1.1 --- /dev/null Thu Jan 01 00:00:00 1970 +0000
1.2 +++ b/os/ossrv/genericservices/httputils/Test/t_wspcodec/cwspencodetest.cpp Fri Jun 15 03:10:57 2012 +0200
1.3 @@ -0,0 +1,407 @@
1.4 +// Copyright (c) 2002-2009 Nokia Corporation and/or its subsidiary(-ies).
1.5 +// All rights reserved.
1.6 +// This component and the accompanying materials are made available
1.7 +// under the terms of "Eclipse Public License v1.0"
1.8 +// which accompanies this distribution, and is available
1.9 +// at the URL "http://www.eclipse.org/legal/epl-v10.html".
1.10 +//
1.11 +// Initial Contributors:
1.12 +// Nokia Corporation - initial contribution.
1.13 +//
1.14 +// Contributors:
1.15 +//
1.16 +// Description:
1.17 +// Implementation of test CWSPEncodeTest.
1.18 +//
1.19 +//
1.20 +
1.21 +
1.22 +#include "cwspencodetest.h"
1.23 +#include <wspencoder.h>
1.24 +
1.25 +
1.26 +CWSPEncodeTest* CWSPEncodeTest::NewLC(CIpuTestHarness* aTestHarness)
1.27 + {
1.28 + CWSPEncodeTest* self = new(ELeave)CWSPEncodeTest(aTestHarness);
1.29 + CleanupStack::PushL(self);
1.30 + return self;
1.31 + }
1.32 +
1.33 +
1.34 +CWSPEncodeTest::CWSPEncodeTest(CIpuTestHarness* aTestHarness):
1.35 + iTestHarness(aTestHarness)
1.36 + {}
1.37 +
1.38 +CWSPEncodeTest::~CWSPEncodeTest()
1.39 + {}
1.40 +
1.41 +void CWSPEncodeTest::DoTestsL()
1.42 + {
1.43 + HeaderEncoderTestL();
1.44 + ShortIntTestL();
1.45 + LongIntTestL();
1.46 + UintVarTestL();
1.47 + StringTestL();
1.48 + DateTestL();
1.49 + }
1.50 +
1.51 +
1.52 +void CWSPEncodeTest::HeaderEncoderTestL()
1.53 + {
1.54 + _LIT(KTestText, "WSP Encode: Header");
1.55 + iTestHarness->StartTestL(KTestText);
1.56 + TRAPD(error, TestHeaderEncoderL());
1.57 + iTestHarness->EndTest(error);
1.58 + User::LeaveIfError(error);
1.59 + }
1.60 +
1.61 +void CWSPEncodeTest::TestHeaderEncoderL()
1.62 + {
1.63 + TInt err=0;
1.64 +
1.65 + CWspHeaderEncoder* primEncoder = CWspHeaderEncoder::NewLC();
1.66 +
1.67 + primEncoder->StartHeaderL(0x27);
1.68 + primEncoder->StartValueLengthL();
1.69 + primEncoder->AddUintVarL(0xff);
1.70 + primEncoder->AddLongIntL(999999);
1.71 + primEncoder->AddIntegerL(0x7F);
1.72 + primEncoder->EndValueLengthL();
1.73 + HBufC8* buf = primEncoder->EndHeaderL();
1.74 + CleanupStack::PushL(buf);
1.75 + CleanupStack::PopAndDestroy(2); //primEncoder, buf
1.76 +
1.77 + User::LeaveIfError(err);
1.78 + }
1.79 +
1.80 +
1.81 +void CWSPEncodeTest::ShortIntTestL()
1.82 + {
1.83 + _LIT(KTestText, "WSP Encode: ShortInt");
1.84 + iTestHarness->StartTestL(KTestText);
1.85 + TInt error = TestShortInt();
1.86 + iTestHarness->EndTest(error);
1.87 + User::LeaveIfError(error);
1.88 + }
1.89 +
1.90 +
1.91 +TInt CWSPEncodeTest::TestShortInt()
1.92 + {
1.93 + TUint8 input;
1.94 + TUint8 output;
1.95 +
1.96 + // TWspPrimitiveEncoder::ShortInt
1.97 + // Check 7 and 8 bit values. If 8bit notinh happens
