#include <stdio.h> // perror
#include <stdlib.h> // exit
#include <sys/wait.h> // waitpid, pid_t, WNOHANG
+#include <climits>
// cmd with fork:
#include <sys/types.h>
sigemptyset(&sa.sa_mask);
sa.sa_flags = SA_RESTART | SA_NOCLDSTOP;
if (sigaction(SIGCHLD, &sa, 0) != -1) {
+
status = system(cmd.c_str());
/* POPEN version:
char readbuf[256];
// TODO: mutex the step while setting data here !!
}
+/*
void cmdRunOnThreadWithFork (TestStepCmd *step, const std::string &cmd) {
// Thread running:
step->complete();
}
}
+*/
bool decodeMessage(const anna::DataBlock &message, anna::diameter::codec::Message &messageCodec) throw() {
const char* TestStep::asText(const Type::_v type)
throw() {
- static const char* text [] = { "Unconfigured", "Timeout", "Sendxml2e", "Sendxml2c", "Delay", "Wait", "Command" };
+ static const char* text [] = { "Unconfigured", "Timeout", "SendDiameterXmlToEntity", "SendDiameterXmlToClient", "Delay", "Wait", "Command", "IpLimit" };
return text [type];
}
// if (a_endTimestamp != 0 && deltaMs > 0) s_aux += anna::functions::asString(" [%.3f]", deltaMs/1000.0);
result->createAttribute("EndTimestamp", s_aux);
+ if (a_beginTimestamp != 0 && a_endTimestamp != 0)
+ result->createAttribute("LapseMilliseconds", getLapseMs());
+
return result;
}
if (a_executed) return false; // avoid repeating (this implies amount consumption)
}
- LOGDEBUG(anna::Logger::debug(anna::functions::asString("EXECUTING %s (step number %d) for Test Case %llu (%p)", asText(a_type), a_number, a_testCase->getId(), this), ANNA_FILE_LOCATION));
+ const char *literal = "Execute %s Test Step %d/%d (test case %llu)";
+
+ TestManager& testManager (TestManager::instantiate ());
+ if (testManager.getDumpStdout()) {
+ bool dump = (a_type == Type::Wait) ? (!a_completed) : true;
+ if (dump) {
+ std::cout << std::endl << "=> " << anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()) << std::endl;
+ }
+ }
+
+ LOGDEBUG(anna::Logger::debug(anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()), ANNA_FILE_LOCATION));
setBeginTimestamp(anna::functions::millisecond());
a_executed = true;
return do_execute();
}
void TestStep::complete() throw() {
- LOGDEBUG(anna::Logger::debug(anna::functions::asString("COMPLETE %s (step number %d) for Test Case %llu (%p)", asText(a_type), a_number, a_testCase->getId(), this), ANNA_FILE_LOCATION));
+
+ const char *literal = "Complete %s Test Step %d/%d (test case %llu)";
+
+ TestManager& testManager (TestManager::instantiate ());
+ if (testManager.getDumpStdout()) {
+ std::cout << "=> " << anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()) << std::endl;
+ }
+
+ LOGDEBUG(anna::Logger::debug(anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()), ANNA_FILE_LOCATION));
a_completed = true;
setEndTimestamp(anna::functions::millisecond());
do_complete();
}
void TestStep::reset() throw() {
- LOGDEBUG(anna::Logger::debug(anna::functions::asString("RESET %s (step number %d) for Test Case %llu (%p)", asText(a_type), a_number, a_testCase->getId(), this), ANNA_FILE_LOCATION));
+
+ const char *literal = "Reset %s Test Step %d/%d (test case %llu)";
+
+ TestManager& testManager (TestManager::instantiate ());
+ if (testManager.getDumpStdout()) {
+ std::cout << "=> " << anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()) << std::endl;
+ }
+
+ LOGDEBUG(anna::Logger::debug(anna::functions::asString(literal, asText(a_type), a_number, a_testCase->steps(), a_testCase->getId()), ANNA_FILE_LOCATION));
// type and testCase kept
a_completed = false;
a_executed = false;
if (stepNumber == a_testCase->steps()) {
a_testCase->addDebugSummaryHint(anna::functions::asString("Timeout expired (step number %d) but it was the last test case step", stepNumber)); // before report (when set Failed state)
a_testCase->setState(TestCase::State::Success);
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Expired Timeout Test LAST Step: considered SUCCESSFUL TEST CASE" << std::endl;
+ }
}
else if (a_testCase->getState() == TestCase::State::InProgress) { // sure
