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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2014 Red Hat <contact@redhat.com>
*
* LGPL2.1 (see COPYING-LGPL2.1) or later
*/
#ifndef BIT_VECTOR_HPP
#define BIT_VECTOR_HPP
#include "common/Formatter.h"
#include "include/ceph_assert.h"
#include "include/encoding.h"
#include <memory>
#include <utility>
#include <vector>
namespace ceph {
template <uint8_t _bit_count>
class BitVector
{
private:
static const uint8_t BITS_PER_BYTE = 8;
static const uint32_t ELEMENTS_PER_BLOCK = BITS_PER_BYTE / _bit_count;
static const uint8_t MASK = static_cast<uint8_t>((1 << _bit_count) - 1);
// must be power of 2
BOOST_STATIC_ASSERT((_bit_count != 0) && !(_bit_count & (_bit_count - 1)));
BOOST_STATIC_ASSERT(_bit_count <= BITS_PER_BYTE);
template <typename DataIterator>
class ReferenceImpl {
protected:
DataIterator m_data_iterator;
uint64_t m_shift;
ReferenceImpl(const DataIterator& data_iterator, uint64_t shift)
: m_data_iterator(data_iterator), m_shift(shift) {
}
ReferenceImpl(DataIterator&& data_iterator, uint64_t shift)
: m_data_iterator(std::move(data_iterator)), m_shift(shift) {
}
public:
inline operator uint8_t() const {
return (*m_data_iterator >> m_shift) & MASK;
}
};
public:
class ConstReference : public ReferenceImpl<bufferlist::const_iterator> {
private:
friend class BitVector;
ConstReference(const bufferlist::const_iterator& data_iterator,
uint64_t shift)
: ReferenceImpl<bufferlist::const_iterator>(data_iterator, shift) {
}
ConstReference(bufferlist::const_iterator&& data_iterator, uint64_t shift)
: ReferenceImpl<bufferlist::const_iterator>(std::move(data_iterator),
shift) {
}
};
class Reference : public ReferenceImpl<bufferlist::iterator> {
public:
Reference& operator=(uint8_t v);
private:
friend class BitVector;
Reference(const bufferlist::iterator& data_iterator, uint64_t shift)
: ReferenceImpl<bufferlist::iterator>(data_iterator, shift) {
}
Reference(bufferlist::iterator&& data_iterator, uint64_t shift)
: ReferenceImpl<bufferlist::iterator>(std::move(data_iterator), shift) {
}
};
public:
template <typename BitVectorT, typename DataIterator>
class IteratorImpl {
private:
friend class BitVector;
uint64_t m_offset = 0;
BitVectorT *m_bit_vector;
// cached derived values
uint64_t m_index = 0;
uint64_t m_shift = 0;
DataIterator m_data_iterator;
IteratorImpl(BitVectorT *bit_vector, uint64_t offset)
: m_bit_vector(bit_vector),
m_data_iterator(bit_vector->m_data.begin()) {
*this += offset;
}
public:
inline IteratorImpl& operator++() {
++m_offset;
uint64_t index;
compute_index(m_offset, &index, &m_shift);
ceph_assert(index == m_index || index == m_index + 1);
if (index > m_index) {
m_index = index;
++m_data_iterator;
}
return *this;
}
inline IteratorImpl& operator+=(uint64_t offset) {
m_offset += offset;
compute_index(m_offset, &m_index, &m_shift);
if (m_offset < m_bit_vector->size()) {
m_data_iterator.seek(m_index);
} else {
m_data_iterator = m_bit_vector->m_data.end();
}
return *this;
}
inline IteratorImpl operator++(int) {
IteratorImpl iterator_impl(*this);
++iterator_impl;
return iterator_impl;
}
inline IteratorImpl operator+(uint64_t offset) {
IteratorImpl iterator_impl(*this);
iterator_impl += offset;
return iterator_impl;
