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/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
file Copyright.txt or https://cmake.org/licensing for details. */
#include "cmCTest.h"
#include <algorithm>
#include <cctype>
#include <chrono>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <ctime>
#include <iostream>
#include <map>
#include <sstream>
#include <string>
#include <utility>
#include <vector>
#include <cm/memory>
#include <cm/optional>
#include <cm/string_view>
#include <cmext/algorithm>
#include <cmext/string_view>
#include <cm3p/curl/curl.h>
#include <cm3p/zlib.h>
#include "cmsys/Base64.h"
#include "cmsys/Directory.hxx"
#include "cmsys/FStream.hxx"
#include "cmsys/Glob.hxx"
#include "cmsys/Process.h"
#include "cmsys/RegularExpression.hxx"
#include "cmsys/SystemInformation.hxx"
#if defined(_WIN32)
# include <windows.h> // IWYU pragma: keep
#else
# include <unistd.h> // IWYU pragma: keep
#endif
#include "cmCMakePresetsFile.h"
#include "cmCTestBuildAndTestHandler.h"
#include "cmCTestBuildHandler.h"
#include "cmCTestConfigureHandler.h"
#include "cmCTestCoverageHandler.h"
#include "cmCTestGenericHandler.h"
#include "cmCTestMemCheckHandler.h"
#include "cmCTestScriptHandler.h"
#include "cmCTestStartCommand.h"
#include "cmCTestSubmitHandler.h"
#include "cmCTestTestHandler.h"
#include "cmCTestUpdateHandler.h"
#include "cmCTestUploadHandler.h"
#include "cmDynamicLoader.h"
#include "cmGeneratedFileStream.h"
#include "cmGlobalGenerator.h"
#include "cmMakefile.h"
#include "cmProcessOutput.h"
#include "cmState.h"
#include "cmStateSnapshot.h"
#include "cmStateTypes.h"
#include "cmStringAlgorithms.h"
#include "cmSystemTools.h"
#include "cmValue.h"
#include "cmVersion.h"
#include "cmVersionConfig.h"
#include "cmXMLWriter.h"
#include "cmake.h"
#if defined(__BEOS__) || defined(__HAIKU__)
# include <be/kernel/OS.h> /* disable_debugger() API. */
#endif
struct cmCTest::Private
{
/** Representation of one part. */
struct PartInfo
{
void SetName(const std::string& name) { this->Name = name; }
const std::string& GetName() const { return this->Name; }
void Enable() { this->Enabled = true; }
explicit operator bool() const { return this->Enabled; }
std::vector<std::string> SubmitFiles;
private:
bool Enabled = false;
std::string Name;
};
int RepeatCount = 1; // default to run each test once
cmCTest::Repeat RepeatMode = cmCTest::Repeat::Never;
std::string ConfigType;
std::string ScheduleType;
std::chrono::system_clock::time_point StopTime;
bool StopOnFailure = false;
bool TestProgressOutput = false;
bool Verbose = false;
bool ExtraVerbose = false;
bool ProduceXML = false;
bool LabelSummary = true;
bool SubprojectSummary = true;
bool UseHTTP10 = false;
bool PrintLabels = false;
bool Failover = false;
bool FlushTestProgressLine = false;
bool ForceNewCTestProcess = false;
bool RunConfigurationScript = false;
// these are helper classes
cmCTestBuildHandler BuildHandler;
cmCTestBuildAndTestHandler BuildAndTestHandler;
cmCTestCoverageHandler CoverageHandler;
cmCTestScriptHandler ScriptHandler;
cmCTestTestHandler TestHandler;
cmCTestUpdateHandler UpdateHandler;
cmCTestConfigureHandler ConfigureHandler;
cmCTestMemCheckHandler MemCheckHandler;
cmCTestSubmitHandler SubmitHandler;
cmCTestUploadHandler UploadHandler;
std::vector<cmCTestGenericHandler*> GetTestingHandlers()
{
return { &this->BuildHandler, &this->BuildAndTestHandler,
&this->CoverageHandler, &this->ScriptHandler,
&this->TestHandler, &this->UpdateHandler,
&this->ConfigureHandler, &this->MemCheckHandler,
&this->SubmitHandler, &this->UploadHandler };
}
std::map<std::string, cmCTestGenericHandler*> GetNamedTestingHandlers()
{
return { { "build", &this->BuildHandler },
{ "buildtest", &this->BuildAndTestHandler },
{ "coverage", &this->CoverageHandler },
{ "script", &this->ScriptHandler },
{ "test", &this->TestHandler },
{ "update", &this->UpdateHandler },
{ "configure", &this->ConfigureHandler },
{ "memcheck", &this->MemCheckHandler },
{ "submit", &this->SubmitHandler },
{ "upload", &this->UploadHandler } };
}
bool ShowOnly = false;
bool OutputAsJson = false;
int OutputAsJsonVersion = 1;
// TODO: The ctest configuration should be a hierarchy of
// configuration option sources: command-line, script, ini file.
// Then the ini file can get re-loaded whenever it changes without
// affecting any higher-precedence settings.
std::map<std::string, std::string> CTestConfiguration;
std::map<std::string, std::string> CTestConfigurationOverwrites;
PartInfo Parts[PartCount];
std::map<std::string, Part> PartMap;
std::string CurrentTag;
bool TomorrowTag = false;
int TestModel = cmCTest::EXPERIMENTAL;
std::string SpecificGroup;
cmDuration TimeOut = cmDuration::zero();
cmDuration GlobalTimeout = cmDuration::zero();
int MaxTestNameWidth = 30;
int ParallelLevel = 1;
bool ParallelLevelSetInCli = false;
unsigned long TestLoad = 0;
int CompatibilityMode;
// information for the --build-and-test options
std::string BinaryDir;
std::string TestDir;
std::string NotesFiles;
bool InteractiveDebugMode = true;
bool ShortDateFormat = true;
bool CompressXMLFiles = false;
bool CompressTestOutput = true;
// By default we write output to the process output streams.
std::ostream* StreamOut = &std::cout;
std::ostream* StreamErr = &std::cerr;
bool SuppressUpdatingCTestConfiguration = false;
bool Debug = false;
bool ShowLineNumbers = false;
bool Quiet = false;
std::string BuildID;
std::vector<std::string> InitialCommandLineArguments;
int SubmitIndex = 0;
std::unique_ptr<cmGeneratedFileStream> OutputLogFile;
int OutputLogFileLastTag = -1;
bool OutputTestOutputOnTestFailure = false;
bool OutputColorCode = cmCTest::ColoredOutputSupportedByConsole();
std::map<std::string, std::string> Definitions;
cmCTest::NoTests NoTestsMode = cmCTest::NoTests::Legacy;
};
struct tm* cmCTest::GetNightlyTime(std::string const& str, bool tomorrowtag)
{
struct tm* lctime;
time_t tctime = time(nullptr);
lctime = gmtime(&tctime);
char buf[1024];
// add todays year day and month to the time in str because
// curl_getdate no longer assumes the day is today
sprintf(buf, "%d%02d%02d %s", lctime->tm_year + 1900, lctime->tm_mon + 1,
lctime->tm_mday, str.c_str());
cmCTestLog(this, OUTPUT,
"Determine Nightly Start Time" << std::endl
<< " Specified time: " << str
<< std::endl);
// Convert the nightly start time to seconds. Since we are
// providing only a time and a timezone, the current date of
// the local machine is assumed. Consequently, nightlySeconds
// is the time at which the nightly dashboard was opened or
// will be opened on the date of the current client machine.
// As such, this time may be in the past or in the future.
time_t ntime = curl_getdate(buf, &tctime);
cmCTestLog(this, DEBUG, " Get curl time: " << ntime << std::endl);
tctime = time(nullptr);
cmCTestLog(this, DEBUG, " Get the current time: " << tctime << std::endl);
const int dayLength = 24 * 60 * 60;
cmCTestLog(this, DEBUG, "Seconds: " << tctime << std::endl);
while (ntime > tctime) {
// If nightlySeconds is in the past, this is the current
// open dashboard, then return nightlySeconds. If
// nightlySeconds is in the future, this is the next
// dashboard to be opened, so subtract 24 hours to get the
// time of the current open dashboard
ntime -= dayLength;
cmCTestLog(this, DEBUG, "Pick yesterday" << std::endl);
cmCTestLog(this, DEBUG,
" Future time, subtract day: " << ntime << std::endl);
}
while (tctime > (ntime + dayLength)) {
ntime += dayLength;
cmCTestLog(this, DEBUG, " Past time, add day: " << ntime << std::endl);
}
cmCTestLog(this, DEBUG, "nightlySeconds: " << ntime << std::endl);
cmCTestLog(this, DEBUG,
" Current time: " << tctime << " Nightly time: " << ntime
<< std::endl);
if (tomorrowtag) {
cmCTestLog(this, OUTPUT, " Use future tag, Add a day" << std::endl);
ntime += dayLength;
}
lctime = gmtime(&ntime);
return lctime;
}
bool cmCTest::GetTomorrowTag() const
{
return this->Impl->TomorrowTag;
}
std::string cmCTest::CleanString(const std::string& str,
std::string::size_type spos)
{
spos = str.find_first_not_of(" \n\t\r\f\v", spos);
std::string::size_type epos = str.find_last_not_of(" \n\t\r\f\v");
if (spos == std::string::npos) {
return std::string();
}
if (epos != std::string::npos) {
epos = epos - spos + 1;
}
return str.substr(spos, epos);
}
std::string cmCTest::CurrentTime()
{
time_t currenttime = time(nullptr);
struct tm* t = localtime(&currenttime);
// return ::CleanString(ctime(&currenttime));
char current_time[1024];
if (this->Impl->ShortDateFormat) {
strftime(current_time, 1000, "%b %d %H:%M %Z", t);
} else {
strftime(current_time, 1000, "%a %b %d %H:%M:%S %Z %Y", t);
}
cmCTestLog(this, DEBUG, " Current_Time: " << current_time << std::endl);
return cmCTest::CleanString(current_time);
}
std::string cmCTest::GetCostDataFile()
{
std::string fname = this->GetCTestConfiguration("CostDataFile");
if (fname.empty()) {
fname = this->GetBinaryDir() + "/Testing/Temporary/CTestCostData.txt";
}
return fname;
}
std::string cmCTest::DecodeURL(const std::string& in)
{
std::string out;
for (const char* c = in.c_str(); *c; ++c) {
if (*c == '%' && isxdigit(*(c + 1)) && isxdigit(*(c + 2))) {
char buf[3] = { *(c + 1), *(c + 2), 0 };
out.append(1, char(strtoul(buf, nullptr, 16)));
c += 2;
} else {
out.append(1, *c);
}
}
return out;
}
cmCTest::cmCTest()
: Impl(new Private)
{
std::string envValue;
if (cmSystemTools::GetEnv("CTEST_OUTPUT_ON_FAILURE", envValue)) {
this->Impl->OutputTestOutputOnTestFailure = !cmIsOff(envValue);
}
envValue.clear();
if (cmSystemTools::GetEnv("CTEST_PROGRESS_OUTPUT", envValue)) {
this->Impl->TestProgressOutput = !cmIsOff(envValue);
}
this->Impl->Parts[PartStart].SetName("Start");
this->Impl->Parts[PartUpdate].SetName("Update");
this->Impl->Parts[PartConfigure].SetName("Configure");
this->Impl->Parts[PartBuild].SetName("Build");
this->Impl->Parts[PartTest].SetName("Test");
this->Impl->Parts[PartCoverage].SetName("Coverage");
this->Impl->Parts[PartMemCheck].SetName("MemCheck");
this->Impl->Parts[PartSubmit].SetName("Submit");
this->Impl->Parts[PartNotes].SetName("Notes");
this->Impl->Parts[PartExtraFiles].SetName("ExtraFiles");
this->Impl->Parts[PartUpload].SetName("Upload");
this->Impl->Parts[PartDone].SetName("Done");
// Fill the part name-to-id map.
for (Part p = PartStart; p != PartCount; p = Part(p + 1)) {
this->Impl
->PartMap[cmSystemTools::LowerCase(this->Impl->Parts[p].GetName())] = p;
}
for (auto& handler : this->Impl->GetTestingHandlers()) {
handler->SetCTestInstance(this);
}
// Make sure we can capture the build tool output.
cmSystemTools::EnableVSConsoleOutput();
}
cmCTest::~cmCTest() = default;
int cmCTest::GetParallelLevel() const
{
return this->Impl->ParallelLevel;
}
void cmCTest::SetParallelLevel(int level)
{
this->Impl->ParallelLevel = level < 1 ? 1 : level;
}
unsigned long cmCTest::GetTestLoad() const
{
return this->Impl->TestLoad;
}
void cmCTest::SetTestLoad(unsigned long load)
{
this->Impl->TestLoad = load;
}
bool cmCTest::ShouldCompressTestOutput()
{
return this->Impl->CompressTestOutput;
}
cmCTest::Part cmCTest::GetPartFromName(const std::string& name)
{
// Look up by lower-case to make names case-insensitive.
std::string lower_name = cmSystemTools::LowerCase(name);
auto const i = this->Impl->PartMap.find(lower_name);
if (i != this->Impl->PartMap.end()) {
return i->second;
}
// The string does not name a valid part.
