/usr/include/kj/io.h is in libcapnp-dev 0.4.0-1ubuntu2.
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// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
// ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#ifndef KJ_IO_H_
#define KJ_IO_H_
#include <stddef.h>
#include "common.h"
#include "array.h"
#include "exception.h"
namespace kj {
// =======================================================================================
// Abstract interfaces
class InputStream {
public:
virtual ~InputStream() noexcept(false);
size_t read(void* buffer, size_t minBytes, size_t maxBytes);
// Reads at least minBytes and at most maxBytes, copying them into the given buffer. Returns
// the size read. Throws an exception on errors. Implemented in terms of tryRead().
//
// maxBytes is the number of bytes the caller really wants, but minBytes is the minimum amount
// needed by the caller before it can start doing useful processing. If the stream returns less
// than maxBytes, the caller will usually call read() again later to get the rest. Returning
// less than maxBytes is useful when it makes sense for the caller to parallelize processing
// with I/O.
//
// Never blocks if minBytes is zero. If minBytes is zero and maxBytes is non-zero, this may
// attempt a non-blocking read or may just return zero. To force a read, use a non-zero minBytes.
// To detect EOF without throwing an exception, use tryRead().
//
// Cap'n Proto never asks for more bytes than it knows are part of the message. Therefore, if
// the InputStream happens to know that the stream will never reach maxBytes -- even if it has
// reached minBytes -- it should throw an exception to avoid wasting time processing an incomplete
// message. If it can't even reach minBytes, it MUST throw an exception, as the caller is not
// expected to understand how to deal with partial reads.
virtual size_t tryRead(void* buffer, size_t minBytes, size_t maxBytes) = 0;
// Like read(), but may return fewer than minBytes on EOF.
inline void read(void* buffer, size_t bytes) { read(buffer, bytes, bytes); }
// Convenience method for reading an exact number of bytes.
virtual void skip(size_t bytes);
// Skips past the given number of bytes, discarding them. The default implementation read()s
// into a scratch buffer.
};
class OutputStream {
public:
virtual ~OutputStream() noexcept(false);
virtual void write(const void* buffer, size_t size) = 0;
// Always writes the full size. Throws exception on error.
virtual void write(ArrayPtr<const ArrayPtr<const byte>> pieces);
// Equivalent to write()ing each byte array in sequence, which is what the default implementation
// does. Override if you can do something better, e.g. use writev() to do the write in a single
// syscall.
};
class BufferedInputStream: public InputStream {
// An input stream which buffers some bytes in memory to reduce system call overhead.
// - OR -
// An input stream that actually reads from some in-memory data structure and wants to give its
// caller a direct pointer to that memory to potentially avoid a copy.
public:
virtual ~BufferedInputStream() noexcept(false);
ArrayPtr<const byte> getReadBuffer();
// Get a direct pointer into the read buffer, which contains the next bytes in the input. If the
// caller consumes any bytes, it should then call skip() to indicate this. This always returns a
// non-empty buffer or throws an exception. Implemented in terms of tryGetReadBuffer().
virtual ArrayPtr<const byte> tryGetReadBuffer() = 0;
// Like getReadBuffer() but may return an empty buffer on EOF.
};
class BufferedOutputStream: public OutputStream {
// An output stream which buffers some bytes in memory to reduce system call overhead.
// - OR -
// An output stream that actually writes into some in-memory data structure and wants to give its
// caller a direct pointer to that memory to potentially avoid a copy.
public:
virtual ~BufferedOutputStream() noexcept(false);
virtual ArrayPtr<byte> getWriteBuffer() = 0;
// Get a direct pointer into the write buffer. The caller may choose to fill in some prefix of
// this buffer and then pass it to write(), in which case write() may avoid a copy. It is
// incorrect to pass to write any slice of this buffer which is not a prefix.
};
// =======================================================================================
// Buffered streams implemented as wrappers around regular streams
class BufferedInputStreamWrapper: public BufferedInputStream {
// Implements BufferedInputStream in terms of an InputStream.
//
// Note that the underlying stream's position is unpredictable once the wrapper is destroyed,
// unless the entire stream was consumed. To read a predictable number of bytes in a buffered
// way without going over, you'd need this wrapper to wrap some other wrapper which itself
// implements an artificial EOF at the desired point. Such a stream should be trivial to write
// but is not provided by the library at this time.
public:
explicit BufferedInputStreamWrapper(InputStream& inner, ArrayPtr<byte> buffer = nullptr);
// Creates a buffered stream wrapping the given non-buffered stream. No guarantee is made about
// the position of the inner stream after a buffered wrapper has been created unless the entire
// input is read.
//
// If the second parameter is non-null, the stream uses the given buffer instead of allocating
// its own. This may improve performance if the buffer can be reused.
