->assertTrue($writeSuccessful);
$this->assertEquals('secondProcess', $this->getSessionData($sessionId));
}
public function testSession_lockHoldCheckBeforeWrite_nobodyHasLock()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$writeSuccessful = $this->startSessionProcess($sessionId, 2, false, 300, true, null, -1, 1, 'firstProcess');
$this->assertFalse($writeSuccessful);
$this->assertTrue('firstProcess' !== $this->getSessionData($sessionId));
}
public function testSession_correctLockRetryCount() {
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
/* Start another process and wait until it has the lock */
$this->startSessionProcess($sessionId, 10, true);
if ( ! $this->waitForSessionLockKey($sessionId, 2)) {
$this->assertTrue(false);
return;
}
$t1 = microtime(true);
$ok = $this->startSessionProcess($sessionId, 0, false, 10, true, 100000, 10);
if ( ! $this->assertFalse($ok)) return;
$t2 = microtime(true);
$this->assertTrue($t2 - $t1 >= 1 && $t2 - $t1 <= 3);
}
public function testSession_defaultLockRetryCount()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 10, true);
$keyname = $this->sessionPrefix . $sessionId . '_LOCK';
$begin = microtime(true);
if ( ! $this->waitForSessionLockKey($sessionId, 3)) {
$this->assertTrue(false);
return;
}
$start = microtime(true);
$sessionSuccessful = $this->startSessionProcess($sessionId, 0, false, 10, true, 200000, 0);
$end = microtime(true);
$elapsedTime = $end - $start;
$this->assertTrue($elapsedTime > 2 && $elapsedTime < 3);
$this->assertFalse($sessionSuccessful);
}
public function testSession_noUnlockOfOtherProcess()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$t1 = microtime(true);
/* 1. Start a background process, and wait until we are certain
* the lock was attained. */
$nsec = 3;
$this->startSessionProcess($sessionId, $nsec, true, $nsec);
if ( ! $this->waitForSessionLockKey($sessionId, 1)) {
$this->assertFalse(true);
return;
}
/* 2. Attempt to lock the same session. This should force us to
* wait until the first lock is released. */
$t2 = microtime(true);
$ok = $this->startSessionProcess($sessionId, 0, false);
$t3 = microtime(true);
/* 3. Verify that we did in fact have to wait for this lock */
$this->assertTrue($ok);
$this->assertTrue($t3 - $t2 >= $nsec - ($t2 - $t1));
}
public function testSession_lockWaitTime()
{
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 1, true, 300);
usleep(100000);
$start = microtime(true);
$sessionSuccessful = $this->startSessionProcess($sessionId, 0, false, 300, true, 3000000);
$end = microtime(true);
$elapsedTime = $end - $start;
$this->assertTrue($elapsedTime > 2.5);
$this->assertTrue($elapsedTime < 3.5);
$this->assertTrue($sessionSuccessful);
}
public function testMultipleConnect() {
$host = $this->redis->GetHost();
$port = $this->redis->GetPort();
for($i = 0; $i < 5; $i++) {
$this->redis->connect($host, $port);
if ($this->getAuth()) {
$this->assertTrue($this->redis->auth($this->getAuth()));
}
$this->assertTrue($this->redis->ping());
}
}
public function testConnectException() {
$host = 'github.com';
if (gethostbyname($host) === $host) {
return $this->markTestSkipped('online test');
}
$redis = new Redis();
try {
$redis->connect($host, 6379, 0.01);
} catch (Exception $e) {
$this->assertTrue(strpos($e, "timed out") !== false);
}
}
public function testTlsConnect()
{
if (($fp = @fsockopen($this->getHost(), 6378)) == NULL)
return $this->markTestSkipped();
fclose($fp);
foreach (['localhost' => true, '127.0.0.1' => false] as $host => $verify) {
$redis = new Redis();
$this->assertTrue($redis->connect('tls://' . $host, 6378, 0, null, 0, 0, [
'stream' => ['verify_peer_name' => $verify, 'verify_peer' => false]
]));
}
}
public function testSession_regenerateSessionId_noLock_noDestroy() {
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_noLock_withDestroy() {
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, false, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_withLock_noDestroy() {
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_withLock_withDestroy() {
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, true, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_noLock_noDestroy_withProxy() {
if (!interface_exists('SessionHandlerInterface')) {
$this->markTestSkipped('session handler interface not available in PHP < 5.4');