return PartCount;
}
int cmCTest::Initialize(const char* binary_dir, cmCTestStartCommand* command)
{
bool quiet = false;
if (command && command->ShouldBeQuiet()) {
quiet = true;
}
cmCTestOptionalLog(this, DEBUG, "Here: " << __LINE__ << std::endl, quiet);
if (!this->Impl->InteractiveDebugMode) {
this->BlockTestErrorDiagnostics();
} else {
cmSystemTools::PutEnv("CTEST_INTERACTIVE_DEBUG_MODE=1");
}
this->Impl->BinaryDir = binary_dir;
cmSystemTools::ConvertToUnixSlashes(this->Impl->BinaryDir);
this->UpdateCTestConfiguration();
cmCTestOptionalLog(this, DEBUG, "Here: " << __LINE__ << std::endl, quiet);
if (this->Impl->ProduceXML) {
cmCTestOptionalLog(this, DEBUG, "Here: " << __LINE__ << std::endl, quiet);
cmCTestOptionalLog(this, OUTPUT,
" Site: "
<< this->GetCTestConfiguration("Site") << std::endl
<< " Build name: "
<< cmCTest::SafeBuildIdField(
this->GetCTestConfiguration("BuildName"))
<< std::endl,
quiet);
cmCTestOptionalLog(this, DEBUG, "Produce XML is on" << std::endl, quiet);
if (this->Impl->TestModel == cmCTest::NIGHTLY &&
this->GetCTestConfiguration("NightlyStartTime").empty()) {
cmCTestOptionalLog(
this, WARNING,
"WARNING: No nightly start time found please set in CTestConfig.cmake"
" or DartConfig.cmake"
<< std::endl,
quiet);
cmCTestOptionalLog(this, DEBUG, "Here: " << __LINE__ << std::endl,
quiet);
return 0;
}
}
cmake cm(cmake::RoleScript, cmState::CTest);
cm.SetHomeDirectory("");
cm.SetHomeOutputDirectory("");
cm.GetCurrentSnapshot().SetDefaultDefinitions();
cmGlobalGenerator gg(&cm);
cmMakefile mf(&gg, cm.GetCurrentSnapshot());
if (!this->ReadCustomConfigurationFileTree(this->Impl->BinaryDir, &mf)) {
cmCTestOptionalLog(
this, DEBUG, "Cannot find custom configuration file tree" << std::endl,
quiet);
return 0;
}
if (this->Impl->ProduceXML) {
// Verify "Testing" directory exists:
//
std::string testingDir = this->Impl->BinaryDir + "/Testing";
if (cmSystemTools::FileExists(testingDir)) {
if (!cmSystemTools::FileIsDirectory(testingDir)) {
cmCTestLog(this, ERROR_MESSAGE,
"File " << testingDir
<< " is in the place of the testing directory"
<< std::endl);
return 0;
}
} else {
if (!cmSystemTools::MakeDirectory(testingDir)) {
cmCTestLog(this, ERROR_MESSAGE,
"Cannot create directory " << testingDir << std::endl);
return 0;
}
}
// Create new "TAG" file or read existing one:
//
bool createNewTag = true;
if (command) {
createNewTag = command->ShouldCreateNewTag();
}
std::string tagfile = testingDir + "/TAG";
cmsys::ifstream tfin(tagfile.c_str());
std::string tag;
if (createNewTag) {
time_t tctime = time(nullptr);
if (this->Impl->TomorrowTag) {
tctime += (24 * 60 * 60);
}
struct tm* lctime = gmtime(&tctime);
if (tfin && cmSystemTools::GetLineFromStream(tfin, tag)) {
int year = 0;
int mon = 0;
int day = 0;
int hour = 0;
int min = 0;
sscanf(tag.c_str(), "%04d%02d%02d-%02d%02d", &year, &mon, &day, &hour,
&min);
if (year != lctime->tm_year + 1900 || mon != lctime->tm_mon + 1 ||
day != lctime->tm_mday) {
tag.clear();
}
std::string group;
if (cmSystemTools::GetLineFromStream(tfin, group) &&
!this->Impl->Parts[PartStart] && !command) {
this->Impl->SpecificGroup = group;
}
std::string model;
if (cmSystemTools::GetLineFromStream(tfin, model) &&
!this->Impl->Parts[PartStart] && !command) {
this->Impl->TestModel = GetTestModelFromString(model);
}
tfin.close();
}
if (tag.empty() || (nullptr != command) ||
this->Impl->Parts[PartStart]) {
cmCTestOptionalLog(
this, DEBUG,
"TestModel: " << this->GetTestModelString() << std::endl, quiet);
cmCTestOptionalLog(this, DEBUG,
"TestModel: " << this->Impl->TestModel << std::endl,
quiet);
if (this->Impl->TestModel == cmCTest::NIGHTLY) {
lctime = this->GetNightlyTime(
this->GetCTestConfiguration("NightlyStartTime"),
this->Impl->TomorrowTag);
}
char datestring[100];
sprintf(datestring, "%04d%02d%02d-%02d%02d", lctime->tm_year + 1900,
lctime->tm_mon + 1, lctime->tm_mday, lctime->tm_hour,
lctime->tm_min);
tag = datestring;
cmsys::ofstream ofs(tagfile.c_str());
if (ofs) {
ofs << tag << std::endl;
ofs << this->GetTestModelString() << std::endl;
switch (this->Impl->TestModel) {
case cmCTest::EXPERIMENTAL:
ofs << "Experimental" << std::endl;
break;
case cmCTest::NIGHTLY:
ofs << "Nightly" << std::endl;
break;
case cmCTest::CONTINUOUS:
ofs << "Continuous" << std::endl;
break;
}
}
ofs.close();
if (nullptr == command) {
cmCTestOptionalLog(this, OUTPUT,
"Create new tag: " << tag << " - "
<< this->GetTestModelString()
<< std::endl,
quiet);
}
}
} else {
std::string group;
std::string modelStr;
int model = cmCTest::UNKNOWN;
if (tfin) {
cmSystemTools::GetLineFromStream(tfin, tag);
cmSystemTools::GetLineFromStream(tfin, group);
if (cmSystemTools::GetLineFromStream(tfin, modelStr)) {
model = GetTestModelFromString(modelStr);
}
tfin.close();
}
if (tag.empty()) {
cmCTestLog(this, ERROR_MESSAGE,
"Cannot read existing TAG file in " << testingDir
<< std::endl);
return 0;
}
if (this->Impl->TestModel == cmCTest::UNKNOWN) {
if (model == cmCTest::UNKNOWN) {
cmCTestLog(this, ERROR_MESSAGE,
"TAG file does not contain model and "
"no model specified in start command"
<< std::endl);
return 0;
}
this->SetTestModel(model);
}
if (model != this->Impl->TestModel && model != cmCTest::UNKNOWN &&
this->Impl->TestModel != cmCTest::UNKNOWN) {
cmCTestOptionalLog(this, WARNING,
"Model given in TAG does not match "
"model given in ctest_start()"
<< std::endl,
quiet);
}
if (!this->Impl->SpecificGroup.empty() &&
group != this->Impl->SpecificGroup) {
cmCTestOptionalLog(this, WARNING,
"Group given in TAG does not match "
"group given in ctest_start()"
<< std::endl,
quiet);
} else {
this->Impl->SpecificGroup = group;
}
cmCTestOptionalLog(this, OUTPUT,
" Use existing tag: " << tag << " - "
<< this->GetTestModelString()
<< std::endl,
quiet);
}
this->Impl->CurrentTag = tag;
}
return 1;
}
bool cmCTest::InitializeFromCommand(cmCTestStartCommand* command)
{
std::string src_dir = this->GetCTestConfiguration("SourceDirectory");
std::string bld_dir = this->GetCTestConfiguration("BuildDirectory");
this->Impl->BuildID = "";
for (Part p = PartStart; p != PartCount; p = Part(p + 1)) {
this->Impl->Parts[p].SubmitFiles.clear();
}
cmMakefile* mf = command->GetMakefile();
std::string fname;
std::string src_dir_fname = cmStrCat(src_dir, "/CTestConfig.cmake");
cmSystemTools::ConvertToUnixSlashes(src_dir_fname);
std::string bld_dir_fname = cmStrCat(bld_dir, "/CTestConfig.cmake");
cmSystemTools::ConvertToUnixSlashes(bld_dir_fname);
if (cmSystemTools::FileExists(bld_dir_fname)) {
fname = bld_dir_fname;
} else if (cmSystemTools::FileExists(src_dir_fname)) {
fname = src_dir_fname;
}
if (!fname.empty()) {
cmCTestOptionalLog(this, OUTPUT,
" Reading ctest configuration file: " << fname
<< std::endl,
command->ShouldBeQuiet());
bool readit = mf->ReadDependentFile(fname);
if (!readit) {
std::string m = cmStrCat("Could not find include file: ", fname);
command->SetError(m);
return false;
}
}
this->SetCTestConfigurationFromCMakeVariable(mf, "NightlyStartTime",
"CTEST_NIGHTLY_START_TIME",
command->ShouldBeQuiet());
this->SetCTestConfigurationFromCMakeVariable(mf, "Site", "CTEST_SITE",
command->ShouldBeQuiet());
this->SetCTestConfigurationFromCMakeVariable(
mf, "BuildName", "CTEST_BUILD_NAME", command->ShouldBeQuiet());
if (!this->Initialize(bld_dir.c_str(), command)) {
return false;
}
cmCTestOptionalLog(this, OUTPUT,
" Use " << this->GetTestModelString() << " tag: "
<< this->GetCurrentTag() << std::endl,
command->ShouldBeQuiet());
return true;
}
bool cmCTest::UpdateCTestConfiguration()
{
if (this->Impl->SuppressUpdatingCTestConfiguration) {
return true;
}
std::string fileName = this->Impl->BinaryDir + "/CTestConfiguration.ini";
if (!cmSystemTools::FileExists(fileName)) {
fileName = this->Impl->BinaryDir + "/DartConfiguration.tcl";
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"UpdateCTestConfiguration from :" << fileName << "\n");
if (!cmSystemTools::FileExists(fileName)) {
// No need to exit if we are not producing XML
if (this->Impl->ProduceXML) {
cmCTestLog(this, WARNING, "Cannot find file: " << fileName << std::endl);
return false;
}
} else {
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"Parse Config file:" << fileName << "\n");
// parse the dart test file
cmsys::ifstream fin(fileName.c_str());
if (!fin) {
return false;
}
char buffer[1024];
while (fin) {
buffer[0] = 0;
fin.getline(buffer, 1023);
buffer[1023] = 0;
std::string line = cmCTest::CleanString(buffer);
if (line.empty()) {
continue;
}
while (fin && (line.back() == '\\')) {
line.resize(line.size() - 1);
buffer[0] = 0;
fin.getline(buffer, 1023);
buffer[1023] = 0;
line += cmCTest::CleanString(buffer);
}
if (line[0] == '#') {
continue;
}
std::string::size_type cpos = line.find_first_of(':');
if (cpos == std::string::npos) {
continue;
}
std::string key = line.substr(0, cpos);
std::string value = cmCTest::CleanString(line, cpos + 1);
this->Impl->CTestConfiguration[key] = value;
}
fin.close();
}
if (!this->GetCTestConfiguration("BuildDirectory").empty()) {
this->Impl->BinaryDir = this->GetCTestConfiguration("BuildDirectory");
cmSystemTools::ChangeDirectory(this->Impl->BinaryDir);
}
this->Impl->TimeOut =
std::chrono::seconds(atoi(this->GetCTestConfiguration("TimeOut").c_str()));
std::string const& testLoad = this->GetCTestConfiguration("TestLoad");
if (!testLoad.empty()) {
unsigned long load;
if (cmStrToULong(testLoad, &load)) {
this->SetTestLoad(load);
} else {
cmCTestLog(this, WARNING,
"Invalid value for 'Test Load' : " << testLoad << std::endl);
}
}
if (this->Impl->ProduceXML) {
this->Impl->CompressXMLFiles =
cmIsOn(this->GetCTestConfiguration("CompressSubmission"));
}
return true;
}
void cmCTest::BlockTestErrorDiagnostics()
{
cmSystemTools::PutEnv("DART_TEST_FROM_DART=1");
cmSystemTools::PutEnv("DASHBOARD_TEST_FROM_CTEST=" CMake_VERSION);
#if defined(_WIN32)
SetErrorMode(SEM_FAILCRITICALERRORS | SEM_NOGPFAULTERRORBOX);
#elif defined(__BEOS__) || defined(__HAIKU__)
disable_debugger(1);
#endif
}
void cmCTest::SetTestModel(int mode)
{
this->Impl->InteractiveDebugMode = false;
this->Impl->TestModel = mode;
}
int cmCTest::GetTestModel() const
{
return this->Impl->TestModel;
}
bool cmCTest::SetTest(const std::string& ttype, bool report)
{
if (cmSystemTools::LowerCase(ttype) == "all") {
for (Part p = PartStart; p != PartCount; p = Part(p + 1)) {
this->Impl->Parts[p].Enable();
}
return true;
}
Part p = this->GetPartFromName(ttype);
if (p != PartCount) {
this->Impl->Parts[p].Enable();
return true;
}
if (report) {
cmCTestLog(this, ERROR_MESSAGE,
"Don't know about test \"" << ttype << "\" yet..."
