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9cecd8956a3ba935b263bcac149be1ce8c3b43fd
hhvm/hphp/runtime/base/server/pagelet_server.cpp
T
mwilliams 9cecd8956a Shut down pagelet server before exiting 
There was nothing stopping a pagelet thread from continuing
to run after the server was shut down. If it continued to run after
main exited, it could access data structures (such as the global maps
used by Apc and FileRepository) that had been torn down, and crash.
2013-06-21 16:37:10 -07:00

370 linhas
11 KiB
C++
Original Anotar Histórico

/*
+----------------------------------------------------------------------+
| HipHop for PHP |
+----------------------------------------------------------------------+
| Copyright (c) 2010-2013 Facebook, Inc. (http://www.facebook.com) |
+----------------------------------------------------------------------+
| This source file is subject to version 3.01 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available through the world-wide-web at the following url: |
| http://www.php.net/license/3_01.txt |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
*/
#include "hphp/runtime/base/server/pagelet_server.h"
#include "hphp/runtime/base/server/transport.h"
#include "hphp/runtime/base/server/http_request_handler.h"
#include "hphp/runtime/base/server/upload.h"
#include "hphp/runtime/base/server/job_queue_vm_stack.h"
#include "hphp/runtime/base/util/string_buffer.h"
#include "hphp/runtime/base/runtime_option.h"
#include "hphp/runtime/base/resource_data.h"
#include "hphp/runtime/ext/ext_server.h"
#include "hphp/util/job_queue.h"
#include "hphp/util/lock.h"
#include "hphp/util/logger.h"
using std::set;
using std::deque;
namespace HPHP {
///////////////////////////////////////////////////////////////////////////////
class PageletTransport : public Transport, public Synchronizable {
public:
PageletTransport(CStrRef url, CArrRef headers, CStrRef postData,
CStrRef remoteHost, const set<string> &rfc1867UploadedFiles,
CArrRef files)
: m_refCount(0), m_done(false), m_code(0) {
gettime(CLOCK_MONOTONIC, &m_queueTime);
m_threadType = PageletThread;
m_url.append(url.data(), url.size());
m_remoteHost.append(remoteHost.data(), remoteHost.size());
for (ArrayIter iter(headers); iter; ++iter) {
Variant key = iter.first();
String header = iter.second();
if (key.isString() && !key.toString().empty()) {
m_requestHeaders[key.toString().data()].push_back(header.data());
} else {
int pos = header.find(": ");
if (pos >= 0) {
string name = header.substr(0, pos).data();
string value = header.substr(pos + 2).data();
m_requestHeaders[name].push_back(value);
} else {
Logger::Error("throwing away bad header: %s", header.data());
}
}
}
if (postData.empty()) {
m_get = true;
} else {
m_get = false;
m_postData.append(postData.data(), postData.size());
}
disableCompression(); // so we don't have to decompress during sendImpl()
m_rfc1867UploadedFiles = rfc1867UploadedFiles;
m_files = (std::string) f_serialize(files);
}
/**
* Implementing Transport...
*/
virtual const char *getUrl() {
return m_url.c_str();
}
virtual const char *getRemoteHost() {
return m_remoteHost.c_str();
}
virtual uint16_t getRemotePort() {
return 0;
}
virtual const void *getPostData(int &size) {
size = m_postData.size();
return m_postData.data();
}
virtual Method getMethod() {
return m_get ? Transport::GET : Transport::POST;
}
virtual std::string getHeader(const char *name) {
assert(name && *name);
HeaderMap::const_iterator iter = m_requestHeaders.find(name);
if (iter != m_requestHeaders.end()) {
return iter->second[0];
}
return "";
}
virtual void getHeaders(HeaderMap &headers) {
headers = m_requestHeaders;
}
virtual void addHeaderImpl(const char *name, const char *value) {
assert(name && *name);
assert(value);
m_responseHeaders[name].push_back(value);
}
virtual void removeHeaderImpl(const char *name) {
assert(name && *name);
m_responseHeaders.erase(name);
}
virtual void sendImpl(const void *data, int size, int code,
bool chunked) {
m_response.append((const char*)data, size);
if (code) {
m_code = code;
}
}
virtual void onSendEndImpl() {
Lock lock(this);
m_done = true;
notify();
}
virtual bool isUploadedFile(CStrRef filename) {
return m_rfc1867UploadedFiles.find(filename.c_str()) !=
m_rfc1867UploadedFiles.end();
}
virtual bool moveUploadedFile(CStrRef filename, CStrRef destination) {
if (!isUploadedFile(filename.c_str())) {
Logger::Error("%s is not an uploaded file.", filename.c_str());
return false;
}
return moveUploadedFileHelper(filename, destination);
}
virtual bool getFiles(string &files) {
files = m_files;
return true;
}
// task interface
bool isDone() {
return m_done;
}
void addToPipeline(const string &s) {
Lock lock(this);
m_pipeline.push_back(s);
notify();
}
bool isPipelineEmpty() {
Lock lock(this);
return m_pipeline.empty();
}
String getResults(Array &headers, int &code, int64_t timeout_ms) {
{
Lock lock(this);
while (!m_done && m_pipeline.empty()) {
if (timeout_ms > 0) {
