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// Copyright (c) the JPEG XL Project 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 LIB_JXL_DEC_BIT_READER_H_
#define LIB_JXL_DEC_BIT_READER_H_
// Bounds-checked bit reader; 64-bit buffer with support for deferred refills
// and switching to reading byte-aligned words.
#include <cstddef>
#include <cstdint>
#include <cstring> // memcpy
#ifdef __BMI2__
#include <immintrin.h>
#endif
#include "lib/jxl/base/byte_order.h"
#include "lib/jxl/base/common.h"
#include "lib/jxl/base/compiler_specific.h"
#include "lib/jxl/base/status.h"
namespace jxl {
// Reads bits previously written to memory by BitWriter. Uses unaligned 8-byte
// little-endian loads.
class BitReader {
public:
static constexpr size_t kMaxBitsPerCall = 56;
// Constructs an invalid BitReader, to be overwritten before usage.
BitReader()
: buf_(0),
bits_in_buf_(0),
next_byte_{nullptr},
end_minus_8_{nullptr},
first_byte_(nullptr) {}
BitReader(const BitReader&) = delete;
// bytes need not be aligned nor padded!
template <class ArrayLike>
explicit BitReader(const ArrayLike& bytes)
: buf_(0),
bits_in_buf_(0),
next_byte_(bytes.data()),
// Assumes first_byte_ >= 8.
end_minus_8_(bytes.data() - 8 + bytes.size()),
first_byte_(bytes.data()) {
Refill();
}
~BitReader() {
// Close() must be called before destroying an initialized bit reader.
// Invalid bit readers will have a nullptr in first_byte_.
JXL_DASSERT(close_called_ || !first_byte_);
}
// Move operator needs to invalidate the other BitReader such that it is
// irrelevant if we call Close() on it or not.
BitReader& operator=(BitReader&& other) noexcept {
// Ensure the current instance was already closed, before we overwrite it
// with other.
JXL_DASSERT(close_called_ || !first_byte_);
JXL_DASSERT(!other.close_called_);
buf_ = other.buf_;
bits_in_buf_ = other.bits_in_buf_;
next_byte_ = other.next_byte_;
end_minus_8_ = other.end_minus_8_;
first_byte_ = other.first_byte_;
overread_bytes_ = other.overread_bytes_;
close_called_ = other.close_called_;
other.first_byte_ = nullptr;
other.next_byte_ = nullptr;
return *this;
}
BitReader& operator=(const BitReader& other) = delete;
// For time-critical reads, refills can be shared by multiple reads.
// Based on variant 4 (plus bounds-checking), see
// fgiesen.wordpress.com/2018/02/20/reading-bits-in-far-too-many-ways-part-2/
JXL_INLINE void Refill() {
if (JXL_UNLIKELY(next_byte_ > end_minus_8_)) {
BoundsCheckedRefill();
} else {
// It's safe to load 64 bits; insert valid (possibly nonzero) bits above
// bits_in_buf_. The shift requires bits_in_buf_ < 64.
buf_ |= LoadLE64(next_byte_) << bits_in_buf_;
// Advance by bytes fully absorbed into the buffer.
next_byte_ += (63 - bits_in_buf_) >> 3;
// We absorbed a multiple of 8 bits, so the lower 3 bits of bits_in_buf_
// must remain unchanged, otherwise the next refill's shifted bits will
// not align with buf_. Set the three upper bits so the result >= 56.
bits_in_buf_ |= 56;
JXL_DASSERT(56 <= bits_in_buf_ && bits_in_buf_ < 64);
}
}
// Returns the bits that would be returned by Read without calling Advance().
// It is legal to PEEK at more bits than present in the bitstream (required
// by Huffman), and those bits will be zero.
template <size_t N>
JXL_INLINE uint64_t PeekFixedBits() const {
static_assert(N <= kMaxBitsPerCall, "Reading too many bits in one call.");
JXL_DASSERT(!close_called_);
return buf_ & ((1ULL << N) - 1);
}
JXL_INLINE uint64_t PeekBits(size_t nbits) const {
JXL_DASSERT(nbits <= kMaxBitsPerCall);
JXL_DASSERT(!close_called_);
// Slightly faster but requires BMI2. It is infeasible to make the many
// callers reside between begin/end_target, especially because only the
// callers in dec_ans are time-critical. Therefore only enabled if the
// entire binary is compiled for (and thus requires) BMI2.