1.98 + input=0; // MIN input value
1.99 + output = TWspPrimitiveEncoder::ShortInt(input);
1.100 + if (output !=128)
1.101 + return KErrGeneral;
1.102 +
1.103 + input=35; // MAX input value
1.104 + output = TWspPrimitiveEncoder::ShortInt(input);
1.105 + if (output !=163)
1.106 + return KErrGeneral;
1.107 +
1.108 + input=0x7F; // MAX input value
1.109 + output = TWspPrimitiveEncoder::ShortInt(input);
1.110 + if (output !=255)
1.111 + return KErrGeneral;
1.112 +
1.113 + input=0x80; // invalid value
1.114 + output = TWspPrimitiveEncoder::ShortInt(input);
1.115 + if (output !=0)
1.116 + return KErrGeneral;
1.117 +
1.118 + return KErrNone;
1.119 + }
1.120 +
1.121 +
1.122 +void CWSPEncodeTest::LongIntTestL()
1.123 + {
1.124 + _LIT(KTestText, "WSP Encode: LongInt");
1.125 + iTestHarness->StartTestL(KTestText);
1.126 + TRAPD(error,TestLongIntL());
1.127 + iTestHarness->EndTest(error);
1.128 + User::LeaveIfError(error);
1.129 + }
1.130 +
1.131 +void CWSPEncodeTest::TestLongIntL()
1.132 + {
1.133 + HBufC8* output=NULL;
1.134 + TBuf8<255> buf;
1.135 + TUint32 input;
1.136 +
1.137 + const TUint8 KZeroValueLongInt[] = {0x01, 0x00};
1.138 + const TUint8 K127LongInt[] = {0x01, 0x7F};
1.139 + const TUint8 K255LongInt[] = {0x01, 0xFF};
1.140 + const TUint8 K256LongInt[] = {0x02, 0x01, 0x00};
1.141 + const TUint8 KFFFFLongInt[] = {0x02, 0xFF, 0xFF};
1.142 + const TUint8 K10000LongInt[] = {0x03, 0x01, 0x00, 0x00};
1.143 + const TUint8 KFFFFFFLongInt[] = {0x03, 0xFF, 0xFF, 0xFF};
1.144 + const TUint8 K1000000LongInt[] = {0x04, 0x01, 0x00, 0x00, 0x00};
1.145 + const TUint8 KFFFFFFFFLongInt[] = {0x04, 0xFF, 0xFF, 0xFF, 0xFF};
1.146 +
1.147 + input=0;
1.148 + output = TWspPrimitiveEncoder::LongIntL(input);
1.149 + CleanupStack::PushL(output);
1.150 + buf.Copy(KZeroValueLongInt, sizeof(KZeroValueLongInt));
1.151 + if ((*output).CompareF(buf)!=0)
1.152 + User::Leave(KErrGeneral);
1.153 + CleanupStack::PopAndDestroy(output);
1.154 +
1.155 + input=127;
1.156 + output = TWspPrimitiveEncoder::LongIntL(input);
1.157 + CleanupStack::PushL(output);
1.158 + buf.Copy(K127LongInt, sizeof(K127LongInt));
1.159 + if ((*output).CompareF(buf)!=0)
1.160 + User::Leave(KErrGeneral);
1.161 + CleanupStack::PopAndDestroy(output);
1.162 +
1.163 + input=255;
1.164 + output = TWspPrimitiveEncoder::LongIntL(input);
1.165 + CleanupStack::PushL(output);
1.166 + buf.Copy(K255LongInt, sizeof(K255LongInt));
1.167 + if ((*output).CompareF(buf)!=0)
1.168 + User::Leave(KErrGeneral);
1.169 + CleanupStack::PopAndDestroy(output);
1.170 +
1.171 + input=256;
1.172 + output = TWspPrimitiveEncoder::LongIntL(input);
1.173 + CleanupStack::PushL(output);
1.174 + buf.Copy(K256LongInt, sizeof(K256LongInt));
1.175 + if ((*output).CompareF(buf)!=0)
1.176 + User::Leave(KErrGeneral);
1.177 + CleanupStack::PopAndDestroy(output);
1.178 +
