322 lines
10 KiB
C++
322 lines
10 KiB
C++
#include <boost/lexical_cast.hpp>
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#include "fdbclient/ManagementAPI.actor.h"
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#include "fdbclient/NativeAPI.actor.h"
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#include "fdbclient/ReadYourWrites.h"
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#include "fdbclient/SystemData.h"
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#include "fdbrpc/ContinuousSample.h"
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#include "fdbmonitor/SimpleIni.h"
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#include "fdbserver/Status.h"
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#include "fdbserver/TesterInterface.actor.h"
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#include "fdbserver/WorkerInterface.actor.h"
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#include "fdbserver/workloads/BulkSetup.actor.h"
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#include "fdbserver/workloads/workloads.actor.h"
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#include "flow/actorcompiler.h"
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void getVersionAndnumTags(TraceEventFields md, Version& version, int& numTags) {
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version = -1;
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numTags = -1;
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version = boost::lexical_cast<int64_t>(md.getValue("Version"));
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numTags = boost::lexical_cast<int>(md.getValue("NumTags"));
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}
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void getTagAndDurableVersion(TraceEventFields md, Version version, Tag& tag, Version& durableVersion) {
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Version verifyVersion;
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durableVersion = -1;
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verifyVersion = boost::lexical_cast<int64_t>(md.getValue("Version"));
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std::string tagString = md.getValue("Tag");
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int colon = tagString.find_first_of(':');
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std::string localityString = tagString.substr(0, colon);
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std::string idString = tagString.substr(colon + 1);
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tag.locality = boost::lexical_cast<int>(localityString);
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tag.id = boost::lexical_cast<int>(idString);
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durableVersion = boost::lexical_cast<int64_t>(md.getValue("DurableVersion"));
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}
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void getMinAndMaxTLogVersions(TraceEventFields md, Version version, Tag tag, Version& minTLogVersion,
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Version& maxTLogVersion) {
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Version verifyVersion;
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Tag verifyTag;
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minTLogVersion = maxTLogVersion = -1;
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verifyVersion = boost::lexical_cast<int64_t>(md.getValue("Version"));
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std::string tagString = md.getValue("Tag");
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int colon = tagString.find_first_of(':');
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std::string localityString = tagString.substr(0, colon);
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std::string idString = tagString.substr(colon + 1);
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verifyTag.locality = boost::lexical_cast<int>(localityString);
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verifyTag.id = boost::lexical_cast<int>(idString);
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if (tag != verifyTag) {
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return;
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}
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minTLogVersion = boost::lexical_cast<int64_t>(md.getValue("PoppedTagVersion"));
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maxTLogVersion = boost::lexical_cast<int64_t>(md.getValue("QueueCommittedVersion"));
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}
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void filterEmptyMessages(std::vector<Future<TraceEventFields>>& messages) {
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messages.erase(std::remove_if(messages.begin(), messages.end(),
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[](Future<TraceEventFields>const & msgFuture)
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{
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return !msgFuture.isReady() || msgFuture.get().size() == 0;
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}
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), messages.end());
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return;
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}
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void printMessages(std::vector<Future<TraceEventFields>>& messages) {
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for (int i = 0; i < messages.size(); i++) {
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TraceEvent("SnapTestMessages").detail("I", i).detail("Value", messages[i].get().toString());
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}
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return;
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}
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struct SnapTestWorkload : TestWorkload {
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public: // variables
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int numSnaps; // num of snapshots to be taken
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// FIXME: currently validation works on numSnap = 1
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double maxSnapDelay; // max delay before which a snapshot will be taken
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int testID; // test id
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UID snapUID; // UID used for snap name
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std::string restartInfoLocation; // file location to store the snap restore info
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int maxRetryCntToRetrieveMessage; // number of retires to do trackLatest
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bool skipCheck; // disable check if the exec fails
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int retryLimit; // -1 if no limit
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public: // ctor & dtor
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SnapTestWorkload(WorkloadContext const& wcx)
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: TestWorkload(wcx), numSnaps(0), maxSnapDelay(0.0), testID(0), snapUID() {
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TraceEvent("SnapTestWorkload Constructor");
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std::string workloadName = "SnapTest";
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maxRetryCntToRetrieveMessage = 10;
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numSnaps = getOption(options, LiteralStringRef("numSnaps"), 0);
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maxSnapDelay = getOption(options, LiteralStringRef("maxSnapDelay"), 25.0);
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testID = getOption(options, LiteralStringRef("testID"), 0);
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restartInfoLocation =
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getOption(options, LiteralStringRef("restartInfoLocation"), LiteralStringRef("simfdb/restartInfo.ini"))
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.toString();
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skipCheck = false;
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retryLimit = getOption(options, LiteralStringRef("retryLimit"), 5);