#if defined(__BMI2__) && defined(__x86_64__)
return _bzhi_u64(buf_, nbits);
#else
const uint64_t mask = (1ULL << nbits) - 1;
return buf_ & mask;
#endif
}
// Removes bits from the buffer. Need not match the previous Peek size, but
// the buffer must contain at least num_bits (this prevents consuming more
// than the total number of bits).
JXL_INLINE void Consume(size_t num_bits) {
JXL_DASSERT(!close_called_);
JXL_DASSERT(bits_in_buf_ >= num_bits);
if (JXL_CRASH_ON_ERROR) {
// When JXL_CRASH_ON_ERROR is defined, it is a fatal error to read more
// bits than available in the stream. A non-zero overread_bytes_ implies
// that next_byte_ is already at the end of the stream, so we don't need
// to check that.
JXL_DASSERT(bits_in_buf_ >= num_bits + overread_bytes_ * kBitsPerByte);
}
bits_in_buf_ -= num_bits;
buf_ >>= num_bits;
}
JXL_INLINE uint64_t ReadBits(size_t nbits) {
JXL_DASSERT(!close_called_);
Refill();
const uint64_t bits = PeekBits(nbits);
Consume(nbits);
return bits;
}
template <size_t N>
JXL_INLINE uint64_t ReadFixedBits() {
JXL_DASSERT(!close_called_);
Refill();
const uint64_t bits = PeekFixedBits<N>();
Consume(N);
return bits;
}
// Equivalent to calling ReadFixedBits(1) `skip` times, but much faster.
// `skip` is typically large.
void SkipBits(size_t skip) {
JXL_DASSERT(!close_called_);
// Buffer is large enough - don't zero buf_ below.
if (JXL_UNLIKELY(skip <= bits_in_buf_)) {
Consume(skip);
return;
}
// First deduct what we can satisfy from the buffer
skip -= bits_in_buf_;
bits_in_buf_ = 0;
// Not enough to call Advance - that may leave some bits in the buffer
// which were previously ABOVE bits_in_buf.
buf_ = 0;
// Skip whole bytes
const size_t whole_bytes = skip / kBitsPerByte;
skip %= kBitsPerByte;
if (JXL_UNLIKELY(whole_bytes >
static_cast<size_t>(end_minus_8_ + 8 - next_byte_))) {
// This is already an overflow condition (skipping past the end of the bit
// stream). However if we increase next_byte_ too much we risk overflowing
// that value and potentially making it valid again (next_byte_ < end).
// This will set next_byte_ to the end of the stream and still consume
// some bits in overread_bytes_, however the TotalBitsConsumed() will be
// incorrect (still larger than the TotalBytes()).
next_byte_ = end_minus_8_ + 8;
skip += kBitsPerByte;
} else {
next_byte_ += whole_bytes;
}
Refill();
Consume(skip);
}
size_t TotalBitsConsumed() const {
const size_t bytes_read = static_cast<size_t>(next_byte_ - first_byte_);
return (bytes_read + overread_bytes_) * kBitsPerByte - bits_in_buf_;
}
Status JumpToByteBoundary() {
const size_t remainder = TotalBitsConsumed() % kBitsPerByte;
if (remainder == 0) return true;
if (JXL_UNLIKELY(ReadBits(kBitsPerByte - remainder) != 0)) {
return JXL_FAILURE("Non-zero padding bits");
}
return true;
}
// For interoperability with other bitreaders (for resuming at
// non-byte-aligned positions).
const uint8_t* FirstByte() const { return first_byte_; }
size_t TotalBytes() const {
return static_cast<size_t>(end_minus_8_ + 8 - first_byte_);
}
// Returns whether all the bits read so far have been within the input bounds.
