forked from lix-project/lix
505 lines
12 KiB
C++
505 lines
12 KiB
C++
#pragma once
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#include <memory>
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#include "types.hh"
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#include "util.hh"
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namespace boost::context { struct stack_context; }
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namespace nix {
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/* Abstract destination of binary data. */
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struct Sink
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{
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virtual ~Sink() { }
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virtual void operator () (std::string_view data) = 0;
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virtual bool good() { return true; }
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};
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/* Just throws away data. */
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struct NullSink : Sink
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{
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void operator () (std::string_view data) override
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{ }
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};
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struct FinishSink : virtual Sink
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{
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virtual void finish() = 0;
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};
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/* A buffered abstract sink. Warning: a BufferedSink should not be
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used from multiple threads concurrently. */
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struct BufferedSink : virtual Sink
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{
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size_t bufSize, bufPos;
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std::unique_ptr<char[]> buffer;
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BufferedSink(size_t bufSize = 32 * 1024)
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: bufSize(bufSize), bufPos(0), buffer(nullptr) { }
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void operator () (std::string_view data) override;
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void flush();
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virtual void write(std::string_view data) = 0;
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};
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/* Abstract source of binary data. */
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struct Source
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{
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virtual ~Source() { }
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/* Store exactly ‘len’ bytes in the buffer pointed to by ‘data’.
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It blocks until all the requested data is available, or throws
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an error if it is not going to be available. */
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void operator () (char * data, size_t len);
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/* Store up to ‘len’ in the buffer pointed to by ‘data’, and
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return the number of bytes stored. It blocks until at least
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one byte is available. */
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virtual size_t read(char * data, size_t len) = 0;
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virtual bool good() { return true; }
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void drainInto(Sink & sink);
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std::string drain();
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};
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/* A buffered abstract source. Warning: a BufferedSource should not be
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used from multiple threads concurrently. */
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struct BufferedSource : Source
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{
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size_t bufSize, bufPosIn, bufPosOut;
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std::unique_ptr<char[]> buffer;
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BufferedSource(size_t bufSize = 32 * 1024)
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: bufSize(bufSize), bufPosIn(0), bufPosOut(0), buffer(nullptr) { }
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size_t read(char * data, size_t len) override;
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bool hasData();
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protected:
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/* Underlying read call, to be overridden. */
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virtual size_t readUnbuffered(char * data, size_t len) = 0;
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};
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/* A sink that writes data to a file descriptor. */
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struct FdSink : BufferedSink
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{
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int fd;
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size_t written = 0;
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FdSink() : fd(-1) { }
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FdSink(int fd) : fd(fd) { }
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FdSink(FdSink&&) = default;
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FdSink & operator=(FdSink && s)
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{
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flush();
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fd = s.fd;
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s.fd = -1;
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written = s.written;
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return *this;
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}
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~FdSink();
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void write(std::string_view data) override;
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bool good() override;
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private:
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bool _good = true;
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};
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/* A source that reads data from a file descriptor. */
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struct FdSource : BufferedSource
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{
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int fd;
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size_t read = 0;
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FdSource() : fd(-1) { }
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FdSource(int fd) : fd(fd) { }
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FdSource(FdSource&&) = default;
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FdSource& operator=(FdSource && s)
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{
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fd = s.fd;
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s.fd = -1;
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read = s.read;
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return *this;
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}
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bool good() override;
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protected:
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size_t readUnbuffered(char * data, size_t len) override;
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private:
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bool _good = true;
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};
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/* A sink that writes data to a string. */
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struct StringSink : Sink
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{
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std::string s;
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StringSink() { }
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explicit StringSink(const size_t reservedSize)
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{
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s.reserve(reservedSize);
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};
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StringSink(std::string && s) : s(std::move(s)) { };
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void operator () (std::string_view data) override;
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};
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/* A source that reads data from a string. */
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struct StringSource : Source
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{
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std::string_view s;
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size_t pos;
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StringSource(std::string_view s) : s(s), pos(0) { }
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size_t read(char * data, size_t len) override;
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};