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}
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public: // workload functions
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std::string description() const override { return "SnapTest"; }
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Future<Void> setup(Database const& cx) override {
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TraceEvent("SnapTestWorkloadSetup");
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return Void();
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}
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Future<Void> start(Database const& cx) override {
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TraceEvent("SnapTestWorkloadStart");
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if (clientId == 0) {
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return _start(cx, this);
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}
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return Void();
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}
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ACTOR Future<bool> _check(Database cx, SnapTestWorkload* self) {
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if (self->skipCheck) {
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TraceEvent(SevWarnAlways, "SnapCheckIgnored");
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return true;
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}
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state Transaction tr(cx);
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// read the key SnapFailedTLog.$UID
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loop {
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try {
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Standalone<StringRef> keyStr = LiteralStringRef("\xff/SnapTestFailStatus/").withSuffix(StringRef(self->snapUID.toString()));
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TraceEvent("TestKeyStr").detail("Value", keyStr);
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tr.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
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Optional<Value> val = wait(tr.get(keyStr));
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if (val.present()) {
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break;
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}
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// wait for the key to be written out by TLogs
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wait(delay(0.1));
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} catch (Error &e) {
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wait(tr.onError(e));
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}
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}
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return true;
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}
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Future<bool> check(Database const& cx) override {
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TraceEvent("SnapTestWorkloadCheck").detail("ClientID", clientId);
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if (clientId != 0) {
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return true;
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}
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if (this->testID != 5 && this->testID != 6) {
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return true;
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}
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return _check(cx, this);
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}
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void getMetrics(vector<PerfMetric>& m) override { TraceEvent("SnapTestWorkloadGetMetrics"); }
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ACTOR Future<Void> _create_keys(Database cx, std::string prefix, bool even = true) {
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state Transaction tr(cx);
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state vector<int64_t> keys;
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for (int i = 0; i < 1000; i++) {
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keys.push_back(deterministicRandom()->randomInt64(0, INT64_MAX - 2));
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}
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tr.reset();
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loop {
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try {
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for (auto id : keys) {
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if (even) {
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if (id % 2 != 0) {
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id++;
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}
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} else {
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if (id % 2 == 0) {
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id++;
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}
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}
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std::string Key1 = prefix + std::to_string(id);
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Key key1Ref(Key1);
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std::string Val1 = std::to_string(id);
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Value val1Ref(Val1);
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tr.set(key1Ref, val1Ref, false);
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}
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wait(tr.commit());
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break;
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} catch (Error& e) {
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wait(tr.onError(e));
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}
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}
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return Void();
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}
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ACTOR Future<Void> _start(Database cx, SnapTestWorkload* self) {
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state Transaction tr(cx);
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state bool snapFailed = false;
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if (self->testID == 0) {
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// create even keys before the snapshot
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wait(self->_create_keys(cx, "snapKey"));
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} else if (self->testID == 1) {
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// create a snapshot
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state double toDelay = fmod(deterministicRandom()->randomUInt32(), self->maxSnapDelay);
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TraceEvent("ToDelay").detail("Value", toDelay);
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ASSERT(toDelay < self->maxSnapDelay);
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wait(delay(toDelay));
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state int retry = 0;
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loop {
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self->snapUID = deterministicRandom()->randomUniqueID();
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try {
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StringRef snapCmdRef = LiteralStringRef("/bin/snap_create.sh");
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Future<Void> status = snapCreate(cx, snapCmdRef, self->snapUID);
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wait(status);
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break;
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} catch (Error& e) {
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if (e.code() == error_code_snap_log_anti_quorum_unsupported) {
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snapFailed = true;
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break;
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}