<< std::endl);
}
return false;
}
void cmCTest::Finalize()
{
}
bool cmCTest::OpenOutputFile(const std::string& path, const std::string& name,
cmGeneratedFileStream& stream, bool compress)
{
std::string testingDir = this->Impl->BinaryDir + "/Testing";
if (!path.empty()) {
testingDir += "/" + path;
}
if (cmSystemTools::FileExists(testingDir)) {
if (!cmSystemTools::FileIsDirectory(testingDir)) {
cmCTestLog(this, ERROR_MESSAGE,
"File " << testingDir
<< " is in the place of the testing directory"
<< std::endl);
return false;
}
} else {
if (!cmSystemTools::MakeDirectory(testingDir)) {
cmCTestLog(this, ERROR_MESSAGE,
"Cannot create directory " << testingDir << std::endl);
return false;
}
}
std::string filename = testingDir + "/" + name;
stream.SetTempExt("tmp");
stream.Open(filename);
if (!stream) {
cmCTestLog(this, ERROR_MESSAGE,
"Problem opening file: " << filename << std::endl);
return false;
}
if (compress) {
if (this->Impl->CompressXMLFiles) {
stream.SetCompression(true);
}
}
return true;
}
bool cmCTest::AddIfExists(Part part, const std::string& file)
{
if (this->CTestFileExists(file)) {
this->AddSubmitFile(part, file);
} else {
std::string name = cmStrCat(file, ".gz");
if (this->CTestFileExists(name)) {
this->AddSubmitFile(part, file);
} else {
return false;
}
}
return true;
}
bool cmCTest::CTestFileExists(const std::string& filename)
{
std::string testingDir = this->Impl->BinaryDir + "/Testing/" +
this->Impl->CurrentTag + "/" + filename;
return cmSystemTools::FileExists(testingDir);
}
cmCTestBuildHandler* cmCTest::GetBuildHandler()
{
return &this->Impl->BuildHandler;
}
cmCTestBuildAndTestHandler* cmCTest::GetBuildAndTestHandler()
{
return &this->Impl->BuildAndTestHandler;
}
cmCTestCoverageHandler* cmCTest::GetCoverageHandler()
{
return &this->Impl->CoverageHandler;
}
cmCTestScriptHandler* cmCTest::GetScriptHandler()
{
return &this->Impl->ScriptHandler;
}
cmCTestTestHandler* cmCTest::GetTestHandler()
{
return &this->Impl->TestHandler;
}
cmCTestUpdateHandler* cmCTest::GetUpdateHandler()
{
return &this->Impl->UpdateHandler;
}
cmCTestConfigureHandler* cmCTest::GetConfigureHandler()
{
return &this->Impl->ConfigureHandler;
}
cmCTestMemCheckHandler* cmCTest::GetMemCheckHandler()
{
return &this->Impl->MemCheckHandler;
}
cmCTestSubmitHandler* cmCTest::GetSubmitHandler()
{
return &this->Impl->SubmitHandler;
}
cmCTestUploadHandler* cmCTest::GetUploadHandler()
{
return &this->Impl->UploadHandler;
}
int cmCTest::ProcessSteps()
{
int res = 0;
bool notest = true;
int update_count = 0;
for (Part p = PartStart; notest && p != PartCount; p = Part(p + 1)) {
notest = !this->Impl->Parts[p];
}
if (this->Impl->Parts[PartUpdate] &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
cmCTestUpdateHandler* uphandler = this->GetUpdateHandler();
uphandler->SetPersistentOption(
"SourceDirectory",
this->GetCTestConfiguration("SourceDirectory").c_str());
update_count = uphandler->ProcessHandler();
if (update_count < 0) {
res |= cmCTest::UPDATE_ERRORS;
}
}
if (this->Impl->TestModel == cmCTest::CONTINUOUS && !update_count) {
return 0;
}
if (this->Impl->Parts[PartConfigure] &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
if (this->GetConfigureHandler()->ProcessHandler() < 0) {
res |= cmCTest::CONFIGURE_ERRORS;
}
}
if (this->Impl->Parts[PartBuild] &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
this->UpdateCTestConfiguration();
if (this->GetBuildHandler()->ProcessHandler() < 0) {
res |= cmCTest::BUILD_ERRORS;
}
}
if ((this->Impl->Parts[PartTest] || notest) &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
this->UpdateCTestConfiguration();
if (this->GetTestHandler()->ProcessHandler() < 0) {
res |= cmCTest::TEST_ERRORS;
}
}
if (this->Impl->Parts[PartCoverage] &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
this->UpdateCTestConfiguration();
if (this->GetCoverageHandler()->ProcessHandler() < 0) {
res |= cmCTest::COVERAGE_ERRORS;
}
}
if (this->Impl->Parts[PartMemCheck] &&
(this->GetRemainingTimeAllowed() > std::chrono::minutes(2))) {
this->UpdateCTestConfiguration();
if (this->GetMemCheckHandler()->ProcessHandler() < 0) {
res |= cmCTest::MEMORY_ERRORS;
}
}
if (!notest) {
std::string notes_dir = this->Impl->BinaryDir + "/Testing/Notes";
if (cmSystemTools::FileIsDirectory(notes_dir)) {
cmsys::Directory d;
d.Load(notes_dir);
unsigned long kk;
for (kk = 0; kk < d.GetNumberOfFiles(); kk++) {
const char* file = d.GetFile(kk);
std::string fullname = notes_dir + "/" + file;
if (cmSystemTools::FileExists(fullname) &&
!cmSystemTools::FileIsDirectory(fullname)) {
if (!this->Impl->NotesFiles.empty()) {
this->Impl->NotesFiles += ";";
}
this->Impl->NotesFiles += fullname;
this->Impl->Parts[PartNotes].Enable();
}
}
}
}
if (this->Impl->Parts[PartNotes]) {
this->UpdateCTestConfiguration();
if (!this->Impl->NotesFiles.empty()) {
this->GenerateNotesFile(this->Impl->NotesFiles);
}
}
if (this->Impl->Parts[PartSubmit]) {
this->UpdateCTestConfiguration();
if (this->GetSubmitHandler()->ProcessHandler() < 0) {
res |= cmCTest::SUBMIT_ERRORS;
}
}
if (res != 0) {
cmCTestLog(this, ERROR_MESSAGE, "Errors while running CTest" << std::endl);
if (!this->Impl->OutputTestOutputOnTestFailure) {
const std::string lastTestLog =
this->GetBinaryDir() + "/Testing/Temporary/LastTest.log";
cmCTestLog(this, ERROR_MESSAGE,
"Output from these tests are in: " << lastTestLog
<< std::endl);
cmCTestLog(this, ERROR_MESSAGE,
"Use \"--rerun-failed --output-on-failure\" to re-run the "
"failed cases verbosely."
<< std::endl);
}
}
return res;
}
std::string cmCTest::GetTestModelString()
{
if (!this->Impl->SpecificGroup.empty()) {
return this->Impl->SpecificGroup;
}
switch (this->Impl->TestModel) {
case cmCTest::NIGHTLY:
return "Nightly";
case cmCTest::CONTINUOUS:
return "Continuous";
}
return "Experimental";
}
int cmCTest::GetTestModelFromString(const std::string& str)
{
if (str.empty()) {
return cmCTest::EXPERIMENTAL;
}
std::string rstr = cmSystemTools::LowerCase(str);
if (cmHasLiteralPrefix(rstr, "cont")) {
return cmCTest::CONTINUOUS;
}
if (cmHasLiteralPrefix(rstr, "nigh")) {
return cmCTest::NIGHTLY;
}
return cmCTest::EXPERIMENTAL;
}
//######################################################################
//######################################################################
//######################################################################
//######################################################################
int cmCTest::RunMakeCommand(const std::string& command, std::string& output,
int* retVal, const char* dir, cmDuration timeout,
std::ostream& ofs, Encoding encoding)
{
// First generate the command and arguments
std::vector<std::string> args = cmSystemTools::ParseArguments(command);
if (args.empty()) {
return false;
}
std::vector<const char*> argv;
argv.reserve(args.size() + 1);
for (std::string const& a : args) {
argv.push_back(a.c_str());
}
argv.push_back(nullptr);
output.clear();
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT, "Run command:");
for (char const* arg : argv) {
if (!arg) {
break;
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT, " \"" << arg << "\"");
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT, std::endl);
// Now create process object
cmsysProcess* cp = cmsysProcess_New();
cmsysProcess_SetCommand(cp, argv.data());
cmsysProcess_SetWorkingDirectory(cp, dir);
cmsysProcess_SetOption(cp, cmsysProcess_Option_HideWindow, 1);
cmsysProcess_SetTimeout(cp, timeout.count());
cmsysProcess_Execute(cp);
// Initialize tick's
std::string::size_type tick = 0;
std::string::size_type tick_len = 1024;
std::string::size_type tick_line_len = 50;
char* data;
int length;
cmProcessOutput processOutput(encoding);
std::string strdata;
cmCTestLog(this, HANDLER_PROGRESS_OUTPUT,
" Each . represents " << tick_len
<< " bytes of output\n"
" "
<< std::flush);
while (cmsysProcess_WaitForData(cp, &data, &length, nullptr)) {
processOutput.DecodeText(data, length, strdata);
for (char& cc : strdata) {
if (cc == 0) {
cc = '\n';
}
}
output.append(strdata);
while (output.size() > (tick * tick_len)) {
tick++;
cmCTestLog(this, HANDLER_PROGRESS_OUTPUT, "." << std::flush);
if (tick % tick_line_len == 0 && tick > 0) {
cmCTestLog(this, HANDLER_PROGRESS_OUTPUT,
" Size: " << int((double(output.size()) / 1024.0) + 1)
<< "K\n " << std::flush);
}
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
cmCTestLogWrite(strdata.c_str(), strdata.size()));
if (ofs) {
ofs << cmCTestLogWrite(strdata.c_str(), strdata.size());
}
}
processOutput.DecodeText(std::string(), strdata);
if (!strdata.empty()) {
output.append(strdata);
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
cmCTestLogWrite(strdata.c_str(), strdata.size()));
if (ofs) {
ofs << cmCTestLogWrite(strdata.c_str(), strdata.size());
}
}
cmCTestLog(this, HANDLER_PROGRESS_OUTPUT,
" Size of output: " << int(double(output.size()) / 1024.0) << "K"
<< std::endl);
cmsysProcess_WaitForExit(cp, nullptr);
int result = cmsysProcess_GetState(cp);
if (result == cmsysProcess_State_Exited) {
*retVal = cmsysProcess_GetExitValue(cp);
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"Command exited with the value: " << *retVal << std::endl);
} else if (result == cmsysProcess_State_Exception) {
*retVal = cmsysProcess_GetExitException(cp);
cmCTestLog(this, WARNING,
"There was an exception: " << *retVal << std::endl);
} else if (result == cmsysProcess_State_Expired) {
cmCTestLog(this, WARNING, "There was a timeout" << std::endl);
} else if (result == cmsysProcess_State_Error) {
output += "\n*** ERROR executing: ";
output += cmsysProcess_GetErrorString(cp);
output += "\n***The build process failed.";
cmCTestLog(this, ERROR_MESSAGE,
"There was an error: " << cmsysProcess_GetErrorString(cp)
<< std::endl);
}
cmsysProcess_Delete(cp);
return result;
}
//######################################################################
//######################################################################
//######################################################################
//######################################################################
int cmCTest::RunTest(std::vector<const char*> argv, std::string* output,
int* retVal, std::ostream* log, cmDuration testTimeOut,
std::vector<std::string>* environment, Encoding encoding)
{
bool modifyEnv = (environment && !environment->empty());
// determine how much time we have
cmDuration timeout = this->GetRemainingTimeAllowed();
if (timeout != cmCTest::MaxDuration()) {
timeout -= std::chrono::minutes(2);
}
if (this->Impl->TimeOut > cmDuration::zero() &&
this->Impl->TimeOut < timeout) {
timeout = this->Impl->TimeOut;
}
if (testTimeOut > cmDuration::zero() &&
testTimeOut < this->GetRemainingTimeAllowed()) {
timeout = testTimeOut;
}
// always have at least 1 second if we got to here
if (timeout <= cmDuration::zero()) {
timeout = std::chrono::seconds(1);
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"Test timeout computed to be: "
<< (timeout == cmCTest::MaxDuration()
? std::string("infinite")
: std::to_string(cmDurationTo<unsigned int>(timeout)))
<< "\n");
if (cmSystemTools::SameFile(argv[0], cmSystemTools::GetCTestCommand()) &&
!this->Impl->ForceNewCTestProcess) {
cmCTest inst;
inst.Impl->ConfigType = this->Impl->ConfigType;
inst.Impl->TimeOut = timeout;
// Capture output of the child ctest.
std::ostringstream oss;
inst.SetStreams(&oss, &oss);
std::vector<std::string> args;
for (char const* i : argv) {
if (i) {
// make sure we pass the timeout in for any build and test
// invocations. Since --build-generator is required this is a
// good place to check for it, and to add the arguments in
if (strcmp(i, "--build-generator") == 0 &&
timeout != cmCTest::MaxDuration() &&
timeout > cmDuration::zero()) {
args.emplace_back("--test-timeout");
args.push_back(std::to_string(cmDurationTo<unsigned int>(timeout)));
}
args.emplace_back(i);
}
}
if (log) {
*log << "* Run internal CTest" << std::endl;
}
std::unique_ptr<cmSystemTools::SaveRestoreEnvironment> saveEnv;
if (modifyEnv) {
saveEnv = cm::make_unique<cmSystemTools::SaveRestoreEnvironment>();
cmSystemTools::AppendEnv(*environment);
}
*retVal = inst.Run(args, output);
if (output) {
*output += oss.str();
}
if (log && output) {
*log << *output;
}
if (output) {
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"Internal cmCTest object used to run test." << std::endl
<< *output
<< std::endl);
}
return cmsysProcess_State_Exited;
}
std::vector<char> tempOutput;
if (output) {
output->clear();
}
std::unique_ptr<cmSystemTools::SaveRestoreEnvironment> saveEnv;
if (modifyEnv) {
saveEnv = cm::make_unique<cmSystemTools::SaveRestoreEnvironment>();
cmSystemTools::AppendEnv(*environment);
}
cmsysProcess* cp = cmsysProcess_New();
cmsysProcess_SetCommand(cp, argv.data());
cmCTestLog(this, DEBUG, "Command is: " << argv[0] << std::endl);
if (cmSystemTools::GetRunCommandHideConsole()) {
cmsysProcess_SetOption(cp, cmsysProcess_Option_HideWindow, 1);
}
cmsysProcess_SetTimeout(cp, timeout.count());
cmsysProcess_Execute(cp);
char* data;
int length;
cmProcessOutput processOutput(encoding);
std::string strdata;
while (cmsysProcess_WaitForData(cp, &data, &length, nullptr)) {
processOutput.DecodeText(data, length, strdata);
if (output) {
cm::append(tempOutput, data, data + length);
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
cmCTestLogWrite(strdata.c_str(), strdata.size()));
if (log) {
log->write(strdata.c_str(), strdata.size());
}
}
processOutput.DecodeText(std::string(), strdata);
if (!strdata.empty()) {
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
cmCTestLogWrite(strdata.c_str(), strdata.size()));
if (log) {
log->write(strdata.c_str(), strdata.size());
}
}
cmsysProcess_WaitForExit(cp, nullptr);
processOutput.DecodeText(tempOutput, tempOutput);
if (output && tempOutput.begin() != tempOutput.end()) {
output->append(tempOutput.data(), tempOutput.size());
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT,
"-- Process completed" << std::endl);
int result = cmsysProcess_GetState(cp);
if (result == cmsysProcess_State_Exited) {
*retVal = cmsysProcess_GetExitValue(cp);
if (*retVal != 0 && this->Impl->OutputTestOutputOnTestFailure) {
this->OutputTestErrors(tempOutput);
}
} else if (result == cmsysProcess_State_Exception) {
if (this->Impl->OutputTestOutputOnTestFailure) {
this->OutputTestErrors(tempOutput);
}
*retVal = cmsysProcess_GetExitException(cp);
std::string outerr = cmStrCat("\n*** Exception executing: ",
cmsysProcess_GetExceptionString(cp));
if (output) {
*output += outerr;
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT, outerr << std::endl);
} else if (result == cmsysProcess_State_Error) {
std::string outerr =
cmStrCat("\n*** ERROR executing: ", cmsysProcess_GetErrorString(cp));
if (output) {
*output += outerr;
}
cmCTestLog(this, HANDLER_VERBOSE_OUTPUT, outerr << std::endl);
}
cmsysProcess_Delete(cp);
return result;
}
std::string cmCTest::SafeBuildIdField(const std::string& value)
{
std::string safevalue(value);
if (!safevalue.empty()) {
// Disallow non-filename and non-space whitespace characters.
// If they occur, replace them with ""
//
const char* disallowed = "\\:*?\"<>|\n\r\t\f\v";
if (safevalue.find_first_of(disallowed) != std::string::npos) {
std::string::size_type i = 0;
std::string::size_type n = strlen(disallowed);
char replace[2];
replace[1] = 0;
for (i = 0; i < n; ++i) {
replace[0] = disallowed[i];
cmSystemTools::ReplaceString(safevalue, replace, "");
}
}
}
if (safevalue.empty()) {
safevalue = "(empty)";
}
return safevalue;
}
void cmCTest::StartXML(cmXMLWriter& xml, bool append)
{
if (this->Impl->CurrentTag.empty()) {
cmCTestLog(this, ERROR_MESSAGE,
"Current Tag empty, this may mean"
" NightlStartTime was not set correctly."
