Made some tests more robusts across platforms (#1092)

This commit is contained in:
Jenny Tam 2020-02-11 11:39:31 -08:00 committed by GitHub
parent 5455b4dcb8
commit 9534f7b96d
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
13 changed files with 134 additions and 100 deletions

View file

@ -9,6 +9,9 @@ No PDO::PARAM_ tpe specified when binding parameters
require_once("MsCommon_mid-refactor.inc");
require_once("AEData.inc");
$dataTypes = array("bit", "tinyint", "smallint", "int", "bigint", "decimal(18,5)", "numeric(10,5)", "float", "real");
// Note the size of a float is platform dependent, with a precision of roughly 14 digits
// http://php.net/manual/en/language.types.float.php
try {
$conn = connect();
foreach ($dataTypes as $dataType) {
@ -26,7 +29,7 @@ try {
if ($r === false) {
isIncompatibleTypesError($stmt, $dataType, "default type");
} else {
echo "****Encrypted default type is compatible with encrypted $dataType****\n";
echo "-----Encrypted default type is compatible with encrypted $dataType-----\n";
fetchAll($conn, $tbname);
}
dropTable($conn, $tbname);
@ -37,49 +40,49 @@ try {
echo $e->getMessage();
}
?>
--EXPECT--
--EXPECTREGEX--
Testing bit:
****Encrypted default type is compatible with encrypted bit****
-----Encrypted default type is compatible with encrypted bit-----
c_det: 1
c_rand: 0
Testing tinyint:
****Encrypted default type is compatible with encrypted tinyint****
-----Encrypted default type is compatible with encrypted tinyint-----
c_det: 0
c_rand: 255
Testing smallint:
****Encrypted default type is compatible with encrypted smallint****
-----Encrypted default type is compatible with encrypted smallint-----
c_det: -32767
c_rand: 32767
Testing int:
****Encrypted default type is compatible with encrypted int****
-----Encrypted default type is compatible with encrypted int-----
c_det: -2147483647
c_rand: 2147483647
Testing bigint:
****Encrypted default type is compatible with encrypted bigint****
-----Encrypted default type is compatible with encrypted bigint-----
c_det: -922337203685479936
c_rand: 922337203685479936
Testing decimal(18,5):
****Encrypted default type is compatible with encrypted decimal(18,5)****
c_det: -9223372036854.80000
c_rand: 9223372036854.80000
Testing decimal\(18,5\):
-----Encrypted default type is compatible with encrypted decimal\(18,5\)-----
c_det: -9223372036854\.80000
c_rand: 9223372036854\.80000
Testing numeric(10,5):
****Encrypted default type is compatible with encrypted numeric(10,5)****
c_det: -21474.83647
c_rand: 21474.83647
Testing numeric\(10,5\):
-----Encrypted default type is compatible with encrypted numeric\(10,5\)-----
c_det: -21474\.83647
c_rand: 21474\.83647
Testing float:
****Encrypted default type is compatible with encrypted float****
c_det: -9223372036.8547993
c_rand: 9223372036.8547993
-----Encrypted default type is compatible with encrypted float-----
c_det: (-9223372036\.8547993|-9223372036\.8547992)
c_rand: (9223372036\.8547993|9223372036\.8547992)
Testing real:
****Encrypted default type is compatible with encrypted real****
c_det: -2147.4829
c_rand: 2147.4829
-----Encrypted default type is compatible with encrypted real-----
c_det: (-2147\.4829|-2147\.483)
c_rand: (2147\.4829|2147\.483)