}
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, false, false, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_noLock_withDestroy_withProxy() {
if (!interface_exists('SessionHandlerInterface')) {
$this->markTestSkipped('session handler interface not available in PHP < 5.4');
}
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, false, true, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_withLock_noDestroy_withProxy() {
if (!interface_exists('SessionHandlerInterface')) {
$this->markTestSkipped('session handler interface not available in PHP < 5.4');
}
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, true, false, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_regenerateSessionId_withLock_withDestroy_withProxy() {
if (!interface_exists('SessionHandlerInterface')) {
$this->markTestSkipped('session handler interface not available in PHP < 5.4');
}
$this->setSessionHandler();
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 1, 'bar');
$newSessionId = $this->regenerateSessionId($sessionId, true, true, true);
$this->assertTrue($newSessionId !== $sessionId);
$this->assertEquals('bar', $this->getSessionData($newSessionId));
}
public function testSession_ttl_equalsToSessionLifetime()
{
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 0, 'test', 600);
$ttl = $this->redis->ttl($this->sessionPrefix . $sessionId);
$this->assertEquals(600, $ttl);
}
public function testSession_ttl_resetOnWrite()
{
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 0, 'test', 600);
$this->redis->expire($this->sessionPrefix . $sessionId, 9999);
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 0, 'test', 600);
$ttl = $this->redis->ttl($this->sessionPrefix . $sessionId);
$this->assertEquals(600, $ttl);
}
public function testSession_ttl_resetOnRead()
{
$sessionId = $this->generateSessionId();
$this->startSessionProcess($sessionId, 0, false, 300, true, null, -1, 0, 'test', 600);
$this->redis->expire($this->sessionPrefix . $sessionId, 9999);
$this->getSessionData($sessionId, 600);
$ttl = $this->redis->ttl($this->sessionPrefix . $sessionId);
$this->assertEquals(600, $ttl);
}
private function setSessionHandler()
{
$host = $this->getHost() ?: 'localhost';
@ini_set('session.save_handler', 'redis');
@ini_set('session.save_path', 'tcp://' . $host . ':6379');
}
/**
* @return string
*/
private function generateSessionId()
{
if (function_exists('session_create_id')) {
return session_create_id();
} else if (function_exists('random_bytes')) {
return bin2hex(random_bytes(8));
} else if (function_exists('openssl_random_pseudo_bytes')) {
return bin2hex(openssl_random_pseudo_bytes(8));
} else {
return uniqid();
}
}
/**
* @param string $sessionId
* @param int $sleepTime
* @param bool $background
* @param int $maxExecutionTime
* @param bool $locking_enabled
* @param int $lock_wait_time
* @param int $lock_retries
* @param int $lock_expires
* @param string $sessionData
*
* @param int $sessionLifetime
*
* @return bool
* @throws Exception
*/
private function startSessionProcess($sessionId, $sleepTime, $background, $maxExecutionTime = 300, $locking_enabled = true, $lock_wait_time = null, $lock_retries = -1, $lock_expires = 0, $sessionData = '', $sessionLifetime = 1440)
{
if (substr(php_uname(), 0, 7) == "Windows"){
$this->markTestSkipped();
return true;
} else {
$commandParameters = [$this->getFullHostPath(), $this->sessionSaveHandler, $sessionId, $sleepTime, $maxExecutionTime, $lock_retries, $lock_expires, $sessionData, $sessionLifetime];
if ($locking_enabled) {
$commandParameters[] = '1';
if ($lock_wait_time != null) {
$commandParameters[] = $lock_wait_time;
}
}
$commandParameters = array_map('escapeshellarg', $commandParameters);
$command = self::getPhpCommand('startSession.php') . implode(' ', $commandParameters);
$command .= $background ? ' 2>/dev/null > /dev/null &' : ' 2>&1';
exec($command, $output);
return ($background || (count($output) == 1 && $output[0] == 'SUCCESS')) ? true : false;
}
}
/**
* @param string $session_id
* @param string $max_wait_sec
*
* Sometimes we want to block until a session lock has been detected
* This is better and faster than arbitrarily sleeping. If we don't
* detect the session key within the specified maximum number of
* seconds, the function returns failure.