long seconds = timeout_ms / 1000;
long long nanosecs = (timeout_ms % 1000) * 1000000;
if (!wait(seconds, nanosecs)) {
code = -1;
return "";
}
} else {
wait();
}
}
if (!m_pipeline.empty()) {
// intermediate results do not have headers and code
string ret = m_pipeline.front();
m_pipeline.pop_front();
code = 0;
return ret;
}
}
String response(m_response.c_str(), m_response.size(), CopyString);
headers = Array::Create();
for (HeaderMap::const_iterator iter = m_responseHeaders.begin();
iter != m_responseHeaders.end(); ++iter) {
for (unsigned int i = 0; i < iter->second.size(); i++) {
StringBuffer sb;
sb.append(iter->first);
sb.append(": ");
sb.append(iter->second[i]);
headers.append(sb.detach());
}
}
code = m_code;
return response;
}
// ref counting
void incRefCount() {
atomic_inc(m_refCount);
}
void decRefCount() {
assert(m_refCount);
if (atomic_dec(m_refCount) == 0) {
delete this;
}
}
timespec getStartTimer() const { return m_queueTime; }
private:
int m_refCount;
string m_url;
HeaderMap m_requestHeaders;
bool m_get;
string m_postData;
string m_remoteHost;
bool m_done;
HeaderMap m_responseHeaders;
string m_response;
int m_code;
deque<string> m_pipeline; // the intermediate pagelet results
set<string> m_rfc1867UploadedFiles;
string m_files; // serialized to use as $_FILES
};
///////////////////////////////////////////////////////////////////////////////
struct PageletWorker
: JobQueueWorker<PageletTransport*,true,false,JobQueueDropVMStack>
{
virtual void doJob(PageletTransport *job) {
try {
job->onRequestStart(job->getStartTimer());
HttpRequestHandler().handleRequest(job);
job->decRefCount();
} catch (...) {
Logger::Error("HttpRequestHandler leaked exceptions");
}
}
};
///////////////////////////////////////////////////////////////////////////////
class PageletTask : public SweepableResourceData {
public:
DECLARE_OBJECT_ALLOCATION(PageletTask)
PageletTask(CStrRef url, CArrRef headers, CStrRef post_data,
CStrRef remote_host,
const std::set<std::string> &rfc1867UploadedFiles,
CArrRef files) {
m_job = new PageletTransport(url, headers, remote_host, post_data,
rfc1867UploadedFiles, files);
m_job->incRefCount();
}
~PageletTask() {
m_job->decRefCount();
}
PageletTransport *getJob() { return m_job;}
static StaticString s_class_name;
// overriding ResourceData
virtual CStrRef o_getClassNameHook() const { return s_class_name; }
private:
PageletTransport *m_job;
};
IMPLEMENT_OBJECT_ALLOCATION(PageletTask)
StaticString PageletTask::s_class_name("PageletTask");
///////////////////////////////////////////////////////////////////////////////
// implementing PageletServer
static JobQueueDispatcher<PageletTransport*, PageletWorker> *s_dispatcher;
bool PageletServer::Enabled() {
return RuntimeOption::PageletServerThreadCount > 0;
}
void PageletServer::Restart() {
Stop();
if (RuntimeOption::PageletServerThreadCount > 0) {
s_dispatcher = new JobQueueDispatcher<PageletTransport*, PageletWorker>
(RuntimeOption::PageletServerThreadCount,
RuntimeOption::PageletServerThreadRoundRobin,
RuntimeOption::PageletServerThreadDropCacheTimeoutSeconds,
RuntimeOption::PageletServerThreadDropStack,
nullptr);
Logger::Info("pagelet server started");
s_dispatcher->start();
}
}
void PageletServer::Stop() {
if (s_dispatcher) {
s_dispatcher->stop();
delete s_dispatcher;
s_dispatcher = nullptr;
}
}
Object PageletServer::TaskStart(CStrRef url, CArrRef headers,
CStrRef remote_host,
CStrRef post_data /* = null_string */,
CArrRef files /* = null_array */) {
if (RuntimeOption::PageletServerThreadCount <= 0) {
return null_object;
}
if (RuntimeOption::PageletServerQueueLimit > 0 &&
s_dispatcher->getQueuedJobs() > RuntimeOption::PageletServerQueueLimit) {
return null_object;
}
PageletTask *task = NEWOBJ(PageletTask)(url, headers, remote_host, post_data,
get_uploaded_files(), files);
Object ret(task);
PageletTransport *job = task->getJob();
job->incRefCount(); // paired with worker's decRefCount()
assert(s_dispatcher);
s_dispatcher->enqueue(job);
return ret;
}
int64_t PageletServer::TaskStatus(CObjRef task) {
PageletTask *ptask = task.getTyped<PageletTask>();
PageletTransport *job = ptask->getJob();
if (!job->isPipelineEmpty()) {
return PAGELET_READY;
}
if (job->isDone()) {
return PAGELET_DONE;
}
return PAGELET_NOT_READY;
}
String PageletServer::TaskResult(CObjRef task, Array &headers, int &code,
int64_t timeout_ms) {
PageletTask *ptask = task.getTyped<PageletTask>();
return ptask->getJob()->getResults(headers, code, timeout_ms);
}
void PageletServer::AddToPipeline(const string &s) {
assert(!s.empty());
PageletTransport *job =
dynamic_cast<PageletTransport *>(g_context->getTransport());
assert(job);
job->addToPipeline(s);
}
int PageletServer::GetActiveWorker() {
return s_dispatcher->getActiveWorker();
}
int PageletServer::GetQueuedJobs() {
return s_dispatcher->getQueuedJobs();
}
///////////////////////////////////////////////////////////////////////////////
}
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