libstore: rewrite the nar parser as a contents generator
this is not completely necessary at this point because the parser right
now already returns a generator to pass through all input data it read,
but the nar parser *was* very lax and would accept nars that weren't in
canonical form (defined as the form dumpPath would return). nar hashing
depends on these things, and as such rewriting the parser now allows us
to reject non-canonical nars that extract to the same store contents as
their canonical counterpart but have different nar hashes despite that.
Change-Id: Iccd319e3bd5912d8297014c84c495edc59019bb7
This commit is contained in:
parent
c052716edd
commit
4ec87742a1
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@ -1,5 +1,6 @@
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#include <cerrno>
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#include <algorithm>
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#include <string_view>
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#include <vector>
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#include <map>
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@ -13,6 +14,8 @@
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#include "archive.hh"
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#include "file-system.hh"
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#include "finally.hh"
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#include "serialise.hh"
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#include "config.hh"
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#include "logging.hh"
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#include "signals.hh"
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@ -174,31 +177,6 @@ static void skipGeneric(Source & source)
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#endif
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static WireFormatGenerator parseContents(ParseSink & sink, Source & source, const Path & path)
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{
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uint64_t size = readLongLong(source);
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co_yield size;
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sink.preallocateContents(size);
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uint64_t left = size;
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std::array<char, 65536> buf;
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while (left) {
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checkInterrupt();
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auto n = buf.size();
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if ((uint64_t)n > left) n = left;
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source(buf.data(), n);
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co_yield std::span{buf.data(), n};
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sink.receiveContents({buf.data(), n});
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left -= n;
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}
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readPadding(size, source);
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co_yield SerializingTransform::padding(size);
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}
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struct CaseInsensitiveCompare
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{
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bool operator() (const std::string & a, const std::string & b) const
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@ -207,86 +185,98 @@ struct CaseInsensitiveCompare
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}
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};
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static WireFormatGenerator parse(ParseSink & sink, Source & source, const Path & path)
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namespace nar {
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static Generator<Entry> parseObject(Source & source, const Path & path)
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{
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std::string s;
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#define EXPECT(raw, kind) \
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do { \
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const auto s = readString(source); \
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if (s != raw) { \
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throw badArchive("expected " kind " tag"); \
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} \
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co_yield MetadataString{s}; \
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} while (0)
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s = readString(source);
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co_yield s;
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if (s != "(") throw badArchive("expected open tag");
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EXPECT("(", "open");
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EXPECT("type", "type");
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enum { tpUnknown, tpRegular, tpDirectory, tpSymlink } type = tpUnknown;
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std::map<Path, int, CaseInsensitiveCompare> names;
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while (1) {
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checkInterrupt();
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s = readString(source);
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co_yield s;
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if (s == ")") {
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break;
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}
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else if (s == "type") {
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if (type != tpUnknown)
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throw badArchive("multiple type fields");
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std::string t = readString(source);
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co_yield t;
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const auto t = readString(source);
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co_yield MetadataString{t};
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if (t == "regular") {
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type = tpRegular;
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sink.createRegularFile(path);
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}
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else if (t == "directory") {
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sink.createDirectory(path);
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type = tpDirectory;
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}
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else if (t == "symlink") {
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type = tpSymlink;
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}
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else throw badArchive("unknown file type " + t);
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}
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else if (s == "contents" && type == tpRegular) {
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co_yield parseContents(sink, source, path);
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sink.closeRegularFile();
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}
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else if (s == "executable" && type == tpRegular) {
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auto contentsOrFlag = readString(source);
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co_yield MetadataString{contentsOrFlag};
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const bool executable = contentsOrFlag == "executable";
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if (executable) {
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auto s = readString(source);
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co_yield s;
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if (s != "") throw badArchive("executable marker has non-empty value");
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sink.isExecutable();
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co_yield MetadataString{s};
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if (s != "") {
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throw badArchive("executable marker has non-empty value");
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}
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contentsOrFlag = readString(source);
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co_yield MetadataString{contentsOrFlag};
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}
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if (contentsOrFlag == "contents") {
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const uint64_t size = readLongLong(source);
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co_yield MetadataRaw{SerializingTransform()(size)};
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auto makeReader = [](Source & source, uint64_t & left) -> Generator<Bytes> {
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std::array<char, 65536> buf;
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else if (s == "entry" && type == tpDirectory) {
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std::string name, prevName;
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s = readString(source);
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co_yield s;
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if (s != "(") throw badArchive("expected open tag");
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while (left) {
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checkInterrupt();
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auto n = std::min<uint64_t>(buf.size(), left);
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source(buf.data(), n);
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co_yield std::span{buf.data(), n};
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left -= n;
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}
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};
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auto left = size;
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co_yield File{path, executable, size, makeReader(source, left)};
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// we could drain the remainder of the file, but coroutines being interruptible
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// at any time makes this difficult. for files this is not that hard, but being
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// consistent with directories is more important than handling the simple case.
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assert(left == 0);
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readPadding(size, source);
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co_yield MetadataRaw{SerializingTransform::padding(size)};
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} else {
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throw badArchive("file without contents found: " + path);
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}
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} else if (t == "directory") {
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auto makeReader = [](Source & source, const Path & path, bool & completed
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) -> Generator<Entry> {
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std::map<Path, int, CaseInsensitiveCompare> names;
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std::string prevName;
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while (1) {
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checkInterrupt();
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s = readString(source);
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co_yield s;
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{
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const auto s = readString(source);
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co_yield MetadataString{s};
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if (s == ")") {
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break;
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} else if (s == "name") {
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name = readString(source);
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co_yield name;
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if (name.empty() || name == "." || name == ".." || name.find('/') != std::string::npos || name.find((char) 0) != std::string::npos)
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completed = true;
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co_return;
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} else if (s != "entry") {
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throw badArchive("expected entry tag");
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}
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EXPECT("(", "open");
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}
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EXPECT("name", "name");
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auto name = readString(source);
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co_yield MetadataString{name};
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if (name.empty() || name == "." || name == ".."