<< std::endl);
cmSystemTools::SetFatalErrorOccured();
}
// find out about the system
cmsys::SystemInformation info;
info.RunCPUCheck();
info.RunOSCheck();
info.RunMemoryCheck();
std::string buildname =
cmCTest::SafeBuildIdField(this->GetCTestConfiguration("BuildName"));
std::string stamp = cmCTest::SafeBuildIdField(this->Impl->CurrentTag + "-" +
this->GetTestModelString());
std::string site =
cmCTest::SafeBuildIdField(this->GetCTestConfiguration("Site"));
xml.StartDocument();
xml.StartElement("Site");
xml.Attribute("BuildName", buildname);
xml.BreakAttributes();
xml.Attribute("BuildStamp", stamp);
xml.Attribute("Name", site);
xml.Attribute("Generator",
std::string("ctest-") + cmVersion::GetCMakeVersion());
if (append) {
xml.Attribute("Append", "true");
}
xml.Attribute("CompilerName", this->GetCTestConfiguration("Compiler"));
xml.Attribute("CompilerVersion",
this->GetCTestConfiguration("CompilerVersion"));
xml.Attribute("OSName", info.GetOSName());
xml.Attribute("Hostname", info.GetHostname());
xml.Attribute("OSRelease", info.GetOSRelease());
xml.Attribute("OSVersion", info.GetOSVersion());
xml.Attribute("OSPlatform", info.GetOSPlatform());
xml.Attribute("Is64Bits", info.Is64Bits());
xml.Attribute("VendorString", info.GetVendorString());
xml.Attribute("VendorID", info.GetVendorID());
xml.Attribute("FamilyID", info.GetFamilyID());
xml.Attribute("ModelID", info.GetModelID());
xml.Attribute("ProcessorCacheSize", info.GetProcessorCacheSize());
xml.Attribute("NumberOfLogicalCPU", info.GetNumberOfLogicalCPU());
xml.Attribute("NumberOfPhysicalCPU", info.GetNumberOfPhysicalCPU());
xml.Attribute("TotalVirtualMemory", info.GetTotalVirtualMemory());
xml.Attribute("TotalPhysicalMemory", info.GetTotalPhysicalMemory());
xml.Attribute("LogicalProcessorsPerPhysical",
info.GetLogicalProcessorsPerPhysical());
xml.Attribute("ProcessorClockFrequency", info.GetProcessorClockFrequency());
std::string changeId = this->GetCTestConfiguration("ChangeId");
if (!changeId.empty()) {
xml.Attribute("ChangeId", changeId);
}
this->AddSiteProperties(xml);
}
void cmCTest::AddSiteProperties(cmXMLWriter& xml)
{
cmCTestScriptHandler* ch = this->GetScriptHandler();
cmake* cm = ch->GetCMake();
// if no CMake then this is the old style script and props like
// this will not work anyway.
if (!cm) {
return;
}
// This code should go when cdash is changed to use labels only
cmValue subproject = cm->GetState()->GetGlobalProperty("SubProject");
if (subproject) {
xml.StartElement("Subproject");
xml.Attribute("name", *subproject);
cmValue labels =
ch->GetCMake()->GetState()->GetGlobalProperty("SubProjectLabels");
if (labels) {
xml.StartElement("Labels");
std::vector<std::string> args = cmExpandedList(*labels);
for (std::string const& i : args) {
xml.Element("Label", i);
}
xml.EndElement();
}
xml.EndElement();
}
// This code should stay when cdash only does label based sub-projects
cmValue label = cm->GetState()->GetGlobalProperty("Label");
if (label) {
xml.StartElement("Labels");
xml.Element("Label", *label);
xml.EndElement();
}
}
void cmCTest::GenerateSubprojectsOutput(cmXMLWriter& xml)
{
for (std::string const& subproj : this->GetLabelsForSubprojects()) {
xml.StartElement("Subproject");
xml.Attribute("name", subproj);
xml.Element("Label", subproj);
xml.EndElement(); // Subproject
}
}
std::vector<std::string> cmCTest::GetLabelsForSubprojects()
{
std::string labelsForSubprojects =
this->GetCTestConfiguration("LabelsForSubprojects");
std::vector<std::string> subprojects = cmExpandedList(labelsForSubprojects);
// sort the array
std::sort(subprojects.begin(), subprojects.end());
// remove duplicates
auto new_end = std::unique(subprojects.begin(), subprojects.end());
subprojects.erase(new_end, subprojects.end());
return subprojects;
}
void cmCTest::EndXML(cmXMLWriter& xml)
{
xml.EndElement(); // Site
xml.EndDocument();
}
int cmCTest::GenerateCTestNotesOutput(cmXMLWriter& xml,
std::vector<std::string> const& files)
{
std::string buildname =
cmCTest::SafeBuildIdField(this->GetCTestConfiguration("BuildName"));
xml.StartDocument();
xml.ProcessingInstruction("xml-stylesheet",
"type=\"text/xsl\" "
"href=\"Dart/Source/Server/XSL/Build.xsl "
"<file:///Dart/Source/Server/XSL/Build.xsl> \"");
xml.StartElement("Site");
xml.Attribute("BuildName", buildname);
xml.Attribute("BuildStamp",
this->Impl->CurrentTag + "-" + this->GetTestModelString());
xml.Attribute("Name", this->GetCTestConfiguration("Site"));
xml.Attribute("Generator",
std::string("ctest-") + cmVersion::GetCMakeVersion());
this->AddSiteProperties(xml);
xml.StartElement("Notes");
for (std::string const& file : files) {
cmCTestLog(this, OUTPUT, "\tAdd file: " << file << std::endl);
std::string note_time = this->CurrentTime();
xml.StartElement("Note");
xml.Attribute("Name", file);
xml.Element("Time", std::chrono::system_clock::now());
xml.Element("DateTime", note_time);
xml.StartElement("Text");
cmsys::ifstream ifs(file.c_str());
if (ifs) {
std::string line;
while (cmSystemTools::GetLineFromStream(ifs, line)) {
xml.Content(line);
xml.Content("\n");
}
ifs.close();
} else {
xml.Content("Problem reading file: " + file + "\n");
cmCTestLog(this, ERROR_MESSAGE,
"Problem reading file: " << file << " while creating notes"
<< std::endl);
}
xml.EndElement(); // Text
xml.EndElement(); // Note
}
xml.EndElement(); // Notes
xml.EndElement(); // Site
xml.EndDocument();
return 1;
}
int cmCTest::GenerateNotesFile(std::vector<std::string> const& files)
{
cmGeneratedFileStream ofs;
if (!this->OpenOutputFile(this->Impl->CurrentTag, "Notes.xml", ofs)) {
cmCTestLog(this, ERROR_MESSAGE, "Cannot open notes file" << std::endl);
return 1;
}
cmXMLWriter xml(ofs);
this->GenerateCTestNotesOutput(xml, files);
return 0;
}
int cmCTest::GenerateNotesFile(const std::string& cfiles)
{
if (cfiles.empty()) {
return 1;
}
cmCTestLog(this, OUTPUT, "Create notes file" << std::endl);
std::vector<std::string> const files =
cmSystemTools::SplitString(cfiles, ';');
if (files.empty()) {
return 1;
}
return this->GenerateNotesFile(files);
}
int cmCTest::GenerateDoneFile()
{
cmGeneratedFileStream ofs;
if (!this->OpenOutputFile(this->Impl->CurrentTag, "Done.xml", ofs)) {
cmCTestLog(this, ERROR_MESSAGE, "Cannot open done file" << std::endl);
return 1;
}
cmXMLWriter xml(ofs);
xml.StartDocument();
xml.StartElement("Done");
xml.Element("buildId", this->Impl->BuildID);
xml.Element("time", std::chrono::system_clock::now());
xml.EndElement(); // Done
xml.EndDocument();
return 0;
}
bool cmCTest::TryToChangeDirectory(std::string const& dir)
{
cmCTestLog(this, OUTPUT,
"Internal ctest changing into directory: " << dir << std::endl);
cmsys::Status status = cmSystemTools::ChangeDirectory(dir);
if (!status) {
auto msg = "Failed to change working directory to \"" + dir +
"\" : " + status.GetString() + "\n";
cmCTestLog(this, ERROR_MESSAGE, msg);
return false;
}
return true;
}
std::string cmCTest::Base64GzipEncodeFile(std::string const& file)
{
const std::string currDir = cmSystemTools::GetCurrentWorkingDirectory();
std::string parentDir = cmSystemTools::GetParentDirectory(file);
// Temporarily change to the file's directory so the tar gets created
// with a flat directory structure.
if (currDir != parentDir) {
if (!this->TryToChangeDirectory(parentDir)) {
return "";
}
}
std::string tarFile = file + "_temp.tar.gz";
std::vector<std::string> files;
files.push_back(file);
if (!cmSystemTools::CreateTar(tarFile, files, cmSystemTools::TarCompressGZip,
false)) {
cmCTestLog(this, ERROR_MESSAGE,
"Error creating tar while "
"encoding file: "
<< file << std::endl);
return "";
}
std::string base64 = this->Base64EncodeFile(tarFile);
cmSystemTools::RemoveFile(tarFile);
// Change back to the directory we started in.
if (currDir != parentDir) {
cmSystemTools::ChangeDirectory(currDir);
}
return base64;
}
std::string cmCTest::Base64EncodeFile(std::string const& file)
{
size_t const len = cmSystemTools::FileLength(file);
cmsys::ifstream ifs(file.c_str(),
std::ios::in
#ifdef _WIN32
| std::ios::binary
#endif
);
std::vector<char> file_buffer(len + 1);
ifs.read(&file_buffer[0], len);
ifs.close();
std::vector<char> encoded_buffer((len * 3) / 2 + 5);
size_t const rlen = cmsysBase64_Encode(
reinterpret_cast<unsigned char*>(&file_buffer[0]), len,
reinterpret_cast<unsigned char*>(&encoded_buffer[0]), 1);
return std::string(&encoded_buffer[0], rlen);
}
bool cmCTest::SubmitExtraFiles(std::vector<std::string> const& files)
{
for (std::string const& file : files) {
if (!cmSystemTools::FileExists(file)) {
cmCTestLog(this, ERROR_MESSAGE,
"Cannot find extra file: " << file << " to submit."
<< std::endl;);
return false;
}
this->AddSubmitFile(PartExtraFiles, file);
}
return true;
}
bool cmCTest::SubmitExtraFiles(const std::string& cfiles)
{
if (cfiles.empty()) {
return true;
}
cmCTestLog(this, OUTPUT, "Submit extra files" << std::endl);
std::vector<std::string> const files =
cmSystemTools::SplitString(cfiles, ';');
if (files.empty()) {
return true;
}
return this->SubmitExtraFiles(files);
}
// for a -D argument convert the next argument into
// the proper list of dashboard steps via SetTest
bool cmCTest::AddTestsForDashboardType(std::string& targ)
{
if (targ == "Experimental") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Start");
this->SetTest("Configure");
this->SetTest("Build");
this->SetTest("Test");
this->SetTest("Coverage");
this->SetTest("Submit");
} else if (targ == "ExperimentalStart") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Start");
} else if (targ == "ExperimentalUpdate") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Update");
} else if (targ == "ExperimentalConfigure") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Configure");
} else if (targ == "ExperimentalBuild") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Build");
} else if (targ == "ExperimentalTest") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Test");
} else if (targ == "ExperimentalMemCheck" || targ == "ExperimentalPurify") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("MemCheck");
} else if (targ == "ExperimentalCoverage") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Coverage");
} else if (targ == "ExperimentalSubmit") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Submit");
} else if (targ == "Continuous") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Start");
this->SetTest("Update");
this->SetTest("Configure");
this->SetTest("Build");
this->SetTest("Test");
this->SetTest("Coverage");
this->SetTest("Submit");
} else if (targ == "ContinuousStart") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Start");
} else if (targ == "ContinuousUpdate") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Update");
} else if (targ == "ContinuousConfigure") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Configure");
} else if (targ == "ContinuousBuild") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Build");
} else if (targ == "ContinuousTest") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Test");
} else if (targ == "ContinuousMemCheck" || targ == "ContinuousPurify") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("MemCheck");
} else if (targ == "ContinuousCoverage") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Coverage");
} else if (targ == "ContinuousSubmit") {
this->SetTestModel(cmCTest::CONTINUOUS);
this->SetTest("Submit");
} else if (targ == "Nightly") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Start");
this->SetTest("Update");
this->SetTest("Configure");
this->SetTest("Build");
this->SetTest("Test");
this->SetTest("Coverage");
this->SetTest("Submit");
} else if (targ == "NightlyStart") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Start");
} else if (targ == "NightlyUpdate") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Update");
} else if (targ == "NightlyConfigure") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Configure");
} else if (targ == "NightlyBuild") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Build");
} else if (targ == "NightlyTest") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Test");
} else if (targ == "NightlyMemCheck" || targ == "NightlyPurify") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("MemCheck");
} else if (targ == "NightlyCoverage") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Coverage");
} else if (targ == "NightlySubmit") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Submit");
} else if (targ == "MemoryCheck") {
this->SetTestModel(cmCTest::EXPERIMENTAL);
this->SetTest("Start");
this->SetTest("Configure");
this->SetTest("Build");
this->SetTest("MemCheck");
this->SetTest("Coverage");
this->SetTest("Submit");
} else if (targ == "NightlyMemoryCheck") {
this->SetTestModel(cmCTest::NIGHTLY);
this->SetTest("Start");
this->SetTest("Update");
this->SetTest("Configure");
this->SetTest("Build");
this->SetTest("MemCheck");
this->SetTest("Coverage");
this->SetTest("Submit");
} else {
return false;
}
return true;
}
void cmCTest::ErrorMessageUnknownDashDValue(std::string& val)
{
cmCTestLog(this, ERROR_MESSAGE,
"CTest -D called with incorrect option: " << val << std::endl);
cmCTestLog(
this, ERROR_MESSAGE,
"Available options are:"
<< std::endl
<< " ctest -D Continuous" << std::endl
<< " ctest -D Continuous(Start|Update|Configure|Build)" << std::endl
<< " ctest -D Continuous(Test|Coverage|MemCheck|Submit)" << std::endl
<< " ctest -D Experimental" << std::endl
<< " ctest -D Experimental(Start|Update|Configure|Build)" << std::endl
<< " ctest -D Experimental(Test|Coverage|MemCheck|Submit)" << std::endl
<< " ctest -D Nightly" << std::endl
<< " ctest -D Nightly(Start|Update|Configure|Build)" << std::endl
<< " ctest -D Nightly(Test|Coverage|MemCheck|Submit)" << std::endl
<< " ctest -D NightlyMemoryCheck" << std::endl);
}
bool cmCTest::CheckArgument(const std::string& arg, cm::string_view varg1,
const char* varg2)
{
return (arg == varg1) || (varg2 && arg == varg2);
}
// Processes one command line argument (and its arguments if any)
// for many simple options and then returns
bool cmCTest::HandleCommandLineArguments(size_t& i,
std::vector<std::string>& args,
std::string& errormsg)
{
std::string arg = args[i];
if (this->CheckArgument(arg, "-F"_s)) {
this->Impl->Failover = true;
} else if (this->CheckArgument(arg, "-j"_s, "--parallel") &&
i < args.size() - 1) {
i++;
int plevel = atoi(args[i].c_str());
this->SetParallelLevel(plevel);
this->Impl->ParallelLevelSetInCli = true;
} else if (cmHasPrefix(arg, "-j")) {
int plevel = atoi(arg.substr(2).c_str());
this->SetParallelLevel(plevel);
this->Impl->ParallelLevelSetInCli = true;
}
else if (this->CheckArgument(arg, "--repeat-until-fail"_s)) {
if (i >= args.size() - 1) {
errormsg = "'--repeat-until-fail' requires an argument";
return false;
}
if (this->Impl->RepeatMode != cmCTest::Repeat::Never) {
errormsg = "At most one '--repeat' option may be used.";
return false;
}
i++;
long repeat = 1;
if (!cmStrToLong(args[i], &repeat)) {
errormsg = cmStrCat("'--repeat-until-fail' given non-integer value '",
args[i], "'");
return false;
}
this->Impl->RepeatCount = static_cast<int>(repeat);
if (repeat > 1) {
this->Impl->RepeatMode = cmCTest::Repeat::UntilFail;
}
}
else if (this->CheckArgument(arg, "--repeat"_s)) {
if (i >= args.size() - 1) {
errormsg = "'--repeat' requires an argument";
return false;
}
if (this->Impl->RepeatMode != cmCTest::Repeat::Never) {
errormsg = "At most one '--repeat' option may be used.";
return false;
}
i++;
cmsys::RegularExpression repeatRegex(
"^(until-fail|until-pass|after-timeout):([0-9]+)$");
if (repeatRegex.find(args[i])) {
std::string const& count = repeatRegex.match(2);
unsigned long n = 1;
cmStrToULong(count, &n); // regex guarantees success
this->Impl->RepeatCount = static_cast<int>(n);
if (this->Impl->RepeatCount > 1) {
std::string const& mode = repeatRegex.match(1);
if (mode == "until-fail") {
this->Impl->RepeatMode = cmCTest::Repeat::UntilFail;
} else if (mode == "until-pass") {
this->Impl->RepeatMode = cmCTest::Repeat::UntilPass;
} else if (mode == "after-timeout") {
this->Impl->RepeatMode = cmCTest::Repeat::AfterTimeout;
}
}
} else {
errormsg = cmStrCat("'--repeat' given invalid value '", args[i], "'");
return false;
}
}
else if (this->CheckArgument(arg, "--test-load"_s) && i < args.size() - 1) {
i++;
unsigned long load;
if (cmStrToULong(args[i], &load)) {
this->SetTestLoad(load);
} else {
cmCTestLog(this, WARNING,
"Invalid value for 'Test Load' : " << args[i] << std::endl);
}
}
else if (this->CheckArgument(arg, "--no-compress-output"_s)) {
this->Impl->CompressTestOutput = false;
}
else if (this->CheckArgument(arg, "--print-labels"_s)) {
this->Impl->PrintLabels = true;
}
else if (this->CheckArgument(arg, "--http1.0"_s)) {
this->Impl->UseHTTP10 = true;
}
else if (this->CheckArgument(arg, "--timeout"_s) && i < args.size() - 1) {
i++;
auto timeout = cmDuration(atof(args[i].c_str()));
this->Impl->GlobalTimeout = timeout;
}
else if (this->CheckArgument(arg, "--stop-time"_s) && i < args.size() - 1) {
i++;
this->SetStopTime(args[i]);
}
else if (this->CheckArgument(arg, "--stop-on-failure"_s)) {
this->Impl->StopOnFailure = true;
}
else if (this->CheckArgument(arg, "-C"_s, "--build-config") &&
i < args.size() - 1) {
i++;
this->SetConfigType(args[i]);
}
else if (this->CheckArgument(arg, "--debug"_s)) {
this->Impl->Debug = true;
this->Impl->ShowLineNumbers = true;
} else if ((this->CheckArgument(arg, "--group"_s) ||
// This is an undocumented / deprecated option.