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/* A sink that writes all incoming data to two other sinks. */
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struct TeeSink : Sink
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{
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Sink & sink1, & sink2;
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TeeSink(Sink & sink1, Sink & sink2) : sink1(sink1), sink2(sink2) { }
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virtual void operator () (std::string_view data)
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{
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sink1(data);
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sink2(data);
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}
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};
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/* Adapter class of a Source that saves all data read to a sink. */
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struct TeeSource : Source
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{
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Source & orig;
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Sink & sink;
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TeeSource(Source & orig, Sink & sink)
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: orig(orig), sink(sink) { }
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size_t read(char * data, size_t len)
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{
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size_t n = orig.read(data, len);
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sink({data, n});
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return n;
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}
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};
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/* A reader that consumes the original Source until 'size'. */
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struct SizedSource : Source
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{
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Source & orig;
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size_t remain;
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SizedSource(Source & orig, size_t size)
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: orig(orig), remain(size) { }
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size_t read(char * data, size_t len)
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{
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if (this->remain <= 0) {
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throw EndOfFile("sized: unexpected end-of-file");
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}
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len = std::min(len, this->remain);
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size_t n = this->orig.read(data, len);
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this->remain -= n;
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return n;
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}
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/* Consume the original source until no remain data is left to consume. */
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size_t drainAll()
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{
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std::vector<char> buf(8192);
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size_t sum = 0;
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while (this->remain > 0) {
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size_t n = read(buf.data(), buf.size());
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sum += n;
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}
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return sum;
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}
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};
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/* A sink that that just counts the number of bytes given to it */
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struct LengthSink : Sink
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{
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uint64_t length = 0;
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void operator () (std::string_view data) override
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{
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length += data.size();
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}
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};
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/* Convert a function into a sink. */
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struct LambdaSink : Sink
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{
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typedef std::function<void(std::string_view data)> lambda_t;
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lambda_t lambda;
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LambdaSink(const lambda_t & lambda) : lambda(lambda) { }
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void operator () (std::string_view data) override
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{
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lambda(data);
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}
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};
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/* Convert a function into a source. */
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struct LambdaSource : Source
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{
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typedef std::function<size_t(char *, size_t)> lambda_t;
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lambda_t lambda;
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LambdaSource(const lambda_t & lambda) : lambda(lambda) { }
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size_t read(char * data, size_t len) override
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{
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return lambda(data, len);
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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(char * data, size_t len) override;
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};
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std::unique_ptr<FinishSink> sourceToSink(std::function<void(Source &)> fun);
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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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std::unique_ptr<Source> sinkToSource(
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std::function<void(Sink &)> fun,
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std::function<void()> eof = []() {
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throw EndOfFile("coroutine has finished");
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});
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void writePadding(size_t len, Sink & sink);
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void writeString(std::string_view s, Sink & sink);
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inline Sink & operator << (Sink & sink, uint64_t n)
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{
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unsigned char buf[8];
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buf[0] = n & 0xff;
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buf[1] = (n >> 8) & 0xff;
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buf[2] = (n >> 16) & 0xff;
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buf[3] = (n >> 24) & 0xff;
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buf[4] = (n >> 32) & 0xff;
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buf[5] = (n >> 40) & 0xff;
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buf[6] = (n >> 48) & 0xff;
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buf[7] = (unsigned char) (n >> 56) & 0xff;
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sink({(char *) buf, sizeof(buf)});
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return sink;
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}
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Sink & operator << (Sink & in, const Error & ex);
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Sink & operator << (Sink & sink, std::string_view s);
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Sink & operator << (Sink & sink, const Strings & s);
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Sink & operator << (Sink & sink, const StringSet & s);
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MakeError(SerialisationError, Error);
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template<typename T>
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T readNum(Source & source)
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{
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unsigned char buf[8];
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source((char *) buf, sizeof(buf));
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auto n = readLittleEndian<uint64_t>(buf);
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if (n > (uint64_t) std::numeric_limits<T>::max())
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throw SerialisationError("serialised integer %d is too large for type '%s'", n, typeid(T).name());
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return (T) n;
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}
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inline unsigned int readInt(Source & source)
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{
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return readNum<unsigned int>(source);
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}
