forked from lix-project/lix
Merge pull request #3801 from obsidiansystems/from-dump-stream
Constant space `addToStoreFromDump` and deduplicate code
This commit is contained in:
commit
0835447eaa
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@ -2774,7 +2774,7 @@ struct RestrictedStore : public LocalFSStore
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goal.addDependency(info.path);
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goal.addDependency(info.path);
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}
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}
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StorePath addToStoreFromDump(const string & dump, const string & name,
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StorePath addToStoreFromDump(Source & dump, const string & name,
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair) override
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair) override
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{
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{
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auto path = next->addToStoreFromDump(dump, name, method, hashAlgo, repair);
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auto path = next->addToStoreFromDump(dump, name, method, hashAlgo, repair);
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@ -350,21 +350,24 @@ static void performOp(TunnelLogger * logger, ref<Store> store,
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}
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}
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case wopAddToStore: {
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case wopAddToStore: {
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std::string s, baseName;
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HashType hashAlgo;
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std::string baseName;
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FileIngestionMethod method;
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FileIngestionMethod method;
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{
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{
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bool fixed; uint8_t recursive;
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bool fixed;
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from >> baseName >> fixed /* obsolete */ >> recursive >> s;
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uint8_t recursive;
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std::string hashAlgoRaw;
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from >> baseName >> fixed /* obsolete */ >> recursive >> hashAlgoRaw;
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if (recursive > (uint8_t) FileIngestionMethod::Recursive)
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if (recursive > (uint8_t) FileIngestionMethod::Recursive)
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throw Error("unsupported FileIngestionMethod with value of %i; you may need to upgrade nix-daemon", recursive);
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throw Error("unsupported FileIngestionMethod with value of %i; you may need to upgrade nix-daemon", recursive);
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method = FileIngestionMethod { recursive };
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method = FileIngestionMethod { recursive };
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/* Compatibility hack. */
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/* Compatibility hack. */
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if (!fixed) {
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if (!fixed) {
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s = "sha256";
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hashAlgoRaw = "sha256";
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method = FileIngestionMethod::Recursive;
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method = FileIngestionMethod::Recursive;
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}
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}
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hashAlgo = parseHashType(hashAlgoRaw);
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}
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}
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HashType hashAlgo = parseHashType(s);
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StringSink saved;
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StringSink saved;
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TeeSource savedNARSource(from, saved);
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TeeSource savedNARSource(from, saved);
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@ -382,7 +385,9 @@ static void performOp(TunnelLogger * logger, ref<Store> store,
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logger->startWork();
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logger->startWork();
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if (!savedRegular.regular) throw Error("regular file expected");
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if (!savedRegular.regular) throw Error("regular file expected");
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auto path = store->addToStoreFromDump(*saved.s, baseName, method, hashAlgo);
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// FIXME: try to stream directly from `from`.
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StringSource dumpSource { *saved.s };
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auto path = store->addToStoreFromDump(dumpSource, baseName, method, hashAlgo);
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logger->stopWork();
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logger->stopWork();
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to << store->printStorePath(path);
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to << store->printStorePath(path);
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@ -1033,82 +1033,26 @@ void LocalStore::addToStore(const ValidPathInfo & info, Source & source,
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}
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}
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StorePath LocalStore::addToStoreFromDump(const string & dump, const string & name,
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FileIngestionMethod method, HashType hashAlgo, RepairFlag repair)
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{
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Hash h = hashString(hashAlgo, dump);
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auto dstPath = makeFixedOutputPath(method, h, 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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auto realPath = Store::toRealPath(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 (method == FileIngestionMethod::Recursive) {
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StringSource source(dump);
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restorePath(realPath, source);
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} else
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writeFile(realPath, dump);
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canonicalisePathMetaData(realPath, -1);
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/* Register the SHA-256 hash of the NAR serialisation of
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the path in the database. We may just have computed it
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above (if called with recursive == true and hashAlgo ==
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sha256); otherwise, compute it here. */
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HashResult hash;
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if (method == FileIngestionMethod::Recursive) {
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hash.first = hashAlgo == htSHA256 ? h : hashString(htSHA256, dump);
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hash.second = dump.size();
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} else
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hash = hashPath(htSHA256, realPath);
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optimisePath(realPath); // FIXME: combine with hashPath()
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ValidPathInfo info(dstPath);
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info.narHash = hash.first;
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info.narSize = hash.second;
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info.ca = FixedOutputHash { .method = method, .hash = h };
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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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StorePath LocalStore::addToStore(const string & name, const Path & _srcPath,
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StorePath LocalStore::addToStore(const string & name, const Path & _srcPath,
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FileIngestionMethod method, HashType hashAlgo, PathFilter & filter, RepairFlag repair)
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FileIngestionMethod method, HashType hashAlgo, PathFilter & filter, RepairFlag repair)
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{
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{