View file

@ -80,34 +80,34 @@ try {
}
?>
--EXPECT--
--EXPECTF--
Prepare without emulate prepare:
Array
(
[c1_decimal] => 422
[c2_money] => 132.2220
[c3_float] => 622.22000000000003
[c3_float] => 622.22%S
)
Prepare with emulate prepare and no bind param options:
Array
(
[c1_decimal] => 422
[c2_money] => 132.2220
[c3_float] => 622.22000000000003
[c3_float] => 622.22%S
)
Prepare with emulate prepare and SQLSRV_ENCODING_SYSTEM:
Array
(
[c1_decimal] => 422
[c2_money] => 132.2220
[c3_float] => 622.22000000000003
[c3_float] => 622.22%S
)
Prepare with emulate prepare and SQLSRV_ENCODING_UTF8:
Array
(
[c1_decimal] => 422
[c2_money] => 132.2220
[c3_float] => 622.22000000000003
[c3_float] => 622.22%S
)
Prepare with emulate prepare and SQLSRV_ENCODING_BINARY:
No results for this query

View file

@ -79,34 +79,34 @@ try {
}
?>
--EXPECT--
--EXPECTF--
Prepare without emulate prepare:
Array
(
[c1_decimal] => 411
[c2_money] => 131.1100
[c3_float] => 611.11099999999999
[c3_float] => 611.1109999999999%d
)
Prepare with emulate prepare and no bind param options:
Array
(
[c1_decimal] => 411
[c2_money] => 131.1100
[c3_float] => 611.11099999999999
[c3_float] => 611.1109999999999%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_SYSTEM:
Array
(
[c1_decimal] => 411
[c2_money] => 131.1100
[c3_float] => 611.11099999999999
[c3_float] => 611.1109999999999%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_UTF8:
Array
(
[c1_decimal] => 411
[c2_money] => 131.1100
[c3_float] => 611.11099999999999
[c3_float] => 611.1109999999999%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_BINARY:
No results for this query

View file

@ -80,34 +80,34 @@ try {
}
?>
--EXPECT--
--EXPECTF--
Prepare without emulate prepare:
Array
(
[c1_decimal] => 433
[c2_money] => 133.3333
[c3_float] => 633.33333000000005
[c3_float] => 633.3333300000000%d
)
Prepare with emulate prepare and no bind param options:
Array
(
[c1_decimal] => 433
[c2_money] => 133.3333
[c3_float] => 633.33333000000005
[c3_float] => 633.3333300000000%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_SYSTEM:
Array
(
[c1_decimal] => 433
[c2_money] => 133.3333
[c3_float] => 633.33333000000005
[c3_float] => 633.3333300000000%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_UTF8:
Array
(
[c1_decimal] => 433
[c2_money] => 133.3333
[c3_float] => 633.33333000000005
[c3_float] => 633.3333300000000%d
)
Prepare with emulate prepare and SQLSRV_ENCODING_BINARY:
No results for this query

View file

@ -47,6 +47,10 @@ try {
verifyResult($result);
// test not streamable types
// The size of a float is platform dependent, with a precision of roughly 14 digits
// http://php.net/manual/en/language.types.float.php
// For example, the input value for column [real_type] in setup\test_types.sql is 1.18E-38
// but in some distros the fetched value is 1.1799999E-38
$tsql = "SELECT * FROM [test_types]";
$stmt = $conn->query($tsql);
$result = $stmt->fetch(PDO::FETCH_NUM);
@ -60,19 +64,19 @@ unset($stmt);
unset($conn);
?>
--EXPECT--
--EXPECTREGEX--
Array
(
[0] => 9223372036854775807
[1] => 2147483647
[2] => 32767
[3] => 255
[4] => 1
[5] => 9999999999999999999999999999999999999
[6] => 922337203685477.5807
[7] => 214748.3647
[8] => 1.79E+308
[9] => 1.1799999E-38
[10] => 1968-12-12 16:20:00.000
[11] =>
)
\(
\[0\] => 9223372036854775807
\[1\] => 2147483647
\[2\] => 32767
\[3\] => 255
\[4\] => 1
\[5\] => 9999999999999999999999999999999999999
\[6\] => 922337203685477\.5807
\[7\] => 214748\.3647
\[8\] => 1\.79E\+308
\[9\] => (1\.18E-38|1\.1799999E-38)
\[10\] => 1968-12-12 16:20:00.000
\[11\] =>
\)

