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rocksdb/thrift/lib/cpp/transport/TMemPagedTransport.tcc

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
#ifndef _THRIFT_TRANSPORT_TMEMPAGEDTRANSPORT_HPP_
#define _THRIFT_TRANSPORT_TMEMPAGEDTRANSPORT_HPP_ 1
#include "thrift/lib/cpp/transport/TMemPagedTransport.h"
#include <cstring>
namespace apache { namespace thrift { namespace transport {
/**
* Reset buffer for read
*/
inline void TMemPagedTransport::resetForRead() {
currentReadPage_ = headPage_;
currentReadOffset_ = 0;
}
/**
* Reset buffer for write
*/
inline void TMemPagedTransport::resetForWrite(bool releaseAllPages) {
FixedSizeMemoryPage* discardPage = NULL;
if (releaseAllPages) { // release all pages
discardPage = headPage_;
headPage_ = NULL;
} else { // make sure head page left or created
if (!headPage_) { // allocate page if any
headPage_ = factory_->getPage();
} else {
discardPage = headPage_->next_;
headPage_->next_ = NULL;
}
}
while (discardPage) {
FixedSizeMemoryPage* pageForDeletion = discardPage;
discardPage = discardPage->next_;
factory_->returnPage(pageForDeletion);
}
// reset
currentReadPage_ = currentWritePage_ = headPage_;
currentReadOffset_ = currentWriteOffset_ = 0;
}
/**
* Returns number of bytes already read from buffer
*/
inline uint32_t TMemPagedTransport::getReadBytes() const {
uint32_t ret = 0;
FixedSizeMemoryPage* page = headPage_;
while (page) {
if (page == currentReadPage_) {
ret += currentReadOffset_;
break;
} else {
ret += pageSize_;
}
page = page->next_;
}
// return result
return ret;
}
/**
* Returns current bytes written in buffer
*/
inline uint32_t TMemPagedTransport::getWrittenBytes() const {
uint32_t ret = 0;
FixedSizeMemoryPage* page = headPage_;
while (page) {
if (page == currentWritePage_) {
ret += currentWriteOffset_;
break;
} else {
ret += pageSize_;
}
page = page->next_;
}
// return result
return ret;
}
/**
* Implementations of the base functions
*/
inline uint32_t TMemPagedTransport::read(uint8_t* buf, uint32_t len) {
if (!buf) {
throw TTransportException(TTransportException::BAD_ARGS);
}
return get(buf, len);
}
inline void TMemPagedTransport::write(const uint8_t* buf, uint32_t len) {
if (!buf) {
throw TTransportException(TTransportException::BAD_ARGS);
}
set(buf, len);
}
/**
* interface extension, not part of the TTrasport
* similar to consume but for the write
*/
inline void TMemPagedTransport::skip(uint32_t len) {
set(NULL, len);
}
inline const uint8_t* TMemPagedTransport::borrow(uint8_t* buf, uint32_t* len) {
// - possible scenarios
// - buf is NULL
// -- available bytes for current page >= len - (return internal pointer)
// -- available bytes for current page < len - return NULL, set len 0
// - buf is not NULL
// -- available bytes for current page >= len - (return internal pointer)
// -- available bytes for current page < len - copy to the external buffer
FixedSizeMemoryPage* page = currentReadPage_;
uint32_t readOffset = currentReadOffset_;
if (!page) { // no memory available
*len = 0;
return NULL;
}
uint32_t capacity = *len; // requested capacity
uint32_t available = 0;
if (page == currentWritePage_) {
available = currentWriteOffset_ - readOffset;
} else {
available = pageSize_ - readOffset;
}
if (available >= capacity) { // enough available bytes
*len = available; // assign available bytes
return page->buffer_ + readOffset; // return readable memory pointer
}
// not enough available bytes on the current page
if (!buf) { // buffer is not provided
*len = 0;
return NULL;
}
// buffer is provided, make memory copy from current page if any
available = std::min(available, capacity);
if (available) {
std::memcpy(buf + *len - capacity,
page->buffer_ + readOffset,
available);
// adjust capacity
capacity -= available;
// adjust offset
readOffset += available;
}
// copy the rest if available
while (capacity) { // read until all buffer filled
if (page == currentWritePage_ &&
readOffset == currentWriteOffset_) {
*len = 0;
return NULL; // no more available bytes for read
} else {
// if read and write on the same page
if (page == currentWritePage_) {
available = currentWriteOffset_ - readOffset;
} else if (!(available = pageSize_ - readOffset)) {
// move to next page
page = page->next_;
assert(page);
readOffset = 0;
continue;
}
}
// how many bytes we can read
available = std::min(capacity, available);
// memory copy
std::memcpy(buf + *len - capacity,