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inline uint64_t readLongLong(Source & source)
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{
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return readNum<uint64_t>(source);
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}
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void readPadding(size_t len, Source & source);
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size_t readString(char * buf, size_t max, Source & source);
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std::string readString(Source & source, size_t max = std::numeric_limits<size_t>::max());
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template<class T> T readStrings(Source & source);
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Source & operator >> (Source & in, std::string & s);
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template<typename T>
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Source & operator >> (Source & in, T & n)
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{
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n = readNum<T>(in);
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return in;
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}
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template<typename T>
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Source & operator >> (Source & in, bool & b)
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{
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b = readNum<uint64_t>(in);
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return in;
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}
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Error readError(Source & source);
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/* An adapter that converts a std::basic_istream into a source. */
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struct StreamToSourceAdapter : Source
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{
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std::shared_ptr<std::basic_istream<char>> istream;
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StreamToSourceAdapter(std::shared_ptr<std::basic_istream<char>> istream)
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: istream(istream)
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{ }
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size_t read(char * data, size_t len) override
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{
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if (!istream->read(data, len)) {
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if (istream->eof()) {
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if (istream->gcount() == 0)
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throw EndOfFile("end of file");
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} else
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throw Error("I/O error in StreamToSourceAdapter");
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}
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return istream->gcount();
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}
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};
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/* A source that reads a distinct format of concatenated chunks back into its
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logical form, in order to guarantee a known state to the original stream,
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even in the event of errors.
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Use with FramedSink, which also allows the logical stream to be terminated
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in the event of an exception.
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*/
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struct FramedSource : Source
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{
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Source & from;
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bool eof = false;
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std::vector<char> pending;
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size_t pos = 0;
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FramedSource(Source & from) : from(from)
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{ }
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~FramedSource()
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{
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if (!eof) {
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while (true) {
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auto n = readInt(from);
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if (!n) break;
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std::vector<char> data(n);
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from(data.data(), n);
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}
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}
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}
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size_t read(char * data, size_t len) override
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{
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if (eof) throw EndOfFile("reached end of FramedSource");
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if (pos >= pending.size()) {
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size_t len = readInt(from);
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if (!len) {
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eof = true;
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return 0;
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}
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pending = std::vector<char>(len);
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pos = 0;
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from(pending.data(), len);
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}
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auto n = std::min(len, pending.size() - pos);
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memcpy(data, pending.data() + pos, n);
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pos += n;
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return n;
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}
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};
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/* Write as chunks in the format expected by FramedSource.
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The exception_ptr reference can be used to terminate the stream when you
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detect that an error has occurred on the remote end.
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*/
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struct FramedSink : nix::BufferedSink
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{
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BufferedSink & to;
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std::exception_ptr & ex;
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FramedSink(BufferedSink & to, std::exception_ptr & ex) : to(to), ex(ex)
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{ }
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~FramedSink()
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{
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try {
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to << 0;
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to.flush();
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} catch (...) {
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ignoreException();
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}
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}
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void write(std::string_view data) override
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{
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/* Don't send more data if the remote has
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encountered an error. */
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if (ex) {
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auto ex2 = ex;
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ex = nullptr;
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std::rethrow_exception(ex2);
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}
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to << data.size();
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to(data);
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};
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};
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/* Stack allocation strategy for sinkToSource.
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Mutable to avoid a boehm gc dependency in libutil.
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boost::context doesn't provide a virtual class, so we define our own.
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*/
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struct StackAllocator {
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virtual boost::context::stack_context allocate() = 0;
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virtual void deallocate(boost::context::stack_context sctx) = 0;
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/* The stack allocator to use in sinkToSource and potentially elsewhere.
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It is reassigned by the initGC() method in libexpr. */
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static StackAllocator *defaultAllocator;
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};
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}
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