#include <utility> #include <glog/logging.h> #include "binary-cache-store.hh" #include "download.hh" #include "globals.hh" #include "nar-info-disk-cache.hh" namespace nix { MakeError(UploadToHTTP, Error); class HttpBinaryCacheStore : public BinaryCacheStore { private: Path cacheUri; struct State { bool enabled = true; std::chrono::steady_clock::time_point disabledUntil; }; Sync<State> _state; public: HttpBinaryCacheStore(const Params& params, Path _cacheUri) : BinaryCacheStore(params), cacheUri(std::move(_cacheUri)) { if (cacheUri.back() == '/') { cacheUri.pop_back(); } diskCache = getNarInfoDiskCache(); } std::string getUri() override { return cacheUri; } void init() override { // FIXME: do this lazily? if (!diskCache->cacheExists(cacheUri, wantMassQuery_, priority)) { try { BinaryCacheStore::init(); } catch (UploadToHTTP&) { throw Error("'%s' does not appear to be a binary cache", cacheUri); } diskCache->createCache(cacheUri, storeDir, wantMassQuery_, priority); } } protected: void maybeDisable() { auto state(_state.lock()); if (state->enabled && settings.tryFallback) { int t = 60; LOG(WARNING) << "disabling binary cache '" << getUri() << "' for " << t << " seconds"; state->enabled = false; state->disabledUntil = std::chrono::steady_clock::now() + std::chrono::seconds(t); } } void checkEnabled() { auto state(_state.lock()); if (state->enabled) { return; } if (std::chrono::steady_clock::now() > state->disabledUntil) { state->enabled = true; DLOG(INFO) << "re-enabling binary cache '" << getUri() << "'"; return; } throw SubstituterDisabled("substituter '%s' is disabled", getUri()); } bool fileExists(const std::string& path) override { checkEnabled(); try { DownloadRequest request(cacheUri + "/" + path); request.head = true; getDownloader()->download(request); return true; } catch (DownloadError& e) { /* S3 buckets return 403 if a file doesn't exist and the bucket is unlistable, so treat 403 as 404. */ if (e.error == Downloader::NotFound || e.error == Downloader::Forbidden) { return false; } maybeDisable(); throw; } } void upsertFile(const std::string& path, const std::string& data, const std::string& mimeType) override { auto req = DownloadRequest(cacheUri + "/" + path); req.data = std::make_shared<string>(data); // FIXME: inefficient req.mimeType = mimeType; try { getDownloader()->download(req); } catch (DownloadError& e) { throw UploadToHTTP("while uploading to HTTP binary cache at '%s': %s", cacheUri, e.msg()); } } DownloadRequest makeRequest(const std::string& path) { DownloadRequest request(cacheUri + "/" + path); return request; } void getFile(const std::string& path, Sink& sink) override { checkEnabled(); auto request(makeRequest(path)); try { getDownloader()->download(std::move(request), sink); } catch (DownloadError& e) { if (e.error == Downloader::NotFound || e.error == Downloader::Forbidden) { throw NoSuchBinaryCacheFile( "file '%s' does not exist in binary cache '%s'", path, getUri()); } maybeDisable(); throw; } } void getFile( const std::string& path, Callback<std::shared_ptr<std::string>> callback) noexcept override { checkEnabled(); auto request(makeRequest(path)); auto callbackPtr = std::make_shared<decltype(callback)>(std::move(callback)); getDownloader()->enqueueDownload( request, {[callbackPtr, this](std::future<DownloadResult> result) { try { (*callbackPtr)(result.get().data); } catch (DownloadError& e) { if (e.error == Downloader::NotFound || e.error == Downloader::Forbidden) { return (*callbackPtr)(std::shared_ptr<std::string>()); } maybeDisable(); callbackPtr->rethrow(); } catch (...) { callbackPtr->rethrow(); } }}); } }; static RegisterStoreImplementation regStore( [](const std::string& uri, const Store::Params& params) -> std::shared_ptr<Store> { if (std::string(uri, 0, 7) != "http://" && std::string(uri, 0, 8) != "https://" && (getEnv("_NIX_FORCE_HTTP_BINARY_CACHE_STORE") != "1" || std::string(uri, 0, 7) != "file://")) { return nullptr; } auto store = std::make_shared<HttpBinaryCacheStore>(params, uri); store->init(); return store; }); } // namespace nix