Source code of Windows XP (NT5)
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213 lines
5.8 KiB

#pragma warning( disable:4786 )
#include <section.h>
#include <cstdlib>
#include <strutil.h>
#include <compfile.h>
#include <iomanip>
extern "C" {
DWORD SourceInstallType = 0;
CHAR *SourcePaths[] = { 0 };
CHAR *NativeSourcePaths[] = {0};
DWORD OsVersion;
VOID GetSourceInstallType(LPDWORD InstallVariation){}
};
//
// ValueSection methods
//
void ValueSection::parse() {
vector<string>::const_iterator iter = lines().begin();
while (iter != lines().end()) {
vector<string> tokens;
Tokenize((const string&)(*iter), string(" ="), tokens);
if (tokens.size() != 2)
throw InvalidSectionFormat(name());
m_values[tokens[0]] = toUnsignedLong(tokens[1].c_str());
iter++;
}
}
//
// TestSection methods
//
void TestSection::parse() {
vector<string>::const_iterator iter = lines().begin();
while (iter != lines().end()) {
m_testCases.push_back(testCaseFactory().create(*this, *iter));
iter++;
}
}
TestSection& TestSection::operator=(const TestSection& rhs){
cerr << "Copying section " << endl;
*(Section *)this = (Section&)rhs;
m_testCases.clear();
vector<TestCase*>::const_iterator iter = rhs.m_testCases.begin();
while (iter != rhs.m_testCases.end()) {
m_testCases.push_back(testCaseFactory().create(**iter));
iter++;
}
return *this;
}
void TestSection::executeTestCases(ostream& os) {
vector<TestCase*>::iterator iter = m_testCases.begin();
bool allpassed = true;
os << endl << endl
<< "Executing test cases for {" << name() << "}"
<< endl << endl;
while (iter != m_testCases.end()) {
(*iter)->execute(os);
if (!(*iter)->passed()) {
os << dec << setw(3) << setfill('0')
<< (iter - m_testCases.begin() + 1) << ": TestCase : ["
<< (*iter)->line() << "]" << " FAILED" << endl;
(*iter)->dump(os);
allpassed = false;
}
iter++;
}
if (allpassed)
os << "all the test cases passed for this section" << endl;
}
//
// ComplianceTestCase methods
//
void ComplianceTestCase::parse() {
vector<string> tokens;
Tokenize(line(), string("#=,"), tokens);
if (tokens.size() == 7) {
m_expectedResult = ((tokens[6][0] == 'y') || (tokens[6][0] == 'Y'));
sourceDetails();
installationDetails(tokens);
} else {
throw InvalidFormat(line(), section().name());
}
}
void ComplianceTestCase::sourceDetails() {
vector<string> tokens;
Tokenize(section().name(), string("[#]"), tokens);
if ((tokens.size() == 7) && (tokens[0] == "test")) {
m_sourceSKU = section().file().sourcesSection().value(tokens[1] + "#" + tokens[6]);
m_sourceVAR = section().file().varsSection().value(tokens[5]);
m_sourceVer = atof(tokens[2].c_str()) * 100; // (major * 100 + minor)
m_sourceBuild = atol(tokens[3].c_str());
}
else
throw Section::InvalidSectionName(section().name());
}
void ComplianceTestCase::installationDetails(const vector<string>& tokens) {
int length,i;
int version;
if ((tokens.size() == 7)) {
m_errExpected = section().file().errorsSection().value(tokens[5]);
m_cd.InstallType = section().file().typesSection().value(tokens[0]);
m_cd.InstallVariation = section().file().varsSection().value(tokens[4]);
m_cd.InstallSuite = section().file().suitesSection().value(tokens[3]);
m_cd.RequiresValidation = (section().name().find("#ccp") != section().name().npos);
//m_cd.MinimumVersion = ::strtod(tokens[1].c_str()) * 100;
length = tokens[1].size();
i = 0;
version = 0;
while (i < length) {
if( tokens[1][i] != '.'){
version = version*10 + tokens[1][i] - '0';
}
else
{
if (i == (length-3)) { // two decimal places
version = version*100+ (tokens[1][i+1] - '0')*10 + (tokens[1][i+2]-'0');
}
else{
version = version*100+ (tokens[1][i+1] - '0');
}
i = length;
}
i++;
}
m_cd.MinimumVersion = version;
// cerr << "minimum version" << m_cd.MinimumVersion << endl;
m_cd.MaximumKnownVersionNt = 510;
if( m_cd.InstallType & COMPLIANCE_INSTALLTYPE_WIN9X) {
m_cd.BuildNumberWin9x = toUnsignedLong(tokens[2].c_str());
m_cd.BuildNumberNt = 0;
} else {
m_cd.BuildNumberNt = toUnsignedLong(tokens[2].c_str());
m_cd.BuildNumberWin9x = 0;
}
}
else
throw Section::InvalidSectionName(section().name());
}
bool ComplianceTestCase::passed() {
bool result = false;
if (m_errExpected) {
// negative testcase
if (m_cd.RequiresValidation) {
// should have failed with expected error code & upgrade flag
result = (!m_passed && (m_errExpected == m_reason) &&
(m_allowUpgrade == m_expectedResult));
} else {
// should pass with expected error code & upgrade flag
// target errors are special case
result = ((m_reason != 0x5) ? m_passed : !m_passed) && (m_errExpected == m_reason) &&
(m_allowUpgrade == m_expectedResult);
}
}
else {
result = (m_passed && (m_allowUpgrade == m_expectedResult));
}
return result;
}
void ComplianceTestCase::execute(ostream &os) {
m_reason = 0;
m_noUpgrade = true;
m_passed = CheckCompliance(m_sourceSKU, m_sourceVAR, m_sourceVer,
m_sourceBuild, &m_cd, &m_reason, &m_noUpgrade) ? true : false;
m_allowUpgrade = (m_noUpgrade) ? false : true;
}
void ComplianceTestCase::dump(ostream &os) {
// (Error expected or not, The error that was expected in hex, Upgrade allowed)
os << "Expected result : (error=" << hex << m_errExpected << ",upgradeallowed="
<< ((m_expectedResult) ? "true" : "false") << ")" << endl;
// (Compliant or not(can we do clean install?), Reason in hex, Upgrade allowed)
os << "Actual result : (compliant=" << (m_passed ? "true" : "false")
<< ",error=" << hex << m_reason << ",upgradeallowed="
<< ((m_allowUpgrade) ? "true" : "false") << ")" << endl;
}