open62541/tests/check_builtin.c

/*
 ============================================================================
 Name        : check_builtin.c
 Author      :
 Copyright   : Your copyright notice
 Description :
 ============================================================================
 */

#include <stdio.h>
#include <stdlib.h>
#include "opcua.h"
#include "ua_transport.h"
#include "check.h"


START_TEST(UA_Boolean_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Boolean* arg = UA_NULL;
	// when
	UA_Boolean storageSize = UA_Boolean_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, 1);
}
END_TEST

START_TEST(UA_SByte_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_SByte* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_SByte_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 1);
}
END_TEST
START_TEST(UA_Byte_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Byte* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Byte_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 1);
}
END_TEST
START_TEST(UA_Int16_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Int16* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Int16_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 2);
}
END_TEST
START_TEST(UA_UInt16_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_UInt16* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_UInt16_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 2);
}
END_TEST
START_TEST(UA_Int32_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Int32* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Int32_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 4);
}
END_TEST
START_TEST(UA_UInt32_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_UInt32* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_UInt32_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 4);
}
END_TEST
START_TEST(UA_Int64_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Int64* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Int64_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 8);
}
END_TEST
START_TEST(UA_UInt64_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_UInt64* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_UInt64_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 8);
}
END_TEST
START_TEST(UA_Float_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Float* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Float_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 4);
}
END_TEST
START_TEST(UA_Double_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Double* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Double_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 8);
}
END_TEST
START_TEST(UA_String_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_String* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_String_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_String));
	ck_assert_int_ge(storageSize, UA_Int32_calcSize(UA_NULL) + sizeof(UA_NULL));
}
END_TEST
START_TEST(UA_DateTime_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_DateTime* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_DateTime_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 8);
}
END_TEST
START_TEST(UA_Guid_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Guid* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Guid_calcSize(arg);
	// then
	ck_assert_int_ge(storageSize, 16);
}
END_TEST
START_TEST(UA_ByteString_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_ByteString* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_ByteString_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_ByteString));
	ck_assert_int_ge(storageSize, UA_Int32_calcSize(UA_NULL)+sizeof(UA_NULL));
}
END_TEST
START_TEST(UA_XmlElement_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_XmlElement* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_XmlElement_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_XmlElement));
	ck_assert_int_ge(storageSize, UA_Int32_calcSize(UA_NULL)+sizeof(UA_NULL));
}
END_TEST
START_TEST(UA_NodeId_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_NodeId* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_NodeId_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_NodeId));
}
END_TEST
START_TEST(UA_ExpandedNodeId_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_ExpandedNodeId* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_ExpandedNodeId_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_ExpandedNodeId));
}
END_TEST
START_TEST(UA_StatusCode_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_StatusCode* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_StatusCode_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_StatusCode));
}
END_TEST
START_TEST(UA_QualifiedName_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_QualifiedName* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_QualifiedName_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_QualifiedName));
}
END_TEST
START_TEST(UA_LocalizedText_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_LocalizedText* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_LocalizedText_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_LocalizedText));
}
END_TEST
START_TEST(UA_ExtensionObject_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_ExtensionObject* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_ExtensionObject_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_ExtensionObject));
}
END_TEST
START_TEST(UA_ExtensionObject_calcSizeShallWorkOnExample)
{
	// given
	UA_Byte data[3] = {1,2,3};
	UA_ExtensionObject extensionObject;

	// empty ExtensionObject, handcoded
	// when
	extensionObject.typeId.encodingByte = UA_NODEIDTYPE_TWOBYTE;
	extensionObject.typeId.identifier.numeric = 0;
	extensionObject.encoding = UA_EXTENSIONOBJECT_ENCODINGMASK_NOBODYISENCODED;
	// then
	ck_assert_int_eq(UA_ExtensionObject_calcSize(&extensionObject), 1 + 1 + 1);

