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https://github.com/facebook/rocksdb.git
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0a0151fb99
Summary: In direct IO mode, RandomAccessFileReader::Read allocates an internal aligned buffer, and then copies the result into the scratch buffer. If the result is only temporarily used inside a function, there is no need to do the memcpy and just let the result Slice refer to the internally allocated buffer. Pull Request resolved: https://github.com/facebook/rocksdb/pull/6455 Test Plan: make check Differential Revision: D20106753 Pulled By: cheng-chang fbshipit-source-id: 44f505843837bba47a56e3fa2c4dd3bd76486b58
256 lines
7.7 KiB
C++
256 lines
7.7 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#pragma once
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#include <algorithm>
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#include "port/port.h"
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namespace ROCKSDB_NAMESPACE {
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// This file contains utilities to handle the alignment of pages and buffers.
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// Truncate to a multiple of page_size, which is also a page boundary. This
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// helps to figuring out the right alignment.
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// Example:
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// TruncateToPageBoundary(5000, 4096) => 4096
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// TruncateToPageBoundary(10000, 4096) => 8192
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inline size_t TruncateToPageBoundary(size_t page_size, size_t s) {
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s -= (s & (page_size - 1));
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assert((s % page_size) == 0);
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return s;
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}
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// Round up x to a multiple of y.
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// Example:
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// Roundup(13, 5) => 15
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// Roundup(201, 16) => 208
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inline size_t Roundup(size_t x, size_t y) {
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return ((x + y - 1) / y) * y;
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}
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// Round down x to a multiple of y.
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// Example:
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// Rounddown(13, 5) => 10
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// Rounddown(201, 16) => 192
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inline size_t Rounddown(size_t x, size_t y) { return (x / y) * y; }
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// AlignedBuffer manages a buffer by taking alignment into consideration, and
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// aligns the buffer start and end positions. It is mainly used for direct I/O,
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// though it can be used other purposes as well.
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// It also supports expanding the managed buffer, and copying whole or part of
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// the data from old buffer into the new expanded buffer. Such a copy especially
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// helps in cases avoiding an IO to re-fetch the data from disk.
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//
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// Example:
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// AlignedBuffer buf;
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// buf.Alignment(alignment);
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// buf.AllocateNewBuffer(user_requested_buf_size);
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// ...
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// buf.AllocateNewBuffer(2*user_requested_buf_size, /*copy_data*/ true,
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// copy_offset, copy_len);
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class AlignedBuffer {
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size_t alignment_;
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std::unique_ptr<char[]> buf_;
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size_t capacity_;
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size_t cursize_;
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char* bufstart_;
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public:
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AlignedBuffer()
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: alignment_(),
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capacity_(0),
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cursize_(0),
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bufstart_(nullptr) {
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}
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AlignedBuffer(AlignedBuffer&& o) ROCKSDB_NOEXCEPT {
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*this = std::move(o);
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}
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AlignedBuffer& operator=(AlignedBuffer&& o) ROCKSDB_NOEXCEPT {
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alignment_ = std::move(o.alignment_);
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buf_ = std::move(o.buf_);
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capacity_ = std::move(o.capacity_);
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cursize_ = std::move(o.cursize_);
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bufstart_ = std::move(o.bufstart_);
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return *this;
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}
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AlignedBuffer(const AlignedBuffer&) = delete;
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AlignedBuffer& operator=(const AlignedBuffer&) = delete;
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static bool isAligned(const void* ptr, size_t alignment) {
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return reinterpret_cast<uintptr_t>(ptr) % alignment == 0;
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}
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static bool isAligned(size_t n, size_t alignment) {
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return n % alignment == 0;
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}
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size_t Alignment() const {
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return alignment_;
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}
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size_t Capacity() const {
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return capacity_;
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}
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size_t CurrentSize() const {
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return cursize_;
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}
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const char* BufferStart() const {
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return bufstart_;
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}
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char* BufferStart() { return bufstart_; }
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void Clear() {
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cursize_ = 0;
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}
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char* Release() {
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cursize_ = 0;
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capacity_ = 0;
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bufstart_ = nullptr;
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return buf_.release();
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}
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void Alignment(size_t alignment) {
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assert(alignment > 0);
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assert((alignment & (alignment - 1)) == 0);
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alignment_ = alignment;
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}
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// Allocates a new buffer and sets the start position to the first aligned
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// byte.