// "Track" has been renamed to "Group".
this->CheckArgument(arg, "--track"_s)) &&
i < args.size() - 1) {
i++;
this->Impl->SpecificGroup = args[i];
} else if (this->CheckArgument(arg, "--show-line-numbers"_s)) {
this->Impl->ShowLineNumbers = true;
} else if (this->CheckArgument(arg, "--no-label-summary"_s)) {
this->Impl->LabelSummary = false;
} else if (this->CheckArgument(arg, "--no-subproject-summary"_s)) {
this->Impl->SubprojectSummary = false;
} else if (this->CheckArgument(arg, "-Q"_s, "--quiet")) {
this->Impl->Quiet = true;
} else if (this->CheckArgument(arg, "--progress"_s)) {
this->Impl->TestProgressOutput = true;
} else if (this->CheckArgument(arg, "-V"_s, "--verbose")) {
this->Impl->Verbose = true;
} else if (this->CheckArgument(arg, "-VV"_s, "--extra-verbose")) {
this->Impl->ExtraVerbose = true;
this->Impl->Verbose = true;
} else if (this->CheckArgument(arg, "--output-on-failure"_s)) {
this->Impl->OutputTestOutputOnTestFailure = true;
} else if (this->CheckArgument(arg, "--test-output-size-passed"_s) &&
i < args.size() - 1) {
i++;
long outputSize;
if (cmStrToLong(args[i], &outputSize)) {
this->Impl->TestHandler.SetTestOutputSizePassed(int(outputSize));
} else {
cmCTestLog(this, WARNING,
"Invalid value for '--test-output-size-passed': " << args[i]
<< "\n");
}
} else if (this->CheckArgument(arg, "--test-output-size-failed"_s) &&
i < args.size() - 1) {
i++;
long outputSize;
if (cmStrToLong(args[i], &outputSize)) {
this->Impl->TestHandler.SetTestOutputSizeFailed(int(outputSize));
} else {
cmCTestLog(this, WARNING,
"Invalid value for '--test-output-size-failed': " << args[i]
<< "\n");
}
} else if (this->CheckArgument(arg, "-N"_s, "--show-only")) {
this->Impl->ShowOnly = true;
} else if (cmHasLiteralPrefix(arg, "--show-only=")) {
this->Impl->ShowOnly = true;
// Check if a specific format is requested. Defaults to human readable
// text.
std::string argWithFormat = "--show-only=";
std::string format = arg.substr(argWithFormat.length());
if (format == "json-v1") {
// Force quiet mode so the only output is the json object model.
this->Impl->Quiet = true;
this->Impl->OutputAsJson = true;
this->Impl->OutputAsJsonVersion = 1;
} else if (format != "human") {
errormsg = "'--show-only=' given unknown value '" + format + "'";
return false;
}
}
else if (this->CheckArgument(arg, "-O"_s, "--output-log") &&
i < args.size() - 1) {
i++;
this->SetOutputLogFileName(args[i]);
}
else if (this->CheckArgument(arg, "--tomorrow-tag"_s)) {
this->Impl->TomorrowTag = true;
} else if (this->CheckArgument(arg, "--force-new-ctest-process"_s)) {
this->Impl->ForceNewCTestProcess = true;
} else if (this->CheckArgument(arg, "-W"_s, "--max-width") &&
i < args.size() - 1) {
i++;
this->Impl->MaxTestNameWidth = atoi(args[i].c_str());
} else if (this->CheckArgument(arg, "--interactive-debug-mode"_s) &&
i < args.size() - 1) {
i++;
this->Impl->InteractiveDebugMode = cmIsOn(args[i]);
} else if (this->CheckArgument(arg, "--submit-index"_s) &&
i < args.size() - 1) {
i++;
this->Impl->SubmitIndex = atoi(args[i].c_str());
if (this->Impl->SubmitIndex < 0) {
this->Impl->SubmitIndex = 0;
}
}
else if (this->CheckArgument(arg, "--overwrite"_s) && i < args.size() - 1) {
i++;
this->AddCTestConfigurationOverwrite(args[i]);
} else if (this->CheckArgument(arg, "-A"_s, "--add-notes") &&
i < args.size() - 1) {
this->Impl->ProduceXML = true;
this->SetTest("Notes");
i++;
this->SetNotesFiles(args[i]);
return true;
} else if (this->CheckArgument(arg, "--test-dir"_s)) {
if (i >= args.size() - 1) {
errormsg = "'--test-dir' requires an argument";
return false;
}
i++;
this->Impl->TestDir = std::string(args[i]);
} else if (this->CheckArgument(arg, "--output-junit"_s)) {
if (i >= args.size() - 1) {
errormsg = "'--output-junit' requires an argument";
return false;
}
i++;
this->Impl->TestHandler.SetJUnitXMLFileName(std::string(args[i]));
// Turn test output compression off.
// This makes it easier to include test output in the resulting
// JUnit XML report.
this->Impl->CompressTestOutput = false;
}
cm::string_view noTestsPrefix = "--no-tests=";
if (cmHasPrefix(arg, noTestsPrefix)) {
cm::string_view noTestsMode =
cm::string_view(arg).substr(noTestsPrefix.length());
if (noTestsMode == "error") {
this->Impl->NoTestsMode = cmCTest::NoTests::Error;
} else if (noTestsMode != "ignore") {
errormsg =
cmStrCat("'--no-tests=' given unknown value '", noTestsMode, '\'');
return false;
} else {
this->Impl->NoTestsMode = cmCTest::NoTests::Ignore;
}
}
// options that control what tests are run
else if (this->CheckArgument(arg, "-I"_s, "--tests-information") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption("TestsToRunInformation",
args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption("TestsToRunInformation",
args[i].c_str());
} else if (this->CheckArgument(arg, "-U"_s, "--union")) {
this->GetTestHandler()->SetPersistentOption("UseUnion", "true");
this->GetMemCheckHandler()->SetPersistentOption("UseUnion", "true");
} else if (this->CheckArgument(arg, "-R"_s, "--tests-regex") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption("IncludeRegularExpression",
args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption("IncludeRegularExpression",
args[i].c_str());
} else if (this->CheckArgument(arg, "-L"_s, "--label-regex") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->AddPersistentMultiOption("LabelRegularExpression",
args[i]);
this->GetMemCheckHandler()->AddPersistentMultiOption(
"LabelRegularExpression", args[i]);
} else if (this->CheckArgument(arg, "-LE"_s, "--label-exclude") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->AddPersistentMultiOption(
"ExcludeLabelRegularExpression", args[i]);
this->GetMemCheckHandler()->AddPersistentMultiOption(
"ExcludeLabelRegularExpression", args[i]);
}
else if (this->CheckArgument(arg, "-E"_s, "--exclude-regex") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption("ExcludeRegularExpression",
args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption("ExcludeRegularExpression",
args[i].c_str());
}
else if (this->CheckArgument(arg, "-FA"_s, "--fixture-exclude-any") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption(
"ExcludeFixtureRegularExpression", args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption(
"ExcludeFixtureRegularExpression", args[i].c_str());
} else if (this->CheckArgument(arg, "-FS"_s, "--fixture-exclude-setup") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption(
"ExcludeFixtureSetupRegularExpression", args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption(
"ExcludeFixtureSetupRegularExpression", args[i].c_str());
} else if (this->CheckArgument(arg, "-FC"_s, "--fixture-exclude-cleanup") &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption(
"ExcludeFixtureCleanupRegularExpression", args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption(
"ExcludeFixtureCleanupRegularExpression", args[i].c_str());
}
else if (this->CheckArgument(arg, "--resource-spec-file"_s) &&
i < args.size() - 1) {
i++;
this->GetTestHandler()->SetPersistentOption("ResourceSpecFile",
args[i].c_str());
this->GetMemCheckHandler()->SetPersistentOption("ResourceSpecFile",
args[i].c_str());
}
else if (this->CheckArgument(arg, "--rerun-failed"_s)) {
this->GetTestHandler()->SetPersistentOption("RerunFailed", "true");
this->GetMemCheckHandler()->SetPersistentOption("RerunFailed", "true");
}
return true;
}
#if !defined(_WIN32)
bool cmCTest::ConsoleIsNotDumb()
{
std::string term_env_variable;
if (cmSystemTools::GetEnv("TERM", term_env_variable)) {
return isatty(1) && term_env_variable != "dumb";
}
return false;
}
#endif
bool cmCTest::ProgressOutputSupportedByConsole()
{
#if defined(_WIN32)
// On Windows we need a console buffer.
void* console = GetStdHandle(STD_OUTPUT_HANDLE);
CONSOLE_SCREEN_BUFFER_INFO csbi;
return GetConsoleScreenBufferInfo(console, &csbi);
#else
// On UNIX we need a non-dumb tty.
return ConsoleIsNotDumb();
#endif
}
bool cmCTest::ColoredOutputSupportedByConsole()
{
#if defined(_WIN32)
// Not supported on Windows
return false;
#else
// On UNIX we need a non-dumb tty.