1.179 + input=0xFFFF;
1.180 + output = TWspPrimitiveEncoder::LongIntL(input);
1.181 + CleanupStack::PushL(output);
1.182 + buf.Copy(KFFFFLongInt, sizeof(KFFFFLongInt));
1.183 + if ((*output).CompareF(buf)!=0)
1.184 + User::Leave(KErrGeneral);
1.185 + CleanupStack::PopAndDestroy(output);
1.186 +
1.187 + input=0x10000;
1.188 + output = TWspPrimitiveEncoder::LongIntL(input);
1.189 + CleanupStack::PushL(output);
1.190 + buf.Copy(K10000LongInt, sizeof(K10000LongInt));
1.191 + if ((*output).CompareF(buf)!=0)
1.192 + User::Leave(KErrGeneral);
1.193 + CleanupStack::PopAndDestroy(output);
1.194 +
1.195 + input=0xFFFFFF;
1.196 + output = TWspPrimitiveEncoder::LongIntL(input);
1.197 + CleanupStack::PushL(output);
1.198 + buf.Copy(KFFFFFFLongInt, sizeof(KFFFFFFLongInt));
1.199 + if ((*output).CompareF(buf)!=0)
1.200 + User::Leave(KErrGeneral);
1.201 + CleanupStack::PopAndDestroy(output);
1.202 +
1.203 + input=0x1000000;
1.204 + output = TWspPrimitiveEncoder::LongIntL(input);
1.205 + CleanupStack::PushL(output);
1.206 + buf.Copy(K1000000LongInt, sizeof(K1000000LongInt));
1.207 + if ((*output).CompareF(buf)!=0)
1.208 + User::Leave(KErrGeneral);
1.209 + CleanupStack::PopAndDestroy(output);
1.210 +
1.211 + input=0xFFFFFFFF;
1.212 + output = TWspPrimitiveEncoder::LongIntL(input);
1.213 + CleanupStack::PushL(output);
1.214 + buf.Copy(KFFFFFFFFLongInt, sizeof(KFFFFFFFFLongInt));
1.215 + if ((*output).CompareF(buf)!=0)
1.216 + User::Leave(KErrGeneral);
1.217 + CleanupStack::PopAndDestroy(output);
1.218 + }
1.219 +
1.220 +
1.221 +void CWSPEncodeTest::UintVarTestL()
1.222 + {
1.223 + _LIT(KTestText, "WSP Encode: UintVar");
1.224 + iTestHarness->StartTestL(KTestText);
1.225 + TRAPD(error,TestUintVarL());
1.226 + iTestHarness->EndTest(error);
1.227 + User::LeaveIfError(error);
1.228 + }
1.229 +
1.230 +void CWSPEncodeTest::TestUintVarL()
1.231 + {
1.232 +
1.233 + HBufC8* output=NULL;
1.234 + TBuf8<255> buf;
1.235 + TUint32 input;
1.236 +
1.237 + const TUint8 KMinValue[] = {0x00};
1.238 + const TUint8 KMaxValue[] = {0x8F, 0xFF, 0xFF, 0xFF, 0x7F};
1.239 +
1.240 + const TUint8 K7bitBoundaryLower[] = {0x7F};
1.241 + const TUint8 K7bitBoundaryUpper[] = {0x81, 0x00};
1.242 +
1.243 + const TUint8 K14bitBoundaryLower[] = {0xFF, 0x7F};
1.244 + const TUint8 K14bitBoundaryUpper[] = {0x81, 0x80, 0x00};
1.245 +
1.246 + const TUint8 K21bitBoundaryLower[] = {0xFF, 0xFF, 0x7F};
1.247 + const TUint8 K21bitBoundaryUpper[] = {0x81, 0x80, 0x80, 0x00};
1.248 + const TUint8 K28bitBoundaryLower[] = {0xFF, 0xFF, 0xFF, 0x7F};
1.249 + const TUint8 K28bitBoundaryUpper[] = {0x81, 0x80, 0x80, 0x80, 0x00};
1.250 +
1.251 + input=0;
1.252 + output = TWspPrimitiveEncoder::UintVarL(input);
1.253 + CleanupStack::PushL(output);
1.254 + buf.Copy(KMinValue, sizeof(KMinValue));
1.255 + if ((*output).CompareF(buf)!=0)
1.256 + User::Leave(KErrGeneral);
