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/**
* @file _httpservice.cpp
* @brief Internal definitions of the Http service thread
*
* $LicenseInfo:firstyear=2012&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2012-2014, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
#include "_httpservice.h"
#include <boost/bind.hpp>
#include <boost/function.hpp>
#include "_httpoperation.h"
#include "_httprequestqueue.h"
#include "_httppolicy.h"
#include "_httplibcurl.h"
#include "_thread.h"
#include "_httpinternal.h"
#include "lltimer.h"
#include "llthread.h"
namespace
{
static const char * const LOG_CORE("CoreHttp");
} // end anonymous namespace
namespace LLCore
{
const HttpService::OptionDescriptor HttpService::sOptionDesc[] =
{ // isLong isDynamic isGlobal isClass
{ true, true, true, true }, // PO_CONNECTION_LIMIT
{ true, true, false, true }, // PO_PER_HOST_CONNECTION_LIMIT
{ false, false, true, false }, // PO_CA_PATH
{ false, false, true, false }, // PO_CA_FILE
{ false, true, true, false }, // PO_HTTP_PROXY
{ true, true, true, false }, // PO_LLPROXY
{ true, true, true, false }, // PO_TRACE
{ true, true, false, true }, // PO_ENABLE_PIPELINING
{ true, true, false, true } // PO_THROTTLE_RATE
};
HttpService * HttpService::sInstance(NULL);
volatile HttpService::EState HttpService::sState(NOT_INITIALIZED);
HttpService::HttpService()
: mRequestQueue(NULL),
mExitRequested(0U),
mThread(NULL),
mPolicy(NULL),
mTransport(NULL),
mLastPolicy(0)
{}
HttpService::~HttpService()
{
mExitRequested = 1U;
if (RUNNING == sState)
{
// Trying to kill the service object with a running thread
// is a bit tricky.
if (mRequestQueue)
{
mRequestQueue->stopQueue();
}
if (mThread)
{
if (! mThread->timedJoin(250))
{
// Failed to join, expect problems ahead so do a hard termination.
mThread->cancel();
LL_WARNS(LOG_CORE) << "Destroying HttpService with running thread. Expect problems."
<< LL_ENDL;
}
}
}
if (mRequestQueue)
{
mRequestQueue->release();
mRequestQueue = NULL;
}
delete mTransport;
mTransport = NULL;
delete mPolicy;
mPolicy = NULL;
if (mThread)
{
mThread->release();
mThread = NULL;
}
}
void HttpService::init(HttpRequestQueue * queue)
{
llassert_always(! sInstance);
llassert_always(NOT_INITIALIZED == sState);
sInstance = new HttpService();
queue->addRef();
sInstance->mRequestQueue = queue;
sInstance->mPolicy = new HttpPolicy(sInstance);
sInstance->mTransport = new HttpLibcurl(sInstance);
sState = INITIALIZED;
}
void HttpService::term()
{
if (sInstance)
{
if (RUNNING == sState && sInstance->mThread)
{
// Unclean termination. Thread appears to be running. We'll
// try to give the worker thread a chance to cancel using the
// exit flag...
sInstance->mExitRequested = 1U;
sInstance->mRequestQueue->stopQueue();
// And a little sleep
for (int i(0); i < 10 && RUNNING == sState; ++i)
{
ms_sleep(100);
}
}
delete sInstance;
sInstance = NULL;
}
sState = NOT_INITIALIZED;
}
HttpRequest::policy_t HttpService::createPolicyClass()
{
mLastPolicy = mPolicy->createPolicyClass();
return mLastPolicy;
}
bool HttpService::isStopped()
{
// What is really wanted here is something like:
//
// HttpService * service = instanceOf();
// return STOPPED == sState && (! service || ! service->mThread || ! service->mThread->joinable());
//
// But boost::thread is not giving me a consistent story on joinability
// of a thread after it returns. Debug and non-debug builds are showing
// different behavior on Linux/Etch so we do a weaker test that may
// not be globally correct (i.e. thread *is* stopping, may not have
// stopped but will very soon):
return STOPPED == sState;
}
/// Threading: callable by consumer thread *once*.