std::string clicolor_force;
if (cmSystemTools::GetEnv("CLICOLOR_FORCE", clicolor_force) &&
!clicolor_force.empty() && clicolor_force != "0") {
return true;
}
std::string clicolor;
if (cmSystemTools::GetEnv("CLICOLOR", clicolor) && clicolor == "0") {
return false;
}
return ConsoleIsNotDumb();
#endif
}
// handle the -S -SR and -SP arguments
void cmCTest::HandleScriptArguments(size_t& i, std::vector<std::string>& args,
bool& SRArgumentSpecified)
{
std::string arg = args[i];
if (this->CheckArgument(arg, "-SP"_s, "--script-new-process") &&
i < args.size() - 1) {
this->Impl->RunConfigurationScript = true;
i++;
cmCTestScriptHandler* ch = this->GetScriptHandler();
// -SR is an internal argument, -SP should be ignored when it is passed
if (!SRArgumentSpecified) {
ch->AddConfigurationScript(args[i], false);
}
}
if (this->CheckArgument(arg, "-SR"_s, "--script-run") &&
i < args.size() - 1) {
SRArgumentSpecified = true;
this->Impl->RunConfigurationScript = true;
i++;
cmCTestScriptHandler* ch = this->GetScriptHandler();
ch->AddConfigurationScript(args[i], true);
}
if (this->CheckArgument(arg, "-S"_s, "--script") && i < args.size() - 1) {
this->Impl->RunConfigurationScript = true;
i++;
cmCTestScriptHandler* ch = this->GetScriptHandler();
// -SR is an internal argument, -S should be ignored when it is passed
if (!SRArgumentSpecified) {
ch->AddConfigurationScript(args[i], true);
}
}
}
bool cmCTest::AddVariableDefinition(const std::string& arg)
{
std::string name;
std::string value;
cmStateEnums::CacheEntryType type = cmStateEnums::UNINITIALIZED;
if (cmake::ParseCacheEntry(arg, name, value, type)) {
this->Impl->Definitions[name] = value;
return true;
}
return false;
}
void cmCTest::SetPersistentOptionIfNotEmpty(const std::string& value,
const std::string& optionName)
{
if (!value.empty()) {
this->GetTestHandler()->SetPersistentOption(optionName, value.c_str());
this->GetMemCheckHandler()->SetPersistentOption(optionName, value.c_str());
}
}
void cmCTest::AddPersistentMultiOptionIfNotEmpty(const std::string& value,
const std::string& optionName)
{
if (!value.empty()) {
this->GetTestHandler()->AddPersistentMultiOption(optionName, value);
this->GetMemCheckHandler()->AddPersistentMultiOption(optionName, value);
}
}
bool cmCTest::SetArgsFromPreset(const std::string& presetName,
bool listPresets)
{
const auto workingDirectory = cmSystemTools::GetCurrentWorkingDirectory();
cmCMakePresetsFile settingsFile;
auto result = settingsFile.ReadProjectPresets(workingDirectory);
if (result != cmCMakePresetsFile::ReadFileResult::READ_OK) {
cmSystemTools::Error(cmStrCat("Could not read presets from ",
workingDirectory, ": ",
cmCMakePresetsFile::ResultToString(result)));
return false;
}
if (listPresets) {
settingsFile.PrintTestPresetList();
return true;
}
auto presetPair = settingsFile.TestPresets.find(presetName);
if (presetPair == settingsFile.TestPresets.end()) {
cmSystemTools::Error(cmStrCat("No such test preset in ", workingDirectory,
": \"", presetName, '"'));
settingsFile.PrintTestPresetList();
return false;
}
if (presetPair->second.Unexpanded.Hidden) {
cmSystemTools::Error(cmStrCat("Cannot use hidden test preset in ",
workingDirectory, ": \"", presetName, '"'));
settingsFile.PrintTestPresetList();
return false;
}
auto const& expandedPreset = presetPair->second.Expanded;
if (!expandedPreset) {
cmSystemTools::Error(cmStrCat("Could not evaluate test preset \"",
presetName, "\": Invalid macro expansion"));
settingsFile.PrintTestPresetList();
return false;
}
if (!expandedPreset->ConditionResult) {
cmSystemTools::Error(cmStrCat("Cannot use disabled test preset in ",
workingDirectory, ": \"", presetName, '"'));
settingsFile.PrintTestPresetList();
return false;
}
auto configurePresetPair =
settingsFile.ConfigurePresets.find(expandedPreset->ConfigurePreset);
if (configurePresetPair == settingsFile.ConfigurePresets.end()) {
cmSystemTools::Error(cmStrCat("No such configure preset in ",
workingDirectory, ": \"",
expandedPreset->ConfigurePreset, '"'));
settingsFile.PrintConfigurePresetList();
return false;
}
if (configurePresetPair->second.Unexpanded.Hidden) {
cmSystemTools::Error(cmStrCat("Cannot use hidden configure preset in ",
workingDirectory, ": \"",
expandedPreset->ConfigurePreset, '"'));
settingsFile.PrintConfigurePresetList();
return false;
}
auto const& expandedConfigurePreset = configurePresetPair->second.Expanded;
if (!expandedConfigurePreset) {
cmSystemTools::Error(cmStrCat("Could not evaluate configure preset \"",
expandedPreset->ConfigurePreset,
"\": Invalid macro expansion"));
return false;
}
auto presetEnvironment = expandedPreset->Environment;
for (auto const& var : presetEnvironment) {
if (var.second) {
cmSystemTools::PutEnv(cmStrCat(var.first, '=', *var.second));
}
}
if (!expandedPreset->Configuration.empty()) {
this->SetConfigType(expandedPreset->Configuration);
}
// Set build directory to value specified by the configure preset.
this->AddCTestConfigurationOverwrite(
cmStrCat("BuildDirectory=", expandedConfigurePreset->BinaryDir));
for (const auto& kvp : expandedPreset->OverwriteConfigurationFile) {
this->AddCTestConfigurationOverwrite(kvp);
}
if (expandedPreset->Output) {
this->Impl->TestProgressOutput =
expandedPreset->Output->ShortProgress.value_or(false);
if (expandedPreset->Output->Verbosity) {
const auto& verbosity = *expandedPreset->Output->Verbosity;
switch (verbosity) {
case cmCMakePresetsFile::TestPreset::OutputOptions::VerbosityEnum::
Extra:
this->Impl->ExtraVerbose = true;
CM_FALLTHROUGH;
case cmCMakePresetsFile::TestPreset::OutputOptions::VerbosityEnum::
Verbose:
this->Impl->Verbose = true;
break;
case cmCMakePresetsFile::TestPreset::OutputOptions::VerbosityEnum::
Default:
default:
// leave default settings
break;
}
}
this->Impl->Debug = expandedPreset->Output->Debug.value_or(false);
this->Impl->ShowLineNumbers =
expandedPreset->Output->Debug.value_or(false);
this->Impl->OutputTestOutputOnTestFailure =
expandedPreset->Output->OutputOnFailure.value_or(false);
this->Impl->Quiet = expandedPreset->Output->Quiet.value_or(false);
if (!expandedPreset->Output->OutputLogFile.empty()) {
this->SetOutputLogFileName(expandedPreset->Output->OutputLogFile);
}
this->Impl->LabelSummary =
expandedPreset->Output->LabelSummary.value_or(true);
this->Impl->SubprojectSummary =
expandedPreset->Output->SubprojectSummary.value_or(true);
if (expandedPreset->Output->MaxPassedTestOutputSize) {
this->Impl->TestHandler.SetTestOutputSizePassed(
*expandedPreset->Output->MaxPassedTestOutputSize);
}
if (expandedPreset->Output->MaxFailedTestOutputSize) {
this->Impl->TestHandler.SetTestOutputSizeFailed(
*expandedPreset->Output->MaxFailedTestOutputSize);
}
if (expandedPreset->Output->MaxTestNameWidth) {
this->Impl->MaxTestNameWidth = *expandedPreset->Output->MaxTestNameWidth;
}
}
if (expandedPreset->Filter) {
if (expandedPreset->Filter->Include) {
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Include->Name, "IncludeRegularExpression");
this->AddPersistentMultiOptionIfNotEmpty(
expandedPreset->Filter->Include->Label, "LabelRegularExpression");
if (expandedPreset->Filter->Include->Index) {
if (expandedPreset->Filter->Include->Index->IndexFile.empty()) {
const auto& start = expandedPreset->Filter->Include->Index->Start;
const auto& end = expandedPreset->Filter->Include->Index->End;
const auto& stride = expandedPreset->Filter->Include->Index->Stride;
std::string indexOptions;
indexOptions += (start ? std::to_string(*start) : "") + ",";
indexOptions += (end ? std::to_string(*end) : "") + ",";
indexOptions += (stride ? std::to_string(*stride) : "") + ",";
indexOptions +=
cmJoin(expandedPreset->Filter->Include->Index->SpecificTests, ",");
this->SetPersistentOptionIfNotEmpty(indexOptions,
"TestsToRunInformation");
} else {
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Include->Index->IndexFile,
"TestsToRunInformation");
}
}
if (expandedPreset->Filter->Include->UseUnion.value_or(false)) {
this->GetTestHandler()->SetPersistentOption("UseUnion", "true");
this->GetMemCheckHandler()->SetPersistentOption("UseUnion", "true");
}
}
if (expandedPreset->Filter->Exclude) {
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Exclude->Name, "ExcludeRegularExpression");
this->AddPersistentMultiOptionIfNotEmpty(
expandedPreset->Filter->Exclude->Label,
"ExcludeLabelRegularExpression");
if (expandedPreset->Filter->Exclude->Fixtures) {
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Exclude->Fixtures->Any,
"ExcludeFixtureRegularExpression");
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Exclude->Fixtures->Setup,
"ExcludeFixtureSetupRegularExpression");
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Filter->Exclude->Fixtures->Cleanup,
"ExcludeFixtureCleanupRegularExpression");
}
}
}
if (expandedPreset->Execution) {
this->Impl->StopOnFailure =
expandedPreset->Execution->StopOnFailure.value_or(false);
this->Impl->Failover =
expandedPreset->Execution->EnableFailover.value_or(false);
if (expandedPreset->Execution->Jobs) {
auto jobs = *expandedPreset->Execution->Jobs;
this->SetParallelLevel(jobs);
this->Impl->ParallelLevelSetInCli = true;
}
this->SetPersistentOptionIfNotEmpty(
expandedPreset->Execution->ResourceSpecFile, "ResourceSpecFile");
if (expandedPreset->Execution->TestLoad) {
auto testLoad = *expandedPreset->Execution->TestLoad;
this->SetTestLoad(testLoad);
}
if (expandedPreset->Execution->ShowOnly) {
this->Impl->ShowOnly = true;
switch (*expandedPreset->Execution->ShowOnly) {
case cmCMakePresetsFile::TestPreset::ExecutionOptions::ShowOnlyEnum::
JsonV1:
this->Impl->Quiet = true;
this->Impl->OutputAsJson = true;
this->Impl->OutputAsJsonVersion = 1;
break;
case cmCMakePresetsFile::TestPreset::ExecutionOptions::ShowOnlyEnum::
Human:
// intentional fallthrough (human is the default)
default:
break;
}
}
if (expandedPreset->Execution->Repeat) {
this->Impl->RepeatCount = expandedPreset->Execution->Repeat->Count;
switch (expandedPreset->Execution->Repeat->Mode) {
case cmCMakePresetsFile::TestPreset::ExecutionOptions::RepeatOptions::
ModeEnum::UntilFail:
this->Impl->RepeatMode = cmCTest::Repeat::UntilFail;
break;
case cmCMakePresetsFile::TestPreset::ExecutionOptions::RepeatOptions::
ModeEnum::UntilPass:
this->Impl->RepeatMode = cmCTest::Repeat::UntilPass;
break;
case cmCMakePresetsFile::TestPreset::ExecutionOptions::RepeatOptions::
ModeEnum::AfterTimeout:
this->Impl->RepeatMode = cmCTest::Repeat::AfterTimeout;
break;
default:
// should never default since mode is required
return false;
}
}
if (expandedPreset->Execution->InteractiveDebugging) {
this->Impl->InteractiveDebugMode =
*expandedPreset->Execution->InteractiveDebugging;
}
if (expandedPreset->Execution->ScheduleRandom.value_or(false)) {
this->Impl->ScheduleType = "Random";
}
if (expandedPreset->Execution->Timeout) {
this->Impl->GlobalTimeout =
cmDuration(*expandedPreset->Execution->Timeout);
}
if (expandedPreset->Execution->NoTestsAction) {
switch (*expandedPreset->Execution->NoTestsAction) {
case cmCMakePresetsFile::TestPreset::ExecutionOptions::
NoTestsActionEnum::Error:
this->Impl->NoTestsMode = cmCTest::NoTests::Error;
break;
case cmCMakePresetsFile::TestPreset::ExecutionOptions::
NoTestsActionEnum::Ignore:
this->Impl->NoTestsMode = cmCTest::NoTests::Ignore;
break;
case cmCMakePresetsFile::TestPreset::ExecutionOptions::
NoTestsActionEnum::Default:
break;
default:
// should never default
return false;
}
}
}
return true;
}
// the main entry point of ctest, called from main
int cmCTest::Run(std::vector<std::string>& args, std::string* output)
{
const char* ctestExec = "ctest";
bool cmakeAndTest = false;
bool executeTests = true;
bool SRArgumentSpecified = false;
// copy the command line
cm::append(this->Impl->InitialCommandLineArguments, args);
// check if a test preset was specified
bool listPresets =
find(args.begin(), args.end(), "--list-presets") != args.end();
auto it =
std::find_if(args.begin(), args.end(), [](std::string const& arg) -> bool {
return arg == "--preset" || cmHasLiteralPrefix(arg, "--preset=");
});
if (listPresets || it != args.end()) {
std::string errormsg;
bool success;
if (listPresets) {
// If listing presets we don't need a presetName
success = this->SetArgsFromPreset("", listPresets);
} else {
if (cmHasLiteralPrefix(*it, "--preset=")) {
auto presetName = it->substr(9);
success = this->SetArgsFromPreset(presetName, listPresets);
} else if (++it != args.end()) {
auto presetName = *it;
success = this->SetArgsFromPreset(presetName, listPresets);
} else {
cmSystemTools::Error("'--preset' requires an argument");
success = false;
}
}
if (listPresets) {
return success ? 0 : 1;
}
if (!success) {
return 1;
}
}
// process the command line arguments
for (size_t i = 1; i < args.size(); ++i) {
// handle the simple commandline arguments
std::string errormsg;
if (!this->HandleCommandLineArguments(i, args, errormsg)) {
cmSystemTools::Error(errormsg);
return 1;
}
// handle the script arguments -S -SR -SP
this->HandleScriptArguments(i, args, SRArgumentSpecified);
// --dashboard: handle a request for a dashboard
std::string arg = args[i];
if (this->CheckArgument(arg, "-D"_s, "--dashboard") &&
i < args.size() - 1) {
this->Impl->ProduceXML = true;
i++;
std::string targ = args[i];
// AddTestsForDashboard parses the dashboard type and converts it
// into the separate stages
if (!this->AddTestsForDashboardType(targ)) {
if (!this->AddVariableDefinition(targ)) {
this->ErrorMessageUnknownDashDValue(targ);
executeTests = false;
}
}
}
// If it's not exactly -D, but it starts with -D, then try to parse out
// a variable definition from it, same as CMake does. Unsuccessful
// attempts are simply ignored since previous ctest versions ignore
// this too. (As well as many other unknown command line args.)
