// Process
#include <TestManager.hpp>
-#include <TestCase.hpp>
#include <TestClock.hpp>
#include <Launcher.hpp>
+#include <RealmNode.hpp>
class TestTimer;
+
+
+///////////////////////////////////////////////////////////////////////////////////////////////////
+void TestManager::StatSummary::newTCState(const TestCase::State::_v beginState, const TestCase::State::_v endState) throw() {
+
+ if ((beginState == TestCase::State::Initialized)&&(endState == TestCase::State::Initialized)) { // special case (new test case provisioning)
+ a_initializedTcs++;
+ return;
+ }
+
+ switch (beginState) {
+ case TestCase::State::Initialized: a_initializedTcs--; break;
+ case TestCase::State::InProgress: a_inprogressTcs--; break;
+ case TestCase::State::Failed: a_failedTcs--; break;
+ case TestCase::State::Success: a_sucessTcs--; break;
+ default: break;
+ }
+ switch (endState) {
+ case TestCase::State::Initialized: a_initializedTcs++; break;
+ case TestCase::State::InProgress: a_inprogressTcs++; break;
+ case TestCase::State::Failed: a_failedTcs++; break;
+ case TestCase::State::Success: a_sucessTcs++; break;
+ default: break;
+ }
+}
+
+void TestManager::StatSummary::clear() throw() {
+ a_initializedTcs = 0;
+ a_inprogressTcs = 0;
+ a_failedTcs = 0;
+ a_sucessTcs = 0;
+}
+
+anna::xml::Node *TestManager::StatSummary::asXML(anna::xml::Node* parent) const throw() {
+ anna::xml::Node* result = parent->createChild("StatSummary");
+
+ anna::xml::Node* tcs = result->createChild("TestCasesCounts");
+ tcs->createAttribute("Total", a_initializedTcs + a_inprogressTcs + a_failedTcs + a_sucessTcs);
+ tcs->createAttribute("Initialized", a_initializedTcs);
+ tcs->createAttribute("InProgress", a_inprogressTcs);
+ tcs->createAttribute("Failed", a_failedTcs);
+ tcs->createAttribute("Success", a_sucessTcs);
+
+ return result;
+}
+///////////////////////////////////////////////////////////////////////////////////////////////////
+
+
+
TestManager::TestManager() :
- anna::timex::TimeEventObserver("TestManager") {
+ anna::timex::TimeEventObserver("TestManager") {
a_timeController = NULL;
a_reportsDirectory = "./";
- a_dumpReports = false;
+
+ a_dumpInProgressReports = false;
+ a_dumpInitializedReports = false;
+ a_dumpFailedReports = false;
+ a_dumpSuccessReports = false;
+
a_dumpHexMessages = false;
a_synchronousAmount = 1;
a_poolRepeats = 0; // repeat disabled by default
a_poolCycle = 1;
- a_inProgressCount = 0;
a_inProgressLimit = UINT_MAX; // no limit
a_clock = NULL;
//a_testPool.clear();
result->setTimeout(timeout);
LOGDEBUG(
- std::string msg("TestManager::createTimer | ");
- msg += result->asString();
- anna::Logger::debug(msg, ANNA_FILE_LOCATION);
+ std::string msg("TestManager::createTimer | ");
+ msg += result->asString();
+ anna::Logger::debug(msg, ANNA_FILE_LOCATION);
);
a_timeController->activate(result);
return;
LOGDEBUG(
- std::string msg("TestManager::cancel | ");
- msg += timer->asString();
- anna::Logger::debug(msg, ANNA_FILE_LOCATION);
+ std::string msg("TestManager::cancel | ");
+ msg += timer->asString();
+ anna::Logger::debug(msg, ANNA_FILE_LOCATION);
);
try {
if (a_synchronousAmount > 1) {
LOGWARNING(
- std::string msg = anna::functions::asString("Desired testing time trigger rate (%d events per second) requires more than one sending per event (%d every %lld milliseconds). Consider launch more instances with lower rate (for example %d ADML processes with %d ttps), or configure %d or more sockets to the remote endpoints to avoid burst sendings",
- testTicksPerSecond,