	// ExtensionObject with ByteString-Body
	// when
	extensionObject.encoding = UA_EXTENSIONOBJECT_ENCODINGMASK_BODYISBYTESTRING;
	extensionObject.body.data = data;
	extensionObject.body.length = 3;
	// then
	ck_assert_int_eq(UA_ExtensionObject_calcSize(&extensionObject), 3 + 4 + 3);
}
END_TEST
START_TEST(UA_DataValue_calcSizeShallWorkOnExample)
{
	// given
	UA_DataValue dataValue;
	dataValue.encodingMask = UA_DATAVALUE_ENCODINGMASK_STATUSCODE |  UA_DATAVALUE_ENCODINGMASK_SOURCETIMESTAMP |  UA_DATAVALUE_ENCODINGMASK_SOURCEPICOSECONDS;
	dataValue.status = 12;
	UA_DateTime dateTime;
	dateTime = 80;
	dataValue.sourceTimestamp = dateTime;
	UA_DateTime sourceTime;
	sourceTime = 214;
	dataValue.sourcePicoseconds = sourceTime;
	int size = 0;
	// when
	size = UA_DataValue_calcSize(&dataValue);
	// then
	ck_assert_int_eq(size, 21);
}
END_TEST
START_TEST(UA_DataValue_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_DataValue* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_DataValue_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_DataValue));
}
END_TEST
START_TEST(UA_Variant_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_Variant* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_Variant_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_Variant));
}
END_TEST
START_TEST(UA_DiagnosticInfo_calcSizeShallWorkOnExample)
{
	// given
	UA_DiagnosticInfo diagnosticInfo;
	diagnosticInfo.encodingMask = 0x01 | 0x02 | 0x04 | 0x08 | 0x10;
	diagnosticInfo.symbolicId = 30;
	diagnosticInfo.namespaceUri = 25;
	diagnosticInfo.localizedText = 22;
	UA_Byte additionalInfoData = 'd';
	diagnosticInfo.additionalInfo.data = &additionalInfoData;//"OPCUA";
	diagnosticInfo.additionalInfo.length = 5;
	// when & then
	ck_assert_int_eq(UA_DiagnosticInfo_calcSize(&diagnosticInfo),26);
}
END_TEST
START_TEST(UA_DiagnosticInfo_calcSizeWithNullArgumentShallReturnStorageSize)
{
	// given
	UA_DiagnosticInfo* arg = UA_NULL;
	// when
	UA_Int32 storageSize = UA_DiagnosticInfo_calcSize(arg);
	// then
	ck_assert_int_eq(storageSize, sizeof(UA_DiagnosticInfo));
}
END_TEST
START_TEST(UA_String_calcSizeWithNegativLengthShallReturnEncodingSize)
{
	// given
	UA_String arg = {-1, UA_NULL};
	// when
	UA_Int32 encodingSize = UA_String_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4);
}
END_TEST
START_TEST(UA_String_calcSizeWithNegativLengthAndValidPointerShallReturnEncodingSize)
{
	// given
	UA_String arg = {-1, (UA_Byte*) "OPC"};
	// when
	UA_Int32 encodingSize = UA_String_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4);
}
END_TEST
START_TEST(UA_String_calcSizeWithZeroLengthShallReturnEncodingSize)
{
	// given
	UA_String arg = {0, UA_NULL};
	// when
	UA_Int32 encodingSize = UA_String_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4);
}
END_TEST
START_TEST(UA_String_calcSizeWithZeroLengthAndValidPointerShallReturnEncodingSize)
{
	// given
	UA_String arg = {0, (UA_Byte*) "OPC"};
	// when
	UA_Int32 encodingSize = UA_String_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4);
}
END_TEST
START_TEST(UA_String_calcSizeShallReturnEncodingSize)
{
	// given
	UA_String arg = {3, (UA_Byte*) "OPC"};
	// when
	UA_Int32 encodingSize = UA_String_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4+3);
}
END_TEST
START_TEST(UA_NodeId_calcSizeEncodingTwoByteShallReturnEncodingSize)
{
	// given
	UA_NodeId arg;
	arg.encodingByte = UA_NODEIDTYPE_TWOBYTE;
	// when
	UA_Int32 encodingSize = UA_NodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 2);
}
END_TEST
START_TEST(UA_NodeId_calcSizeEncodingFourByteShallReturnEncodingSize)
{
	// given
	UA_NodeId arg;
	arg.encodingByte = UA_NODEIDTYPE_FOURBYTE;
	// when
	UA_Int32 encodingSize = UA_NodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 4);
}
END_TEST
START_TEST(UA_NodeId_calcSizeEncodingStringShallReturnEncodingSize)
{
	// given
	UA_NodeId arg;
	arg.encodingByte = UA_NODEIDTYPE_STRING;
	arg.identifier.string.length = 3;
	arg.identifier.string.data = (UA_Byte*) "PLT";
	// when
	UA_Int32 encodingSize = UA_NodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+2+4+3);
}
END_TEST
START_TEST(UA_NodeId_calcSizeEncodingStringNegativLengthShallReturnEncodingSize)
{
	// given
	UA_NodeId arg;
	arg.encodingByte = UA_NODEIDTYPE_STRING;
	arg.identifier.string.length = -1;
	// when
	UA_Int32 encodingSize = UA_NodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+2+4+0);
}
END_TEST
START_TEST(UA_NodeId_calcSizeEncodingStringZeroLengthShallReturnEncodingSize)
{
	// given
	UA_NodeId arg;
	arg.encodingByte = UA_NODEIDTYPE_STRING;
	arg.identifier.string.length = 0;
	// when
	UA_Int32 encodingSize = UA_NodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+2+4+0);
}
END_TEST
START_TEST(UA_ExpandedNodeId_calcSizeEncodingStringAndServerIndexShallReturnEncodingSize)
{
	// given
	UA_ExpandedNodeId arg;
	arg.nodeId.encodingByte = UA_NODEIDTYPE_STRING | UA_NODEIDTYPE_SERVERINDEX_FLAG;
	arg.nodeId.identifier.string.length = 3;
	// when
	UA_Int32 encodingSize = UA_ExpandedNodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+2+4+3+4);
}
END_TEST
START_TEST(UA_ExpandedNodeId_calcSizeEncodingStringAndNamespaceUriShallReturnEncodingSize)
{
	// given
	UA_ExpandedNodeId arg;
	arg.nodeId.encodingByte = UA_NODEIDTYPE_STRING | UA_NODEIDTYPE_NAMESPACE_URI_FLAG;
	arg.nodeId.identifier.string.length = 3;
	arg.namespaceUri.length = 7;
	// when
	UA_Int32 encodingSize = UA_ExpandedNodeId_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+2+4+3+4+7);
}
END_TEST
START_TEST(UA_Guid_calcSizeShallReturnEncodingSize)
{
	// given
	UA_Guid arg;
	// when
	UA_Int32 encodingSize = UA_Guid_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 16);
}
END_TEST
START_TEST(UA_LocalizedText_calcSizeTextOnlyShallReturnEncodingSize)
{
	// given
	UA_LocalizedText arg;
	arg.encodingMask = UA_LOCALIZEDTEXT_ENCODINGMASKTYPE_TEXT;
	arg.text.length = 42;
	// when
	UA_Int32 encodingSize = UA_LocalizedText_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+4+42);
}
END_TEST
START_TEST(UA_LocalizedText_calcSizeLocaleOnlyShallReturnEncodingSize)
{
	// given
	UA_LocalizedText arg;
	arg.encodingMask = UA_LOCALIZEDTEXT_ENCODINGMASKTYPE_LOCALE;
	arg.locale.length = 11;
	// when
	UA_Int32 encodingSize = UA_LocalizedText_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+4+11);
}
END_TEST
START_TEST(UA_LocalizedText_calcSizeTextAndLocaleShallReturnEncodingSize)
{
	// given
	UA_LocalizedText arg;
	arg.encodingMask = UA_LOCALIZEDTEXT_ENCODINGMASKTYPE_LOCALE | UA_LOCALIZEDTEXT_ENCODINGMASKTYPE_TEXT;
	arg.text.length = 47;
	arg.locale.length = 11;
	// when
	UA_Int32 encodingSize = UA_LocalizedText_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+4+11+4+47);
}
END_TEST
START_TEST(UA_Variant_calcSizeFixedSizeArrayShallReturnEncodingSize)
{
	// given
	UA_Variant arg;
	arg.encodingMask = UA_INT32_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY;
	arg.vt = &UA_[UA_INT32];
#define ARRAY_LEN 8
	arg.arrayLength = ARRAY_LEN;
	UA_Int32* data[ARRAY_LEN];
	arg.data = (void**) &data;
	// when
	UA_Int32 encodingSize = UA_Variant_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+4+ARRAY_LEN*4);
#undef ARRAY_LEN
}
END_TEST
START_TEST(UA_Variant_calcSizeVariableSizeArrayShallReturnEncodingSize)
{
	// given
	UA_Variant arg;
	arg.encodingMask = UA_STRING_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY;
	arg.vt = &UA_[UA_STRING];
#define ARRAY_LEN 3
	arg.arrayLength = ARRAY_LEN;
	UA_String s1 = {-1, UA_NULL };
	UA_String s2 = {3, (UA_Byte*) "PLT" };
	UA_String s3 = {47, UA_NULL };
	UA_String* data[ARRAY_LEN] = { &s1, &s2, &s3 };
	arg.data = (void**) &data;
	// when
	UA_Int32 encodingSize = UA_Variant_calcSize(&arg);
	// then
	ck_assert_int_eq(encodingSize, 1+4+(4+0)+(4+3)+(4+47));
#undef ARRAY_LEN
}
END_TEST
START_TEST(UA_Variant_calcSizeVariableSizeArrayWithNullPtrWillReturnWrongButLargeEnoughEncodingSize)
{
	// given
	UA_Variant arg;
	arg.encodingMask = UA_STRING_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY;
	arg.vt = &UA_[UA_STRING];
#define ARRAY_LEN 6
	arg.arrayLength = ARRAY_LEN;
	UA_String s1 = {-1, UA_NULL };
	UA_String s2 = {3, (UA_Byte*) "PLT" };
	UA_String s3 = {47, UA_NULL };
	UA_String* data[ARRAY_LEN] = { &s1, &s2, &s3 }; // will be filled with null-ptrs
	arg.data = (void**) &data;
	// when
	UA_Int32 encodingSize = UA_Variant_calcSize(&arg);
	// then
	ck_assert_int_ge(encodingSize, 1+4+(4+0)+(4+3)+(4+47)+(ARRAY_LEN-3)*(4+0));
#undef ARRAY_LEN
}
END_TEST
START_TEST(UA_Byte_decodeShallCopyAndAdvancePosition)
{
	// given
	UA_Byte dst;
	UA_Byte data[]= { 0x08 };
	UA_ByteString src = {1, data};
	UA_Int32 pos = 0;
	// when
	UA_Int32 retval = UA_Byte_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval, UA_SUCCESS);
	ck_assert_uint_eq(pos, 1);
	ck_assert_uint_eq(dst, 0x08);
}
END_TEST
START_TEST(UA_Byte_decodeShallModifyOnlyCurrentPosition)
{
	// given
	UA_Byte dst[] = { 0xFF, 0xFF, 0xFF };
	UA_Byte data[] = { 0x08 };
	UA_ByteString src = {1, data};
	UA_Int32 pos = 0;
	// when
	UA_Int32 retval = UA_Byte_decodeBinary(&src, &pos, &dst[1]);
	// then
	ck_assert_int_eq(retval, UA_SUCCESS);
	ck_assert_int_eq(pos, 1);
	ck_assert_uint_eq(dst[0], 0xFF);
	ck_assert_uint_eq(dst[1], 0x08);
	ck_assert_uint_eq(dst[2], 0xFF);
}
END_TEST
START_TEST(UA_Int16_decodeShallAssumeLittleEndian)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0x01,0x00,	// 1
			0x00,0x01	// 256
	};
	UA_ByteString src = { 4, data };
	// when
	UA_Int16 val_01_00, val_00_01;
	UA_Int32 retval = UA_Int16_decodeBinary(&src,&pos,&val_01_00);
	retval |= UA_Int16_decodeBinary(&src,&pos,&val_00_01);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(val_01_00,1);
	ck_assert_int_eq(val_00_01,256);
	ck_assert_int_eq(pos,4);
}
END_TEST
START_TEST(UA_Int16_decodeShallRespectSign)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0xFF,0xFF,	// -1
			0x00,0x80	// -32768
	};
	UA_ByteString src = {4,data};
	// when
	UA_Int16 val_ff_ff, val_00_80;
	UA_Int32 retval = UA_Int16_decodeBinary(&src,&pos,&val_ff_ff);
	retval |= UA_Int16_decodeBinary(&src,&pos,&val_00_80);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(val_ff_ff,-1);
	ck_assert_int_eq(val_00_80,-32768);
}
END_TEST
START_TEST(UA_UInt16_decodeShallNotRespectSign)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0xFF,0xFF,	// (2^16)-1
			0x00,0x80	// (2^15)
	};
	UA_ByteString src = {4,data};
	// when
	UA_UInt16 val_ff_ff, val_00_80;
	UA_Int32 retval = UA_UInt16_decodeBinary(&src,&pos,&val_ff_ff);
	retval |= UA_UInt16_decodeBinary(&src,&pos,&val_00_80);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,4);
	ck_assert_uint_eq(val_ff_ff, (0x01 << 16)-1);
	ck_assert_uint_eq(val_00_80, (0x01 << 15));
}
END_TEST
START_TEST(UA_Int32_decodeShallAssumeLittleEndian)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0x01,0x00,0x00,0x00,	// 1
			0x00,0x01,0x00,0x00		// 256
	};
	UA_ByteString src = {8,data};