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//
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// requested_capacity: requested new buffer capacity. This capacity will be
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// rounded up based on alignment.
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// copy_data: Copy data from old buffer to new buffer. If copy_offset and
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// copy_len are not passed in and the new requested capacity is bigger
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// than the existing buffer's capacity, the data in the exising buffer is
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// fully copied over to the new buffer.
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// copy_offset: Copy data from this offset in old buffer.
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// copy_len: Number of bytes to copy.
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//
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// The function does nothing if the new requested_capacity is smaller than
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// the current buffer capacity and copy_data is true i.e. the old buffer is
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// retained as is.
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void AllocateNewBuffer(size_t requested_capacity, bool copy_data = false,
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uint64_t copy_offset = 0, size_t copy_len = 0) {
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assert(alignment_ > 0);
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assert((alignment_ & (alignment_ - 1)) == 0);
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copy_len = copy_len > 0 ? copy_len : cursize_;
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if (copy_data && requested_capacity < copy_len) {
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// If we are downsizing to a capacity that is smaller than the current
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// data in the buffer -- Ignore the request.
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return;
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}
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size_t new_capacity = Roundup(requested_capacity, alignment_);
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char* new_buf = new char[new_capacity + alignment_];
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char* new_bufstart = reinterpret_cast<char*>(
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(reinterpret_cast<uintptr_t>(new_buf) + (alignment_ - 1)) &
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~static_cast<uintptr_t>(alignment_ - 1));
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if (copy_data) {
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assert(bufstart_ + copy_offset + copy_len <= bufstart_ + cursize_);
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memcpy(new_bufstart, bufstart_ + copy_offset, copy_len);
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cursize_ = copy_len;
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} else {
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cursize_ = 0;
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}
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bufstart_ = new_bufstart;
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capacity_ = new_capacity;
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buf_.reset(new_buf);
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}
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// Append to the buffer.
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//
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// src : source to copy the data from.
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// append_size : number of bytes to copy from src.
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// Returns the number of bytes appended.
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//
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// If append_size is more than the remaining buffer size only the
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// remaining-size worth of bytes are copied.
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size_t Append(const char* src, size_t append_size) {
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size_t buffer_remaining = capacity_ - cursize_;
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size_t to_copy = std::min(append_size, buffer_remaining);
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if (to_copy > 0) {
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memcpy(bufstart_ + cursize_, src, to_copy);
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cursize_ += to_copy;
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}
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return to_copy;
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}
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// Read from the buffer.
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//
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// dest : destination buffer to copy the data to.
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// offset : the buffer offset to start reading from.
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// read_size : the number of bytes to copy from the buffer to dest.
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// Returns the number of bytes read/copied to dest.
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size_t Read(char* dest, size_t offset, size_t read_size) const {
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assert(offset < cursize_);
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size_t to_read = 0;
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if(offset < cursize_) {
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to_read = std::min(cursize_ - offset, read_size);
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}
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if (to_read > 0) {
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memcpy(dest, bufstart_ + offset, to_read);
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}
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return to_read;
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}
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// Pad to the end of alignment with "padding"
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void PadToAlignmentWith(int padding) {
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size_t total_size = Roundup(cursize_, alignment_);
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size_t pad_size = total_size - cursize_;
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if (pad_size > 0) {
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assert((pad_size + cursize_) <= capacity_);
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memset(bufstart_ + cursize_, padding, pad_size);
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cursize_ += pad_size;
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}
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}
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void PadWith(size_t pad_size, int padding) {
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assert((pad_size + cursize_) <= capacity_);
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memset(bufstart_ + cursize_, padding, pad_size);
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cursize_ += pad_size;
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}
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// After a partial flush move the tail to the beginning of the buffer.
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void RefitTail(size_t tail_offset, size_t tail_size) {
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if (tail_size > 0) {
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memmove(bufstart_, bufstart_ + tail_offset, tail_size);
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}
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cursize_ = tail_size;
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}
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// Returns a place to start appending.
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// WARNING: Note that it is possible to write past the end of the buffer if
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// the buffer is modified without using the write APIs or encapsulation
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// offered by AlignedBuffer. It is up to the user to guard against such
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// errors.
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char* Destination() {
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return bufstart_ + cursize_;
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}
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void Size(size_t cursize) {
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cursize_ = cursize;
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}
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};
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} // namespace ROCKSDB_NAMESPACE
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