}
inline bool operator==(const IteratorImpl& rhs) const {
return (m_offset == rhs.m_offset && m_bit_vector == rhs.m_bit_vector);
}
inline bool operator!=(const IteratorImpl& rhs) const {
return (m_offset != rhs.m_offset || m_bit_vector != rhs.m_bit_vector);
}
inline ConstReference operator*() const {
return ConstReference(m_data_iterator, m_shift);
}
inline Reference operator*() {
return Reference(m_data_iterator, m_shift);
}
};
typedef IteratorImpl<const BitVector,
bufferlist::const_iterator> ConstIterator;
typedef IteratorImpl<BitVector, bufferlist::iterator> Iterator;
static const uint32_t BLOCK_SIZE;
static const uint8_t BIT_COUNT = _bit_count;
BitVector();
inline ConstIterator begin() const {
return ConstIterator(this, 0);
}
inline ConstIterator end() const {
return ConstIterator(this, m_size);
}
inline Iterator begin() {
return Iterator(this, 0);
}
inline Iterator end() {
return Iterator(this, m_size);
}
void set_crc_enabled(bool enabled) {
m_crc_enabled = enabled;
}
void clear();
void resize(uint64_t elements);
uint64_t size() const;
const bufferlist& get_data() const;
Reference operator[](uint64_t offset);
ConstReference operator[](uint64_t offset) const;
void encode_header(bufferlist& bl) const;
void decode_header(bufferlist::const_iterator& it);
uint64_t get_header_length() const;
void encode_data(bufferlist& bl, uint64_t data_byte_offset,
uint64_t byte_length) const;
void decode_data(bufferlist::const_iterator& it, uint64_t data_byte_offset);
void get_data_extents(uint64_t offset, uint64_t length,
uint64_t *data_byte_offset,
uint64_t *object_byte_offset,
uint64_t *byte_length) const;
void encode_footer(bufferlist& bl) const;
void decode_footer(bufferlist::const_iterator& it);
uint64_t get_footer_offset() const;
void decode_header_crc(bufferlist::const_iterator& it);
void get_header_crc_extents(uint64_t *byte_offset,
uint64_t *byte_length) const;
void encode_data_crcs(bufferlist& bl, uint64_t offset,
uint64_t length) const;
void decode_data_crcs(bufferlist::const_iterator& it, uint64_t offset);
void get_data_crcs_extents(uint64_t offset, uint64_t length,
uint64_t *byte_offset,
uint64_t *byte_length) const;
void encode(bufferlist& bl) const;
void decode(bufferlist::const_iterator& it);
void dump(Formatter *f) const;
bool operator==(const BitVector &b) const;
static void generate_test_instances(std::list<BitVector *> &o);
private:
bufferlist m_data;
uint64_t m_size;
bool m_crc_enabled;
mutable __u32 m_header_crc;
// inhibit value-initialization when used in std::vector
struct u32_struct {
u32_struct() {}
__u32 val;
};
mutable std::vector<u32_struct> m_data_crcs;
void resize(uint64_t elements, bool zero);
static void compute_index(uint64_t offset, uint64_t *index, uint64_t *shift);
};
template <uint8_t _b>
const uint32_t BitVector<_b>::BLOCK_SIZE = 4096;
template <uint8_t _b>
BitVector<_b>::BitVector() : m_size(0), m_crc_enabled(true), m_header_crc(0)
{
}
template <uint8_t _b>
void BitVector<_b>::clear() {
m_data.clear();
m_data_crcs.clear();
m_size = 0;
m_header_crc = 0;
}
template <uint8_t _b>
void BitVector<_b>::resize(uint64_t size) {
resize(size, true);
}
template <uint8_t _b>
void BitVector<_b>::resize(uint64_t size, bool zero) {