	// when
	UA_Int32 val_01_00, val_00_01;
	UA_Int32 retval = UA_Int32_decodeBinary(&src,&pos,&val_01_00);
	retval |= UA_Int32_decodeBinary(&src,&pos,&val_00_01);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(val_01_00,1);
	ck_assert_int_eq(val_00_01,256);
	ck_assert_int_eq(pos,8);
}
END_TEST
START_TEST(UA_Int32_decodeShallRespectSign)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0xFF,0xFF,0xFF,0xFF,	// -1
			0x00,0x80,0xFF,0xFF		// -32768
	};
	UA_ByteString src = {8,data};

	// when
	UA_Int32 val_ff_ff, val_00_80;
	UA_Int32 retval = UA_Int32_decodeBinary(&src,&pos,&val_ff_ff);
	retval |= UA_Int32_decodeBinary(&src,&pos,&val_00_80);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(val_ff_ff,-1);
	ck_assert_int_eq(val_00_80,-32768);
}
END_TEST
START_TEST(UA_UInt32_decodeShallNotRespectSign)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {
			0xFF,0xFF,0xFF,0xFF,	// (2^32)-1
			0x00,0x00,0x00,0x80		// (2^31)
	};
	UA_ByteString src = {8,data};

	// when
	UA_UInt32 val_ff_ff, val_00_80;
	UA_Int32 retval = UA_UInt32_decodeBinary(&src,&pos,&val_ff_ff);
	retval |= UA_UInt32_decodeBinary(&src,&pos,&val_00_80);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,8);
	ck_assert_uint_eq(val_ff_ff, (UA_UInt32) ( (0x01LL << 32 ) - 1 ));
	ck_assert_uint_eq(val_00_80, (UA_UInt32) (0x01 << 31));
}
END_TEST
START_TEST(UA_UInt64_decodeShallNotRespectSign)
{
	// given
	UA_ByteString rawMessage;
	UA_UInt64 expectedVal = 0xFF;
	expectedVal = expectedVal << 56;
	UA_Byte mem[8] = {00,00,00,00,0x00,0x00,0x00,0xFF};
	rawMessage.data = mem;
	rawMessage.length = 8;
	UA_Int32 p = 0;
	UA_UInt64 val;
	// when
	UA_UInt64_decodeBinary(&rawMessage, &p, &val);
	// then
	ck_assert_uint_eq(val, expectedVal);
}
END_TEST
START_TEST(UA_Int64_decodeShallRespectSign)
{
	// given
	UA_ByteString rawMessage;
	UA_Int64 expectedVal = 0xFF;
	expectedVal = expectedVal << 56;
	UA_Byte mem[8] = {00,00,00,00,0x00,0x00,0x00,0xFF};
	rawMessage.data = mem;
	rawMessage.length = 8;

	UA_Int32 p = 0;
	UA_Int64 val;
	// when
	UA_Int64_decodeBinary(&rawMessage, &p, &val);
	//then
	ck_assert_uint_eq(val, expectedVal);
}
END_TEST
START_TEST(UA_Float_decodeShallWorkOnExample)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { 0x00,0x00,0xD0,0xC0 }; // -6.5
	UA_ByteString src = {4,data};
	UA_Float dst;
	// when
	UA_Int32 retval = UA_Float_decodeBinary(&src,&pos,&dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,4);
	ck_assert(-6.5000001 < dst);
	ck_assert(dst < -6.49999999999);
}
END_TEST

START_TEST(UA_Double_decodeShallGiveOne)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { 0x00,0x00,0x00,0x00,0x00,0x00,0xF0,0x3F }; // 1
	UA_ByteString src = {8,data}; // 1
	UA_Double dst;
	// when
	UA_Int32 retval = UA_Double_decodeBinary(&src,&pos,&dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,8);
	ck_assert(0.9999999 < dst);
	ck_assert(dst < 1.00000000001);
}
END_TEST
START_TEST(UA_Double_decodeShallGiveZero)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00 };
	UA_ByteString src = {8,data}; // 1
	UA_Double dst;
	// when
	UA_Int32 retval = UA_Double_decodeBinary(&src,&pos,&dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,8);
	ck_assert(-0.00000001 < dst);
	ck_assert(dst < 0.000000001);
}
END_TEST
START_TEST(UA_Double_decodeShallGiveMinusTwo)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0xC0 }; // -2
	UA_ByteString src = {8,data};

	UA_Double dst;
	// when
	UA_Int32 retval = UA_Double_decodeBinary(&src,&pos,&dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,8);
	ck_assert(-1.9999999 > dst);
	ck_assert(dst > -2.00000000001);
}
END_TEST

START_TEST(UA_String_decodeShallAllocateMemoryAndCopyString)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {0x08,0x00,0x00,0x00,'A','C','P','L','T',' ','U','A',0xFF,0xFF,0xFF,0xFF,0xFF};
	UA_ByteString src = {16,data};
	UA_String dst;
	// when
	UA_Int32 retval = UA_String_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(dst.length,8);
	ck_assert_ptr_eq(dst.data,UA_alloc_lastptr);
	ck_assert_int_eq(dst.data[3],'L');
	// finally
	UA_String_deleteMembers(&dst);
}
END_TEST
START_TEST(UA_String_decodeWithNegativeSizeShallNotAllocateMemoryAndNullPtr)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {0xFF,0xFF,0xFF,0xFF,'A','C','P','L','T',' ','U','A',0xFF,0xFF,0xFF,0xFF,0xFF};
	UA_ByteString src = {16,data};

	UA_String dst;
	// when
	UA_Int32 retval = UA_String_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(dst.length,-1);
	ck_assert_ptr_eq(dst.data,UA_NULL);
}
END_TEST
START_TEST(UA_String_decodeWithZeroSizeShallNotAllocateMemoryAndNullPtr)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = {0x00,0x00,0x00,0x00,'A','C','P','L','T',' ','U','A',0xFF,0xFF,0xFF,0xFF,0xFF};
	UA_ByteString src = {16,data};

	UA_String dst = { 2, (UA_Byte*) "XX" };
	// when
	UA_Int32 retval = UA_String_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(dst.length,-1); // shall we keep zero?
	ck_assert_ptr_eq(dst.data,UA_NULL);
}
END_TEST
START_TEST(UA_NodeId_decodeTwoByteShallReadTwoBytesAndSetNamespaceToZero)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { UA_NODEIDTYPE_TWOBYTE, 0x10 };
	UA_ByteString src = {2,data};

