/* * Copyright (C) 2017 The Android Open Source Project * * Licensed 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. */ #define LOG_TAG "libprotoutil" #include <stdlib.h> #include <android/util/EncodedBuffer.h> #include <android/util/protobuf.h> #include <cutils/log.h> namespace android { namespace util { const size_t BUFFER_SIZE = 8 * 1024; // 8 KB EncodedBuffer::Pointer::Pointer() : Pointer(BUFFER_SIZE) { } EncodedBuffer::Pointer::Pointer(size_t chunkSize) :mIndex(0), mOffset(0) { mChunkSize = chunkSize == 0 ? BUFFER_SIZE : chunkSize; } size_t EncodedBuffer::Pointer::pos() const { return mIndex * mChunkSize + mOffset; } size_t EncodedBuffer::Pointer::index() const { return mIndex; } size_t EncodedBuffer::Pointer::offset() const { return mOffset; } EncodedBuffer::Pointer* EncodedBuffer::Pointer::move(size_t amt) { size_t newOffset = mOffset + amt; mIndex += newOffset / mChunkSize; mOffset = newOffset % mChunkSize; return this; } EncodedBuffer::Pointer* EncodedBuffer::Pointer::rewind() { mIndex = 0; mOffset = 0; return this; } EncodedBuffer::Pointer EncodedBuffer::Pointer::copy() const { Pointer p = Pointer(mChunkSize); p.mIndex = mIndex; p.mOffset = mOffset; return p; } // =========================================================== EncodedBuffer::EncodedBuffer() : EncodedBuffer(0) { } EncodedBuffer::EncodedBuffer(size_t chunkSize) :mBuffers() { mChunkSize = chunkSize == 0 ? BUFFER_SIZE : chunkSize; mWp = Pointer(mChunkSize); mEp = Pointer(mChunkSize); } EncodedBuffer::~EncodedBuffer() { for (size_t i=0; i<mBuffers.size(); i++) { uint8_t* buf = mBuffers[i]; free(buf); } } inline uint8_t* EncodedBuffer::at(const Pointer& p) const { return mBuffers[p.index()] + p.offset(); } void EncodedBuffer::clear() { mWp.rewind(); mEp.rewind(); } /******************************** Write APIs ************************************************/ size_t EncodedBuffer::size() const { return mWp.pos(); } EncodedBuffer::Pointer* EncodedBuffer::wp() { return &mWp; } uint8_t* EncodedBuffer::writeBuffer() { // This prevents write pointer move too fast than allocating the buffer. if (mWp.index() > mBuffers.size()) return NULL; uint8_t* buf = NULL; if (mWp.index() == mBuffers.size()) { buf = (uint8_t*)malloc(mChunkSize); if (buf == NULL) return NULL; // This indicates NO_MEMORY mBuffers.push_back(buf); } return at(mWp); } size_t EncodedBuffer::currentToWrite() { return mChunkSize - mWp.offset(); } void EncodedBuffer::writeRawByte(uint8_t val) { *writeBuffer() = val; mWp.move(); } size_t EncodedBuffer::writeRawVarint64(uint64_t val) { size_t size = 0; while (true) { size++; if ((val & ~0x7F) == 0) { writeRawByte((uint8_t) val); return size; } else { writeRawByte((uint8_t)((val & 0x7F) | 0x80)); val >>= 7; } } } size_t EncodedBuffer::writeRawVarint32(uint32_t val) { uint64_t v =(uint64_t)val; return writeRawVarint64(v); } void EncodedBuffer::writeRawFixed32(uint32_t val) { writeRawByte((uint8_t) val); writeRawByte((uint8_t) (val>>8)); writeRawByte((uint8_t) (val>>16)); writeRawByte((uint8_t) (val>>24)); } void EncodedBuffer::writeRawFixed64(uint64_t val) { writeRawByte((uint8_t) val); writeRawByte((uint8_t) (val>>8)); writeRawByte((uint8_t) (val>>16)); writeRawByte((uint8_t) (val>>24)); writeRawByte((uint8_t) (val>>32)); writeRawByte((uint8_t) (val>>40)); writeRawByte((uint8_t) (val>>48)); writeRawByte((uint8_t) (val>>56)); } size_t EncodedBuffer::writeHeader(uint32_t fieldId, uint8_t wireType) { return writeRawVarint32((fieldId << FIELD_ID_SHIFT) | wireType); } status_t EncodedBuffer::writeRaw(uint8_t const* buf, size_t size) { while (size > 0) { uint8_t* target = writeBuffer(); if (target == NULL) { return -ENOMEM; } size_t chunk = currentToWrite(); if (chunk > size) { chunk = size; } memcpy(target, buf, chunk); size -= chunk; buf += chunk; mWp.move(chunk); } return NO_ERROR; } status_t EncodedBuffer::writeRaw(const sp<ProtoReader>& reader) { status_t err; uint8_t const* buf; while ((buf = reader->readBuffer()) != nullptr) { size_t amt = reader->currentToRead(); err = writeRaw(buf, amt); reader->move(amt); if (err != NO_ERROR) { return err; } } return NO_ERROR; } status_t EncodedBuffer::writeRaw(const sp<ProtoReader>& reader, size_t size) { status_t err; uint8_t const* buf; while (size > 0 && (buf = reader->readBuffer()) != nullptr) { size_t amt = reader->currentToRead(); if (size < amt) { amt = size; } err = writeRaw(buf, amt); reader->move(amt); size -= amt; if (err != NO_ERROR) { return err; } } return size == 0 ? NO_ERROR : NOT_ENOUGH_DATA; } /******************************** Edit APIs ************************************************/ EncodedBuffer::Pointer* EncodedBuffer::ep() { return &mEp; } uint8_t EncodedBuffer::readRawByte() { uint8_t val = *at(mEp); mEp.move(); return val; } uint64_t EncodedBuffer::readRawVarint() { uint64_t val = 0, shift = 0; size_t start = mEp.pos(); while (true) { uint8_t byte = readRawByte(); val |= (UINT64_C(0x7F) & byte) << shift; if ((byte & 0x80) == 0) break; shift += 7; } return val; } uint32_t EncodedBuffer::readRawFixed32() { uint32_t val = 0; for (auto i=0; i<32; i+=8) { val += (uint32_t)readRawByte() << i; } return val; } uint64_t EncodedBuffer::readRawFixed64() { uint64_t val = 0; for (auto i=0; i<64; i+=8) { val += (uint64_t)readRawByte() << i; } return val; } void EncodedBuffer::editRawFixed32(size_t pos, uint32_t val) { size_t oldPos = mEp.pos(); mEp.rewind()->move(pos); for (auto i=0; i<32; i+=8) { *at(mEp) = (uint8_t) (val >> i); mEp.move(); } mEp.rewind()->move(oldPos); } void EncodedBuffer::copy(size_t srcPos, size_t size) { if (size == 0) return; Pointer cp(mChunkSize); cp.move(srcPos); while (cp.pos() < srcPos + size) { writeRawByte(*at(cp)); cp.move(); } } /********************************* Read APIs ************************************************/ sp<ProtoReader> EncodedBuffer::read() { return new EncodedBuffer::Reader(this); } EncodedBuffer::Reader::Reader(const sp<EncodedBuffer>& buffer) :mData(buffer), mRp(buffer->mChunkSize) { } EncodedBuffer::Reader::~Reader() { } ssize_t EncodedBuffer::Reader::size() const { return (ssize_t)mData->size(); } size_t EncodedBuffer::Reader::bytesRead() const { return mRp.pos(); } uint8_t const* EncodedBuffer::Reader::readBuffer() { return hasNext() ? const_cast<uint8_t const*>(mData->at(mRp)) : NULL; } size_t EncodedBuffer::Reader::currentToRead() { return (mData->mWp.index() > mRp.index()) ? mData->mChunkSize - mRp.offset() : mData->mWp.offset() - mRp.offset(); } bool EncodedBuffer::Reader::hasNext() { return mRp.pos() < mData->mWp.pos(); } uint8_t EncodedBuffer::Reader::next() { uint8_t res = *(mData->at(mRp)); mRp.move(); return res; } uint64_t EncodedBuffer::Reader::readRawVarint() { uint64_t val = 0, shift = 0; while (true) { uint8_t byte = next(); val |= (INT64_C(0x7F) & byte) << shift; if ((byte & 0x80) == 0) break; shift += 7; } return val; } void EncodedBuffer::Reader::move(size_t amt) { mRp.move(amt); } } // util } // android