a_testCase->addDebugSummaryHint(anna::functions::asString("Timeout expired (step number %d) before test case finished", stepNumber)); // before report (when set Failed state)
a_testCase->setState(TestCase::State::Failed);
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Expired Timeout Test Step: FAILED TEST CASE" << std::endl;
+ }
}
a_timer = NULL;
}
-void TestStepTimeout::do_reset() throw() {
+void TestStepTimeout::cancelTimer() throw() {
+ if (!a_timer) return;
try {
TestManager::instantiate().cancelTimer(a_timer);
}
//a_timeout = 0; THIS IS CONFIGURATION INFO
}
+void TestStepTimeout::do_reset() throw() {
+ cancelTimer();
+}
+
////////////////////////////////////////////////////////////////////////////////////////////////////////
-// TestStepSendxml
+// TestStepSendDiameterXml
////////////////////////////////////////////////////////////////////////////////////////////////////////
-anna::xml::Node* TestStepSendxml::asXML(anna::xml::Node* parent)
+anna::xml::Node* TestStepSendDiameterXml::asXML(anna::xml::Node* parent)
throw() {
anna::xml::Node* result = TestStep::asXML(parent);
- //parent->createChild("TestStepSendxml");
+ //parent->createChild("TestStepSendDiameterXml");
std::string msg = "", xmlmsg = "";
// Message
xmlmsg += "\n";
}
else {
- xmlmsg = "<unable to decode, check traces>";
+ xmlmsg = "<unable to decode, check traces>";
}
if (msg != "") result->createAttribute("Message", msg);
return result;
}
-bool TestStepSendxml::do_execute() throw() {
+bool TestStepSendDiameterXml::do_execute() throw() {
bool success = false;
- std::string failReason;
+ std::string failReason = "Error sending diameter message";
anna::diameter::comm::Entity *entity = a_originHost->getEntity(); // by default
anna::diameter::comm::LocalServer *localServer = a_originHost->getDiameterServer(); // by default
- const TestStepWait *tsw = NULL;
+ const TestStepWaitDiameter *tsw = NULL;
anna::diameter::comm::Message *msg = a_originHost->createCommMessage();
try {
if (a_waitForRequestStepNumber != -1) {
+ bool thisIsAnswer = anna::diameter::codec::functions::isAnswer(getMsgDataBlock());
+ LOGDEBUG(
+ std::string trace = anna::functions::asString("'Wait For Request' step number for this %s: %d", (thisIsAnswer ? "answer":"request"), a_waitForRequestStepNumber);
+ anna::Logger::debug(trace, ANNA_FILE_LOCATION);
+ );
// Referenced request in the 'wait for request step':
- tsw = static_cast<const TestStepWait*>(a_testCase->getStep(a_waitForRequestStepNumber));
+ tsw = static_cast<const TestStepWaitDiameter*>(a_testCase->getStep(a_waitForRequestStepNumber));
const anna::DataBlock &referenceRequest = tsw->getMsgDataBlock();
std::string sessionIdReferenceRequest = anna::diameter::helpers::base::functions::getSessionId(referenceRequest);
- bool thisIsAnswer = anna::diameter::codec::functions::isRequest(getMsgDataBlock());
if (thisIsAnswer) { // is an answer: try to copy sequence information; alert about Session-Id discrepance
anna::diameter::HopByHop hbh = anna::diameter::codec::functions::getHopByHop(referenceRequest);
complete();
}
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Executed SendDiameterXml Test Step: " << (success ? "OK":"ERROR") << std::endl;
+ }
+
return success; // go next if sent was OK
}
-void TestStepSendxml::do_reset() throw() {
+void TestStepSendDiameterXml::do_reset() throw() {
a_expired = false;
//a_message.clear();
//a_messageAlreadyDecoded = false;
void TestStepDelay::do_complete() throw() {
if (a_delay == 0) return; // special case
a_timer = NULL;
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Consumed Delay Test Step (" << a_delay << " milliseconds)" << std::endl;
+ }
next(); // next() invoked here because execute() is always false for delay and never advance the iterator
// TODO, avoid this recursion
}
-void TestStepDelay::do_reset() throw() {
+void TestStepDelay::cancelTimer() throw() {
+ if (!a_timer) return;
if (a_delay == 0) return; // special case
try {
TestManager::instantiate().cancelTimer(a_timer);