	UA_NodeId dst;
	// when
	UA_Int32 retval = UA_NodeId_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,2);
	ck_assert_int_eq(dst.encodingByte, UA_NODEIDTYPE_TWOBYTE);
	ck_assert_int_eq(dst.identifier.numeric,16);
	ck_assert_int_eq(dst.namespace,0);
}
END_TEST
START_TEST(UA_NodeId_decodeFourByteShallReadFourBytesAndRespectNamespace)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { UA_NODEIDTYPE_FOURBYTE, 0x01, 0x00, 0x01 };
	UA_ByteString src = {4,data};

	UA_NodeId dst;
	// when
	UA_Int32 retval = UA_NodeId_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,4);
	ck_assert_int_eq(dst.encodingByte, UA_NODEIDTYPE_FOURBYTE);
	ck_assert_int_eq(dst.identifier.numeric,256);
	ck_assert_int_eq(dst.namespace,1);
}
END_TEST
START_TEST(UA_NodeId_decodeStringShallAllocateMemory)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[]= { UA_NODEIDTYPE_STRING, 0x01, 0x00, 0x03, 0x00, 0x00, 0x00, 'P', 'L', 'T' };
	UA_ByteString src = {10,data};

	UA_NodeId dst;
	// when
	UA_Int32 retval = UA_NodeId_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,10);
	ck_assert_int_eq(dst.encodingByte, UA_NODEIDTYPE_STRING);
	ck_assert_int_eq(dst.namespace,1);
	ck_assert_int_eq(dst.identifier.string.length,3);
	ck_assert_ptr_eq(dst.identifier.string.data,UA_alloc_lastptr);
	ck_assert_int_eq(dst.identifier.string.data[1],'L');
	// finally
	UA_NodeId_deleteMembers(&dst);
}
END_TEST
START_TEST(UA_Variant_decodeWithOutArrayFlagSetShallSetVTAndAllocateMemoryForArray)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[] = { UA_INT32_NS0, 0xFF, 0x00, 0x00, 0x00};
	UA_ByteString src = {5,data};
	UA_Variant dst;
	// when
	UA_Int32 retval = UA_Variant_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,5);
	ck_assert_uint_eq(dst.encodingMask, UA_INT32_NS0);
	ck_assert_ptr_eq(dst.vt, &UA_[UA_INT32]);
	ck_assert_int_eq(dst.arrayLength,1);
	ck_assert_ptr_ne(dst.data,UA_NULL);
	ck_assert_ptr_eq(dst.data[0],UA_alloc_lastptr);
	ck_assert_int_eq(*(UA_Int32*)dst.data[0],255);
	// finally
	UA_Variant_deleteMembers(&dst);
}
END_TEST
START_TEST(UA_Variant_decodeWithArrayFlagSetShallSetVTAndAllocateMemoryForArray)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[]={ UA_INT32_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY, 0x02, 0x00, 0x00, 0x00, 0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF};
	UA_ByteString src = {13,data};

	UA_Variant dst;
	// when
	UA_Int32 retval = UA_Variant_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	ck_assert_int_eq(pos,1+4+2*4);
	ck_assert_uint_eq(dst.encodingMask & UA_VARIANT_ENCODINGMASKTYPE_TYPEID_MASK, UA_INT32_NS0);
	ck_assert_uint_eq(dst.encodingMask & UA_VARIANT_ENCODINGMASKTYPE_ARRAY, UA_VARIANT_ENCODINGMASKTYPE_ARRAY);
	ck_assert_ptr_eq(dst.vt, &UA_[UA_INT32]);
	ck_assert_int_eq(dst.arrayLength,2);
	ck_assert_ptr_ne(dst.data,UA_NULL);
	ck_assert_ptr_eq(dst.data[1],UA_alloc_lastptr);
	ck_assert_int_eq(*((UA_Int32*)dst.data[0]),255);
	ck_assert_int_eq(*((UA_Int32*)dst.data[1]),-1);
	// finally
	UA_Variant_deleteMembers(&dst);
}
END_TEST
START_TEST(UA_Variant_decodeWithOutDeleteMembersShallFailInCheckMem)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[]= { UA_INT32_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY, 0x02, 0x00, 0x00, 0x00, 0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF};
	UA_ByteString src = {13,data};

	UA_Variant dst;
	// when
	UA_Int32 retval = UA_Variant_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(retval,UA_SUCCESS);
	// finally - unfortunately we cannot express that not freeing three chunks is what we expect
	// UA_Variant_deleteMembers(&dst);
}
END_TEST

START_TEST(UA_Variant_decodeWithTooSmallSourceShallReturnWithError)
{
	// given
	UA_Int32 pos = 0;
	UA_Byte data[]= { UA_INT32_NS0 | UA_VARIANT_ENCODINGMASKTYPE_ARRAY, 0x02, 0x00, 0x00, 0x00, 0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0xFF, 0xFF};
	UA_ByteString src = {4,data};

	UA_Variant dst;
	// when
	UA_Int32 retval = UA_Variant_decodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_ne(retval,UA_SUCCESS);
	// finally - unfortunately we cannot express that not freeing three chunks is what we expect
	// UA_Variant_deleteMembers(&dst);
}
END_TEST

START_TEST(UA_Byte_encode_test)
{
	// given
	UA_Byte src;
	UA_Byte data[] = { 0x00, 0xFF };
	UA_ByteString dst = {2,data};

	UA_Int32 retval, pos = 0;

	ck_assert_uint_eq(dst.data[1], 0xFF);

	src = 8;
	retval = UA_Byte_encodeBinary(&src, &pos, &dst);

	ck_assert_uint_eq(dst.data[0], 0x08);
	ck_assert_uint_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(pos, 1);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// Test2
	// given
	src = 0xFF;
	dst.data[1] = 0x00;
	pos = 0;
	retval = UA_Byte_encodeBinary(&src, &pos, &dst);

	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0x00);
	ck_assert_int_eq(pos, 1);
	ck_assert_int_eq(retval, UA_SUCCESS);

}
END_TEST

START_TEST(UA_UInt16_encodeNegativeShallEncodeLittleEndian)
{
	// given
	UA_UInt16 src;
	UA_Byte data[] = { 	0x55,0x55,
						0x55,0x55
					};
	UA_ByteString dst = {4,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -1;
	retval = UA_UInt16_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 2);
	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// when test 2
	src = -32768;
	retval = UA_UInt16_encodeBinary(&src, &pos, &dst);
	// then test 2
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[2], 0x00);
	ck_assert_int_eq(dst.data[3], 0x80);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_UInt16_encodeShallEncodeLittleEndian)
{
	// given
	UA_UInt16 src;
	UA_Byte data[] = { 	0x55,0x55,
						0x55,0x55
					};
	UA_ByteString dst = {4,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = 0;
	retval = UA_UInt16_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 2);
	ck_assert_int_eq(dst.data[0], 0x00);
	ck_assert_int_eq(dst.data[1], 0x00);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// when test 2
	src = 32767;
	retval = UA_UInt16_encodeBinary(&src, &pos, &dst);
	// then test 2
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[2], 0xFF);
	ck_assert_int_eq(dst.data[3], 0x7F);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_UInt32_encodeShallEncodeLittleEndian)
{
	// given
	UA_UInt32 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {8,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -1;
	retval = UA_UInt32_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(dst.data[2], 0xFF);
	ck_assert_int_eq(dst.data[3], 0xFF);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// when test 2
	src = 0x0101FF00;
	retval = UA_UInt32_encodeBinary(&src, &pos, &dst);
	// then test 2
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[4], 0x00);
	ck_assert_int_eq(dst.data[5], 0xFF);
	ck_assert_int_eq(dst.data[6], 0x01);
	ck_assert_int_eq(dst.data[7], 0x01);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_Int32_encodeShallEncodeLittleEndian)
{
	// given
	UA_Int32 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {8,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = 1;
	retval = UA_Int32_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[0], 0x01);
	ck_assert_int_eq(dst.data[1], 0x00);
	ck_assert_int_eq(dst.data[2], 0x00);
	ck_assert_int_eq(dst.data[3], 0x00);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// when test 2
	src = 0x7FFFFFFF;
	retval = UA_Int32_encodeBinary(&src, &pos, &dst);
	// then test 2
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[4], 0xFF);
	ck_assert_int_eq(dst.data[5], 0xFF);
	ck_assert_int_eq(dst.data[6], 0xFF);
	ck_assert_int_eq(dst.data[7], 0x7F);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_Int32_encodeNegativeShallEncodeLittleEndian)
{
	// given
	UA_Int32 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {8,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -1;
	retval = UA_Int32_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(dst.data[2], 0xFF);
	ck_assert_int_eq(dst.data[3], 0xFF);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_UInt64_encodeShallWorkOnExample)
{
	// given
	UA_UInt64 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {16,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -1;
	retval = UA_UInt64_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(dst.data[2], 0xFF);
	ck_assert_int_eq(dst.data[3], 0xFF);
	ck_assert_int_eq(dst.data[4], 0xFF);
	ck_assert_int_eq(dst.data[5], 0xFF);
	ck_assert_int_eq(dst.data[6], 0xFF);
	ck_assert_int_eq(dst.data[7], 0xFF);
	ck_assert_int_eq(retval, UA_SUCCESS);