page->buffer_ + readOffset,
available);
// adjust capacity
capacity -= available;
// adjust page read offset
readOffset += available;
// move to the next page if end is reached
// and more pages for read available
if (readOffset == pageSize_ &&
page != currentWritePage_) {
page = page->next_;
assert(page);
// reset offset
readOffset = 0;
}
}
// return result, leave len as it is
return buf;
}
/**
* interface extension, not part of the TTrasport
* make sure there are some bytes for write at the same page available
*/
inline uint8_t* TMemPagedTransport::reserve(uint32_t* len, bool throwOnError) {
if (!currentWritePage_ || pageSize_ == currentWriteOffset_) {
FixedSizeMemoryPage* newPage = factory_->getPage(throwOnError);
if (!newPage) { // no memory
return NULL;
}
if (currentWritePage_) {
currentWritePage_->next_ = newPage;
} else {
headPage_ = currentReadPage_ = newPage;
}
currentWritePage_ = newPage;
// reset write offset
currentWriteOffset_ = 0;
}
if (len) { // it can be a call just to reserve a new page
*len = pageSize_ - currentWriteOffset_;
}
return currentWritePage_->buffer_ + currentWriteOffset_;
}
inline void TMemPagedTransport::consume(uint32_t len) {
get(NULL, len);
}
inline uint32_t TMemPagedTransport::readAll(uint8_t* buf, uint32_t len) {
// try to read requested bytes
uint32_t res = read(buf, len);
if (res != len) { // not all bytes can be read
// interface description requires throwing exception
throw TTransportException(TTransportException::END_OF_FILE);
}
return res;
}
/**
* helper function
* write or skip bytes
*/
inline void TMemPagedTransport::set(const uint8_t* buf, uint32_t len) {
uint32_t capacity = len; // requested capacity
// prepare for rollback in case of out of memory
FixedSizeMemoryPage* saveWritePage = currentWritePage_;
uint32_t saveWriteOffset = currentWriteOffset_;
while (capacity) { // write until all buffer bytes get sent
uint32_t available = 0;
if (!reserve(&available, false)) { // reserve page if any
// rollback
currentWriteOffset_ = saveWriteOffset;
if ((currentWritePage_ = saveWritePage) != NULL) { // there were pages
// remove extra allocated pages if any
// even we remove previously existed pages it won't hurt
FixedSizeMemoryPage* pageForDelete = saveWritePage->next_;
currentWritePage_->next_ = NULL; // cut the tail
while (pageForDelete) {
saveWritePage = pageForDelete;
pageForDelete = pageForDelete->next_;
factory_->returnPage(saveWritePage);
}
} else {
// remove all pages
resetForWrite(true);
}
// throw
throw TTransportException(TTransportException::INTERNAL_ERROR);
}
// how many bytes we can write
available = std::min(capacity, available);
if (buf) {
// memory copy if any
std::memcpy(currentWritePage_->buffer_ + currentWriteOffset_,
buf + len - capacity,
available);
}
// adjust capacity
capacity -= available;
// adjust page write iterator
currentWriteOffset_ += available;
} // while
}
/**
* Implementations of the base functions
*/
inline uint32_t TMemPagedTransport::get(uint8_t* buf, uint32_t len) {
uint32_t capacity = len; // requested memory
uint32_t available = 0;
if (!currentReadPage_) {
return 0; // nothing to read, did not reset or write bytes
}
while (capacity) { // read until all buffer filled
if (currentReadPage_ == currentWritePage_) {
// if read and write on the same page
if (!(available = currentWriteOffset_ - currentReadOffset_)) {
break; // no more available bytes for read
}
} else if (!(available = pageSize_ - currentReadOffset_)) {
// not the last page
// move to next page
currentReadPage_ = currentReadPage_->next_;
assert(currentReadPage_);
currentReadOffset_ = 0;
available = pageSize_ - currentReadOffset_;
}
// how many bytes we can read
available = std::min(capacity, available);
// memory copy if any
if (buf) {
std::memcpy(buf + len - capacity,
currentReadPage_->buffer_ + currentReadOffset_,
available);
}
// adjust capacity
capacity -= available;
// adjust page read iterator
currentReadOffset_ += available;
// move to the next page if end is reached
// and more pages for read available
if (currentReadOffset_ == pageSize_ &&
currentReadPage_ != currentWritePage_) {
currentReadPage_ = currentReadPage_->next_;
assert(currentReadPage_);
// reset offset
currentReadOffset_ = 0;
}
}
// return result
return len - capacity;
}
}}} // apache::thrift::transport
#endif // #ifndef _THRIFT_TRANSPORT_TMEMPAGEDTRANSPORT_HPP_