uint64_t buffer_size = (size + ELEMENTS_PER_BLOCK - 1) / ELEMENTS_PER_BLOCK;
if (buffer_size > m_data.length()) {
if (zero) {
m_data.append_zero(buffer_size - m_data.length());
} else {
m_data.append(buffer::ptr(buffer_size - m_data.length()));
}
} else if (buffer_size < m_data.length()) {
bufferlist bl;
bl.substr_of(m_data, 0, buffer_size);
bl.swap(m_data);
}
m_size = size;
uint64_t block_count = (buffer_size + BLOCK_SIZE - 1) / BLOCK_SIZE;
m_data_crcs.resize(block_count);
}
template <uint8_t _b>
uint64_t BitVector<_b>::size() const {
return m_size;
}
template <uint8_t _b>
const bufferlist& BitVector<_b>::get_data() const {
return m_data;
}
template <uint8_t _b>
void BitVector<_b>::compute_index(uint64_t offset, uint64_t *index, uint64_t *shift) {
*index = offset / ELEMENTS_PER_BLOCK;
*shift = ((ELEMENTS_PER_BLOCK - 1) - (offset % ELEMENTS_PER_BLOCK)) * _b;
}
template <uint8_t _b>
void BitVector<_b>::encode_header(bufferlist& bl) const {
bufferlist header_bl;
ENCODE_START(1, 1, header_bl);
encode(m_size, header_bl);
ENCODE_FINISH(header_bl);
m_header_crc = header_bl.crc32c(0);
encode(header_bl, bl);
}
template <uint8_t _b>
void BitVector<_b>::decode_header(bufferlist::const_iterator& it) {
using ceph::decode;
bufferlist header_bl;
decode(header_bl, it);
auto header_it = header_bl.cbegin();
uint64_t size;
DECODE_START(1, header_it);
decode(size, header_it);
DECODE_FINISH(header_it);
resize(size, false);
m_header_crc = header_bl.crc32c(0);
}
template <uint8_t _b>
uint64_t BitVector<_b>::get_header_length() const {
// 4 byte bl length, 6 byte encoding header, 8 byte size
return 18;
}
template <uint8_t _b>
void BitVector<_b>::encode_data(bufferlist& bl, uint64_t data_byte_offset,
uint64_t byte_length) const {
ceph_assert(data_byte_offset % BLOCK_SIZE == 0);
ceph_assert(data_byte_offset + byte_length == m_data.length() ||
byte_length % BLOCK_SIZE == 0);
uint64_t end_offset = data_byte_offset + byte_length;
while (data_byte_offset < end_offset) {
uint64_t len = std::min<uint64_t>(BLOCK_SIZE,
end_offset - data_byte_offset);
bufferlist bit;
bit.substr_of(m_data, data_byte_offset, len);
m_data_crcs[data_byte_offset / BLOCK_SIZE].val = bit.crc32c(0);
bl.claim_append(bit);
data_byte_offset += BLOCK_SIZE;
}
}
template <uint8_t _b>
void BitVector<_b>::decode_data(bufferlist::const_iterator& it,
uint64_t data_byte_offset) {
ceph_assert(data_byte_offset % BLOCK_SIZE == 0);
if (it.end()) {
return;
}
uint64_t end_offset = data_byte_offset + it.get_remaining();
if (end_offset > m_data.length()) {
throw buffer::end_of_buffer();
}
bufferlist data;
if (data_byte_offset > 0) {
data.substr_of(m_data, 0, data_byte_offset);
}
while (data_byte_offset < end_offset) {
uint64_t len = std::min<uint64_t>(BLOCK_SIZE, end_offset - data_byte_offset);
bufferptr ptr;
it.copy_deep(len, ptr);
bufferlist bit;
bit.append(ptr);
if (m_crc_enabled &&
m_data_crcs[data_byte_offset / BLOCK_SIZE].val != bit.crc32c(0)) {
throw buffer::malformed_input("invalid data block CRC");
}
data.append(bit);
data_byte_offset += bit.length();
}
if (m_data.length() > end_offset) {
bufferlist tail;
tail.substr_of(m_data, end_offset, m_data.length() - end_offset);
data.append(tail);
}
ceph_assert(data.length() == m_data.length());
data.swap(m_data);
}
template <uint8_t _b>