	// when test 2
	src = 0x7F0033AA44EE6611;
	retval = UA_UInt64_encodeBinary(&src, &pos, &dst);
	// then test 2
	ck_assert_int_eq(pos, 16);
	ck_assert_int_eq(dst.data[8], 0x11);
	ck_assert_int_eq(dst.data[9], 0x66);
	ck_assert_int_eq(dst.data[10], 0xEE);
	ck_assert_int_eq(dst.data[11], 0x44);
	ck_assert_int_eq(dst.data[12], 0xAA);
	ck_assert_int_eq(dst.data[13], 0x33);
	ck_assert_int_eq(dst.data[14], 0x00);
	ck_assert_int_eq(dst.data[15], 0x7F);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_Int64_encodeShallEncodeLittleEndian)
{
	// given
	UA_Int64 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {16,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = 0x7F0033AA44EE6611;
	retval = UA_Int64_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[0], 0x11);
	ck_assert_int_eq(dst.data[1], 0x66);
	ck_assert_int_eq(dst.data[2], 0xEE);
	ck_assert_int_eq(dst.data[3], 0x44);
	ck_assert_int_eq(dst.data[4], 0xAA);
	ck_assert_int_eq(dst.data[5], 0x33);
	ck_assert_int_eq(dst.data[6], 0x00);
	ck_assert_int_eq(dst.data[7], 0x7F);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_Int64_encodeNegativeShallEncodeLittleEndian)
{
	// given
	UA_Int64 src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {16,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -1;
	retval = UA_Int64_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[0], 0xFF);
	ck_assert_int_eq(dst.data[1], 0xFF);
	ck_assert_int_eq(dst.data[2], 0xFF);
	ck_assert_int_eq(dst.data[3], 0xFF);
	ck_assert_int_eq(dst.data[4], 0xFF);
	ck_assert_int_eq(dst.data[5], 0xFF);
	ck_assert_int_eq(dst.data[6], 0xFF);
	ck_assert_int_eq(dst.data[7], 0xFF);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_Float_encodeShallWorkOnExample)
{
	// given
	UA_Float src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {16,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -6.5;
	retval = UA_Float_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 4);
	ck_assert_int_eq(dst.data[2], 0xD0);
	ck_assert_int_eq(dst.data[3], 0xC0);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
/*START_TEST(UA_Double_encodeShallWorkOnExample)
{
	// given
	UA_Double src;
	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {16,data};

	UA_Int32 retval, pos = 0;

	// when test 1
	src = -6.5;
	retval = UA_Double_encodeBinary(&src, &pos, &dst);
	// then test 1
	ck_assert_int_eq(pos, 8);
	ck_assert_int_eq(dst.data[6], 0xD0);
	ck_assert_int_eq(dst.data[7], 0xC0);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST*/
START_TEST(UA_String_encodeShallWorkOnExample)
{
	// given
	UA_String src;
	src.length = 11;
	UA_Byte mem[11] = "ACPLT OPCUA";
	src.data = mem;

	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {24,data};

	UA_Int32 retval, pos = 0;
	// when
	retval = UA_String_encodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(pos, sizeof(UA_Int32)+11);
	ck_assert_int_eq(dst.data[0], 11);
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+0], 'A');
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+1], 'C');
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+2], 'P');
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+3], 'L');
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+4], 'T');
	ck_assert_int_eq(dst.data[sizeof(UA_Int32)+5], 0x20); //Space
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_DataValue_encodeShallWorkOnExampleWithoutVariant)
{
	// given
	UA_DataValue src;
	src.serverTimestamp = 80;
	src.encodingMask = UA_DATAVALUE_ENCODINGMASK_SERVERTIMESTAMP; //Only the sourcePicoseconds

	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {24,data};

	UA_Int32 retval, pos = 0;
	// when
	retval = UA_DataValue_encodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(pos, 9);// represents the length
	ck_assert_int_eq(dst.data[0], 0x08); // encodingMask
	ck_assert_int_eq(dst.data[1], 80); // 8 Byte serverTimestamp
	ck_assert_int_eq(dst.data[2], 0);
	ck_assert_int_eq(dst.data[3], 0);
	ck_assert_int_eq(dst.data[4], 0);
	ck_assert_int_eq(dst.data[5], 0);
	ck_assert_int_eq(dst.data[6], 0);
	ck_assert_int_eq(dst.data[7], 0);
	ck_assert_int_eq(dst.data[8], 0);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_DataValue_encodeShallWorkOnExampleWithVariant)
{
	// given
	UA_DataValue src;
	src.serverTimestamp = 80;
	src.encodingMask = UA_DATAVALUE_ENCODINGMASK_VARIANT | UA_DATAVALUE_ENCODINGMASK_SERVERTIMESTAMP; //Variant & SourvePicoseconds
	src.value.vt = &UA_[UA_INT32];
	src.value.arrayLength = 0;
	src.value.encodingMask = UA_INT32_NS0;
	UA_Int32 vdata = 45;
	UA_Int32* pvdata = &vdata;
	src.value.data = (void**) &pvdata;

	UA_Byte data[] = { 	0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55,
						0x55,0x55,0x55,0x55,0x55,0x55,0x55,0x55
					};
	UA_ByteString dst = {24,data};

	UA_Int32 retval, pos = 0;
	// when
	retval = UA_DataValue_encodeBinary(&src, &pos, &dst);
	// then
	ck_assert_int_eq(pos, 1+(1+4)+8);// represents the length
	ck_assert_int_eq(dst.data[0], 0x08 | 0x01); // encodingMask
	ck_assert_int_eq(dst.data[1], 0x06); // Variant's Encoding Mask - INT32
	ck_assert_int_eq(dst.data[2], 45);  // the single value
	ck_assert_int_eq(dst.data[3], 0);
	ck_assert_int_eq(dst.data[4], 0);
	ck_assert_int_eq(dst.data[5], 0);
	ck_assert_int_eq(dst.data[6], 80);  // the server timestamp
	ck_assert_int_eq(dst.data[7], 0);
	ck_assert_int_eq(retval, UA_SUCCESS);
}
END_TEST
START_TEST(UA_DateTime_toStructShallWorkOnExample)
{
	// given
	UA_DateTime src = 13974671891234567;
	//1397467189... is Mon, 14 Apr 2014 09:19:49 GMT
	//...1234567 are the milli-, micro- and nanoseconds
	UA_DateTimeStruct dst;

	// when
	dst = UA_DateTime_toStruct(src);
	// then
	ck_assert_int_eq(dst.nanoSec, 700);
	ck_assert_int_eq(dst.microSec, 456);
	ck_assert_int_eq(dst.milliSec, 123);

	ck_assert_int_eq(dst.sec, 49);
	ck_assert_int_eq(dst.min, 19);
	ck_assert_int_eq(dst.hour, 9);

	ck_assert_int_eq(dst.day, 14);
	ck_assert_int_eq(dst.mounth, 4);
	ck_assert_int_eq(dst.year, 2014);
}
END_TEST
START_TEST(UA_DateTime_toStringShallWorkOnExample)
{
	// given
	UA_DateTime src = 13974671891234567;
	//1397467189... is Mon, 14 Apr 2014 09:19:49 GMT
	//...1234567 are the milli-, micro- and nanoseconds

	char buf[80] = "80";
	UA_Byte *byteBuf = (UA_Byte*)buf;
	UA_String dst = {80, byteBuf};