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TraceEvent("SnapCreateError").error(e);
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++retry;
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// snap v2 can fail for many reasons, so retry for 5 times and then fail it
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if (self->retryLimit != -1 && retry > self->retryLimit) {
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snapFailed = true;
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break;
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}
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}
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}
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CSimpleIni ini;
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ini.SetUnicode();
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ini.LoadFile(self->restartInfoLocation.c_str());
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std::string uidStr = self->snapUID.toString();
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ini.SetValue("RESTORE", "RestoreSnapUID", uidStr.c_str());
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ini.SetValue("RESTORE", "BackupFailed", format("%d", snapFailed).c_str());
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ini.SaveFile(self->restartInfoLocation.c_str());
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// write the snapUID to a file
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TraceEvent("SnapshotCreateStatus").detail("Status", !snapFailed ? "Success" : "Failure");
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} else if (self->testID == 2) {
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// create odd keys after the snapshot
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wait(self->_create_keys(cx, "snapKey", false /*even*/));
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} else if (self->testID == 3) {
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CSimpleIni ini;
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ini.SetUnicode();
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ini.LoadFile(self->restartInfoLocation.c_str());
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bool backupFailed = atoi(ini.GetValue("RESTORE", "BackupFailed"));
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if (backupFailed) {
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// since backup failed, skip the restore checking
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TraceEvent(SevWarnAlways, "BackupFailedSkippingRestoreCheck");
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return Void();
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}
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state KeySelector begin = firstGreaterOrEqual(normalKeys.begin);
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state KeySelector end = firstGreaterOrEqual(normalKeys.end);
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state int cnt = 0;
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// read the entire normalKeys range and look at keys prefixed
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// with snapKeys 1) validate that all key ids are even ie -
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// created before snap 2) values are same as the key id 3) # of
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// keys adds up to the total keys created before snap
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tr.reset();
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loop {
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try {
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Standalone<RangeResultRef> kvRange = wait(tr.getRange(begin, end, 1000));
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if (!kvRange.more && kvRange.size() == 0) {
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TraceEvent("SnapTestNoMoreEntries");
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break;
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}
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for (int i = 0; i < kvRange.size(); i++) {
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if (kvRange[i].key.startsWith(LiteralStringRef("snapKey"))) {
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std::string tmp1 = kvRange[i].key.substr(7).toString();
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int64_t id = strtol(tmp1.c_str(), nullptr, 0);
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if (id % 2 != 0) {
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throw operation_failed();
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}
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++cnt;
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std::string tmp2 = kvRange[i].value.toString();
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int64_t value = strtol(tmp2.c_str(), nullptr, 0);
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if (id != value) {
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throw operation_failed();
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}
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}
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}
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begin = firstGreaterThan(kvRange.end()[-1].key);
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} catch (Error& e) {
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wait(tr.onError(e));
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}
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}
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if (cnt != 1000) {
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TraceEvent(SevError, "SnapTestVerifyCntValue").detail("Value", cnt);
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throw operation_failed();
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}
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} else if (self->testID == 4) {
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// create a snapshot with a non whitelisted binary path and operation
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// should fail
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state bool testedFailure = false;
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snapFailed = false;
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loop {
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self->snapUID = deterministicRandom()->randomUniqueID();
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try {
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StringRef snapCmdRef = LiteralStringRef("/bin/snap_create1.sh");
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Future<Void> status = snapCreate(cx, snapCmdRef, self->snapUID);
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wait(status);
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break;
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} catch (Error& e) {
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if (e.code() == error_code_snap_not_fully_recovered_unsupported ||
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e.code() == error_code_snap_log_anti_quorum_unsupported) {
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snapFailed = true;
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break;
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}
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if (e.code() == error_code_snap_path_not_whitelisted) {
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testedFailure = true;
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break;
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}
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}
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}
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ASSERT(testedFailure || snapFailed);
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}
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wait(delay(0.0));
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return Void();
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}
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};
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WorkloadFactory<SnapTestWorkload> SnapTestWorkloadFactory("SnapTest");
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