1.257 + CleanupStack::PopAndDestroy(output);
1.258 +
1.259 + input=0xFFFFFFFF;
1.260 + output = TWspPrimitiveEncoder::UintVarL(input);
1.261 + CleanupStack::PushL(output);
1.262 + buf.Copy(KMaxValue, sizeof(KMaxValue));
1.263 + if ((*output).CompareF(buf)!=0)
1.264 + User::Leave(KErrGeneral);
1.265 + CleanupStack::PopAndDestroy(output);
1.266 +
1.267 + input=0x7F;
1.268 + output = TWspPrimitiveEncoder::UintVarL(input);
1.269 + CleanupStack::PushL(output);
1.270 + buf.Copy(K7bitBoundaryLower, sizeof(K7bitBoundaryLower));
1.271 + if ((*output).CompareF(buf)!=0)
1.272 + User::Leave(KErrGeneral);
1.273 + CleanupStack::PopAndDestroy(output);
1.274 +
1.275 + input=0x80;
1.276 + output = TWspPrimitiveEncoder::UintVarL(input);
1.277 + CleanupStack::PushL(output);
1.278 + buf.Copy(K7bitBoundaryUpper, sizeof(K7bitBoundaryUpper));
1.279 + if ((*output).CompareF(buf)!=0)
1.280 + User::Leave(KErrGeneral);
1.281 + CleanupStack::PopAndDestroy(output);
1.282 +
1.283 + input=0x3FFF;
1.284 + output = TWspPrimitiveEncoder::UintVarL(input);
1.285 + CleanupStack::PushL(output);
1.286 + buf.Copy(K14bitBoundaryLower, sizeof(K14bitBoundaryLower));
1.287 + if ((*output).CompareF(buf)!=0)
1.288 + User::Leave(KErrGeneral);
1.289 + CleanupStack::PopAndDestroy(output);
1.290 +
1.291 + input=0x4000;
1.292 + output = TWspPrimitiveEncoder::UintVarL(input);
1.293 + CleanupStack::PushL(output);
1.294 + buf.Copy(K14bitBoundaryUpper, sizeof(K14bitBoundaryUpper));
1.295 + if ((*output).CompareF(buf)!=0)
1.296 + User::Leave(KErrGeneral);
1.297 + CleanupStack::PopAndDestroy(output);
1.298 +
1.299 + input=0x1FFFFF;
1.300 + output = TWspPrimitiveEncoder::UintVarL(input);
1.301 + CleanupStack::PushL(output);
1.302 + buf.Copy(K21bitBoundaryLower, sizeof(K21bitBoundaryLower));
1.303 + if ((*output).CompareF(buf)!=0)
1.304 + User::Leave(KErrGeneral);
1.305 + CleanupStack::PopAndDestroy(output);
1.306 +
1.307 + input=0x200000;
1.308 + output = TWspPrimitiveEncoder::UintVarL(input);
1.309 + CleanupStack::PushL(output);
1.310 + buf.Copy(K21bitBoundaryUpper, sizeof(K21bitBoundaryUpper));
1.311 + if ((*output).CompareF(buf)!=0)
1.312 + User::Leave(KErrGeneral);
1.313 + CleanupStack::PopAndDestroy(output);
1.314 +
1.315 + input=0xFFFFFFF;
1.316 + output = TWspPrimitiveEncoder::UintVarL(input);
1.317 + CleanupStack::PushL(output);
1.318 + buf.Copy(K28bitBoundaryLower, sizeof(K28bitBoundaryLower));
1.319 + if ((*output).CompareF(buf)!=0)
1.320 + User::Leave(KErrGeneral);
1.321 + CleanupStack::PopAndDestroy(output);
1.322 +
1.323 + input=0x10000000;
1.324 + output = TWspPrimitiveEncoder::UintVarL(input);
1.325 + CleanupStack::PushL(output);
1.326 + buf.Copy(K28bitBoundaryUpper, sizeof(K28bitBoundaryUpper));
1.327 + if ((*output).CompareF(buf)!=0)
1.328 + User::Leave(KErrGeneral);
1.329 + CleanupStack::PopAndDestroy(output);
