#include "fetchers.hh" #include "cache.hh" #include "filetransfer.hh" #include "globals.hh" #include "store-api.hh" #include "archive.hh" #include "tarfile.hh" #include "types.hh" #include "split.hh" namespace nix::fetchers { DownloadFileResult downloadFile( ref store, const std::string & url, const std::string & name, bool locked, const Headers & headers) { // FIXME: check store Attrs inAttrs({ {"type", "file"}, {"url", url}, {"name", name}, }); auto cached = getCache()->lookupExpired(store, inAttrs); auto useCached = [&]() -> DownloadFileResult { return { .storePath = std::move(cached->storePath), .etag = getStrAttr(cached->infoAttrs, "etag"), .effectiveUrl = getStrAttr(cached->infoAttrs, "url") }; }; if (cached && !cached->expired) return useCached(); FileTransferRequest request(url); request.headers = headers; if (cached) request.expectedETag = getStrAttr(cached->infoAttrs, "etag"); FileTransferResult res; try { res = getFileTransfer()->download(request); } catch (FileTransferError & e) { if (cached) { warn("%s; using cached version", e.msg()); return useCached(); } else throw; } // FIXME: write to temporary file. Attrs infoAttrs({ {"etag", res.etag}, {"url", res.effectiveUri}, }); std::optional storePath; if (res.cached) { assert(cached); storePath = std::move(cached->storePath); } else { StringSink sink; dumpString(res.data, sink); auto hash = hashString(htSHA256, res.data); ValidPathInfo info { store->makeFixedOutputPath(FileIngestionMethod::Flat, hash, name), hashString(htSHA256, sink.s), }; info.narSize = sink.s.size(); info.ca = FixedOutputHash { .method = FileIngestionMethod::Flat, .hash = hash, }; auto source = StringSource(sink.s); store->addToStore(info, source, NoRepair, NoCheckSigs); storePath = std::move(info.path); } getCache()->add( store, inAttrs, infoAttrs, *storePath, locked); if (url != res.effectiveUri) getCache()->add( store, { {"type", "file"}, {"url", res.effectiveUri}, {"name", name}, }, infoAttrs, *storePath, locked); return { .storePath = std::move(*storePath), .etag = res.etag, .effectiveUrl = res.effectiveUri, }; } std::pair downloadTarball( ref store, const std::string & url, const std::string & name, bool locked, const Headers & headers) { Attrs inAttrs({ {"type", "tarball"}, {"url", url}, {"name", name}, }); auto cached = getCache()->lookupExpired(store, inAttrs); if (cached && !cached->expired) return { Tree { .actualPath = store->toRealPath(cached->storePath), .storePath = std::move(cached->storePath) }, getIntAttr(cached->infoAttrs, "lastModified") }; auto res = downloadFile(store, url, name, locked, headers); std::optional unpackedStorePath; time_t lastModified; if (cached && res.etag != "" && getStrAttr(cached->infoAttrs, "etag") == res.etag) { unpackedStorePath = std::move(cached->storePath); lastModified = getIntAttr(cached->infoAttrs, "lastModified"); } else { Path tmpDir = createTempDir(); AutoDelete autoDelete(tmpDir, true); unpackTarfile(store->toRealPath(res.storePath), tmpDir); auto members = readDirectory(tmpDir); if (members.size() != 1) throw nix::Error("tarball '%s' contains an unexpected number of top-level files", url); auto topDir = tmpDir + "/" + members.begin()->name; lastModified = lstat(topDir).st_mtime; unpackedStorePath = store->addToStore(name, topDir, FileIngestionMethod::Recursive, htSHA256, defaultPathFilter, NoRepair); } Attrs infoAttrs({ {"lastModified", uint64_t(lastModified)}, {"etag", res.etag}, }); getCache()->add( store, inAttrs, infoAttrs, *unpackedStorePath, locked); return { Tree { .actualPath = store->toRealPath(*unpackedStorePath), .storePath = std::move(*unpackedStorePath) }, lastModified, }; } // An input scheme corresponding to a curl-downloadable resource. struct CurlInputScheme : InputScheme { virtual const std::string inputType() const = 0; const std::set transportUrlSchemes = {"file", "http", "https"}; const bool hasTarballExtension(std::string_view path) const { return hasSuffix(path, ".zip") || hasSuffix(path, ".tar") || hasSuffix(path, ".tgz") || hasSuffix(path, ".tar.gz") || hasSuffix(path, ".tar.xz") || hasSuffix(path, ".tar.bz2") || hasSuffix(path, ".tar.zst"); } virtual bool isValidURL(const ParsedURL & url) const = 0; std::optional inputFromURL(const ParsedURL & url) override { if (!isValidURL(url)) return std::nullopt; Input input; auto urlWithoutApplicationScheme = url; urlWithoutApplicationScheme.scheme = parseUrlScheme(url.scheme).transport; input.attrs.insert_or_assign("type", inputType()); input.attrs.insert_or_assign("url", urlWithoutApplicationScheme.to_string()); auto narHash = url.query.find("narHash"); if (narHash != url.query.end()) input.attrs.insert_or_assign("narHash", narHash->second); return input; } std::optional inputFromAttrs(const Attrs & attrs) override { auto type = maybeGetStrAttr(attrs, "type"); if (type != inputType()) return {}; std::set allowedNames = {"type", "url", "narHash", "name", "unpack"}; for (auto & [name, value] : attrs) if (!allowedNames.count(name)) throw Error("unsupported %s input attribute '%s'", *type, name); Input input; input.attrs = attrs; //input.locked = (bool) maybeGetStrAttr(input.attrs, "hash"); return input; } ParsedURL toURL(const Input & input) override { auto url = parseURL(getStrAttr(input.attrs, "url")); // NAR hashes are preferred over file hashes since tar/zip files // don't have a canonical representation. if (auto narHash = input.getNarHash()) url.query.insert_or_assign("narHash", narHash->to_string(SRI, true)); return url; } bool hasAllInfo(const Input & input) override { return true; } }; struct FileInputScheme : CurlInputScheme { const std::string inputType() const override { return "file"; } bool isValidURL(const ParsedURL & url) const override { auto parsedUrlScheme = parseUrlScheme(url.scheme); return transportUrlSchemes.count(std::string(parsedUrlScheme.transport)) && (parsedUrlScheme.application ? parsedUrlScheme.application.value() == inputType() : !hasTarballExtension(url.path)); } std::pair fetch(ref store, const Input & input) override { auto file = downloadFile(store, getStrAttr(input.attrs, "url"), input.getName(), false); return {std::move(file.storePath), input}; } }; struct TarballInputScheme : CurlInputScheme { const std::string inputType() const override { return "tarball"; } bool isValidURL(const ParsedURL & url) const override { auto parsedUrlScheme = parseUrlScheme(url.scheme); return transportUrlSchemes.count(std::string(parsedUrlScheme.transport)) && (parsedUrlScheme.application ? parsedUrlScheme.application.value() == inputType() : hasTarballExtension(url.path)); } std::pair fetch(ref store, const Input & input) override { auto tree = downloadTarball(store, getStrAttr(input.attrs, "url"), input.getName(), false).first; return {std::move(tree.storePath), input}; } }; static auto rTarballInputScheme = OnStartup([] { registerInputScheme(std::make_unique()); }); static auto rFileInputScheme = OnStartup([] { registerInputScheme(std::make_unique()); }); }