void HttpService::startThread()
{
llassert_always(! mThread || STOPPED == sState);
llassert_always(INITIALIZED == sState || STOPPED == sState);
if (mThread)
{
mThread->release();
}
// Push current policy definitions, enable policy & transport components
mPolicy->start();
mTransport->start(mLastPolicy + 1);
mThread = new LLCoreInt::HttpThread(boost::bind(&HttpService::threadRun, this, _1));
sState = RUNNING;
}
/// Threading: callable by worker thread.
void HttpService::stopRequested()
{
mExitRequested = 1U;
}
/// Threading: callable by worker thread.
bool HttpService::changePriority(HttpHandle handle, HttpRequest::priority_t priority)
{
bool found(false);
// Skip the request queue as we currently don't leave earlier
// requests sitting there. Start with the ready queue...
found = mPolicy->changePriority(handle, priority);
// If not there, we could try the transport/active queue but priority
// doesn't really have much effect there so we don't waste cycles.
return found;
}
/// Try to find the given request handle on any of the request
/// queues and cancel the operation.
///
/// @return True if the request was canceled.
///
/// Threading: callable by worker thread.
bool HttpService::cancel(HttpHandle handle)
{
bool canceled(false);
// Request can't be on request queue so skip that.
// Check the policy component's queues first
canceled = mPolicy->cancel(handle);
if (! canceled)
{
// If that didn't work, check transport's.
canceled = mTransport->cancel(handle);
}
return canceled;
}
/// Threading: callable by worker thread.
void HttpService::shutdown()
{
// Disallow future enqueue of requests
mRequestQueue->stopQueue();
// Cancel requests already on the request queue
HttpRequestQueue::OpContainer ops;
mRequestQueue->fetchAll(false, ops);
while (! ops.empty())
{
HttpOperation * op(ops.front());
ops.erase(ops.begin());
op->cancel();
op->release();
}
// Shutdown transport canceling requests, freeing resources
mTransport->shutdown();
// And now policy
mPolicy->shutdown();
}
// Working thread loop-forever method. Gives time to
// each of the request queue, policy layer and transport
// layer pieces and then either sleeps for a small time
// or waits for a request to come in. Repeats until
// requested to stop.
void HttpService::threadRun(LLCoreInt::HttpThread * thread)
{
boost::this_thread::disable_interruption di;
LLThread::registerThreadID();
ELoopSpeed loop(REQUEST_SLEEP);
while (! mExitRequested)
{
loop = processRequestQueue(loop);
// Process ready queue issuing new requests as needed
ELoopSpeed new_loop = mPolicy->processReadyQueue();
loop = (std::min)(loop, new_loop);
// Give libcurl some cycles
new_loop = mTransport->processTransport();
loop = (std::min)(loop, new_loop);
// Determine whether to spin, sleep briefly or sleep for next request
if (REQUEST_SLEEP != loop)
{
ms_sleep(HTTP_SERVICE_LOOP_SLEEP_NORMAL_MS);
}
}
shutdown();
sState = STOPPED;
}
HttpService::ELoopSpeed HttpService::processRequestQueue(ELoopSpeed loop)
{
HttpRequestQueue::OpContainer ops;
const bool wait_for_req(REQUEST_SLEEP == loop);
mRequestQueue->fetchAll(wait_for_req, ops);
while (! ops.empty())
{
HttpOperation * op(ops.front());
ops.erase(ops.begin());
// Process operation
if (! mExitRequested)
{
// Setup for subsequent tracing
long tracing(HTTP_TRACE_OFF);
mPolicy->getGlobalOptions().get(HttpRequest::PO_TRACE, &tracing);
op->mTracing = (std::max)(op->mTracing, int(tracing));
if (op->mTracing > HTTP_TRACE_OFF)
{
LL_INFOS(LOG_CORE) << "TRACE, FromRequestQueue, Handle: "
<< static_cast<HttpHandle>(op)
<< LL_ENDL;
}
// Stage
op->stageFromRequest(this);
}
// Done with operation
op->release();
}
// Queue emptied, allow polling loop to sleep
return REQUEST_SLEEP;
}
HttpStatus HttpService::getPolicyOption(HttpRequest::EPolicyOption opt, HttpRequest::policy_t pclass,
long * ret_value)
{
if (opt < HttpRequest::PO_CONNECTION_LIMIT // option must be in range