void BitVector<_b>::get_data_extents(uint64_t offset, uint64_t length,
uint64_t *data_byte_offset,
uint64_t *object_byte_offset,
uint64_t *byte_length) const {
// read BLOCK_SIZE-aligned chunks
ceph_assert(length > 0 && offset + length <= m_size);
uint64_t shift;
compute_index(offset, data_byte_offset, &shift);
*data_byte_offset -= (*data_byte_offset % BLOCK_SIZE);
uint64_t end_offset;
compute_index(offset + length - 1, &end_offset, &shift);
end_offset += (BLOCK_SIZE - (end_offset % BLOCK_SIZE));
ceph_assert(*data_byte_offset <= end_offset);
*object_byte_offset = get_header_length() + *data_byte_offset;
*byte_length = end_offset - *data_byte_offset;
if (*data_byte_offset + *byte_length > m_data.length()) {
*byte_length = m_data.length() - *data_byte_offset;
}
}
template <uint8_t _b>
void BitVector<_b>::encode_footer(bufferlist& bl) const {
using ceph::encode;
bufferlist footer_bl;
if (m_crc_enabled) {
encode(m_header_crc, footer_bl);
__u32 size = m_data_crcs.size();
encode(size, footer_bl);
encode_data_crcs(footer_bl, 0, m_size);
}
encode(footer_bl, bl);
}
template <uint8_t _b>
void BitVector<_b>::decode_footer(bufferlist::const_iterator& it) {
using ceph::decode;
bufferlist footer_bl;
decode(footer_bl, it);
m_crc_enabled = (footer_bl.length() > 0);
if (m_crc_enabled) {
auto footer_it = footer_bl.cbegin();
decode_header_crc(footer_it);
__u32 data_src_size;
decode(data_src_size, footer_it);
decode_data_crcs(footer_it, 0);
uint64_t block_count = (m_data.length() + BLOCK_SIZE - 1) / BLOCK_SIZE;
if (m_data_crcs.size() != block_count) {
throw buffer::malformed_input("invalid data block CRCs");
}
}
}
template <uint8_t _b>
uint64_t BitVector<_b>::get_footer_offset() const {
return get_header_length() + m_data.length();
}
template <uint8_t _b>
void BitVector<_b>::decode_header_crc(bufferlist::const_iterator& it) {
if (it.get_remaining() > 0) {
__u32 header_crc;
ceph::decode(header_crc, it);
if (m_header_crc != header_crc) {
throw buffer::malformed_input("incorrect header CRC");
}
}
}
template <uint8_t _b>
void BitVector<_b>::get_header_crc_extents(uint64_t *byte_offset,
uint64_t *byte_length) const {
// footer is prefixed with a bufferlist length
*byte_offset = get_footer_offset() + sizeof(__u32);
*byte_length = sizeof(__u32);
}
template <uint8_t _b>
void BitVector<_b>::encode_data_crcs(bufferlist& bl, uint64_t offset,
uint64_t length) const {
if (length == 0) {
return;
}
uint64_t index;
uint64_t shift;
compute_index(offset, &index, &shift);
uint64_t crc_index = index / BLOCK_SIZE;
compute_index(offset + length - 1, &index, &shift);
uint64_t end_crc_index = index / BLOCK_SIZE;
while (crc_index <= end_crc_index) {
__u32 crc = m_data_crcs[crc_index++].val;
ceph::encode(crc, bl);
}
}
template <uint8_t _b>
void BitVector<_b>::decode_data_crcs(bufferlist::const_iterator& it,
uint64_t offset) {
if (it.end()) {
return;
}
uint64_t index;
uint64_t shift;
compute_index(offset, &index, &shift);
uint64_t crc_index = index / BLOCK_SIZE;
uint64_t remaining = it.get_remaining() / sizeof(__u32);
while (remaining > 0) {
__u32 crc;
ceph::decode(crc, it);
m_data_crcs[crc_index++].val = crc;
--remaining;
}
}
template <uint8_t _b>
void BitVector<_b>::get_data_crcs_extents(uint64_t offset, uint64_t length,