*
* @return bool
*/
private function waitForSessionLockKey($session_id, $max_wait_sec) {
$now = microtime(true);
$key = $this->sessionPrefix . $session_id . '_LOCK';
do {
usleep(10000);
$exists = $this->redis->exists($key);
} while (!$exists && microtime(true) <= $now + $max_wait_sec);
return $exists || $this->redis->exists($key);
}
/**
* @param string $str_search pattern to look for in ps
* @param int $timeout Maximum amount of time to wait
*
* Small helper function to wait until we no longer detect a running process.
* This is an attempt to fix timing related false failures on session tests
* when running in CI.
*/
function waitForProcess($str_search, $timeout = 0.0) {
$st = microtime(true);
do {
$str_procs = shell_exec("ps aux|grep $str_search|grep -v grep");
$arr_procs = array_filter(explode("\n", $str_procs));
if (count($arr_procs) == 0)
return true;
usleep(10000);
$elapsed = microtime(true) - $st;
} while ($timeout < 0 || $elapsed < $timeout);
return false;
}
/**
* @param string $sessionId
* @param int $sessionLifetime
*
* @return string
*/
private function getSessionData($sessionId, $sessionLifetime = 1440)
{
$command = self::getPhpCommand('getSessionData.php') . escapeshellarg($this->getFullHostPath()) . ' ' . $this->sessionSaveHandler . ' ' . escapeshellarg($sessionId) . ' ' . escapeshellarg($sessionLifetime);
exec($command, $output);
return $output[0];
}
/**
* @param string $sessionId
* @param bool $locking
* @param bool $destroyPrevious
* @param bool $sessionProxy
*
* @return string
*/
private function regenerateSessionId($sessionId, $locking = false, $destroyPrevious = false, $sessionProxy = false)
{
$args = array_map('escapeshellarg', [$sessionId, $locking, $destroyPrevious, $sessionProxy]);
$command = self::getPhpCommand('regenerateSessionId.php') . escapeshellarg($this->getFullHostPath()) . ' ' . $this->sessionSaveHandler . ' ' . implode(' ', $args);
exec($command, $output);
return $output[0];
}
/**
* Return command to launch PHP with built extension enabled
* taking care of environment (TEST_PHP_EXECUTABLE and TEST_PHP_ARGS)
*
* @param string $script
*
* @return string
*/
private function getPhpCommand($script)
{
static $cmd = NULL;
if (!$cmd) {
$cmd = (getenv('TEST_PHP_EXECUTABLE') ?: PHP_BINARY);
if ($test_args = getenv('TEST_PHP_ARGS')) {
$cmd .= ' ';
$cmd .= $test_args;
} else {
/* Only append specific extension directives if PHP hasn't been compiled with what we need statically */
$modules = shell_exec("$cmd --no-php-ini -m");
/* Determine if we need to specifically add extensions */
$arr_extensions = array_filter(
['redis', 'igbinary', 'msgpack', 'json'],
function ($module) use ($modules) {
return strpos($modules, $module) === false;
}
);
/* If any are needed add them to the command */
if ($arr_extensions) {
$cmd .= ' --no-php-ini';
foreach ($arr_extensions as $str_extension) {
/* We want to use the locally built redis extension */
if ($str_extension == 'redis') {
$str_extension = dirname(__DIR__) . '/modules/redis';
}
$cmd .= " --define extension=$str_extension.so";
}
}
}
}
return $cmd . ' ' . __DIR__ . '/' . $script . ' ';
}
}
?>
Zerion Mini Shell 1.0