|| opt >= HttpRequest::PO_LAST // ditto
|| (! sOptionDesc[opt].mIsLong) // datatype is long
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && pclass > mLastPolicy) // pclass in valid range
|| (pclass == HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsGlobal) // global setting permitted
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsClass)) // class setting permitted
// can always get, no dynamic check
{
return HttpStatus(HttpStatus::LLCORE, LLCore::HE_INVALID_ARG);
}
HttpStatus status;
if (pclass == HttpRequest::GLOBAL_POLICY_ID)
{
HttpPolicyGlobal & opts(mPolicy->getGlobalOptions());
status = opts.get(opt, ret_value);
}
else
{
HttpPolicyClass & opts(mPolicy->getClassOptions(pclass));
status = opts.get(opt, ret_value);
}
return status;
}
HttpStatus HttpService::getPolicyOption(HttpRequest::EPolicyOption opt, HttpRequest::policy_t pclass,
std::string * ret_value)
{
HttpStatus status(HttpStatus::LLCORE, LLCore::HE_INVALID_ARG);
if (opt < HttpRequest::PO_CONNECTION_LIMIT // option must be in range
|| opt >= HttpRequest::PO_LAST // ditto
|| (sOptionDesc[opt].mIsLong) // datatype is string
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && pclass > mLastPolicy) // pclass in valid range
|| (pclass == HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsGlobal) // global setting permitted
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsClass)) // class setting permitted
// can always get, no dynamic check
{
return status;
}
// Only global has string values
if (pclass == HttpRequest::GLOBAL_POLICY_ID)
{
HttpPolicyGlobal & opts(mPolicy->getGlobalOptions());
status = opts.get(opt, ret_value);
}
return status;
}
HttpStatus HttpService::setPolicyOption(HttpRequest::EPolicyOption opt, HttpRequest::policy_t pclass,
long value, long * ret_value)
{
HttpStatus status(HttpStatus::LLCORE, LLCore::HE_INVALID_ARG);
if (opt < HttpRequest::PO_CONNECTION_LIMIT // option must be in range
|| opt >= HttpRequest::PO_LAST // ditto
|| (! sOptionDesc[opt].mIsLong) // datatype is long
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && pclass > mLastPolicy) // pclass in valid range
|| (pclass == HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsGlobal) // global setting permitted
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsClass) // class setting permitted
|| (RUNNING == sState && ! sOptionDesc[opt].mIsDynamic)) // dynamic setting permitted
{
return status;
}
if (pclass == HttpRequest::GLOBAL_POLICY_ID)
{
HttpPolicyGlobal & opts(mPolicy->getGlobalOptions());
status = opts.set(opt, value);
if (status && ret_value)
{
status = opts.get(opt, ret_value);
}
}
else
{
HttpPolicyClass & opts(mPolicy->getClassOptions(pclass));
status = opts.set(opt, value);
if (status)
{
mTransport->policyUpdated(pclass);
if (ret_value)
{
status = opts.get(opt, ret_value);
}
}
}
return status;
}
HttpStatus HttpService::setPolicyOption(HttpRequest::EPolicyOption opt, HttpRequest::policy_t pclass,
const std::string & value, std::string * ret_value)
{
HttpStatus status(HttpStatus::LLCORE, LLCore::HE_INVALID_ARG);
if (opt < HttpRequest::PO_CONNECTION_LIMIT // option must be in range
|| opt >= HttpRequest::PO_LAST // ditto
|| (sOptionDesc[opt].mIsLong) // datatype is string
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && pclass > mLastPolicy) // pclass in valid range
|| (pclass == HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsGlobal) // global setting permitted
|| (pclass != HttpRequest::GLOBAL_POLICY_ID && ! sOptionDesc[opt].mIsClass) // class setting permitted
|| (RUNNING == sState && ! sOptionDesc[opt].mIsDynamic)) // dynamic setting permitted
{
return status;
}
// String values are always global (at this time).
if (pclass == HttpRequest::GLOBAL_POLICY_ID)
{
HttpPolicyGlobal & opts(mPolicy->getGlobalOptions());
status = opts.set(opt, value);
if (status && ret_value)
{
status = opts.get(opt, ret_value);
}
}
return status;
}
} // end namespace LLCore
|