//a_delay = 0; THIS IS CONFIGURATION INFO
}
+void TestStepDelay::do_reset() throw() {
+ cancelTimer();
+}
+
+
////////////////////////////////////////////////////////////////////////////////////////////////////////
-// TestStepWait
+// TestStepWaitDiameter
////////////////////////////////////////////////////////////////////////////////////////////////////////
-void TestStepWait::setCondition(bool fromEntity,
+void TestStepWaitDiameter::setCondition(bool fromEntity,
const std::string &code, const std::string &bitR, const std::string &hopByHop, const std::string &applicationId,
const std::string &sessionId, const std::string &resultCode,
const std::string &msisdn, const std::string &imsi, const std::string &serviceContextId) throw() {
a_condition.setServiceContextId(serviceContextId);
}
-void TestStepWait::setConditionRegexpHex(bool fromEntity, const std::string ®exp) throw() {
+void TestStepWaitDiameter::setConditionRegexpHex(bool fromEntity, const std::string ®exp) throw() {
a_condition.setReceivedFromEntity(fromEntity);
a_condition.setRegexpHex(regexp);
}
-void TestStepWait::setConditionRegexpXml(bool fromEntity, const std::string ®exp) throw() {
+void TestStepWaitDiameter::setConditionRegexpXml(bool fromEntity, const std::string ®exp) throw() {
a_condition.setReceivedFromEntity(fromEntity);
a_condition.setRegexpXml(regexp);
}
-anna::xml::Node* TestStepWait::asXML(anna::xml::Node* parent)
+anna::xml::Node* TestStepWaitDiameter::asXML(anna::xml::Node* parent)
throw() {
anna::xml::Node* result = TestStep::asXML(parent);
- //parent->createChild("TestStepWait");
+ //parent->createChild("TestStepWaitDiameter");
std::string msg = "", xmlmsg = "";
// Condition
xmlmsg += "\n";
}
else {
- xmlmsg = "<unable to decode, check traces>";
+ xmlmsg = "<unable to decode, check traces>";
}
}
return result;
}
-bool TestStepWait::do_execute() throw() {
+bool TestStepWaitDiameter::do_execute() throw() {
return a_completed;
}
-void TestStepWait::do_complete() throw() {
+void TestStepWaitDiameter::do_complete() throw() {
//a_testCase->process(); // next() not invoked; we only want to reactivate the test case
// avoid stack overflow: we will process the test case externally when incoming message is fulfilled (TestCase.cpp), and TestManager is noticed
}
-bool TestStepWait::fulfilled(const anna::DataBlock &db/*, bool matchSessionId*/) throw() {
+bool TestStepWaitDiameter::fulfilled(const anna::DataBlock &db/*, bool matchSessionId*/) throw() {
if (a_condition.comply(db/*, matchSessionId*/)) {
a_message = db; // store matched
complete();
+
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Fulfilled Wait diameter Test Step" << std::endl;
+ }
+
return true;
}
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "NOT Fulfilled Wait diameter Test Step" << std::endl;
+ }
+
return false;
}
-void TestStepWait::do_reset() throw() {
+void TestStepWaitDiameter::do_reset() throw() {
a_message.clear();
a_clientSession = NULL;
a_serverSession = NULL;
void TestStepCmd::do_complete() throw() {
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::cout << "Executed Command Test Step (" << a_script << ") [rc=" << a_resultCode << "]" << std::endl;
+ }
+
a_threadRunning = false;
if (a_threadDeprecated) {
a_threadDeprecated = false;
a_childPid = -1;
}
+anna::xml::Node* TestStepIpLimit::asXML(anna::xml::Node* parent)
+throw() {
+ anna::xml::Node* result = TestStep::asXML(parent);
+ std::string limit = (a_ipLimit != UINT_MAX) ? anna::functions::asString(a_ipLimit) : "<no limit>";
+ result->createAttribute("IpLimit", limit);
+
+ return result;
+}
+
+bool TestStepIpLimit::do_execute() throw() {
+ TestManager::instantiate().setInProgressLimit(a_ipLimit);
+ complete();
+ return true; // go next
+}
+
+void TestStepIpLimit::do_complete() throw() {
+ if (TestManager::instantiate().getDumpStdout()) {
+ std::string limit = (a_ipLimit != UINT_MAX) ? anna::functions::asString(a_ipLimit) : "<no limit>";
+ std::cout << "Executed IpLimit Test Step (value = " << limit << ")" << std::endl;
+ }
+}
+