	// when
	UA_DateTime_toString(src, &dst);
	// then
	ck_assert_int_eq(dst.length, 80);
	ck_assert_int_eq(dst.data[0], ' ');
	ck_assert_int_eq(dst.data[1], '4');
	ck_assert_int_eq(dst.data[2], '/');
	ck_assert_int_eq(dst.data[3], '1');
	ck_assert_int_eq(dst.data[4], '4');
}
END_TEST
START_TEST(UA_ExtensionObject_copyShallWorkOnExample)
{
	UA_ExtensionObject *value = UA_NULL;
	UA_ExtensionObject *valueCopied = UA_NULL;
	UA_Int32 i = 0;

	// given
	UA_Byte data[3] = {1,2,3};


	UA_ExtensionObject_new(&value);
	UA_ExtensionObject_new(&valueCopied);


	// empty ExtensionObject, handcoded
	// when
	value->typeId.encodingByte = UA_NODEIDTYPE_TWOBYTE;
	value->typeId.identifier.numeric = 0;
	value->encoding = UA_EXTENSIONOBJECT_ENCODINGMASK_NOBODYISENCODED;
	value->encoding = UA_EXTENSIONOBJECT_ENCODINGMASK_BODYISBYTESTRING;
	value->body.data = data;
	value->body.length = 3;

	//when
	UA_ExtensionObject_copy(value,valueCopied);

	for(i=0; i<3; i++){
		ck_assert_int_eq(valueCopied->body.data[i],value->body.data[i]);
	}

	ck_assert_int_eq(valueCopied->encoding, value->encoding);
	ck_assert_int_eq(valueCopied->typeId.encodingByte,value->typeId.encodingByte);
	ck_assert_int_eq(valueCopied->typeId.identifier.numeric,value->typeId.identifier.numeric);
	//finally
	UA_free(value);
	UA_free(valueCopied);
}
END_TEST

START_TEST(UA_Array_copyByteArrayShallWorkOnExample)
{
	//given
	UA_String testString;
	UA_Byte* *srcArray = UA_NULL;
	UA_Byte** dstArray;
	UA_Int32 size = 5;
	UA_Int32 i = 0;
	testString.data = UA_NULL;
	UA_alloc((void**)&testString.data, size);
	UA_alloc((void*)&srcArray,sizeof(UA_Byte*)*5);
	testString.data[0] = 'O';
	testString.data[1] = 'P';
	testString.data[2] = 'C';
	testString.data[3] = 'U';
	testString.data[4] = 'A';

	testString.length = 5;

	srcArray[0] = &(testString.data[0]);
	srcArray[1] = &testString.data[1];
	srcArray[2] = &testString.data[2];
	srcArray[3] = &testString.data[3];
	srcArray[4] = &testString.data[4];
	//when
	UA_Array_copy((const void* const*)srcArray,5,UA_BYTE,(void***)&dstArray);
	//then
	for(i=0;i<size;i++){
		ck_assert_int_eq(*srcArray[i], *dstArray[i]);
	}

	//finally
	UA_free(*srcArray);
	UA_free(*dstArray);

}
END_TEST

START_TEST(UA_Array_copyUA_StringShallWorkOnExample)
{
	// given
	UA_Int32 i,j;
	UA_String **srcArray; UA_Array_new((void***)&srcArray,3,UA_STRING);
	UA_String **dstArray;

	UA_String_copycstring("open",srcArray[0]);
	UA_String_copycstring("62541",srcArray[1]);
	UA_String_copycstring("opc ua",srcArray[2]);
	//when
	UA_Array_copy((void const*const*)srcArray,3,UA_STRING,(void ***)&dstArray);
	//then
	for(i=0;i<3;i++){
		for(j=0;j<3;j++){
			ck_assert_int_eq(srcArray[i]->data[j], dstArray[i]->data[j]);
		}
		ck_assert_int_eq(srcArray[i]->length, dstArray[i]->length);
	}
	//finally
	UA_free(*srcArray);
	UA_free(*dstArray);

}
END_TEST


START_TEST(UA_DiagnosticInfo_copyShallWorkOnExample)
{
	//given
	UA_DiagnosticInfo *value = UA_NULL;
	UA_DiagnosticInfo *innerValue = UA_NULL;
	UA_DiagnosticInfo *copiedValue = UA_NULL;
	UA_String testString;
	UA_Int32 size = 5;
	UA_Int32 i = 0;
	testString.data = UA_NULL;

	UA_alloc((void**)&testString.data,size);
	testString.data[0] = 'O';
	testString.data[1] = 'P';
	testString.data[2] = 'C';
	testString.data[3] = 'U';
	testString.data[4] = 'A';
	testString.length = size;

	UA_DiagnosticInfo_new(&value);
	UA_DiagnosticInfo_new(&innerValue);
	value->encodingMask |= UA_DIAGNOSTICINFO_ENCODINGMASK_INNERDIAGNOSTICINFO;
	value->innerDiagnosticInfo = innerValue;

	UA_alloc((void**)&copiedValue,UA_DiagnosticInfo_calcSize(UA_NULL));
	value->additionalInfo.length = testString.length;
	value->additionalInfo.data = testString.data;
	//when
	UA_DiagnosticInfo_copy(value, copiedValue);

	//then
	for(i=0; i<size; i++){
		ck_assert_int_eq(copiedValue->additionalInfo.data[i],value->additionalInfo.data[i]);
	}
	ck_assert_int_eq(copiedValue->additionalInfo.length, value->additionalInfo.length);

	ck_assert_int_eq(copiedValue->encodingMask, value->encodingMask);
	ck_assert_int_eq(copiedValue->innerDiagnosticInfo->locale,value->innerDiagnosticInfo->locale);
	ck_assert_int_eq(copiedValue->innerStatusCode,value->innerStatusCode);
	ck_assert_int_eq(copiedValue->locale,value->locale);
	ck_assert_int_eq(copiedValue->localizedText,value->localizedText);
	ck_assert_int_eq(copiedValue->namespaceUri,value->namespaceUri);
	ck_assert_int_eq(copiedValue->symbolicId,value->symbolicId);
	//finally
	UA_free(copiedValue);
	UA_free(value);

}
END_TEST
START_TEST(UA_ApplicationDescription_copyShallWorkOnExample)
{
	//given
	UA_ApplicationDescription *value = UA_NULL;
	UA_ApplicationDescription *copiedValue = UA_NULL;

	UA_Int32 retval = 0;
	UA_String appString;
	UA_String discString;
	UA_String gateWayString;
	UA_Int32 appSize = 3;
	UA_Int32 discSize = 4;
	UA_Int32 gateWaySize = 7;
	UA_Int32 i,j;
	appString.data = UA_NULL;
	discString.data = UA_NULL;
	gateWayString.data = UA_NULL;

	UA_alloc((void**)&appString.data,appSize);
	appString.data[0] = 'A';
	appString.data[1] = 'P';
	appString.data[2] = 'P';
	appString.length = appSize;

	UA_alloc((void**)&discString.data,discSize);
	discString.data[0] = 'D';
	discString.data[1] = 'I';
	discString.data[2] = 'S';
	discString.data[3] = 'C';
	discString.length = discSize;

	UA_alloc((void**)&gateWayString.data,gateWaySize);
	gateWayString.data[0] = 'G';
	gateWayString.data[1] = 'A';
	gateWayString.data[2] = 'T';
	gateWayString.data[3] = 'E';
	gateWayString.data[4] = 'W';
	gateWayString.data[5] = 'A';
	gateWayString.data[6] = 'Y';
	gateWayString.length = gateWaySize;

	UA_String **srcArray; UA_Array_new((void***)&srcArray,3,UA_STRING);
	UA_String_copycstring("__open",srcArray[0]);
	UA_String_copycstring("_62541",srcArray[1]);
	UA_String_copycstring("opc ua",srcArray[2]);