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Path srcPath(absPath(_srcPath));
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Path srcPath(absPath(_srcPath));
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auto source = sinkToSource([&](Sink & 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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readFile(srcPath, sink);
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});
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return addToStoreFromDump(*source, name, method, hashAlgo, repair);
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}
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if (method != FileIngestionMethod::Recursive)
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return addToStoreFromDump(readFile(srcPath), name, method, hashAlgo, repair);
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/* For computing the NAR hash. */
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StorePath LocalStore::addToStoreFromDump(Source & source0, const string & name,
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auto sha256Sink = std::make_unique<HashSink>(htSHA256);
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FileIngestionMethod method, HashType hashAlgo, RepairFlag repair)
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{
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/* For computing the store path. In recursive SHA-256 mode, this
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/* For computing the store path. */
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is the same as the NAR hash, so no need to do it again. */
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auto hashSink = std::make_unique<HashSink>(hashAlgo);
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std::unique_ptr<HashSink> hashSink =
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TeeSource source { source0, *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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/* 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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narBufferSize bytes. If it's larger, write it to a temporary
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@ -1116,55 +1060,49 @@ StorePath LocalStore::addToStore(const string & name, const Path & _srcPath,
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destination store path is already valid, we just delete the
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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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temporary path. Otherwise, we move it to the destination store
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path. */
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path. */
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bool inMemory = true;
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bool inMemory = false;
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std::string nar;
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auto source = sinkToSource([&](Sink & sink) {
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std::string dump;
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LambdaSink sink2([&](const unsigned char * buf, size_t len) {
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/* Fill out buffer, and decide whether we are working strictly in
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(*sha256Sink)(buf, len);
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memory based on whether we break out because the buffer is full
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if (hashSink) (*hashSink)(buf, len);
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or the original source is empty */
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while (dump.size() < settings.narBufferSize) {
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if (inMemory) {
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auto oldSize = dump.size();
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if (nar.size() + len > settings.narBufferSize) {
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constexpr size_t chunkSize = 1024;
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inMemory = false;
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auto want = std::min(chunkSize, settings.narBufferSize - oldSize);
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sink << 1;
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dump.resize(oldSize + want);
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sink((const unsigned char *) nar.data(), nar.size());
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auto got = 0;
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nar.clear();
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try {
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} else {
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got = source.read((uint8_t *) dump.data() + oldSize, want);
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nar.append((const char *) buf, len);
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} catch (EndOfFile &) {
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inMemory = true;
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break;
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}
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}
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dump.resize(oldSize + got);
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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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std::unique_ptr<AutoDelete> delTempDir;
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Path tempPath;
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Path tempPath;
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try {
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if (!inMemory) {
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/* Wait for the source coroutine to give us some dummy
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/* Drain what we pulled so far, and then keep on pulling */
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data. This is so that we don't create the temporary
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StringSource dumpSource { dump };
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directory if the NAR fits in memory. */
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ChainSource bothSource { dumpSource, source };
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readInt(*source);
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auto tempDir = createTempDir(realStoreDir, "add");
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auto tempDir = createTempDir(realStoreDir, "add");
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delTempDir = std::make_unique<AutoDelete>(tempDir);
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delTempDir = std::make_unique<AutoDelete>(tempDir);
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tempPath = tempDir + "/x";
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tempPath = tempDir + "/x";
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restorePath(tempPath, *source);
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if (method == FileIngestionMethod::Recursive)
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restorePath(tempPath, bothSource);
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else
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writeFile(tempPath, bothSource);
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} catch (EndOfFile &) {
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dump.clear();
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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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}
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auto sha256 = sha256Sink->finish();
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auto [hash, size] = hashSink->finish();
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Hash hash = hashSink ? hashSink->finish().first : sha256.first;
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auto dstPath = makeFixedOutputPath(method, hash, name);
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auto dstPath = makeFixedOutputPath(method, hash, name);
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@ -1186,22 +1124,34 @@ StorePath LocalStore::addToStore(const string & name, const Path & _srcPath,
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autoGC();
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autoGC();
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if (inMemory) {
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if (inMemory) {
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StringSource dumpSource { dump };
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/* Restore from the NAR in memory. */
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/* Restore from the NAR in memory. */
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StringSource source(nar);
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if (method == FileIngestionMethod::Recursive)
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restorePath(realPath, source);
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restorePath(realPath, dumpSource);
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else
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writeFile(realPath, dumpSource);
