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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef QUICHE_QUIC_CORE_QUIC_DATA_READER_H_
#define QUICHE_QUIC_CORE_QUIC_DATA_READER_H_
#include <cstddef>
#include <cstdint>
#include "net/third_party/quiche/src/quic/core/quic_types.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_endian.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_export.h"
#include "net/third_party/quiche/src/quic/platform/api/quic_string_piece.h"
namespace quic {
// Used for reading QUIC data. Though there isn't really anything terribly
// QUIC-specific here, it's a helper class that's useful when doing QUIC
// framing.
//
// To use, simply construct a QuicDataReader using the underlying buffer that
// you'd like to read fields from, then call one of the Read*() methods to
// actually do some reading.
//
// This class keeps an internal iterator to keep track of what's already been
// read and each successive Read*() call automatically increments said iterator
// on success. On failure, internal state of the QuicDataReader should not be
// trusted and it is up to the caller to throw away the failed instance and
// handle the error as appropriate. None of the Read*() methods should ever be
// called after failure, as they will also fail immediately.
class QUIC_EXPORT_PRIVATE QuicDataReader {
public:
// Constructs a reader using NETWORK_BYTE_ORDER endianness.
// Caller must provide an underlying buffer to work on.
explicit QuicDataReader(QuicStringPiece data);
// Constructs a reader using NETWORK_BYTE_ORDER endianness.
// Caller must provide an underlying buffer to work on.
QuicDataReader(const char* data, const size_t len);
// Constructs a reader using the specified endianness.
// Caller must provide an underlying buffer to work on.
QuicDataReader(const char* data, const size_t len, Endianness endianness);
QuicDataReader(const QuicDataReader&) = delete;
QuicDataReader& operator=(const QuicDataReader&) = delete;
// Empty destructor.
~QuicDataReader() {}
// Reads an 8/16/32/64-bit unsigned integer into the given output
// parameter. Forwards the internal iterator on success. Returns true on
// success, false otherwise.
bool ReadUInt8(uint8_t* result);
bool ReadUInt16(uint16_t* result);
bool ReadUInt32(uint32_t* result);
bool ReadUInt64(uint64_t* result);
// Set |result| to 0, then read |num_bytes| bytes in the correct byte order
// into least significant bytes of |result|.
bool ReadBytesToUInt64(size_t num_bytes, uint64_t* result);
// Reads a 16-bit unsigned float into the given output parameter.
// Forwards the internal iterator on success.
// Returns true on success, false otherwise.
bool ReadUFloat16(uint64_t* result);
// Reads a string prefixed with 16-bit length into the given output parameter.
//
// NOTE: Does not copy but rather references strings in the underlying buffer.
// This should be kept in mind when handling memory management!
//
// Forwards the internal iterator on success.
// Returns true on success, false otherwise.
bool ReadStringPiece16(QuicStringPiece* result);
// Reads a given number of bytes into the given buffer. The buffer
// must be of adequate size.
// Forwards the internal iterator on success.
// Returns true on success, false otherwise.
bool ReadStringPiece(QuicStringPiece* result, size_t len);
// Reads connection ID into the given output parameter.
// Forwards the internal iterator on success.
// Returns true on success, false otherwise.
bool ReadConnectionId(QuicConnectionId* connection_id, uint8_t length);
// Reads tag represented as 32-bit unsigned integer into given output
// parameter. Tags are in big endian on the wire (e.g., CHLO is
// 'C','H','L','O') and are read in byte order, so tags in memory are in big
// endian.
bool ReadTag(uint32_t* tag);
// Returns the remaining payload as a QuicStringPiece.
//
// NOTE: Does not copy but rather references strings in the underlying buffer.
// This should be kept in mind when handling memory management!
//
// Forwards the internal iterator.
QuicStringPiece ReadRemainingPayload();
// Returns the remaining payload as a QuicStringPiece.
//
// NOTE: Does not copy but rather references strings in the underlying buffer.
// This should be kept in mind when handling memory management!
//
// DOES NOT forward the internal iterator.
QuicStringPiece PeekRemainingPayload() const;
// Reads a given number of bytes into the given buffer. The buffer
// must be of adequate size.
// Forwards the internal iterator on success.
// Returns true on success, false otherwise.
bool ReadBytes(void* result, size_t size);
// Skips over |size| bytes from the buffer and forwards the internal iterator.
// Returns true if there are at least |size| bytes remaining to read, false
// otherwise.
bool Seek(size_t size);
// Returns true if the entirety of the underlying buffer has been read via
// Read*() calls.
bool IsDoneReading() const;
// Returns the length in bytes of a variable length integer based on the next
// two bits available. Returns 1, 2, 4, or 8 on success, and 0 on failure.
QuicVariableLengthIntegerLength PeekVarInt62Length();
// Returns the number of bytes remaining to be read.
size_t BytesRemaining() const;
// Truncates the reader down by reducing its internal length.
// If called immediately after calling this, BytesRemaining will
// return |truncation_length|. If truncation_length is less than the
// current value of BytesRemaining, this does nothing and returns false.
bool TruncateRemaining(size_t truncation_length);
// Returns the next byte that to be read. Must not be called when there are no
// bytes to be read.
//
// DOES NOT forward the internal iterator.
uint8_t PeekByte() const;
void set_endianness(Endianness endianness) { endianness_ = endianness; }
// Read an IETF-encoded Variable Length Integer and place the result
// in |*result|.
// Returns true if it works, false if not. The only error is that
// there is not enough in the buffer to read the number.
// If there is an error, |*result| is not altered.
// Numbers are encoded per the rules in draft-ietf-quic-transport-10.txt
// and that the integers in the range 0 ... (2^62)-1.
bool ReadVarInt62(uint64_t* result);
// Convenience method that reads a uint32_t.
// Attempts to read a varint into a uint32_t. using ReadVarInt62 and
// returns false if there is a read error or if the value is
// greater than (2^32)-1.
bool ReadVarIntU32(uint32_t* result);
std::string DebugString() const;
private:
// Returns true if the underlying buffer has enough room to read the given
// amount of bytes.
bool CanRead(size_t bytes) const;
// To be called when a read fails for any reason.
void OnFailure();
// TODO(fkastenholz, b/73004262) change buffer_, et al, to be uint8_t, not
// char. The data buffer that we're reading from.
const char* data_;
// The length of the data buffer that we're reading from.
size_t len_;
// The location of the next read from our data buffer.
size_t pos_;
// The endianness to read integers and floating numbers.
Endianness endianness_;
};
} // namespace quic
#endif // QUICHE_QUIC_CORE_QUIC_DATA_READER_H_