//
if (arg != "-D" && cmHasLiteralPrefix(arg, "-D")) {
std::string input = arg.substr(2);
this->AddVariableDefinition(input);
}
// --test-action: calls SetTest(<stage>, /*report=*/ false) to enable
// the corresponding stage
if (!this->HandleTestActionArgument(ctestExec, i, args)) {
executeTests = false;
}
// --test-model: what type of test model
if (!this->HandleTestModelArgument(ctestExec, i, args)) {
executeTests = false;
}
// --extra-submit
if (this->CheckArgument(arg, "--extra-submit"_s) && i < args.size() - 1) {
this->Impl->ProduceXML = true;
this->SetTest("Submit");
i++;
if (!this->SubmitExtraFiles(args[i])) {
return 0;
}
}
// --build-and-test options
if (this->CheckArgument(arg, "--build-and-test"_s) &&
i < args.size() - 1) {
cmakeAndTest = true;
}
// --schedule-random
if (this->CheckArgument(arg, "--schedule-random"_s)) {
this->Impl->ScheduleType = "Random";
}
// pass the argument to all the handlers as well, but it may no longer be
// set to what it was originally so I'm not sure this is working as
// intended
for (auto& handler : this->Impl->GetTestingHandlers()) {
if (!handler->ProcessCommandLineArguments(arg, i, args)) {
cmCTestLog(this, ERROR_MESSAGE,
"Problem parsing command line arguments within a handler");
return 0;
}
}
} // the close of the for argument loop
// handle CTEST_PARALLEL_LEVEL environment variable
if (!this->Impl->ParallelLevelSetInCli) {
std::string parallel;
if (cmSystemTools::GetEnv("CTEST_PARALLEL_LEVEL", parallel)) {
int plevel = atoi(parallel.c_str());
this->SetParallelLevel(plevel);
}
}
// TestProgressOutput only supported if console supports it and not logging
// to a file
this->Impl->TestProgressOutput = this->Impl->TestProgressOutput &&
!this->Impl->OutputLogFile && this->ProgressOutputSupportedByConsole();
#ifdef _WIN32
if (this->Impl->TestProgressOutput) {
// Disable output line buffering so we can print content without
// a newline.
std::setvbuf(stdout, nullptr, _IONBF, 0);
}
#endif
// now what should cmake do? if --build-and-test was specified then
// we run the build and test handler and return
if (cmakeAndTest) {
return this->RunCMakeAndTest(output);
}
if (executeTests) {
return this->ExecuteTests();
}
return 1;
}
bool cmCTest::HandleTestActionArgument(const char* ctestExec, size_t& i,
const std::vector<std::string>& args)
{
bool success = true;
std::string arg = args[i];
if (this->CheckArgument(arg, "-T"_s, "--test-action") &&
(i < args.size() - 1)) {
this->Impl->ProduceXML = true;
i++;
if (!this->SetTest(args[i], false)) {
success = false;
cmCTestLog(this, ERROR_MESSAGE,
"CTest -T called with incorrect option: " << args[i]
<< std::endl);
cmCTestLog(this, ERROR_MESSAGE,
"Available options are:"
<< std::endl
<< " " << ctestExec << " -T all" << std::endl
<< " " << ctestExec << " -T start" << std::endl
<< " " << ctestExec << " -T update" << std::endl
<< " " << ctestExec << " -T configure" << std::endl
<< " " << ctestExec << " -T build" << std::endl
<< " " << ctestExec << " -T test" << std::endl
<< " " << ctestExec << " -T coverage" << std::endl
<< " " << ctestExec << " -T memcheck" << std::endl
<< " " << ctestExec << " -T notes" << std::endl
<< " " << ctestExec << " -T submit" << std::endl);
}
}
return success;
}
bool cmCTest::HandleTestModelArgument(const char* ctestExec, size_t& i,
const std::vector<std::string>& args)
{
bool success = true;
std::string arg = args[i];
if (this->CheckArgument(arg, "-M"_s, "--test-model") &&
(i < args.size() - 1)) {
i++;
std::string const& str = args[i];
if (cmSystemTools::LowerCase(str) == "nightly"_s) {
this->SetTestModel(cmCTest::NIGHTLY);
} else if (cmSystemTools::LowerCase(str) == "continuous"_s) {
this->SetTestModel(cmCTest::CONTINUOUS);
} else if (cmSystemTools::LowerCase(str) == "experimental"_s) {
this->SetTestModel(cmCTest::EXPERIMENTAL);
} else {
success = false;
cmCTestLog(this, ERROR_MESSAGE,
"CTest -M called with incorrect option: " << str
<< std::endl);
cmCTestLog(this, ERROR_MESSAGE,
"Available options are:"
<< std::endl
<< " " << ctestExec << " -M Continuous" << std::endl
<< " " << ctestExec << " -M Experimental" << std::endl
<< " " << ctestExec << " -M Nightly" << std::endl);
}
}
return success;
}
int cmCTest::ExecuteTests()
{
int res;
// call process directory
if (this->Impl->RunConfigurationScript) {
if (this->Impl->ExtraVerbose) {
cmCTestLog(this, OUTPUT, "* Extra verbosity turned on" << std::endl);
}
for (auto& handler : this->Impl->GetTestingHandlers()) {
handler->SetVerbose(this->Impl->ExtraVerbose);
handler->SetSubmitIndex(this->Impl->SubmitIndex);
}
this->GetScriptHandler()->SetVerbose(this->Impl->Verbose);
res = this->GetScriptHandler()->ProcessHandler();
if (res != 0) {
cmCTestLog(this, DEBUG,
"running script failing returning: " << res << std::endl);
}
} else {
// What is this? -V seems to be the same as -VV,
// and Verbose is always on in this case
this->Impl->ExtraVerbose = this->Impl->Verbose;
this->Impl->Verbose = true;
for (auto& handler : this->Impl->GetTestingHandlers()) {
handler->SetVerbose(this->Impl->Verbose);
handler->SetSubmitIndex(this->Impl->SubmitIndex);
}
const std::string currDir = cmSystemTools::GetCurrentWorkingDirectory();
std::string workDir = currDir;
if (!this->Impl->TestDir.empty()) {
workDir = cmSystemTools::CollapseFullPath(this->Impl->TestDir);
}
if (currDir != workDir) {
if (!this->TryToChangeDirectory(workDir)) {
return 1;
}
}
if (!this->Initialize(workDir.c_str(), nullptr)) {
res = 12;
cmCTestLog(this, ERROR_MESSAGE,
"Problem initializing the dashboard." << std::endl);
} else {
res = this->ProcessSteps();
}
this->Finalize();
if (currDir != workDir) {
cmSystemTools::ChangeDirectory(currDir);
}
}
if (res != 0) {
cmCTestLog(this, DEBUG,
"Running a test(s) failed returning : " << res << std::endl);
}
return res;
}
int cmCTest::RunCMakeAndTest(std::string* output)
{
this->Impl->Verbose = true;
cmCTestBuildAndTestHandler* handler = this->GetBuildAndTestHandler();
int retv = handler->ProcessHandler();
*output = handler->GetOutput();
#ifndef CMAKE_BOOTSTRAP
cmDynamicLoader::FlushCache();
#endif
if (retv != 0) {
cmCTestLog(this, DEBUG,
"build and test failing returning: " << retv << std::endl);
}
return retv;
}
void cmCTest::SetNotesFiles(const std::string& notes)
{
this->Impl->NotesFiles = notes;
}
bool cmCTest::GetStopOnFailure() const
{
return this->Impl->StopOnFailure;
}
void cmCTest::SetStopOnFailure(bool stop)
{
this->Impl->StopOnFailure = stop;
}
std::chrono::system_clock::time_point cmCTest::GetStopTime() const
{
return this->Impl->StopTime;
}
void cmCTest::SetStopTime(std::string const& time_str)
{
struct tm* lctime;
time_t current_time = time(nullptr);
lctime = gmtime(&current_time);
int gm_hour = lctime->tm_hour;
time_t gm_time = mktime(lctime);
lctime = localtime(&current_time);
int local_hour = lctime->tm_hour;
int tzone_offset = local_hour - gm_hour;
if (gm_time > current_time && gm_hour < local_hour) {
// this means gm_time is on the next day
tzone_offset -= 24;
} else if (gm_time < current_time && gm_hour > local_hour) {
// this means gm_time is on the previous day
tzone_offset += 24;
}
tzone_offset *= 100;
char buf[1024];
sprintf(buf, "%d%02d%02d %s %+05i", lctime->tm_year + 1900,
lctime->tm_mon + 1, lctime->tm_mday, time_str.c_str(), tzone_offset);
time_t stop_time = curl_getdate(buf, &current_time);
if (stop_time == -1) {
this->Impl->StopTime = std::chrono::system_clock::time_point();
return;
}
this->Impl->StopTime = std::chrono::system_clock::from_time_t(stop_time);
if (stop_time < current_time) {
this->Impl->StopTime += std::chrono::hours(24);
}
}
std::string cmCTest::GetScheduleType() const
{
return this->Impl->ScheduleType;
}
void cmCTest::SetScheduleType(std::string const& type)
{
this->Impl->ScheduleType = type;
}
int cmCTest::ReadCustomConfigurationFileTree(const std::string& dir,
cmMakefile* mf)
{
bool found = false;
cmCTestLog(this, DEBUG,
"* Read custom CTest configuration directory: " << dir
<< std::endl);
std::string fname = cmStrCat(dir, "/CTestCustom.cmake");
cmCTestLog(this, DEBUG, "* Check for file: " << fname << std::endl);
if (cmSystemTools::FileExists(fname)) {
cmCTestLog(this, DEBUG,
"* Read custom CTest configuration file: " << fname
<< std::endl);
bool erroroc = cmSystemTools::GetErrorOccuredFlag();
cmSystemTools::ResetErrorOccuredFlag();
if (!mf->ReadListFile(fname) || cmSystemTools::GetErrorOccuredFlag()) {
cmCTestLog(this, ERROR_MESSAGE,
"Problem reading custom configuration: " << fname
<< std::endl);
}
found = true;
if (erroroc) {
cmSystemTools::SetErrorOccured();
}
}
std::string rexpr = cmStrCat(dir, "/CTestCustom.ctest");
cmCTestLog(this, DEBUG, "* Check for file: " << rexpr << std::endl);
if (!found && cmSystemTools::FileExists(rexpr)) {
cmsys::Glob gl;
gl.RecurseOn();
gl.FindFiles(rexpr);
std::vector<std::string>& files = gl.GetFiles();
for (const std::string& file : files) {
cmCTestLog(this, DEBUG,
"* Read custom CTest configuration file: " << file
<< std::endl);
if (!mf->ReadListFile(file) || cmSystemTools::GetErrorOccuredFlag()) {
cmCTestLog(this, ERROR_MESSAGE,
"Problem reading custom configuration: " << file
<< std::endl);
}
}
found = true;
}
if (found) {
for (auto& handler : this->Impl->GetNamedTestingHandlers()) {
cmCTestLog(this, DEBUG,
"* Read custom CTest configuration vectors for handler: "
<< handler.first << " (" << handler.second << ")"
<< std::endl);
handler.second->PopulateCustomVectors(mf);
}
}
return 1;
}
void cmCTest::PopulateCustomVector(cmMakefile* mf, const std::string& def,
std::vector<std::string>& vec)
{
cmValue dval = mf->GetDefinition(def);
if (!dval) {
return;
}
cmCTestLog(this, DEBUG, "PopulateCustomVector: " << def << std::endl);
vec.clear();
cmExpandList(*dval, vec);
for (std::string const& it : vec) {
cmCTestLog(this, DEBUG, " -- " << it << std::endl);
}
}
void cmCTest::PopulateCustomInteger(cmMakefile* mf, const std::string& def,
int& val)
{
cmValue dval = mf->GetDefinition(def);
if (!dval) {
return;
}
val = atoi(dval->c_str());
}
std::string cmCTest::GetShortPathToFile(const std::string& cfname)
{
const std::string& sourceDir = cmSystemTools::CollapseFullPath(
this->GetCTestConfiguration("SourceDirectory"));
const std::string& buildDir = cmSystemTools::CollapseFullPath(
this->GetCTestConfiguration("BuildDirectory"));
std::string fname = cmSystemTools::CollapseFullPath(cfname);
// Find relative paths to both directories
std::string srcRelpath = cmSystemTools::RelativePath(sourceDir, fname);
std::string bldRelpath = cmSystemTools::RelativePath(buildDir, fname);
// If any contains "." it is not parent directory
bool inSrc = srcRelpath.find("..") == std::string::npos;
bool inBld = bldRelpath.find("..") == std::string::npos;
// TODO: Handle files with .. in their name
std::string* res = nullptr;
if (inSrc && inBld) {
// If both have relative path with no dots, pick the shorter one
if (srcRelpath.size() < bldRelpath.size()) {
res = &srcRelpath;
} else {
res = &bldRelpath;
}
} else if (inSrc) {
res = &srcRelpath;
} else if (inBld) {
res = &bldRelpath;
}
std::string path;
if (!res) {
path = fname;
} else {
cmSystemTools::ConvertToUnixSlashes(*res);
path = "./" + *res;
if (path.back() == '/') {
path.resize(path.size() - 1);
}
}
cmsys::SystemTools::ReplaceString(path, ":", "_");
cmsys::SystemTools::ReplaceString(path, " ", "_");
return path;
}
std::string cmCTest::GetCTestConfiguration(const std::string& name)
{
if (this->Impl->CTestConfigurationOverwrites.find(name) !=
this->Impl->CTestConfigurationOverwrites.end()) {
return this->Impl->CTestConfigurationOverwrites[name];
}
return this->Impl->CTestConfiguration[name];
}
void cmCTest::EmptyCTestConfiguration()
{
this->Impl->CTestConfiguration.clear();
}
void cmCTest::SetCTestConfiguration(const char* name, const std::string& value,
bool suppress)
{
cmCTestOptionalLog(this, HANDLER_VERBOSE_OUTPUT,
"SetCTestConfiguration:" << name << ":" << value << "\n",
suppress);
if (!name) {
return;
}
if (value.empty()) {
this->Impl->CTestConfiguration.erase(name);
return;
}
this->Impl->CTestConfiguration[name] = value;
}
std::string cmCTest::GetSubmitURL()
{
std::string url = this->GetCTestConfiguration("SubmitURL");
if (url.empty()) {
std::string method = this->GetCTestConfiguration("DropMethod");
std::string user = this->GetCTestConfiguration("DropSiteUser");
std::string password = this->GetCTestConfiguration("DropSitePassword");
std::string site = this->GetCTestConfiguration("DropSite");
std::string location = this->GetCTestConfiguration("DropLocation");
url = cmStrCat(method.empty() ? "http" : method, "://"_s);
if (!user.empty()) {
url += user;
if (!password.empty()) {
url += ':';
url += password;
}
url += '@';
}
url += site;
url += location;
}
return url;
}
std::string cmCTest::GetCurrentTag()
{
return this->Impl->CurrentTag;
}
std::string cmCTest::GetBinaryDir()
{
return this->Impl->BinaryDir;
}
std::string const& cmCTest::GetConfigType()
{
return this->Impl->ConfigType;
}
cmDuration cmCTest::GetTimeOut() const
{
return this->Impl->TimeOut;
}
void cmCTest::SetTimeOut(cmDuration t)
{
this->Impl->TimeOut = t;
}
cmDuration cmCTest::GetGlobalTimeout() const
{
return this->Impl->GlobalTimeout;
}
bool cmCTest::GetShowOnly()
{
return this->Impl->ShowOnly;
}
bool cmCTest::GetOutputAsJson()
{
return this->Impl->OutputAsJson;
}
int cmCTest::GetOutputAsJsonVersion()
{
return this->Impl->OutputAsJsonVersion;
}
bool cmCTest::ShouldUseHTTP10() const
{
return this->Impl->UseHTTP10;
}
bool cmCTest::ShouldPrintLabels() const
{
return this->Impl->PrintLabels;
}
int cmCTest::GetMaxTestNameWidth() const
{
return this->Impl->MaxTestNameWidth;
}
void cmCTest::SetMaxTestNameWidth(int w)
{
this->Impl->MaxTestNameWidth = w;
}
void cmCTest::SetProduceXML(bool v)
{
this->Impl->ProduceXML = v;
}
bool cmCTest::GetProduceXML()
{
return this->Impl->ProduceXML;
}
std::vector<std::string>& cmCTest::GetInitialCommandLineArguments()
{
return this->Impl->InitialCommandLineArguments;
}
const char* cmCTest::GetSpecificGroup()
{
if (this->Impl->SpecificGroup.empty()) {
return nullptr;
}
return this->Impl->SpecificGroup.c_str();
}
void cmCTest::SetSpecificGroup(const char* group)
{
if (!group) {
this->Impl->SpecificGroup.clear();
return;
}
this->Impl->SpecificGroup = group;
}
void cmCTest::SetFailover(bool failover)
{
this->Impl->Failover = failover;
}
bool cmCTest::GetFailover() const
{
return this->Impl->Failover;
}
bool cmCTest::GetTestProgressOutput() const
{
return this->Impl->TestProgressOutput && !GetExtraVerbose();
}
bool cmCTest::GetVerbose() const
{
return this->Impl->Verbose;
}
bool cmCTest::GetExtraVerbose() const
{
return this->Impl->ExtraVerbose;
}
void cmCTest::SetStreams(std::ostream* out, std::ostream* err)
{
this->Impl->StreamOut = out;
this->Impl->StreamErr = err;
}
bool cmCTest::GetLabelSummary() const
{
return this->Impl->LabelSummary;
}
bool cmCTest::GetSubprojectSummary() const
{
return this->Impl->SubprojectSummary;
}
bool cmCTest::GetOutputTestOutputOnTestFailure() const
{
return this->Impl->OutputTestOutputOnTestFailure;
}
const std::map<std::string, std::string>& cmCTest::GetDefinitions() const
{
return this->Impl->Definitions;
}
int cmCTest::GetRepeatCount() const
{
return this->Impl->RepeatCount;
}
cmCTest::Repeat cmCTest::GetRepeatMode() const
{
return this->Impl->RepeatMode;
}
cmCTest::NoTests cmCTest::GetNoTestsMode() const
{
return this->Impl->NoTestsMode;
}
void cmCTest::SetBuildID(const std::string& id)
{
this->Impl->BuildID = id;
}
std::string cmCTest::GetBuildID() const
{
return this->Impl->BuildID;
}
void cmCTest::AddSubmitFile(Part part, const std::string& name)
{
this->Impl->Parts[part].SubmitFiles.emplace_back(name);
}
std::vector<std::string> const& cmCTest::GetSubmitFiles(Part part) const
{
return this->Impl->Parts[part].SubmitFiles;
}
void cmCTest::ClearSubmitFiles(Part part)
{
this->Impl->Parts[part].SubmitFiles.clear();
}
void cmCTest::SetSuppressUpdatingCTestConfiguration(bool val)
{
this->Impl->SuppressUpdatingCTestConfiguration = val;
}
void cmCTest::AddCTestConfigurationOverwrite(const std::string& overStr)
{
size_t epos = overStr.find('=');
if (epos == std::string::npos) {
cmCTestLog(this, ERROR_MESSAGE,
"CTest configuration overwrite specified in the wrong format."