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|| name.find('/') != std::string::npos
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|| name.find((char) 0) != std::string::npos)
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{
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throw Error("NAR contains invalid file name '%1%'", name);
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if (name <= prevName)
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}
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if (name <= prevName) {
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throw Error("NAR directory is not sorted");
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}
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prevName = name;
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if (archiveSettings.useCaseHack) {
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auto i = names.find(name);
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debug("case collision between '%1%' and '%2%'", i->first, name);
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name += caseHackSuffix;
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name += std::to_string(++i->second);
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} else
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} else {
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names[name] = 0;
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}
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} else if (s == "node") {
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if (name.empty()) throw badArchive("entry name missing");
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co_yield parse(sink, source, path + "/" + name);
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} else
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throw badArchive("unknown field " + s);
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}
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}
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else if (s == "target" && type == tpSymlink) {
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EXPECT("node", "node");
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co_yield parseObject(source, path + "/" + name);
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EXPECT(")", "close");
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}
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};
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bool completed = false;
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co_yield Directory{path, makeReader(source, path, completed)};
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// directories may nest, so to drain a directory properly we'd have to add a Finally
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// argument to the generator to ensure that the draining code is always run. this is
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// usually not necessary, hard to follow, and rather error-prone on top of all that.
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assert(completed);
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// directories are terminated already, don't try to read another ")"
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co_return;
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} else if (t == "symlink") {
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EXPECT("target", "target");
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std::string target = readString(source);
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co_yield target;
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sink.createSymlink(path, target);
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co_yield MetadataString{target};
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co_yield Symlink{path, target};
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} else {
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throw badArchive("unknown file type " + t);
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}
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else
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throw badArchive("unknown field " + s);
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}
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EXPECT(")", "close");
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#undef EXPECT
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}
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WireFormatGenerator parseAndCopyDump(ParseSink & sink, Source & source)
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Generator<Entry> parse(Source & source)
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{
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std::string version;
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try {
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version = readString(source, narVersionMagic1.size());
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co_yield version;
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co_yield MetadataString{version};
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} catch (SerialisationError & e) {
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/* This generally means the integer at the start couldn't be
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decoded. Ignore and throw the exception below. */
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}
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if (version != narVersionMagic1)
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throw badArchive("input doesn't look like a Nix archive");
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co_yield parse(sink, source, "");
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co_yield parseObject(source, "");
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}
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}
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static WireFormatGenerator restore(ParseSink & sink, Generator<nar::Entry> nar)
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{
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while (auto entry = nar.next()) {
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co_yield std::visit(
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overloaded{
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[](nar::MetadataString m) -> WireFormatGenerator {
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co_yield m.data;
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},
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[](nar::MetadataRaw r) -> WireFormatGenerator {
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co_yield r.raw;
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},
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[&](nar::File f) {
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return [](auto f, auto & sink) -> WireFormatGenerator {
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sink.createRegularFile(f.path);
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sink.preallocateContents(f.size);
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if (f.executable) {
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sink.isExecutable();
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}
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while (auto block = f.contents.next()) {
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sink.receiveContents(std::string_view{block->data(), block->size()});
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co_yield *block;
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}
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sink.closeRegularFile();
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}(std::move(f), sink);
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},
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[&](nar::Symlink sl) {
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return [](auto sl, auto & sink) -> WireFormatGenerator {
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sink.createSymlink(sl.path, sl.target);
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co_return;
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}(std::move(sl), sink);
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},
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[&](nar::Directory d) {
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return [](auto d, auto & sink) -> WireFormatGenerator {
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sink.createDirectory(d.path);
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return restore(sink, std::move(d.contents));
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}(std::move(d), sink);
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},
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},
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std::move(*entry)
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);
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}
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}
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WireFormatGenerator parseAndCopyDump(ParseSink & sink, Source & source)
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{
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return restore(sink, nar::parse(source));
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}
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void parseDump(ParseSink & sink, Source & source)
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#pragma once
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///@file
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#include "generator.hh"
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#include "types.hh"
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#include "serialise.hh"
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#include "file-system.hh"
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@ -116,6 +117,49 @@ struct RetrieveRegularNARSink : ParseSink
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}
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};
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namespace nar {
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struct MetadataString;
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struct MetadataRaw;
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struct File;
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struct Symlink;
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struct Directory;
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using Entry = std::variant<MetadataString, MetadataRaw, File, Symlink, Directory>;
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struct MetadataString
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{
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std::string_view data;
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};
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struct MetadataRaw
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{
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Bytes raw;
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};
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struct File
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{
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const Path & path;
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bool executable;
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uint64_t size;
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Generator<Bytes> contents;
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};
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struct Symlink
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{
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const Path & path;
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const Path & target;
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};
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struct Directory
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{
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const Path & path;
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Generator<Entry> contents;
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};
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Generator<Entry> parse(Source & source);
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}
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WireFormatGenerator parseAndCopyDump(ParseSink & sink, Source & source);
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void parseDump(ParseSink & sink, Source & source);
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