- a_synchronousAmount,
- admlTimeInterval.getValue(),
- a_synchronousAmount,
- 1000/admlTimeInterval,
- a_synchronousAmount);
-
- anna::Logger::warning(msg, ANNA_FILE_LOCATION);
+ std::string msg = anna::functions::asString("Desired testing time trigger rate (%d events per second) requires more than one sending per event (%d every %lld milliseconds). Consider launch more instances with lower rate (for example %d ADML processes with %d ttps), or configure %d or more sockets to the remote endpoints to avoid burst sendings",
+ testTicksPerSecond,
+ a_synchronousAmount,
+ admlTimeInterval.getValue(),
+ a_synchronousAmount,
+ 1000/admlTimeInterval,
+ a_synchronousAmount);
+
+ anna::Logger::warning(msg, ANNA_FILE_LOCATION);
);
}
bool TestManager::clearPool() throw() {
if (!tests()) return false;
for (test_pool_it it = a_testPool.begin(); it != a_testPool.end(); it++) delete it->second;
+ // TODO: stop the possible command threads or there will be a core dump
+
a_testPool.clear();
a_sessionIdTestCaseMap.clear();
a_currentTestIt = a_testPool.end();
a_poolCycle = 1;
configureTTPS(0); // stop
+ a_statSummary.clear();
return true;
}
if (!tests()) return result;
for (test_pool_nc_it it = a_testPool.begin(); it != a_testPool.end(); it++) {
- it->second->reset(hard);
- result = true;
+ if (it->second->reset(hard))
+ result = true;
}
//a_sessionIdTestCaseMap.clear();
return result;
bool TestManager::tick() throw() {
LOGDEBUG(anna::Logger::debug("New test clock tick !", ANNA_FILE_LOCATION));
+ return execTestCases(a_synchronousAmount);
+}
+
+bool TestManager::execTestCases(int sync_amount) throw() {
if (!tests()) {
- LOGWARNING(anna::Logger::warning("Testing pool is empty. You need programming. Stopping test clock", ANNA_FILE_LOCATION));
+ LOGWARNING(anna::Logger::warning("Testing pool is empty. You need programming", ANNA_FILE_LOCATION));
return false;
}
// Synchronous sendings per tick:
- int count = a_synchronousAmount;
+ int count = sync_amount;
while (count > 0) {
if (!nextTestCase()) return false; // stop the clock
count--;
while (true) {
// Limit for in-progress test cases:
- if (a_inProgressCount >= a_inProgressLimit) {
+ if (getInProgressCount() >= a_inProgressLimit) {
LOGDEBUG(anna::Logger::debug(anna::functions::asString("TestManager next case ignored (over in-progress count limit: %llu)", a_inProgressLimit), ANNA_FILE_LOCATION));
return true; // wait next tick to release OTA test cases
}
}
else {
LOGWARNING(
- std::string nolimit = (a_poolRepeats != -1) ? "":" [no limit]";
- anna::Logger::warning(anna::functions::asString("Testing pool cycle %d completed (repeats configured: %d%s). Restarting for the %s cycle", a_poolCycle, a_poolRepeats, nolimit.c_str(), (a_poolRepeats == a_poolCycle) ? "last":"next"), ANNA_FILE_LOCATION);
+ std::string nolimit = (a_poolRepeats != -1) ? "":" [no limit]";
+ anna::Logger::warning(anna::functions::asString("Testing pool cycle %d completed (repeats configured: %d%s). Restarting for the %s cycle", a_poolCycle, a_poolRepeats, nolimit.c_str(), (a_poolRepeats == a_poolCycle) ? "last":"next"), ANNA_FILE_LOCATION);
);
a_poolCycle++;
//a_currentTestIt = a_testPool.begin();
return true; // avoids infinite loop: if the cycle takes less time than test cases completion, below reset never will turns state
- // into Initialized and this while will be infinite. It is preferable to wait one tick when the cycle is completed.
+ // into Initialized and this while will be infinite. It is preferable to wait one tick when the cycle is completed.