<< std::endl
<< "Valid format is: --overwrite key=value" << std::endl
<< "The specified was: --overwrite " << overStr << std::endl);
return;
}
std::string key = overStr.substr(0, epos);
std::string value = overStr.substr(epos + 1);
this->Impl->CTestConfigurationOverwrites[key] = value;
}
void cmCTest::SetConfigType(const std::string& ct)
{
this->Impl->ConfigType = ct;
cmSystemTools::ReplaceString(this->Impl->ConfigType, ".\\", "");
std::string confTypeEnv = "CMAKE_CONFIG_TYPE=" + this->Impl->ConfigType;
cmSystemTools::PutEnv(confTypeEnv);
}
bool cmCTest::SetCTestConfigurationFromCMakeVariable(
cmMakefile* mf, const char* dconfig, const std::string& cmake_var,
bool suppress)
{
cmValue ctvar = mf->GetDefinition(cmake_var);
if (!ctvar) {
return false;
}
cmCTestOptionalLog(this, HANDLER_VERBOSE_OUTPUT,
"SetCTestConfigurationFromCMakeVariable:"
<< dconfig << ":" << cmake_var << std::endl,
suppress);
this->SetCTestConfiguration(dconfig, *ctvar, suppress);
return true;
}
bool cmCTest::RunCommand(std::vector<std::string> const& args,
std::string* stdOut, std::string* stdErr, int* retVal,
const char* dir, cmDuration timeout,
Encoding encoding)
{
std::vector<const char*> argv;
argv.reserve(args.size() + 1);
for (std::string const& a : args) {
argv.push_back(a.c_str());
}
argv.push_back(nullptr);
stdOut->clear();
stdErr->clear();
cmsysProcess* cp = cmsysProcess_New();
cmsysProcess_SetCommand(cp, argv.data());
cmsysProcess_SetWorkingDirectory(cp, dir);
if (cmSystemTools::GetRunCommandHideConsole()) {
cmsysProcess_SetOption(cp, cmsysProcess_Option_HideWindow, 1);
}
cmsysProcess_SetTimeout(cp, timeout.count());
cmsysProcess_Execute(cp);
std::vector<char> tempOutput;
std::vector<char> tempError;
char* data;
int length;
cmProcessOutput processOutput(encoding);
std::string strdata;
int res;
bool done = false;
while (!done) {
res = cmsysProcess_WaitForData(cp, &data, &length, nullptr);
switch (res) {
case cmsysProcess_Pipe_STDOUT:
cm::append(tempOutput, data, data + length);
break;
case cmsysProcess_Pipe_STDERR:
cm::append(tempError, data, data + length);
break;
default:
done = true;
}
if ((res == cmsysProcess_Pipe_STDOUT || res == cmsysProcess_Pipe_STDERR) &&
this->Impl->ExtraVerbose) {
processOutput.DecodeText(data, length, strdata);
cmSystemTools::Stdout(strdata);
}
}
if (this->Impl->ExtraVerbose) {
processOutput.DecodeText(std::string(), strdata);
if (!strdata.empty()) {
cmSystemTools::Stdout(strdata);
}
}
cmsysProcess_WaitForExit(cp, nullptr);
if (!tempOutput.empty()) {
processOutput.DecodeText(tempOutput, tempOutput);
stdOut->append(tempOutput.data(), tempOutput.size());
}
if (!tempError.empty()) {
processOutput.DecodeText(tempError, tempError);
stdErr->append(tempError.data(), tempError.size());
}
bool result = true;
if (cmsysProcess_GetState(cp) == cmsysProcess_State_Exited) {
if (retVal) {
*retVal = cmsysProcess_GetExitValue(cp);
} else {
if (cmsysProcess_GetExitValue(cp) != 0) {
result = false;
}
}
} else if (cmsysProcess_GetState(cp) == cmsysProcess_State_Exception) {
const char* exception_str = cmsysProcess_GetExceptionString(cp);
cmCTestLog(this, ERROR_MESSAGE, exception_str << std::endl);
stdErr->append(exception_str, strlen(exception_str));
result = false;
} else if (cmsysProcess_GetState(cp) == cmsysProcess_State_Error) {
const char* error_str = cmsysProcess_GetErrorString(cp);
cmCTestLog(this, ERROR_MESSAGE, error_str << std::endl);
stdErr->append(error_str, strlen(error_str));
result = false;
} else if (cmsysProcess_GetState(cp) == cmsysProcess_State_Expired) {
const char* error_str = "Process terminated due to timeout\n";
cmCTestLog(this, ERROR_MESSAGE, error_str << std::endl);
stdErr->append(error_str, strlen(error_str));
result = false;
}
cmsysProcess_Delete(cp);
return result;
}
void cmCTest::SetOutputLogFileName(const std::string& name)
{
if (!name.empty()) {
this->Impl->OutputLogFile = cm::make_unique<cmGeneratedFileStream>(name);
} else {
this->Impl->OutputLogFile.reset();
}
}
static const char* cmCTestStringLogType[] = { "DEBUG",
"OUTPUT",
"HANDLER_OUTPUT",
"HANDLER_PROGRESS_OUTPUT",
"HANDLER_TEST_PROGRESS_OUTPUT",
"HANDLER_VERBOSE_OUTPUT",
"WARNING",
"ERROR_MESSAGE",
nullptr };
#define cmCTestLogOutputFileLine(stream) \
do { \
if (this->Impl->ShowLineNumbers) { \
(stream) << std::endl << file << ":" << line << " "; \
} \
} while (false)
void cmCTest::Log(int logType, const char* file, int line, const char* msg,
bool suppress)
{
if (!msg || !*msg) {
return;
}
if (suppress && logType != cmCTest::ERROR_MESSAGE) {
return;
}
if (logType == cmCTest::HANDLER_PROGRESS_OUTPUT &&
(this->Impl->Debug || this->Impl->ExtraVerbose)) {
return;
}
if (this->Impl->OutputLogFile) {
bool display = true;
if (logType == cmCTest::DEBUG && !this->Impl->Debug) {
display = false;
}
if (logType == cmCTest::HANDLER_VERBOSE_OUTPUT && !this->Impl->Debug &&
!this->Impl->ExtraVerbose) {
display = false;
}
if (display) {
cmCTestLogOutputFileLine(*this->Impl->OutputLogFile);
if (logType != this->Impl->OutputLogFileLastTag) {
*this->Impl->OutputLogFile << "[";
if (logType >= OTHER || logType < 0) {
*this->Impl->OutputLogFile << "OTHER";
} else {
*this->Impl->OutputLogFile << cmCTestStringLogType[logType];
}
*this->Impl->OutputLogFile << "] " << std::endl;
}
*this->Impl->OutputLogFile << msg << std::flush;
if (logType != this->Impl->OutputLogFileLastTag) {
*this->Impl->OutputLogFile << std::endl;
this->Impl->OutputLogFileLastTag = logType;
}
}
}
if (!this->Impl->Quiet) {
std::ostream& out = *this->Impl->StreamOut;
std::ostream& err = *this->Impl->StreamErr;
if (logType == HANDLER_TEST_PROGRESS_OUTPUT) {
if (this->Impl->TestProgressOutput) {
cmCTestLogOutputFileLine(out);
if (this->Impl->FlushTestProgressLine) {
printf("\r");
this->Impl->FlushTestProgressLine = false;
out.flush();
}
std::string msg_str{ msg };
auto const lineBreakIt = msg_str.find('\n');
if (lineBreakIt != std::string::npos) {
this->Impl->FlushTestProgressLine = true;
msg_str.erase(std::remove(msg_str.begin(), msg_str.end(), '\n'),
msg_str.end());
}
out << msg_str;
#ifndef _WIN32
printf("\x1B[K"); // move caret to end
#endif
out.flush();
return;
}
logType = HANDLER_OUTPUT;
}
switch (logType) {
case DEBUG:
if (this->Impl->Debug) {
cmCTestLogOutputFileLine(out);
out << msg;
out.flush();
}
break;
case OUTPUT:
case HANDLER_OUTPUT:
if (this->Impl->Debug || this->Impl->Verbose) {
cmCTestLogOutputFileLine(out);
out << msg;
out.flush();
}
break;
case HANDLER_VERBOSE_OUTPUT:
if (this->Impl->Debug || this->Impl->ExtraVerbose) {
cmCTestLogOutputFileLine(out);
out << msg;
out.flush();
}
break;
case WARNING:
cmCTestLogOutputFileLine(err);
err << msg;
err.flush();
break;
case ERROR_MESSAGE:
cmCTestLogOutputFileLine(err);
err << msg;
err.flush();
cmSystemTools::SetErrorOccured();
break;
default:
cmCTestLogOutputFileLine(out);
out << msg;
out.flush();
}
}
}
std::string cmCTest::GetColorCode(Color color) const
{
if (this->Impl->OutputColorCode) {
#if defined(_WIN32)
// Not supported on Windows
static_cast<void>(color);
#else
return "\033[0;" + std::to_string(static_cast<int>(color)) + "m";
#endif
}
return "";
}
cmDuration cmCTest::GetRemainingTimeAllowed()
{
return this->GetScriptHandler()->GetRemainingTimeAllowed();
}
cmDuration cmCTest::MaxDuration()
{
return cmDuration(1.0e7);
}
void cmCTest::SetRunCurrentScript(bool value)
{
this->GetScriptHandler()->SetRunCurrentScript(value);
}
void cmCTest::OutputTestErrors(std::vector<char> const& process_output)
{
std::string test_outputs("\n*** Test Failed:\n");
if (!process_output.empty()) {
test_outputs.append(process_output.data(), process_output.size());
}
cmCTestLog(this, HANDLER_OUTPUT, test_outputs << std::endl);
}
bool cmCTest::CompressString(std::string& str)
{
int ret;
z_stream strm;
strm.zalloc = Z_NULL;
strm.zfree = Z_NULL;
strm.opaque = Z_NULL;
ret = deflateInit(&strm, -1); // default compression level
if (ret != Z_OK) {
return false;
}
unsigned char* in =
reinterpret_cast<unsigned char*>(const_cast<char*>(str.c_str()));
// zlib makes the guarantee that this is the maximum output size
int outSize =
static_cast<int>(static_cast<double>(str.size()) * 1.001 + 13.0);
std::vector<unsigned char> out(outSize);
strm.avail_in = static_cast<uInt>(str.size());
strm.next_in = in;
strm.avail_out = outSize;
strm.next_out = &out[0];
ret = deflate(&strm, Z_FINISH);
if (ret != Z_STREAM_END) {
cmCTestLog(this, ERROR_MESSAGE,
"Error during gzip compression." << std::endl);
return false;
}
(void)deflateEnd(&strm);
// Now base64 encode the resulting binary string
std::vector<unsigned char> base64EncodedBuffer((outSize * 3) / 2);
size_t rlen =
cmsysBase64_Encode(&out[0], strm.total_out, &base64EncodedBuffer[0], 1);
str.assign(reinterpret_cast<char*>(&base64EncodedBuffer[0]), rlen);
return true;
}