Make LocalStore::addToStore(srcPath) run in constant memory
This reduces memory consumption of nix-instantiate \ -E 'with import <nixpkgs> {}; runCommand "foo" { src = ./blender; } "echo foo"' \ --option nar-buffer-size 10000 (where ./blender is a 1.1 GiB tree) from 1716 to 36 MiB, while still ensuring that we don't do any write I/O for small source paths (up to 'nar-buffer-size' bytes). The downside is that large paths are now always written to a temporary location in the store, even if they produce an already valid store path. Thus, adding large paths might be slower and run out of disk space. ¯\_(ツ)_/¯ Of course, you can always restore the old behaviour by setting 'nar-buffer-size' to a very high value.
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@ -365,6 +365,9 @@ public:
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Setting<bool> warnDirty{this, true, "warn-dirty",
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"Whether to warn about dirty Git/Mercurial trees."};
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Setting<size_t> narBufferSize{this, 32 * 1024 * 1024, "nar-buffer-size",
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"Maximum size of NARs before spilling them to disk."};
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};
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@ -1098,16 +1098,119 @@ StorePath LocalStore::addToStore(const string & name, const Path & _srcPath,
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{
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Path srcPath(absPath(_srcPath));
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/* Read the whole path into memory. This is not a very scalable
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method for very large paths, but `copyPath' is mainly used for
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small files. */
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StringSink sink;
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if (method == FileIngestionMethod::Recursive)
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dumpPath(srcPath, sink, filter);
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else
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sink.s = make_ref<std::string>(readFile(srcPath));
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if (method != FileIngestionMethod::Recursive)
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return addToStoreFromDump(readFile(srcPath), name, method, hashAlgo, repair);
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return addToStoreFromDump(*sink.s, name, method, hashAlgo, repair);
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/* For computing the NAR hash. */
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auto sha256Sink = std::make_unique<HashSink>(htSHA256);
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/* For computing the store path. In recursive SHA-256 mode, this
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is the same as the NAR hash, so no need to do it again. */
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std::unique_ptr<HashSink> hashSink =
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hashAlgo == htSHA256
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? nullptr
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: std::make_unique<HashSink>(hashAlgo);
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/* Read the source path into memory, but only if it's up to
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narBufferSize bytes. If it's larger, write it to a temporary
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location in the Nix store. If the subsequently computed
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destination store path is already valid, we just delete the
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temporary path. Otherwise, we move it to the destination store
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path. */
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bool inMemory = true;
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std::string nar;
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auto source = sinkToSource([&](Sink & sink) {
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LambdaSink sink2([&](const unsigned char * buf, size_t len) {
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(*sha256Sink)(buf, len);
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if (hashSink) (*hashSink)(buf, len);
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if (inMemory) {
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if (nar.size() + len > settings.narBufferSize) {
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inMemory = false;
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sink << 1;
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sink((const unsigned char *) nar.data(), nar.size());
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nar.clear();
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} else {
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nar.append((const char *) buf, len);
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}
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}
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if (!inMemory) sink(buf, len);
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});
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dumpPath(srcPath, sink2, filter);
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});
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std::unique_ptr<AutoDelete> delTempDir;
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Path tempPath;
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try {
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/* Wait for the source coroutine to give us some dummy
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data. This is so that we don't create the temporary
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directory if the NAR fits in memory. */
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readInt(*source);
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auto tempDir = createTempDir(realStoreDir, "add");
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delTempDir = std::make_unique<AutoDelete>(tempDir);
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tempPath = tempDir + "/x";
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restorePath(tempPath, *source);
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} catch (EndOfFile &) {
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if (!inMemory) throw;
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/* The NAR fits in memory, so we didn't do restorePath(). */
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}
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auto sha256 = sha256Sink->finish();
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Hash hash = hashSink ? hashSink->finish().first : sha256.first;
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Path dstPath = makeFixedOutputPath(method, hash, name);
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addTempRoot(dstPath);
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if (repair || !isValidPath(dstPath)) {
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/* The first check above is an optimisation to prevent
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unnecessary lock acquisition. */
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Path realPath = realStoreDir + "/" + baseNameOf(dstPath);
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PathLocks outputLock({realPath});
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if (repair || !isValidPath(dstPath)) {
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deletePath(realPath);
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autoGC();
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if (inMemory) {
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/* Restore from the NAR in memory. */
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StringSource source(nar);
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restorePath(realPath, source);
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} else {
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/* Move the temporary path we restored above. */
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if (rename(tempPath.c_str(), realPath.c_str()))
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throw Error("renaming '%s' to '%s'", tempPath, realPath);
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}
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canonicalisePathMetaData(realPath, -1); // FIXME: merge into restorePath
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optimisePath(realPath);
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ValidPathInfo info(dstPath);
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info.narHash = sha256.first;
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info.narSize = sha256.second;
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info.ca = FixedOutputHash { .method = method, .hash = hash };
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registerValidPath(info);
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}
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outputLock.setDeletion(true);
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}
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return dstPath;
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}
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