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#include <mbgl/storage/default_file_source.hpp>
#include <mbgl/storage/default/request.hpp>
#include <mbgl/storage/default/asset_request.hpp>
#include <mbgl/storage/default/http_request.hpp>
#include <mbgl/storage/response.hpp>
#include <mbgl/platform/platform.hpp>
#include <mbgl/util/async_queue.hpp>
#include <mbgl/util/util.hpp>
#include <mbgl/util/variant.hpp>
#pragma GCC diagnostic push
#ifndef __clang__
#pragma GCC diagnostic ignored "-Wunused-local-typedefs"
#pragma GCC diagnostic ignored "-Wshadow"
#endif
#include <boost/algorithm/string.hpp>
#pragma GCC diagnostic pop
#include <thread>
#include <algorithm>
#include <cassert>
namespace algo = boost::algorithm;
namespace mbgl {
struct DefaultFileSource::ActionDispatcher {
DefaultFileSource &fileSource;
template <typename T> void operator()(T &t) { fileSource.process(t); }
};
struct DefaultFileSource::AddRequestAction {
Request *const request;
};
struct DefaultFileSource::RemoveRequestAction {
Request *const request;
};
struct DefaultFileSource::ResultAction {
const Resource resource;
std::unique_ptr<Response> response;
};
struct DefaultFileSource::StopAction {
};
DefaultFileSource::DefaultFileSource(FileCache *cache_, const std::string &root)
: assetRoot(root.empty() ? platform::assetRoot() : root),
loop(uv_loop_new()),
cache(cache_),
queue(new Queue(loop, [this](Action &action) {
mapbox::util::apply_visitor(ActionDispatcher{*this}, action);
})),
thread([this]() {
#ifdef __APPLE__
pthread_setname_np("FileSource");
#endif
uv_run(loop, UV_RUN_DEFAULT);
}) {
}
DefaultFileSource::DefaultFileSource(FileCache *cache_, uv_loop_t *loop_, const std::string &root)
: assetRoot(root.empty() ? platform::assetRoot() : root),
loop(loop_),
cache(cache_),
queue(new Queue(loop, [this](Action &action) {
mapbox::util::apply_visitor(ActionDispatcher{*this}, action);
})) {
// Make sure that the queue doesn't block the loop from exiting.
queue->unref();
}
DefaultFileSource::~DefaultFileSource() {
MBGL_VERIFY_THREAD(tid);
if (thread.joinable()) {
if (queue) {
queue->send(StopAction{ });
}
thread.join();
uv_loop_delete(loop);
} else {
// Assume that the loop we received is running in the current thread.
StopAction action {};
process(action);
}
}
SharedRequestBase *DefaultFileSource::find(const Resource &resource) {
// We're using a set of pointers here instead of a map between url and SharedRequestBase because
// we need to find the requests both by pointer and by URL. Given that the number of requests
// is generally very small (typically < 10 at a time), hashing by URL incurs too much overhead
// anyway.
const auto it = pending.find(resource);
if (it != pending.end()) {
return it->second;
}
return nullptr;
}
Request *DefaultFileSource::request(const Resource &resource, uv_loop_t *l, Callback callback) {
auto req = new Request(resource, l, std::move(callback));
// This function can be called from any thread. Make sure we're executing the actual call in the
// file source loop by sending it over the queue. It will be processed in processAction().
queue->send(AddRequestAction{ req });
return req;
}
void DefaultFileSource::request(const Resource &resource, Callback callback) {
auto req = new Request(resource, nullptr, std::move(callback));
// This function can be called from any thread. Make sure we're executing the actual call in the
// file source loop by sending it over the queue. It will be processed in processAction().
queue->send(AddRequestAction{ req });
}
void DefaultFileSource::cancel(Request *req) {
req->cancel();
// This function can be called from any thread. Make sure we're executing the actual call in the
// file source loop by sending it over the queue. It will be processed in processAction().
queue->send(RemoveRequestAction{ req });
}
void DefaultFileSource::process(AddRequestAction &action) {
const Resource &resource = action.request->resource;
// We're adding a new Request.
SharedRequestBase *sharedRequest = find(resource);
if (!sharedRequest) {
// There is no request for this URL yet. Create a new one and start it.
if (algo::starts_with(resource.url, "asset://")) {
sharedRequest = new AssetRequest(this, resource);
} else {
sharedRequest = new HTTPRequest(this, resource);
}
// Make sure the loop stays alive when we're not running the file source in it's own thread.
if (!thread.joinable() && pending.empty()) {
queue->ref();
}
const bool inserted = pending.emplace(resource, sharedRequest).second;
assert(inserted);
(void (inserted)); // silence unused variable warning on Release builds.
// But first, we're going to start querying the database if it exists.
if (!cache) {
sharedRequest->start(loop);
} else {
// Otherwise, first check the cache for existing data so that we can potentially
// revalidate the information without having to redownload everything.
cache->get(resource, [this, resource](std::unique_ptr<Response> response) {
queue->send(ResultAction { resource, std::move(response) });
});
}
}
sharedRequest->subscribe(action.request);
}
void DefaultFileSource::process(RemoveRequestAction &action) {
SharedRequestBase *sharedRequest = find(action.request->resource);
if (sharedRequest) {
// If the number of dependent requests of the SharedRequestBase drops to zero, the
// unsubscribe callback triggers the removal of the SharedRequestBase pointer from the list
// of pending requests and initiates cancelation.
sharedRequest->unsubscribe(action.request);
} else {
// There is no request for this URL anymore. Likely, the request already completed
// before we got around to process the cancelation request.
}
// Send a message back to the requesting thread and notify it that this request has been
// canceled and is now safe to be deleted.
action.request->destruct();
}
void DefaultFileSource::process(ResultAction &action) {
SharedRequestBase *sharedRequest = find(action.resource);
if (sharedRequest) {
if (action.response) {
// This entry was stored in the cache. Now determine if we need to revalidate.
const int64_t now = std::chrono::duration_cast<std::chrono::seconds>(
std::chrono::system_clock::now().time_since_epoch()).count();
if (action.response->expires > now) {
// The response is fresh. We're good to notify the caller.
sharedRequest->notify(std::move(action.response), FileCache::Hint::No);
sharedRequest->cancel();
return;
} else {
// The cached response is stale. Now run the real request.
sharedRequest->start(loop, std::move(action.response));
}
} else {
// There is no response. Now run the real request.
sharedRequest->start(loop);
}
} else {
// There is no request for this URL anymore. Likely, the request was canceled
// before we got around to process the cache result.
}
}
void DefaultFileSource::process(StopAction &) {
// Cancel all remaining requests.
for (auto it : pending) {
it.second->unsubscribeAll();
}
pending.clear();
assert(queue);
queue->stop();
queue = nullptr;
}
void DefaultFileSource::notify(SharedRequestBase *sharedRequest,
const std::set<Request *> &observers,
std::shared_ptr<const Response> response, FileCache::Hint hint) {
// First, remove the request, since it might be destructed at any point now.
assert(find(sharedRequest->resource) == sharedRequest);
pending.erase(sharedRequest->resource);
if (response) {
if (cache) {
// Store response in database
cache->put(sharedRequest->resource, response, hint);
}
// Notify all observers.
for (auto it : observers) {
it->notify(response);
}
}
if (!thread.joinable() && pending.empty()) {
// When there are no pending requests, we're going to allow the queue to stop.
queue->unref();
}
}
}
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