foundationdb/fdbserver/FDBExecHelper.actor.cpp

227 lines
6.8 KiB
C++

#if !defined(_WIN32) && !defined(__APPLE__) && !defined(__INTEL_COMPILER)
#define BOOST_SYSTEM_NO_LIB
#define BOOST_DATE_TIME_NO_LIB
#define BOOST_REGEX_NO_LIB
#include <boost/process.hpp>
#endif
#include "fdbserver/FDBExecHelper.actor.h"
#include "flow/Trace.h"
#include "flow/flow.h"
#if defined(CMAKE_BUILD) || !defined(_WIN32)
#include "versions.h"
#endif
#include "fdbserver/Knobs.h"
#include "flow/actorcompiler.h" // This must be the last #include.
ExecCmdValueString::ExecCmdValueString(StringRef pCmdValueString) {
cmdValueString = pCmdValueString;
parseCmdValue();
}
void ExecCmdValueString::setCmdValueString(StringRef pCmdValueString) {
// reset everything
binaryPath = StringRef();
// set the new cmdValueString
cmdValueString = pCmdValueString;
// parse it out
parseCmdValue();
}
StringRef ExecCmdValueString::getCmdValueString() {
return cmdValueString.toString();
}
StringRef ExecCmdValueString::getBinaryPath() {
return binaryPath;
}
VectorRef<StringRef> ExecCmdValueString::getBinaryArgs() {
return binaryArgs;
}
void ExecCmdValueString::parseCmdValue() {
StringRef param = this->cmdValueString;
// get the binary path
this->binaryPath = param.eat(LiteralStringRef(" "));
// no arguments provided
if (param == StringRef()) {
return;
}
// extract the arguments
while (param != StringRef()) {
StringRef token = param.eat(LiteralStringRef(" "));
this->binaryArgs.push_back(this->binaryArgs.arena(), token);
}
return;
}
void ExecCmdValueString::dbgPrint() {
auto te = TraceEvent("ExecCmdValueString");
te.detail("CmdValueString", cmdValueString.toString());
te.detail("BinaryPath", binaryPath.toString());
int i = 0;
for (auto elem : binaryArgs) {
te.detail(format("Arg", ++i).c_str(), elem.toString());
}
return;
}
#if defined(_WIN32) || defined(__APPLE__) || defined(__INTEL_COMPILER)
ACTOR Future<int> spawnProcess(std::string binPath, std::vector<std::string> paramList, double maxWaitTime, bool isSync, double maxSimDelayTime)
{
wait(delay(0.0));
return 0;
}
#else
ACTOR Future<int> spawnProcess(std::string binPath, std::vector<std::string> paramList, double maxWaitTime, bool isSync, double maxSimDelayTime)
{
state std::string argsString;
for (auto const& elem : paramList) {
argsString += elem + ",";
}
TraceEvent("SpawnProcess").detail("Cmd", binPath).detail("Args", argsString);
state int err = 0;
state double runTime = 0;
state boost::process::child c(binPath, boost::process::args(paramList),
boost::process::std_err > boost::process::null);
// for async calls in simulator, always delay by a deterinistic amount of time and do the call
// synchronously, otherwise the predictability of the simulator breaks
if (!isSync && g_network->isSimulated()) {
double snapDelay = std::max(maxSimDelayTime - 1, 0.0);
// add some randomness
snapDelay += deterministicRandom()->random01();
TraceEvent("SnapDelaySpawnProcess")
.detail("SnapDelay", snapDelay);
wait(delay(snapDelay));
}
if (!isSync && !g_network->isSimulated()) {
while (c.running() && runTime <= maxWaitTime) {
wait(delay(0.1));
runTime += 0.1;
}
} else {
if (g_network->isSimulated()) {
// to keep the simulator deterministic, wait till the process exits,
// hence giving a large wait time
c.wait_for(std::chrono::hours(24));
ASSERT(!c.running());
} else {
int maxWaitTimeInt = static_cast<int>(maxWaitTime + 1.0);
