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flusher.cc
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flusher.cc
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/* -*- Mode: C++; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
/*
* Copyright 2010 NorthScale, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "config.h"
#include <stdlib.h>
#include "flusher.hh"
bool FlusherStepper::callback(Dispatcher &d, TaskId t) {
return flusher->step(d, t);
}
bool Flusher::stop(void) {
return transition_state(stopping);
}
void Flusher::wait(void) {
while (_state != stopped) {
usleep(1000);
}
}
bool Flusher::pause(void) {
return transition_state(pausing);
}
bool Flusher::resume(void) {
return transition_state(running);
}
static bool validTransition(enum flusher_state from,
enum flusher_state to)
{
bool rv(true);
if (from == initializing && to == running) {
} else if (from == initializing && to == stopping) {
} else if (from == running && to == pausing) {
} else if (from == running && to == stopping) {
} else if (from == pausing && to == paused) {
} else if (from == stopping && to == stopped) {
} else if (from == paused && to == running) {
} else if (from == paused && to == stopping) {
} else if (from == pausing && to == stopping) {
} else {
rv = false;
}
return rv;
}
const char * Flusher::stateName(enum flusher_state st) const {
static const char * const stateNames[] = {
"initializing", "running", "pausing", "paused", "stopping", "stopped"
};
assert(st >= initializing && st <= stopped);
return stateNames[st];
}
bool Flusher::transition_state(enum flusher_state to) {
getLogger()->log(EXTENSION_LOG_DEBUG, NULL,
"Attempting transition from %s to %s\n",
stateName(_state), stateName(to));
if (!validTransition(_state, to)) {
return false;
}
getLogger()->log(EXTENSION_LOG_DEBUG, NULL, "Transitioning from %s to %s\n",
stateName(_state), stateName(to));
_state = to;
//Reschedule the task
LockHolder lh(taskMutex);
assert(task.get());
dispatcher->cancel(task);
schedule_UNLOCKED();
return true;
}
const char * Flusher::stateName() const {
return stateName(_state);
}
enum flusher_state Flusher::state() const {
return _state;
}
void Flusher::initialize(TaskId tid) {
assert(task.get() == tid.get());
getLogger()->log(EXTENSION_LOG_DEBUG, NULL,
"Initializing flusher; warming up\n");
hrtime_t startTime = gethrtime();
store->warmup();
store->stats.warmupTime.set((gethrtime() - startTime) / 1000);
store->stats.warmupComplete.set(true);
getLogger()->log(EXTENSION_LOG_DEBUG, NULL,
"Warmup completed in %ds\n", store->stats.warmupTime.get());
transition_state(running);
}
void Flusher::schedule_UNLOCKED() {
dispatcher->schedule(shared_ptr<FlusherStepper>(new FlusherStepper(this)),
&task, Priority::FlusherPriority);
assert(task.get());
}
void Flusher::start(void) {
LockHolder lh(taskMutex);
schedule_UNLOCKED();
}
void Flusher::wake(void) {
LockHolder lh(taskMutex);
assert(task.get());
dispatcher->wake(task, &task);
}
bool Flusher::step(Dispatcher &d, TaskId tid) {
try {
switch (_state) {
case initializing:
initialize(tid);
return true;
case paused:
return false;
case pausing:
transition_state(paused);
return false;
case running:
{
doFlush();
if (_state == running) {
d.snooze(tid, computeMinSleepTime());
return true;
} else {
return false;
}
}
case stopping:
{
std::stringstream ss;
ss << "Shutting down flusher (Write of all dirty items)"
<< std::endl;
getLogger()->log(EXTENSION_LOG_DEBUG, NULL, "%s",
ss.str().c_str());
}
store->stats.min_data_age = 0;
completeFlush();
getLogger()->log(EXTENSION_LOG_DEBUG, NULL, "Flusher stopped\n");
transition_state(stopped);
return false;
case stopped:
return false;
default:
getLogger()->log(EXTENSION_LOG_WARNING, NULL,
"Unexpected state in flusher: %s", stateName());
assert(false);
}
} catch(std::runtime_error &e) {
std::stringstream ss;
ss << "Exception in flusher loop: " << e.what() << std::endl;
getLogger()->log(EXTENSION_LOG_WARNING, NULL, "%s",
ss.str().c_str());
assert(false);
}
// We should _NEVER_ get here (unless you compile with -DNDEBUG causing
// the assertions to be removed.. It's a bug, so we should abort and
// create a coredump
abort();
}
void Flusher::completeFlush() {
doFlush();
while (flushQueue) {
doFlush();
}
}
double Flusher::computeMinSleepTime() {
if (flushRv + prevFlushRv == 0) {
minSleepTime = std::min(minSleepTime * 2, 1.0);
} else {
minSleepTime = DEFAULT_MIN_SLEEP_TIME;
}
prevFlushRv = flushRv;
return std::max(static_cast<double>(flushRv), minSleepTime);
}
int Flusher::doFlush() {
// On a fresh entry, flushQueue is null and we need to build one.
if (!flushQueue) {
flushRv = store->stats.min_data_age;
flushQueue = store->beginFlush();
if (flushQueue) {
getLogger()->log(EXTENSION_LOG_DEBUG, NULL,
"Beginning a write queue flush.\n");
rejectQueue = new std::queue<QueuedItem>();
flushStart = ep_current_time();
}
}
// Now do the every pass thing.
if (flushQueue) {
if (!flushQueue->empty()) {
int n = store->flushSome(flushQueue, rejectQueue);
if (_state == pausing) {
transition_state(paused);
}
flushRv = std::min(n, flushRv);
}
if (flushQueue->empty()) {
store->completeFlush(rejectQueue, flushStart);
getLogger()->log(EXTENSION_LOG_INFO, NULL,
"Completed a flush, age of oldest item was %ds\n",
flushRv);
delete rejectQueue;
rejectQueue = NULL;
flushQueue = NULL;
}
}
return flushRv;
}