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} else {
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} else {
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/* Move the temporary path we restored above. */
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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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if (rename(tempPath.c_str(), realPath.c_str()))
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throw Error("renaming '%s' to '%s'", tempPath, realPath);
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throw Error("renaming '%s' to '%s'", tempPath, realPath);
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}
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}
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/* For computing the nar hash. In recursive SHA-256 mode, this
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is the same as the store hash, so no need to do it again. */
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auto narHash = std::pair { hash, size };
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if (method != FileIngestionMethod::Recursive || hashAlgo != htSHA256) {
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HashSink narSink { htSHA256 };
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dumpPath(realPath, narSink);
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narHash = narSink.finish();
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}
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canonicalisePathMetaData(realPath, -1); // FIXME: merge into restorePath
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canonicalisePathMetaData(realPath, -1); // FIXME: merge into restorePath
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optimisePath(realPath);
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optimisePath(realPath);
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ValidPathInfo info(dstPath);
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ValidPathInfo info(dstPath);
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info.narHash = sha256.first;
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info.narHash = narHash.first;
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info.narSize = sha256.second;
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info.narSize = narHash.second;
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info.ca = FixedOutputHash { .method = method, .hash = hash };
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info.ca = FixedOutputHash { .method = method, .hash = hash };
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registerValidPath(info);
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registerValidPath(info);
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}
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}
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@ -153,7 +153,7 @@ public:
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in `dump', which is either a NAR serialisation (if recursive ==
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in `dump', which is either a NAR serialisation (if recursive ==
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true) or simply the contents of a regular file (if recursive ==
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true) or simply the contents of a regular file (if recursive ==
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false). */
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false). */
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StorePath addToStoreFromDump(const string & dump, const string & name,
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StorePath addToStoreFromDump(Source & dump, const string & name,
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair) override;
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair) override;
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StorePath addTextToStore(const string & name, const string & s,
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StorePath addTextToStore(const string & name, const string & s,
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@ -460,7 +460,7 @@ public:
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std::optional<Hash> expectedCAHash = {});
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std::optional<Hash> expectedCAHash = {});
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// FIXME: remove?
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// FIXME: remove?
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virtual StorePath addToStoreFromDump(const string & dump, const string & name,
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virtual StorePath addToStoreFromDump(Source & dump, const string & name,
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair)
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FileIngestionMethod method = FileIngestionMethod::Recursive, HashType hashAlgo = htSHA256, RepairFlag repair = NoRepair)
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{
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{
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throw Error("addToStoreFromDump() is not supported by this store");
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throw Error("addToStoreFromDump() is not supported by this store");
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@ -322,5 +322,18 @@ void StringSink::operator () (const unsigned char * data, size_t len)
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s->append((const char *) data, len);
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s->append((const char *) data, len);
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}
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}
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size_t ChainSource::read(unsigned char * data, size_t len)
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{
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if (useSecond) {
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return source2.read(data, len);
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} else {
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try {
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return source1.read(data, len);
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} catch (EndOfFile &) {
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useSecond = true;
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return this->read(data, len);
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}
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}
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}
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}
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}
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@ -189,7 +189,7 @@ struct TeeSource : Source
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size_t read(unsigned char * data, size_t len)
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size_t read(unsigned char * data, size_t len)
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{
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{
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size_t n = orig.read(data, len);
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size_t n = orig.read(data, len);
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sink(data, len);
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sink(data, n);
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return n;
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return n;
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}
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}
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};
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};
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@ -256,6 +256,19 @@ struct LambdaSource : Source
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}
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}
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};
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};
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/* Chain two sources together so after the first is exhausted, the second is
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used */
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struct ChainSource : Source
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{
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Source & source1, & source2;
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bool useSecond = false;
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ChainSource(Source & s1, Source & s2)
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: source1(s1), source2(s2)
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{ }
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size_t read(unsigned char * data, size_t len) override;
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};
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/* Convert a function that feeds data into a Sink into a Source. The
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/* Convert a function that feeds data into a Sink into a Source. The
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Source executes the function as a coroutine. */
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Source executes the function as a coroutine. */
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