blob: d3fb98d57fac27101db6ccca680d2ff94c03c69b [file] [log] [blame]
/*
* Copyright (C) 2010 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_NDEBUG 0
#define LOG_TAG "szipinf"
#include <utils/Log.h>
#include <androidfw/StreamingZipInflater.h>
#include <utils/FileMap.h>
#include <string.h>
#include <stddef.h>
#include <assert.h>
static inline size_t min_of(size_t a, size_t b) { return (a < b) ? a : b; }
using namespace android;
/*
* Streaming access to compressed asset data in an open fd
*/
StreamingZipInflater::StreamingZipInflater(int fd, off64_t compDataStart,
size_t uncompSize, size_t compSize) {
mFd = fd;
mDataMap = NULL;
mInFileStart = compDataStart;
mOutTotalSize = uncompSize;
mInTotalSize = compSize;
mInBufSize = StreamingZipInflater::INPUT_CHUNK_SIZE;
mInBuf = new uint8_t[mInBufSize];
mOutBufSize = StreamingZipInflater::OUTPUT_CHUNK_SIZE;
mOutBuf = new uint8_t[mOutBufSize];
initInflateState();
}
/*
* Streaming access to compressed data held in an mmapped region of memory
*/
StreamingZipInflater::StreamingZipInflater(FileMap* dataMap, size_t uncompSize) {
mFd = -1;
mDataMap = dataMap;
mOutTotalSize = uncompSize;
mInTotalSize = dataMap->getDataLength();
mInBuf = (uint8_t*) dataMap->getDataPtr();
mInBufSize = mInTotalSize;
mOutBufSize = StreamingZipInflater::OUTPUT_CHUNK_SIZE;
mOutBuf = new uint8_t[mOutBufSize];
initInflateState();
}
StreamingZipInflater::~StreamingZipInflater() {
// tear down the in-flight zip state just in case
::inflateEnd(&mInflateState);
if (mDataMap == NULL) {
delete [] mInBuf;
}
delete [] mOutBuf;
}
void StreamingZipInflater::initInflateState() {
ALOGV("Initializing inflate state");
memset(&mInflateState, 0, sizeof(mInflateState));
mInflateState.zalloc = Z_NULL;
mInflateState.zfree = Z_NULL;
mInflateState.opaque = Z_NULL;
mInflateState.next_in = (Bytef*)mInBuf;
mInflateState.next_out = (Bytef*) mOutBuf;
mInflateState.avail_out = mOutBufSize;
mInflateState.data_type = Z_UNKNOWN;
mOutLastDecoded = mOutDeliverable = mOutCurPosition = 0;
mInNextChunkOffset = 0;
mStreamNeedsInit = true;
if (mDataMap == NULL) {
::lseek(mFd, mInFileStart, SEEK_SET);
mInflateState.avail_in = 0; // set when a chunk is read in
} else {
mInflateState.avail_in = mInBufSize;
}
}
/*
* Basic approach:
*
* 1. If we have undelivered uncompressed data, send it. At this point
* either we've satisfied the request, or we've exhausted the available
* output data in mOutBuf.
*
* 2. While we haven't sent enough data to satisfy the request:
* 0. if the request is for more data than exists, bail.
* a. if there is no input data to decode, read some into the input buffer
* and readjust the z_stream input pointers
* b. point the output to the start of the output buffer and decode what we can
* c. deliver whatever output data we can
*/
ssize_t StreamingZipInflater::read(void* outBuf, size_t count) {
uint8_t* dest = (uint8_t*) outBuf;
size_t bytesRead = 0;
size_t toRead = min_of(count, size_t(mOutTotalSize - mOutCurPosition));
while (toRead > 0) {
// First, write from whatever we already have decoded and ready to go
size_t deliverable = min_of(toRead, mOutLastDecoded - mOutDeliverable);
if (deliverable > 0) {
if (outBuf != NULL) memcpy(dest, mOutBuf + mOutDeliverable, deliverable);
mOutDeliverable += deliverable;
mOutCurPosition += deliverable;
dest += deliverable;
bytesRead += deliverable;
toRead -= deliverable;
}
// need more data? time to decode some.
if (toRead > 0) {
// if we don't have any data to decode, read some in. If we're working
// from mmapped data this won't happen, because the clipping to total size
// will prevent reading off the end of the mapped input chunk.
if (mInflateState.avail_in == 0) {
int err = readNextChunk();
if (err < 0) {
ALOGE("Unable to access asset data: %d", err);
if (!mStreamNeedsInit) {
::inflateEnd(&mInflateState);
initInflateState();
}
return -1;
}
}
// we know we've drained whatever is in the out buffer now, so just
// start from scratch there, reading all the input we have at present.
mInflateState.next_out = (Bytef*) mOutBuf;
mInflateState.avail_out = mOutBufSize;
/*
ALOGV("Inflating to outbuf: avail_in=%u avail_out=%u next_in=%p next_out=%p",
mInflateState.avail_in, mInflateState.avail_out,
mInflateState.next_in, mInflateState.next_out);
*/
int result = Z_OK;
if (mStreamNeedsInit) {
ALOGV("Initializing zlib to inflate");
result = inflateInit2(&mInflateState, -MAX_WBITS);
mStreamNeedsInit = false;
}
if (result == Z_OK) result = ::inflate(&mInflateState, Z_SYNC_FLUSH);
if (result < 0) {
// Whoops, inflation failed
ALOGE("Error inflating asset: %d", result);
::inflateEnd(&mInflateState);
initInflateState();
return -1;
} else {
if (result == Z_STREAM_END) {
// we know we have to have reached the target size here and will
// not try to read any further, so just wind things up.
::inflateEnd(&mInflateState);
}
// Note how much data we got, and off we go
mOutDeliverable = 0;
mOutLastDecoded = mOutBufSize - mInflateState.avail_out;
}
}
}
return bytesRead;
}
int StreamingZipInflater::readNextChunk() {
assert(mDataMap == NULL);
if (mInNextChunkOffset < mInTotalSize) {
size_t toRead = min_of(mInBufSize, mInTotalSize - mInNextChunkOffset);
if (toRead > 0) {
ssize_t didRead = ::read(mFd, mInBuf, toRead);
//ALOGV("Reading input chunk, size %08x didread %08x", toRead, didRead);
if (didRead < 0) {
// TODO: error
ALOGE("Error reading asset data");
return didRead;
} else {
mInNextChunkOffset += didRead;
mInflateState.next_in = (Bytef*) mInBuf;
mInflateState.avail_in = didRead;
}
}
}
return 0;
}
// seeking backwards requires uncompressing fom the beginning, so is very
// expensive. seeking forwards only requires uncompressing from the current
// position to the destination.
off64_t StreamingZipInflater::seekAbsolute(off64_t absoluteInputPosition) {
if (absoluteInputPosition < mOutCurPosition) {
// rewind and reprocess the data from the beginning
if (!mStreamNeedsInit) {
::inflateEnd(&mInflateState);
}
initInflateState();
read(NULL, absoluteInputPosition);
} else if (absoluteInputPosition > mOutCurPosition) {
read(NULL, absoluteInputPosition - mOutCurPosition);
}
// else if the target position *is* our current position, do nothing
return absoluteInputPosition;
}