View file

@ -180,9 +180,9 @@ array(2) {
[5]=>
string(10) "STRINGCOL2"
["FloatCol"]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
[6]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
["XmlCol"]=>
string(431) "<xml> 2 This is a really large string used to test certain large data types like xml data type. The length of this string is greater than 256 to correctly test a large data type. This is currently used by atleast varchar type and by xml type. The fetch tests are the primary consumer of this string to validate that fetch on large types work fine. The length of this string as counted in terms of number of characters is 417.</xml>"
[7]=>
@ -395,7 +395,7 @@ object(stdClass)#%x (%x) {
["NVarCharCol"]=>
string(10) "STRINGCOL2"
["FloatCol"]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
["XmlCol"]=>
string(431) "<xml> 2 This is a really large string used to test certain large data types like xml data type. The length of this string is greater than 256 to correctly test a large data type. This is currently used by atleast varchar type and by xml type. The fetch tests are the primary consumer of this string to validate that fetch on large types work fine. The length of this string as counted in terms of number of characters is 417.</xml>"
}
@ -414,7 +414,7 @@ array(8) {
[5]=>
string(10) "STRINGCOL2"
[6]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
[7]=>
string(431) "<xml> 2 This is a really large string used to test certain large data types like xml data type. The length of this string is greater than 256 to correctly test a large data type. This is currently used by atleast varchar type and by xml type. The fetch tests are the primary consumer of this string to validate that fetch on large types work fine. The length of this string as counted in terms of number of characters is 417.</xml>"
}
@ -425,7 +425,7 @@ string(10) "STRINGCOL2"
string(23) "2000-11-11 11:11:11.223"
string(10) "STRINGCOL2"
string(10) "STRINGCOL2"
string(18) "222.22200000000001"
string(%d) "222.222%S"
string(431) "<xml> 2 This is a really large string used to test certain large data types like xml data type. The length of this string is greater than 256 to correctly test a large data type. This is currently used by atleast varchar type and by xml type. The fetch tests are the primary consumer of this string to validate that fetch on large types work fine. The length of this string as counted in terms of number of characters is 417.</xml>"
Test_9 : FETCH_INVALID :

View file

@ -31,7 +31,7 @@ try {
var_dump($e);
}
?>
--EXPECT--
--EXPECTF--
array(1) {
[0]=>
array(62) {
@ -224,9 +224,9 @@ array(2) {
[5]=>
string(10) "STRINGCOL2"
["FloatCol"]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
[6]=>
string(18) "222.22200000000001"
string(%d) "222.222%S"
["XmlCol"]=>
string(431) "<xml> 2 This is a really large string used to test certain large data types like xml data type. The length of this string is greater than 256 to correctly test a large data type. This is currently used by atleast varchar type and by xml type. The fetch tests are the primary consumer of this string to validate that fetch on large types work fine. The length of this string as counted in terms of number of characters is 417.</xml>"
[7]=>