	UA_ApplicationDescription_new(&value);
	value->applicationUri.length = appString.length;
	value->applicationUri.data = appString.data;
	value->discoveryProfileUri.length = discString.length;
	value->discoveryProfileUri.data = discString.data;
	value->gatewayServerUri.length = gateWayString.length;
	value->gatewayServerUri.data = gateWayString.data;
	value->discoveryUrlsSize = 3;
	value->discoveryUrls = srcArray;

	UA_alloc((void**)&copiedValue,UA_ApplicationDescription_calcSize(UA_NULL));
	//when
	retval = UA_ApplicationDescription_copy(value, copiedValue);

	//then
	ck_assert_int_eq(retval, UA_SUCCESS);

	for(i=0; i<appSize; i++){
		ck_assert_int_eq(copiedValue->applicationUri.data[i],value->applicationUri.data[i]);
	}
	ck_assert_int_eq(copiedValue->applicationUri.length, value->applicationUri.length);

	for(i=0; i<discSize; i++){
		ck_assert_int_eq(copiedValue->discoveryProfileUri.data[i],value->discoveryProfileUri.data[i]);
	}
	ck_assert_int_eq(copiedValue->discoveryProfileUri.length, value->discoveryProfileUri.length);

	for(i=0; i<gateWaySize; i++){
		ck_assert_int_eq(copiedValue->gatewayServerUri.data[i],value->gatewayServerUri.data[i]);
	}
	ck_assert_int_eq(copiedValue->gatewayServerUri.length, value->gatewayServerUri.length);

	//String Array Test
	for(i=0;i<3;i++){
		for(j=0;j<6;j++){
			ck_assert_int_eq((value->discoveryUrls[i])->data[j],(copiedValue->discoveryUrls[i])->data[j]);
		}
		ck_assert_int_eq((value->discoveryUrls[i])->length,(copiedValue->discoveryUrls[i])->length);
	}
	ck_assert_int_eq((copiedValue->discoveryUrls[0])->data[2],'o');
	ck_assert_int_eq((copiedValue->discoveryUrls[0])->data[3],'p');
	ck_assert_int_eq(copiedValue->discoveryUrlsSize, value->discoveryUrlsSize);

	//finally
	UA_free(copiedValue);
	UA_free(value);
}
END_TEST

START_TEST(UA_Variant_copyShallWorkOnSingleValueExample)
{
	//given
	UA_Variant *value = UA_NULL;
	UA_Variant *copiedValue = UA_NULL;

	UA_Int32 i = 0;
	UA_String testString;
	UA_String* ptestString;
	UA_String* pCopiedString;
	testString.length = 5;
	UA_alloc((void**)&(testString.data),testString.length);

	testString.data[0] = 'O';
	testString.data[1] = 'P';
	testString.data[2] = 'C';
	testString.data[3] = 'U';
	testString.data[4] = 'A';

	UA_Variant_new(&value);
	UA_Variant_new(&copiedValue);
	ptestString = &testString;
	value->data = (void**)&ptestString;
	value->encodingMask |= UA_STRING_NS0;

	//value->encodingMask |= UA_VARIANT_ENCODINGMASKTYPE_DIMENSIONS;

	//when
	UA_Variant_copy(value,copiedValue);


	//then
	pCopiedString = *(UA_String**)copiedValue->data;
	for(i=0;i<3;i++){
		ck_assert_int_eq(pCopiedString->data[i], pCopiedString->data[i]);
	}
	ck_assert_int_eq(pCopiedString->length, pCopiedString->length);

	ck_assert_int_eq(value->encodingMask,copiedValue->encodingMask);
	ck_assert_int_eq(value->arrayDimensionsLength, copiedValue->arrayDimensionsLength);
	ck_assert_int_eq(value->arrayLength, copiedValue->arrayLength);
	//finally
	UA_free(value);
	UA_free(copiedValue);
}
END_TEST

START_TEST(UA_Variant_copyShallWorkOn1DArrayExample)
{
	// given
	UA_Variant *value = UA_NULL;
	UA_Variant *copiedValue = UA_NULL;
	UA_Int32 *dimensions;
	UA_Int32 i,j,i1,i2;
	UA_String **srcArray; UA_Array_new((void***)&srcArray,3,UA_STRING);

	UA_alloc((void**)&dimensions,UA_Int32_calcSize(UA_NULL));
	UA_String_copycstring("__open",srcArray[0]);
	UA_String_copycstring("_62541",srcArray[1]);
	UA_String_copycstring("opc ua",srcArray[2]);

	dimensions[0]=3;
	UA_Variant_new(&value);
	UA_Variant_new(&copiedValue);

	value->arrayLength = 3;
	value->data = (void**)srcArray;
	value->arrayDimensionsLength = 1;
	value->arrayDimensions = &dimensions;
	value->encodingMask |= UA_VARIANT_ENCODINGMASKTYPE_ARRAY;
	value->encodingMask |= UA_STRING_NS0;
	value->encodingMask |= UA_VARIANT_ENCODINGMASKTYPE_DIMENSIONS;

	//when
	UA_Variant_copy(value,copiedValue);

	//then
	i1 = *(value->arrayDimensions)[0],
	i2 = *(copiedValue->arrayDimensions)[0];
	ck_assert_int_eq(i1,i2);

	for(i=0;i<3;i++){
		for(j=0;j<6;j++){
			ck_assert_int_eq(((UA_String*)(value->data[i]))->data[j],((UA_String*)(copiedValue->data[i]))->data[j]);
		}
		ck_assert_int_eq(((UA_String*)(value->data[i]))->length,((UA_String*)(copiedValue->data[i]))->length);
	}
	ck_assert_int_eq(((UA_String*)(copiedValue->data[0]))->data[2],'o');
	ck_assert_int_eq(((UA_String*)(copiedValue->data[0]))->data[3],'p');


	ck_assert_int_eq(value->encodingMask,copiedValue->encodingMask);
	ck_assert_int_eq(value->arrayDimensionsLength, copiedValue->arrayDimensionsLength);
	ck_assert_int_eq(value->arrayLength, copiedValue->arrayLength);
	//finally
	UA_free(value);
	UA_free(copiedValue);
}
END_TEST

START_TEST(UA_Variant_copyShallWorkOn2DArrayExample)
{
	// given
	UA_Variant *value = UA_NULL;
	UA_Variant *copiedValue = UA_NULL;
	UA_Int32 **dimensions;
	UA_Int32 i,i1,i2;
	UA_Int32 dim1,dim2;
	UA_Int32 **srcArray;
	UA_Array_new((void***)&srcArray,6,UA_INT32);

	dim1 = 3;
	dim2 = 2;
	*srcArray[0] = 0;
	*srcArray[1] = 1;
	*srcArray[2] = 2;
	*srcArray[3] = 3;
	*srcArray[4] = 4;
	*srcArray[5] = 5;

	UA_Array_new((void***)&dimensions,2,UA_INT32);

	*(dimensions)[0] = dim1;
	*(dimensions)[1] = dim2;

	UA_Variant_new(&value);
	UA_Variant_new(&copiedValue);

	value->arrayLength = 6;
	value->data = (void**)srcArray;
	value->arrayDimensionsLength = 2;
	value->arrayDimensions = dimensions;
	value->encodingMask |= UA_VARIANT_ENCODINGMASKTYPE_ARRAY;
	value->encodingMask |= UA_INT32_NS0;
	value->encodingMask |= UA_VARIANT_ENCODINGMASKTYPE_DIMENSIONS;

	//when
	UA_Variant_copy(value, copiedValue);

	//then
	//1st dimension
	i1 = *(value->arrayDimensions)[0],
	i2 = *(copiedValue->arrayDimensions)[0];
	ck_assert_int_eq(i1,i2);
	ck_assert_int_eq(i1, dim1);