c.wait_for(std::chrono::seconds(maxWaitTimeInt));
}
}
if (c.running()) {
TraceEvent(SevWarnAlways, "ChildTermination")
.detail("Cmd", binPath)
.detail("Args", argsString);
c.terminate();
err = -1;
if (!c.wait_for(std::chrono::seconds(1))) {
TraceEvent(SevWarnAlways, "SpawnProcessFailedToExit")
.detail("Cmd", binPath)
.detail("Args", argsString);
}
} else {
err = c.exit_code();
}
TraceEvent("SpawnProcess")
.detail("Cmd", binPath)
.detail("Error", err);
return err;
}
#endif
ACTOR Future<int> execHelper(ExecCmdValueString* execArg, UID snapUID, std::string folder, std::string role) {
state Standalone<StringRef> uidStr(snapUID.toString());
state int err = 0;
state Future<int> cmdErr;
state double maxWaitTime = SERVER_KNOBS->SNAP_CREATE_MAX_TIMEOUT;
if (!g_network->isSimulated()) {
// get bin path
auto snapBin = execArg->getBinaryPath();
std::vector<std::string> paramList;
// get user passed arguments
auto listArgs = execArg->getBinaryArgs();
for (auto elem : listArgs) {
paramList.push_back(elem.toString());
}
// get additional arguments
paramList.push_back("--path");
paramList.push_back(folder);
const char* version = FDB_VT_VERSION;
paramList.push_back("--version");
paramList.push_back(version);
paramList.push_back("--role");
paramList.push_back(role);
paramList.push_back("--uid");
paramList.push_back(uidStr.toString());
cmdErr = spawnProcess(snapBin.toString(), paramList, maxWaitTime, false /*isSync*/, 0);
wait(success(cmdErr));
err = cmdErr.get();
} else {
// copy the files
state std::string folderFrom = folder + "/.";
state std::string folderTo = folder + "-snap-" + uidStr.toString();
double maxSimDelayTime = 10.0;
folderTo = folder + "-snap-" + uidStr.toString() + "-" + role;
std::vector<std::string> paramList;
std::string mkdirBin = "/bin/mkdir";
paramList.push_back(folderTo);
cmdErr = spawnProcess(mkdirBin, paramList, maxWaitTime, false /*isSync*/, maxSimDelayTime);
wait(success(cmdErr));
err = cmdErr.get();
if (err == 0) {
std::vector<std::string> paramList;
std::string cpBin = "/bin/cp";
paramList.push_back("-a");
paramList.push_back(folderFrom);
paramList.push_back(folderTo);
cmdErr = spawnProcess(cpBin, paramList, maxWaitTime, true /*isSync*/, 1.0);
wait(success(cmdErr));
err = cmdErr.get();
}
}
return err;
}
struct StorageVersionInfo {
Version version;
Version durableVersion;
};
// storage nodes get snapshotted through the worker interface which does not have context about version information,
// following info is gathered at worker level to facilitate printing of version info during storage snapshots.
typedef std::map<UID, StorageVersionInfo> UidStorageVersionInfo;
std::map<NetworkAddress, UidStorageVersionInfo> workerStorageVersionInfo;
void setDataVersion(UID uid, Version version) {
NetworkAddress addr = g_network->getLocalAddress();
workerStorageVersionInfo[addr][uid].version = version;
}
void setDataDurableVersion(UID uid, Version durableVersion) {
NetworkAddress addr = g_network->getLocalAddress();
workerStorageVersionInfo[addr][uid].durableVersion = durableVersion;
}
void printStorageVersionInfo() {
NetworkAddress addr = g_network->getLocalAddress();
for (auto itr = workerStorageVersionInfo[addr].begin(); itr != workerStorageVersionInfo[addr].end(); itr++) {
TraceEvent("StorageVersionInfo")
.detail("UID", itr->first)
.detail("Version", itr->second.version)
.detail("DurableVersion", itr->second.durableVersion);
}
}