View file

@ -12,7 +12,12 @@ Test for integer, float, and datetime types vs various sql server types.
require( 'MsCommon.inc' );
function get_fields( $stmt ) {
$epsilon = 0.00001;
$decimals = ['9999999999999999999999999999999999999', '-10000000000000000000000000000000000001', '0'];
function get_fields( $stmt, $round ) {
global $epsilon, $decimals;
// bigint
$field = sqlsrv_get_field( $stmt, 0, SQLSRV_PHPTYPE_INT );
@ -71,7 +76,22 @@ function get_fields( $stmt ) {
}
else {
var_dump( sqlsrv_errors( SQLSRV_ERR_WARNINGS ) );
echo "$field\n";
// The size of a float is platform dependent, with a precision of roughly 14 digits
// http://php.net/manual/en/language.types.float.php
// For example, in Ubuntu 18.04 or macOS Mojave the returned value is 1.0E+37 or -1.0E+37
// but in Alpine Linux it is 9.9999999999997E+36 or -9.9999999999997E+36
if ($decimals[$round] == '0') {
if ($field != 0) {
echo "Expected 0 but got $field\n";
}
} else {
$expected = floatval($decimals[$round]);
$diff = abs(($field - $expected) / $expected);
if ($diff > $epsilon) {
echo "Expected $expected but got $field -- difference is $diff\n";
}
}
}
// datetime
@ -147,7 +167,7 @@ function get_fields( $stmt ) {
}
// maximum values
get_fields( $stmt );
get_fields( $stmt, 0 );
$success = sqlsrv_fetch( $stmt );
if( !$success ) {
@ -156,7 +176,7 @@ function get_fields( $stmt ) {
}
// minimum values
get_fields( $stmt );
get_fields( $stmt, 1 );
$success = sqlsrv_fetch( $stmt );
if( !$success ) {
@ -165,7 +185,7 @@ function get_fields( $stmt ) {
}
// zero values
get_fields( $stmt );
get_fields( $stmt, 2 );
$stmt = sqlsrv_query( $conn, "SELECT int_type, decimal_type, datetime_type, real_type FROM [test_types]" );
if( !$stmt ) {
@ -258,7 +278,6 @@ NULL
NULL
1
NULL
1.0E+37
NULL
12/12/1968 04:20:00
NULL
@ -296,7 +315,6 @@ NULL
NULL
0
NULL
-1.0E+37
NULL
12/12/1968 04:20:00
NULL
@ -319,7 +337,6 @@ NULL
NULL
0
NULL
0
NULL
12/12/1968 04:20:00
NULL

View file

@ -84,6 +84,12 @@ function isDaasMode()
return ($daasMode ? true : false);
}
function isLocaleDisabled()
{
global $daasMode, $localeDisabled;
return ($daasMode || $localeDisabled);
}
function isSQLAzure()
{
// 'SQL Azure' indicates SQL Database or SQL Data Warehouse
@ -491,10 +497,11 @@ function handleErrors()
function setUSAnsiLocale()
{
// Do not run locale tests in Azure
if (isDaasMode()) {
// Do not run locale tests if locale disabled
if (isLocaleDisabled()) {
return;
}
if (!isWindows()) {
// macOS the locale names are different in Linux or macOS
$locale = strtoupper(PHP_OS) === 'LINUX' ? "en_US.ISO-8859-1" : "en_US.ISO8859-1";
@ -505,8 +512,8 @@ function setUSAnsiLocale()
function resetLocaleToDefault()
{
// Do not run locale tests in Azure
if (isDaasMode()) {
// Do not run locale tests if locale disabled
if (isLocaleDisabled()) {
return;
}
// Like setUSAnsiLocale() above, this method is only needed in non-Windows environment
@ -522,8 +529,8 @@ function isLocaleSupported()
if (isWindows()) {
return true;
}
// Do not run locale tests in Azure
if (isDaasMode()) {
// Do not run locale tests if locale disabled
if (isLocaleDisabled()) {
return false;
}
if (AE\isDataEncrypted()) {

View file

@ -25,6 +25,7 @@ $daasMode = false;
$marsMode = true;
$traceEnabled = false;
$localeDisabled = false;
$adServer = 'TARGET_AD_SERVER';
$adDatabase = 'TARGET_AD_DATABASE';

View file

@ -268,7 +268,7 @@ NULL
NULL
1
NULL
1\.0E\+37
(1\.0E\+37|9.9999999999997E\+36)
NULL
12\/12\/1968 04\:20\:00
NULL
@ -306,7 +306,7 @@ NULL
NULL
0
NULL
\-1\.0E\+37
(\-1\.0E\+37|-9.9999999999997E\+36)
NULL
12\/12\/1968 04\:20\:00
NULL