}
}
if (a_currentTestIt->second->getState() != TestCase::State::InProgress) {
a_currentTestIt->second->process();
return true; // is not probably to reach still In-Progress test cases from previous cycles due to the whole
- // time for complete the test cases pool regarding the single test case lifetime. You shouldn't
- // forget to programm a test case timeout with a reasonable value
+ // time for complete the test cases pool regarding the single test case lifetime. You shouldn't
+ // forget to programm a test case timeout with a reasonable value
}
}
}
return NULL;
}
-void TestManager::receiveMessage(const anna::DataBlock &message, const anna::diameter::comm::ClientSession *clientSession) throw(anna::RuntimeException) {
+void TestManager::receiveMessage(const anna::DataBlock &message, RealmNode *realm, const anna::diameter::comm::ClientSession *clientSession) throw(anna::RuntimeException) {
// Testing disabled:
if (!tests()) return;
std::string hint = "Uncovered condition for received message from entity over Session-Id '"; hint += sessionId; hint += "':";
try {
- Launcher& my_app = static_cast <Launcher&>(anna::app::functions::getApp());
- static anna::diameter::codec::Message codecMsg(my_app.getCodecEngine());
+ static anna::diameter::codec::Message codecMsg;
codecMsg.decode(message);
hint += "\n"; hint += codecMsg.asXMLString();
+
+ // // Realm checking:
+ // std::string messageOR = message.getAvp(anna::diameter::helpers::base::AVPID__Origin_Realm)->getDiameterIdentity()->getValue();
+ // if (messageOR != realm->getName()) {
+ // LOGWARNING(anna::Logger::warning(anna::functions::asString("Received message from realm '%s', with different Origin-Realm: %s", realm->getName().c_str(), messageOR.c_str()), ANNA_FILE_LOCATION));
+ // }
}
catch (anna::RuntimeException &ex) {
ex.trace();
}
else {
tsw->setClientSession(const_cast<anna::diameter::comm::ClientSession*>(clientSession));
+ tc->process();
}
}
-void TestManager::receiveMessage(const anna::DataBlock &message, const anna::diameter::comm::ServerSession *serverSession) throw(anna::RuntimeException) {
+void TestManager::receiveMessage(const anna::DataBlock &message, RealmNode *realm, const anna::diameter::comm::ServerSession *serverSession) throw(anna::RuntimeException) {
// Testing disabled:
if (!tests()) return;
std::string hint = "Uncovered condition for received message from client over Session-Id '"; hint += sessionId; hint += "':";
try {
- Launcher& my_app = static_cast <Launcher&>(anna::app::functions::getApp());
- static anna::diameter::codec::Message codecMsg(my_app.getCodecEngine());
+ static anna::diameter::codec::Message codecMsg;
codecMsg.decode(message);
hint += "\n"; hint += codecMsg.asXMLString();
+
+ // // Realm checking:
+ // std::string messageOR = message.getAvp(anna::diameter::helpers::base::AVPID__Origin_Realm)->getDiameterIdentity()->getValue();
+ // if (messageOR != realm->getName()) {
+ // LOGWARNING(anna::Logger::warning(anna::functions::asString("Received message from realm '%s', with different Origin-Realm: %s", realm->getName().c_str(), messageOR.c_str()), ANNA_FILE_LOCATION));
+ // }
}
catch (anna::RuntimeException &ex) {
ex.trace();
}
else {
tsw->setServerSession(const_cast<anna::diameter::comm::ServerSession*>(serverSession));
+ tc->process();
}
}
if (a_poolRepeats) result->createAttribute("PoolRepeats", a_poolRepeats);
else result->createAttribute("PoolRepeats", "disabled");
result->createAttribute("PoolCycle", a_poolCycle);
- result->createAttribute("InProgressCount", a_inProgressCount);
+ a_statSummary.asXML(result);
if (a_inProgressLimit == UINT_MAX)
result->createAttribute("InProgressLimit", "<no limit>");
else
result->createAttribute("InProgressLimit", a_inProgressLimit);
- result->createAttribute("DumpReports", (a_dumpReports ? "yes":"no"));
+ result->createAttribute("DumpInitializedReports", (a_dumpInitializedReports ? "yes":"no"));
+ result->createAttribute("DumpInProgressReports", (a_dumpInProgressReports ? "yes":"no"));
+ result->createAttribute("DumpFailedReports", (a_dumpFailedReports ? "yes":"no"));
+ result->createAttribute("DumpSuccessReports", (a_dumpSuccessReports ? "yes":"no"));
result->createAttribute("DumpHexMessages", (a_dumpHexMessages ? "yes":"no"));
result->createAttribute("ReportsDirectory", a_reportsDirectory);
if (a_clock) {
if (a_currentTestIt != a_testPool.end()) {
result->createAttribute("CurrentTestCaseId", (*a_currentTestIt).first);
}
- if (a_dumpReports && poolSize != 0) {
+ if (poolSize != 0) {
anna::xml::Node* testCases = result->createChild("TestCases");
for (test_pool_it it = a_testPool.begin(); it != a_testPool.end(); it++) {
+ if (((*it).second->getState() == TestCase::State::Initialized) && (!getDumpInitializedReports())) continue;
+ if (((*it).second->getState() == TestCase::State::InProgress) && (!getDumpInProgressReports())) continue;
+ if (((*it).second->getState() == TestCase::State::Failed) && (!getDumpFailedReports())) continue;
+ if (((*it).second->getState() == TestCase::State::Success) && (!getDumpSuccessReports())) continue;
(*it).second->asXML(testCases);
}
}