KJ_DISALLOW_COPY(BufferedInputStreamWrapper);
~BufferedInputStreamWrapper() noexcept(false);
// implements BufferedInputStream ----------------------------------
ArrayPtr<const byte> tryGetReadBuffer() override;
size_t tryRead(void* buffer, size_t minBytes, size_t maxBytes) override;
void skip(size_t bytes) override;
private:
InputStream& inner;
Array<byte> ownedBuffer;
ArrayPtr<byte> buffer;
ArrayPtr<byte> bufferAvailable;
};
class BufferedOutputStreamWrapper: public BufferedOutputStream {
// Implements BufferedOutputStream in terms of an OutputStream. Note that writes to the
// underlying stream may be delayed until flush() is called or the wrapper is destroyed.
public:
explicit BufferedOutputStreamWrapper(OutputStream& inner, ArrayPtr<byte> buffer = nullptr);
// Creates a buffered stream wrapping the given non-buffered stream.
//
// If the second parameter is non-null, the stream uses the given buffer instead of allocating
// its own. This may improve performance if the buffer can be reused.
KJ_DISALLOW_COPY(BufferedOutputStreamWrapper);
~BufferedOutputStreamWrapper() noexcept(false);
void flush();
// Force the wrapper to write any remaining bytes in its buffer to the inner stream. Note that
// this only flushes this object's buffer; this object has no idea how to flush any other buffers
// that may be present in the underlying stream.
// implements BufferedOutputStream ---------------------------------
ArrayPtr<byte> getWriteBuffer() override;
void write(const void* buffer, size_t size) override;
private:
OutputStream& inner;
Array<byte> ownedBuffer;
ArrayPtr<byte> buffer;
byte* bufferPos;
UnwindDetector unwindDetector;
};
// =======================================================================================
// Array I/O
class ArrayInputStream: public BufferedInputStream {
public:
explicit ArrayInputStream(ArrayPtr<const byte> array);
KJ_DISALLOW_COPY(ArrayInputStream);
~ArrayInputStream() noexcept(false);
// implements BufferedInputStream ----------------------------------
ArrayPtr<const byte> tryGetReadBuffer() override;
size_t tryRead(void* buffer, size_t minBytes, size_t maxBytes) override;
void skip(size_t bytes) override;
private:
ArrayPtr<const byte> array;
};
class ArrayOutputStream: public BufferedOutputStream {
public:
explicit ArrayOutputStream(ArrayPtr<byte> array);
KJ_DISALLOW_COPY(ArrayOutputStream);
~ArrayOutputStream() noexcept(false);
ArrayPtr<byte> getArray() {
// Get the portion of the array which has been filled in.
return arrayPtr(array.begin(), fillPos);
}
// implements BufferedInputStream ----------------------------------
ArrayPtr<byte> getWriteBuffer() override;
void write(const void* buffer, size_t size) override;
private:
ArrayPtr<byte> array;
byte* fillPos;
};
// =======================================================================================
// File descriptor I/O
class AutoCloseFd {
// A wrapper around a file descriptor which automatically closes the descriptor when destroyed.
// The wrapper supports move construction for transferring ownership of the descriptor. If
// close() returns an error, the destructor throws an exception, UNLESS the destructor is being
// called during unwind from another exception, in which case the close error is ignored.
//
// If your code is not exception-safe, you should not use AutoCloseFd. In this case you will
// have to call close() yourself and handle errors appropriately.
public:
inline AutoCloseFd(): fd(-1) {}
inline AutoCloseFd(decltype(nullptr)): fd(-1) {}
inline explicit AutoCloseFd(int fd): fd(fd) {}
inline AutoCloseFd(AutoCloseFd&& other) noexcept: fd(other.fd) { other.fd = -1; }
KJ_DISALLOW_COPY(AutoCloseFd);
~AutoCloseFd() noexcept(false);
inline operator int() { return fd; }
inline int get() { return fd; }
inline bool operator==(decltype(nullptr)) { return fd < 0; }
inline bool operator!=(decltype(nullptr)) { return fd >= 0; }
private:
int fd;
UnwindDetector unwindDetector;
};
class FdInputStream: public InputStream {
// An InputStream wrapping a file descriptor.
public:
explicit FdInputStream(int fd): fd(fd) {}
explicit FdInputStream(AutoCloseFd fd): fd(fd), autoclose(mv(fd)) {}
KJ_DISALLOW_COPY(FdInputStream);
~FdInputStream() noexcept(false);
size_t tryRead(void* buffer, size_t minBytes, size_t maxBytes) override;
private:
int fd;
AutoCloseFd autoclose;
};
class FdOutputStream: public OutputStream {
// An OutputStream wrapping a file descriptor.
public:
explicit FdOutputStream(int fd): fd(fd) {}
explicit FdOutputStream(AutoCloseFd fd): fd(fd), autoclose(mv(fd)) {}
KJ_DISALLOW_COPY(FdOutputStream);
~FdOutputStream() noexcept(false);
void write(const void* buffer, size_t size) override;
void write(ArrayPtr<const ArrayPtr<const byte>> pieces) override;
private:
int fd;
AutoCloseFd autoclose;
};
} // namespace kj
#endif // KJ_IO_H_
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