// When reading past the EOF, the Read*() and Consume() functions return zeros
// but flag a failure when calling Close() without checking this function.
Status AllReadsWithinBounds() {
// Mark up to which point the user checked the out of bounds condition. If
// the user handles the condition at higher level (e.g. fetch more bytes
// from network, return a custom JXL_FAILURE, ...), Close() should not
// output a debug error (which would break tests with JXL_CRASH_ON_ERROR
// even when legitimately handling the situation at higher level). This is
// used by Bundle::CanRead.
checked_out_of_bounds_bits_ = TotalBitsConsumed();
if (TotalBitsConsumed() > TotalBytes() * kBitsPerByte) {
return false;
}
return true;
}
// Close the bit reader and return whether all the previous reads were
// successful. Close must be called once.
Status Close() {
JXL_DASSERT(!close_called_);
close_called_ = true;
if (!first_byte_) return true;
if (TotalBitsConsumed() > checked_out_of_bounds_bits_ &&
TotalBitsConsumed() > TotalBytes() * kBitsPerByte) {
return JXL_FAILURE("Read more bits than available in the bit_reader");
}
return true;
}
private:
// Separate function avoids inlining this relatively cold code into callers.
JXL_NOINLINE void BoundsCheckedRefill() {
const uint8_t* end = end_minus_8_ + 8;
// Read whole bytes until we have [56, 64) bits (same as LoadLE64)
for (; bits_in_buf_ < 64 - kBitsPerByte; bits_in_buf_ += kBitsPerByte) {
if (next_byte_ >= end) break;
buf_ |= static_cast<uint64_t>(*next_byte_++) << bits_in_buf_;
}
JXL_DASSERT(bits_in_buf_ < 64);
// Add extra bytes as 0 at the end of the stream in the bit_buffer_. If
// these bits are read, Close() will return a failure.
size_t extra_bytes = (63 - bits_in_buf_) / kBitsPerByte;
overread_bytes_ += extra_bytes;
bits_in_buf_ += extra_bytes * kBitsPerByte;
JXL_DASSERT(bits_in_buf_ < 64);
JXL_DASSERT(bits_in_buf_ >= 56);
}
JXL_NOINLINE uint32_t BoundsCheckedReadByteAlignedWord() {
if (next_byte_ + 1 < end_minus_8_ + 8) {
uint32_t ret = LoadLE16(next_byte_);
next_byte_ += 2;
return ret;
}
overread_bytes_ += 2;
return 0;
}
uint64_t buf_;
size_t bits_in_buf_; // [0, 64)
const uint8_t* JXL_RESTRICT next_byte_;
const uint8_t* end_minus_8_; // for refill bounds check
const uint8_t* first_byte_; // for GetSpan
// Number of bytes past the end that were loaded into the buf_. These bytes
// are not read from memory, but instead assumed 0. It is an error (likely due
// to an invalid stream) to Consume() more bits than specified in the range
// passed to the constructor.
uint64_t overread_bytes_{0};
bool close_called_{false};
uint64_t checked_out_of_bounds_bits_{0};
};
// Closes a BitReader when the BitReaderScopedCloser goes out of scope. When
// closing the bit reader, if the status result was failure it sets this failure
// to the passed variable pointer. Typical usage.
//
// Status ret = true;
// {
// BitReader reader(...);
// BitReaderScopedCloser reader_closer(&reader, &ret);
//
// // ... code that can return errors here ...
// }
// // ... more code that doesn't use the BitReader.
// return ret;
class BitReaderScopedCloser {
public:
BitReaderScopedCloser(BitReader& reader, Status& status)
: reader_(&reader), status_(&status) {}
~BitReaderScopedCloser() {
if (reader_ != nullptr) {
Status close_ret = reader_->Close();
if (!close_ret) *status_ = close_ret;
}
}
BitReaderScopedCloser(const BitReaderScopedCloser&) = delete;
private:
BitReader* reader_;
Status* status_;
};
} // namespace jxl
#endif // LIB_JXL_DEC_BIT_READER_H_