uint64_t *byte_offset,
uint64_t *byte_length) const {
// data CRCs immediately follow the header CRC
get_header_crc_extents(byte_offset, byte_length);
*byte_offset += *byte_length;
// skip past data CRC vector size
*byte_offset += sizeof(__u32);
// CRCs are computed over BLOCK_SIZE chunks
ceph_assert(length > 0 && offset + length <= m_size);
uint64_t index;
uint64_t shift;
compute_index(offset, &index, &shift);
uint64_t start_byte_offset =
*byte_offset + ((index / BLOCK_SIZE) * sizeof(__u32));
compute_index(offset + length, &index, &shift);
uint64_t end_byte_offset =
*byte_offset + (((index / BLOCK_SIZE) + 1) * sizeof(__u32));
ceph_assert(start_byte_offset < end_byte_offset);
*byte_offset = start_byte_offset;
*byte_length = end_byte_offset - start_byte_offset;
}
template <uint8_t _b>
void BitVector<_b>::encode(bufferlist& bl) const {
encode_header(bl);
encode_data(bl, 0, m_data.length());
encode_footer(bl);
}
template <uint8_t _b>
void BitVector<_b>::decode(bufferlist::const_iterator& it) {
decode_header(it);
bufferlist data_bl;
if (m_data.length() > 0) {
it.copy(m_data.length(), data_bl);
}
decode_footer(it);
auto data_it = data_bl.cbegin();
decode_data(data_it, 0);
}
template <uint8_t _b>
void BitVector<_b>::dump(Formatter *f) const {
f->dump_unsigned("size", m_size);
f->open_array_section("bit_table");
for (unsigned i = 0; i < m_data.length(); ++i) {
f->dump_format("byte", "0x%02hhX", m_data[i]);
}
f->close_section();
}
template <uint8_t _b>
bool BitVector<_b>::operator==(const BitVector &b) const {
return (this->m_size == b.m_size && this->m_data == b.m_data);
}
template <uint8_t _b>
typename BitVector<_b>::Reference BitVector<_b>::operator[](uint64_t offset) {
uint64_t index;
uint64_t shift;
compute_index(offset, &index, &shift);
bufferlist::iterator data_iterator(m_data.begin());
data_iterator.seek(index);
return Reference(std::move(data_iterator), shift);
}
template <uint8_t _b>
typename BitVector<_b>::ConstReference BitVector<_b>::operator[](uint64_t offset) const {
uint64_t index;
uint64_t shift;
compute_index(offset, &index, &shift);
bufferlist::const_iterator data_iterator(m_data.begin());
data_iterator.seek(index);
return ConstReference(std::move(data_iterator), shift);
}
template <uint8_t _b>
typename BitVector<_b>::Reference& BitVector<_b>::Reference::operator=(uint8_t v) {
uint8_t mask = MASK << this->m_shift;
char packed_value = (*this->m_data_iterator & ~mask) |
((v << this->m_shift) & mask);
bufferlist::iterator it(this->m_data_iterator);
it.copy_in(1, &packed_value, true);
return *this;
}
template <uint8_t _b>
void BitVector<_b>::generate_test_instances(std::list<BitVector *> &o) {
o.push_back(new BitVector());
BitVector *b = new BitVector();
const uint64_t radix = 1 << b->BIT_COUNT;
const uint64_t size = 1024;
b->resize(size, false);
for (uint64_t i = 0; i < size; ++i) {
(*b)[i] = rand() % radix;
}
o.push_back(b);
}
WRITE_CLASS_ENCODER(ceph::BitVector<2>)
template <uint8_t _b>
inline std::ostream& operator<<(std::ostream& out, const ceph::BitVector<_b> &b)
{
out << "ceph::BitVector<" << _b << ">(size=" << b.size() << ", data="
<< b.get_data() << ")";
return out;
}
}
#endif // BIT_VECTOR_HPP
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