#include "command.hh" #include "common-args.hh" #include "shared.hh" #include "store-api.hh" #include "filetransfer.hh" #include "finally.hh" #include "progress-bar.hh" #include "tarfile.hh" #include "attr-path.hh" #include "eval-inline.hh" #include "legacy.hh" #include using namespace nix; /* If ‘url’ starts with ‘mirror://’, then resolve it using the list of mirrors defined in Nixpkgs. */ string resolveMirrorUrl(EvalState & state, string url) { if (url.substr(0, 9) != "mirror://") return url; std::string s(url, 9); auto p = s.find('/'); if (p == std::string::npos) throw Error("invalid mirror URL '%s'", url); std::string mirrorName(s, 0, p); Value vMirrors; // FIXME: use nixpkgs flake state.eval(state.parseExprFromString("import ", "."), vMirrors); state.forceAttrs(vMirrors); auto mirrorList = vMirrors.attrs->find(state.symbols.create(mirrorName)); if (mirrorList == vMirrors.attrs->end()) throw Error("unknown mirror name '%s'", mirrorName); state.forceList(*mirrorList->value); if (mirrorList->value->listSize() < 1) throw Error("mirror URL '%s' did not expand to anything", url); auto mirror = state.forceString(*mirrorList->value->listElems()[0]); return mirror + (hasSuffix(mirror, "/") ? "" : "/") + string(s, p + 1); } std::tuple prefetchFile( ref store, std::string_view url, std::optional name, HashType hashType, std::optional expectedHash, bool unpack, bool executable) { auto ingestionMethod = unpack || executable ? FileIngestionMethod::Recursive : FileIngestionMethod::Flat; /* Figure out a name in the Nix store. */ if (!name) { name = baseNameOf(url); if (name->empty()) throw Error("cannot figure out file name for '%s'", url); } std::optional storePath; std::optional hash; /* If an expected hash is given, the file may already exist in the store. */ if (expectedHash) { hashType = expectedHash->type; storePath = store->makeFixedOutputPath(ingestionMethod, *expectedHash, *name); if (store->isValidPath(*storePath)) hash = expectedHash; else storePath.reset(); } if (!storePath) { AutoDelete tmpDir(createTempDir(), true); Path tmpFile = (Path) tmpDir + "/tmp"; /* Download the file. */ { auto mode = 0600; if (executable) mode = 0700; AutoCloseFD fd = open(tmpFile.c_str(), O_WRONLY | O_CREAT | O_EXCL, mode); if (!fd) throw SysError("creating temporary file '%s'", tmpFile); FdSink sink(fd.get()); FileTransferRequest req(url); req.decompress = false; getFileTransfer()->download(std::move(req), sink); } /* Optionally unpack the file. */ if (unpack) { Activity act(*logger, lvlChatty, actUnknown, fmt("unpacking '%s'", url)); Path unpacked = (Path) tmpDir + "/unpacked"; createDirs(unpacked); unpackTarfile(tmpFile, unpacked); /* If the archive unpacks to a single file/directory, then use that as the top-level. */ auto entries = readDirectory(unpacked); if (entries.size() == 1) tmpFile = unpacked + "/" + entries[0].name; else tmpFile = unpacked; } Activity act(*logger, lvlChatty, actUnknown, fmt("adding '%s' to the store", url)); auto info = store->addToStoreSlow(*name, tmpFile, ingestionMethod, hashType, expectedHash); storePath = info.path; assert(info.ca); hash = getContentAddressHash(*info.ca); } return {storePath.value(), hash.value()}; } static int main_nix_prefetch_url(int argc, char * * argv) { { HashType ht = htSHA256; std::vector args; bool printPath = getEnv("PRINT_PATH") == "1"; bool fromExpr = false; string attrPath; bool unpack = false; bool executable = false; std::optional name; struct MyArgs : LegacyArgs, MixEvalArgs { using LegacyArgs::LegacyArgs; }; MyArgs myArgs(std::string(baseNameOf(argv[0])), [&](Strings::iterator & arg, const Strings::iterator & end) { if (*arg == "--help") showManPage("nix-prefetch-url"); else if (*arg == "--version") printVersion("nix-prefetch-url"); else if (*arg == "--type") { string s = getArg(*arg, arg, end); ht = parseHashType(s); } else if (*arg == "--print-path") printPath = true; else if (*arg == "--attr" || *arg == "-A") { fromExpr = true; attrPath = getArg(*arg, arg, end); } else if (*arg == "--unpack") unpack = true; else if (*arg == "--executable") executable = true; else if (*arg == "--name") name = getArg(*arg, arg, end); else if (*arg != "" && arg->at(0) == '-') return false; else args.push_back(*arg); return true; }); myArgs.parseCmdline(argvToStrings(argc, argv)); if (args.size() > 2) throw UsageError("too many arguments"); Finally f([]() { stopProgressBar(); }); if (isatty(STDERR_FILENO)) startProgressBar(); auto store = openStore(); auto state = std::make_unique(myArgs.searchPath, store); Bindings & autoArgs = *myArgs.getAutoArgs(*state); /* If -A is given, get the URL from the specified Nix expression. */ string url; if (!fromExpr) { if (args.empty()) throw UsageError("you must specify a URL"); url = args[0]; } else { Path path = resolveExprPath(lookupFileArg(*state, args.empty() ? "." : args[0])); Value vRoot; state->evalFile(path, vRoot); Value & v(*findAlongAttrPath(*state, attrPath, autoArgs, vRoot).first); state->forceAttrs(v); /* Extract the URL. */ auto attr = v.attrs->find(state->symbols.create("urls")); if (attr == v.attrs->end()) throw Error("attribute set does not contain a 'urls' attribute"); state->forceList(*attr->value); if (attr->value->listSize() < 1) throw Error("'urls' list is empty"); url = state->forceString(*attr->value->listElems()[0]); /* Extract the hash mode. */ attr = v.attrs->find(state->symbols.create("outputHashMode")); if (attr == v.attrs->end()) printInfo("warning: this does not look like a fetchurl call"); else unpack = state->forceString(*attr->value) == "recursive"; /* Extract the name. */ if (!name) { attr = v.attrs->find(state->symbols.create("name")); if (attr != v.attrs->end()) name = state->forceString(*attr->value); } } std::optional expectedHash; if (args.size() == 2) expectedHash = Hash::parseAny(args[1], ht); auto [storePath, hash] = prefetchFile( store, resolveMirrorUrl(*state, url), name, ht, expectedHash, unpack, executable); stopProgressBar(); if (!printPath) printInfo("path is '%s'", store->printStorePath(storePath)); std::cout << printHash16or32(hash) << std::endl; if (printPath) std::cout << store->printStorePath(storePath) << std::endl; return 0; } } static RegisterLegacyCommand r_nix_prefetch_url("nix-prefetch-url", main_nix_prefetch_url); struct CmdStorePrefetchFile : StoreCommand, MixJSON { std::string url; bool executable = false; std::optional name; HashType hashType = htSHA256; std::optional expectedHash; CmdStorePrefetchFile() { addFlag({ .longName = "name", .description = "Override the name component of the resulting store path. It defaults to the base name of *url*.", .labels = {"name"}, .handler = {&name} }); addFlag({ .longName = "expected-hash", .description = "The expected hash of the file.", .labels = {"hash"}, .handler = {[&](std::string s) { expectedHash = Hash::parseAny(s, hashType); }} }); addFlag(Flag::mkHashTypeFlag("hash-type", &hashType)); addFlag({ .longName = "executable", .description = "Make the resulting file executable. Note that this causes the " "resulting hash to be a NAR hash rather than a flat file hash.", .handler = {&executable, true}, }); expectArg("url", &url); } std::string description() override { return "download a file into the Nix store"; } std::string doc() override { return #include "store-prefetch-file.md" ; } void run(ref store) override { auto [storePath, hash] = prefetchFile(store, url, name, hashType, expectedHash, false, executable); if (json) { auto res = nlohmann::json::object(); res["storePath"] = store->printStorePath(storePath); res["hash"] = hash.to_string(SRI, true); logger->cout(res.dump()); } else { notice("Downloaded '%s' to '%s' (hash '%s').", url, store->printStorePath(storePath), hash.to_string(SRI, true)); } } }; static auto rCmdStorePrefetchFile = registerCommand2({"store", "prefetch-file"});