1.330 +
1.331 + }
1.332 +
1.333 +
1.334 +void CWSPEncodeTest::StringTestL()
1.335 + {
1.336 + _LIT(KTestText, "WSP Encode: String");
1.337 + iTestHarness->StartTestL(KTestText);
1.338 + TRAPD(error,TestStringL());
1.339 + iTestHarness->EndTest(error);
1.340 + User::LeaveIfError(error);
1.341 + }
1.342 +
1.343 +void CWSPEncodeTest::TestStringL()
1.344 + {
1.345 + TBuf8<255> buf;
1.346 +
1.347 + // Test 1. A regular string
1.348 + const TUint8 KTestStringResult1[] = {'X','-','n','e','w','-','H','e','a','d','e','r','F','o','o',0x00};
1.349 + _LIT8(KTestString1,"X-new-HeaderFoo");
1.350 +
1.351 + // Test 2. A quoted string
1.352 + const TUint8 KTestStringResult2[] = {'\"','X','-','n','e','w','-','H','e','a','d','e','r','F','o','o',0x00};
1.353 + _LIT8(KTestString2,"\"X-new-HeaderFoo\"");
1.354 +
1.355 + // Test 3. A string beginning with an Upper-Ascii character
1.356 + const TUint8 KTestStringResult3[] = {0x7F,0x80,'X','-','n','e','w','-','H','e','a','d','e','r','F','o','o',0x00};
1.357 + const TUint8 KTestString3[] = {0x80,'X','-','n','e','w','-','H','e','a','d','e','r','F','o','o'};
1.358 +
1.359 + HBufC8* output = TWspPrimitiveEncoder::TextStringL(KTestString1);
1.360 + CleanupStack::PushL(output);
1.361 + buf.Copy(KTestStringResult1, sizeof(KTestStringResult1));
1.362 + if ((*output).CompareF(buf)!=0)
1.363 + User::Leave(KErrGeneral);
1.364 + CleanupStack::PopAndDestroy(output);
1.365 +
1.366 +
1.367 + output = TWspPrimitiveEncoder::TextStringL(KTestString2);
1.368 + CleanupStack::PushL(output);
1.369 + buf.Copy(KTestStringResult2, sizeof(KTestStringResult2));
1.370 + if ((*output).CompareF(buf)!=0)
1.371 + User::Leave(KErrGeneral);
1.372 + CleanupStack::PopAndDestroy(output);
1.373 +
1.374 + buf.Copy(KTestString3, sizeof(KTestString3));
1.375 + output = TWspPrimitiveEncoder::TextStringL(buf);
1.376 + CleanupStack::PushL(output);
1.377 + buf.Copy(KTestStringResult3, sizeof(KTestStringResult3));
1.378 + if ((*output).CompareF(buf)!=0)
1.379 + User::Leave(KErrGeneral);
1.380 + CleanupStack::PopAndDestroy(output);
1.381 + }
1.382 +
1.383 +
1.384 +void CWSPEncodeTest::DateTestL()
1.385 + {
1.386 + _LIT(KTestText, "WSP Encode: Date");
1.387 + iTestHarness->StartTestL(KTestText);
1.388 + TRAPD(error,TestDateL());
1.389 + iTestHarness->EndTest(error);
1.390 + User::LeaveIfError(error);
1.391 + }
1.392 +
1.393 +
1.394 +void CWSPEncodeTest::TestDateL()
1.395 + {
1.396 + TBuf8<255> buf;
1.397 +
1.398 + const TUint8 KDate0[] = {0x01, 0x00};
1.399 +
1.400 + TDateTime date(1970,EJanuary,0,0,0,0,0);
1.401 +
1.402 + HBufC8* output = TWspPrimitiveEncoder::DateL(date);
1.403 + CleanupStack::PushL(output);
1.404 + buf.Copy(KDate0, sizeof(KDate0));
1.405 + if((*output).CompareF(buf)!=0)
1.406 + User::Leave(KErrGeneral);
1.407 + CleanupStack::PopAndDestroy(output);
1.408 + }
1.409 +
1.410 +