	//2nd dimension
	i1 = *(value->arrayDimensions)[1];
	i2 = *(copiedValue->arrayDimensions)[1];
	ck_assert_int_eq(i1,i2);
	ck_assert_int_eq(i1, dim2);


	for(i=0;i<6;i++){
		i1 = *((UA_Int32*)(value->data[i]));
		i2 = *((UA_Int32*)(copiedValue->data[i]));
		ck_assert_int_eq(i1,i2);
		ck_assert_int_eq(i2,i);
	}

	ck_assert_int_eq(value->encodingMask,copiedValue->encodingMask);
	ck_assert_int_eq(value->arrayDimensionsLength, copiedValue->arrayDimensionsLength);
	ck_assert_int_eq(value->arrayLength, copiedValue->arrayLength);
	//finally
	UA_free(value);
	UA_free(copiedValue);

}
END_TEST

Suite *testSuite_builtin(void)
{
	Suite *s = suite_create("Built-in Data Types 62541-6 Table 1");

	TCase *tc_calcSize = tcase_create("calcSize");
	tcase_add_test(tc_calcSize, UA_Boolean_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_SByte_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Byte_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Int16_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_UInt16_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Int32_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_UInt32_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Int64_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_UInt64_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Float_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Double_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_DateTime_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Guid_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_ByteString_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_XmlElement_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_ExpandedNodeId_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_StatusCode_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_QualifiedName_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_LocalizedText_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_ExtensionObject_calcSizeShallWorkOnExample);
	tcase_add_test(tc_calcSize, UA_ExtensionObject_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_DataValue_calcSizeShallWorkOnExample);
	tcase_add_test(tc_calcSize, UA_DataValue_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_Variant_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_DiagnosticInfo_calcSizeShallWorkOnExample);
	tcase_add_test(tc_calcSize, UA_DiagnosticInfo_calcSizeWithNullArgumentShallReturnStorageSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeWithNegativLengthShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeWithNegativLengthAndValidPointerShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeWithZeroLengthShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_String_calcSizeWithZeroLengthAndValidPointerShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeEncodingTwoByteShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeEncodingFourByteShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeEncodingStringShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeEncodingStringNegativLengthShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_NodeId_calcSizeEncodingStringZeroLengthShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_ExpandedNodeId_calcSizeEncodingStringAndServerIndexShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_ExpandedNodeId_calcSizeEncodingStringAndNamespaceUriShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_Guid_calcSizeShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_Guid_calcSizeShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_LocalizedText_calcSizeTextOnlyShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_LocalizedText_calcSizeLocaleOnlyShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_LocalizedText_calcSizeTextAndLocaleShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_Variant_calcSizeFixedSizeArrayShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_Variant_calcSizeVariableSizeArrayShallReturnEncodingSize);
	tcase_add_test(tc_calcSize, UA_Variant_calcSizeVariableSizeArrayWithNullPtrWillReturnWrongButLargeEnoughEncodingSize);
	tcase_add_test(tc_calcSize, UA_Variant_decodeWithOutDeleteMembersShallFailInCheckMem);
	suite_add_tcase(s,tc_calcSize);



	TCase *tc_decode = tcase_create("decode");
	tcase_add_test(tc_decode, UA_Byte_decodeShallCopyAndAdvancePosition);
	tcase_add_test(tc_decode, UA_Byte_decodeShallModifyOnlyCurrentPosition);
	tcase_add_test(tc_decode, UA_Int16_decodeShallAssumeLittleEndian);
	tcase_add_test(tc_decode, UA_Int16_decodeShallRespectSign);
	tcase_add_test(tc_decode, UA_UInt16_decodeShallNotRespectSign);
	tcase_add_test(tc_decode, UA_Int32_decodeShallAssumeLittleEndian);
	tcase_add_test(tc_decode, UA_Int32_decodeShallRespectSign);
	tcase_add_test(tc_decode, UA_UInt32_decodeShallNotRespectSign);
	tcase_add_test(tc_decode, UA_UInt64_decodeShallNotRespectSign);
	tcase_add_test(tc_decode, UA_Int64_decodeShallRespectSign);
	tcase_add_test(tc_decode, UA_Float_decodeShallWorkOnExample);
	tcase_add_test(tc_decode, UA_Double_decodeShallGiveOne);
	tcase_add_test(tc_decode, UA_Double_decodeShallGiveZero);
	tcase_add_test(tc_decode, UA_Double_decodeShallGiveMinusTwo);
	tcase_add_test(tc_decode, UA_Byte_encode_test);
	tcase_add_test(tc_decode, UA_String_decodeShallAllocateMemoryAndCopyString);
	tcase_add_test(tc_decode, UA_String_decodeWithNegativeSizeShallNotAllocateMemoryAndNullPtr);
	tcase_add_test(tc_decode, UA_String_decodeWithZeroSizeShallNotAllocateMemoryAndNullPtr);
	tcase_add_test(tc_decode, UA_NodeId_decodeTwoByteShallReadTwoBytesAndSetNamespaceToZero);
	tcase_add_test(tc_decode, UA_NodeId_decodeFourByteShallReadFourBytesAndRespectNamespace);
	tcase_add_test(tc_decode, UA_NodeId_decodeStringShallAllocateMemory);
	tcase_add_test(tc_decode, UA_Variant_decodeWithOutArrayFlagSetShallSetVTAndAllocateMemoryForArray);
	tcase_add_test(tc_decode, UA_Variant_decodeWithArrayFlagSetShallSetVTAndAllocateMemoryForArray);
	tcase_add_test(tc_decode, UA_Variant_decodeWithOutDeleteMembersShallFailInCheckMem);
	tcase_add_test(tc_decode, UA_Variant_decodeWithTooSmallSourceShallReturnWithError);
	suite_add_tcase(s,tc_decode);



	TCase *tc_encode = tcase_create("encode");
	tcase_add_test(tc_encode, UA_Byte_encode_test);
	tcase_add_test(tc_encode, UA_UInt16_encodeNegativeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_UInt16_encodeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_UInt32_encodeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_Int32_encodeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_Int32_encodeNegativeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_UInt64_encodeShallWorkOnExample);
	tcase_add_test(tc_encode, UA_Int64_encodeNegativeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_Int64_encodeShallEncodeLittleEndian);
	tcase_add_test(tc_encode, UA_Float_encodeShallWorkOnExample);
	//tcase_add_test(tc_encode, UA_Double_encodeShallWorkOnExample);
	tcase_add_test(tc_encode, UA_String_encodeShallWorkOnExample);
	tcase_add_test(tc_encode, UA_DataValue_encodeShallWorkOnExampleWithoutVariant);
	tcase_add_test(tc_encode, UA_DataValue_encodeShallWorkOnExampleWithVariant);
	suite_add_tcase(s,tc_encode);



	TCase *tc_convert = tcase_create("convert");
	tcase_add_test(tc_convert, UA_DateTime_toStructShallWorkOnExample);
	tcase_add_test(tc_convert, UA_DateTime_toStringShallWorkOnExample);
	suite_add_tcase(s,tc_convert);

	TCase *tc_copy = tcase_create("copy");
	tcase_add_test(tc_copy,UA_Array_copyByteArrayShallWorkOnExample);
	tcase_add_test(tc_copy,UA_Array_copyUA_StringShallWorkOnExample);
	tcase_add_test(tc_copy, UA_ExtensionObject_copyShallWorkOnExample);

	tcase_add_test(tc_copy, UA_Variant_copyShallWorkOnSingleValueExample);
	tcase_add_test(tc_copy, UA_Variant_copyShallWorkOn1DArrayExample);
	tcase_add_test(tc_copy, UA_Variant_copyShallWorkOn2DArrayExample);

	tcase_add_test(tc_copy, UA_DiagnosticInfo_copyShallWorkOnExample);
	tcase_add_test(tc_copy, UA_ApplicationDescription_copyShallWorkOnExample);
	suite_add_tcase(s,tc_copy);
	return s;
}


int main (void)
{
	int number_failed = 0;
	Suite* s;
	SRunner*  sr;

	s = testSuite_builtin();
	sr = srunner_create(s);
	srunner_run_all(sr,CK_NORMAL);
	number_failed += srunner_ntests_failed(sr);
	srunner_free(sr);

	return (number_failed == 0) ? EXIT_SUCCESS : EXIT_FAILURE;
}