View file

@ -7,21 +7,24 @@ Intentionally provide an invalid server name and set LoginTimeout. Verify the ti
--FILE--
<?php
require_once('MsSetup.inc');
$serverName = "WRONG_SERVER_NAME";
// Based on the following reference, a login timeout of less than approximately 10 seconds
// is not reliable. The defaut is 15 seconds so we fix it at 20 seconds.
// https://docs.microsoft.com/sql/connect/odbc/windows/features-of-the-microsoft-odbc-driver-for-sql-server-on-windows
$timeout = 20;
$maxAttempts = 3;
$numAttempts = 0;
$leeway = 1.0;
// The difference in time elapsed is platform dependent, and in some distros, such as Alpine or Suse, extra delay may be caused by the attempts to resolve non-existent hostnames
// Set leeway to 2 seconds to allow some room of such errors
$leeway = 2.0;
$missed = false;
do {
$t0 = microtime(true);
$conn = sqlsrv_connect($serverName , array("LoginTimeout" => $timeout));
$numAttempts++;
@ -38,7 +41,7 @@ do {
echo "Connection failed at $elapsed secs. Leeway is $leeway sec but the difference is $diff\n";
} else {
// The test will fail but this helps us decide if this test should be redesigned
echo "$numAttempts\t";
echo "Attempts: $numAttempts, Time difference: $diff\n";
sleep(5);
}
}

View file

@ -67,6 +67,10 @@ var_dump($array);
$array = sqlsrv_fetch_array($stmt, SQLSRV_FETCH_NUMERIC);
var_dump($array);
// The size of a float is platform dependent, with a precision of roughly 14 digits
// http://php.net/manual/en/language.types.float.php
$epsilon = 0.00001;
$numFields = sqlsrv_num_fields($stmt);
$meta = sqlsrv_field_metadata($stmt);
$rowcount = sqlsrv_num_rows($stmt);
@ -81,8 +85,21 @@ for ($i = 0; $i < $rowcount; $i++) {
$field = sqlsrv_get_field($stmt, $j, SQLSRV_PHPTYPE_INT);
var_dump($field);
}
$field = sqlsrv_get_field($stmt, $j, SQLSRV_PHPTYPE_FLOAT);
var_dump($field);
$field1 = sqlsrv_get_field($stmt, $j, SQLSRV_PHPTYPE_FLOAT);
if ($j > 5) {
// these are the zero fields
$expected = 0.0;
if ($field1 !== $expected) {
echo "Expected $expected but got $field1\n";
}
} else {
$expected = floatval($field);
$diff = abs(($field1 - $expected) / $expected);
if ($diff > $epsilon) {
echo "Expected $expected but got $field1 -- difference is $diff\n";
}
}
}
}
@ -136,78 +153,60 @@ array(9) {
column: a
string(15) "1234567890.1234"
float(1234567890.1234)
column: neg_a
string(16) "-1234567890.1234"
float(-1234567890.1234)
column: b
string(1) "1"
int(1)
float(1)
column: neg_b
string(2) "-1"
int(-1)
float(-1)
column: c
string(7) ".500000"
float(0.5)
column: neg_c
string(8) "-.550000"
float(-0.55)
column: zero
string(1) "0"
int(0)
float(0)
column: zerof
string(1) "0"
float(0)
column: zerod
string(7) ".000000"
float(0)
column: a
string(3) "0.5"
float(0.5)
column: neg_a
string(5) "-0.55"
float(-0.55)
column: b
string(6) "100000"
int(100000)
float(100000)
column: neg_b
string(8) "-1234567"
int(-1234567)
float(-1234567)
column: c
string(17) "1234567890.123400"
float(1234567890.1234)
column: neg_c
string(18) "-1234567890.123400"
float(-1234567890.1234)
column: zero
string(1) "0"
int(0)
float(0)
column: zerof
string(1) "0"
float(0)
column: zerod
string(7) ".000000"
float(0)
string(7) ".000000"