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authorTianjie Xu <xunchang@google.com>2017-08-09 02:35:01 +0200
committerTianjie Xu <xunchang@google.com>2017-08-13 07:07:43 +0200
commitd82a2ed50bab5ea014bcf3b1e5541e21829b4ecb (patch)
tree7e12367e7628b2c2b90d64a04cfc66e54526d834 /applypatch/imgdiff.cpp
parentMerge "ui: Move the support for touch inputs into RecoveryUI." (diff)
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Diffstat (limited to '')
-rw-r--r--applypatch/imgdiff.cpp528
1 files changed, 292 insertions, 236 deletions
diff --git a/applypatch/imgdiff.cpp b/applypatch/imgdiff.cpp
index 880265260..a81e385a3 100644
--- a/applypatch/imgdiff.cpp
+++ b/applypatch/imgdiff.cpp
@@ -168,15 +168,14 @@ class ImageChunk {
static constexpr auto METHOD = Z_DEFLATED;
static constexpr auto STRATEGY = Z_DEFAULT_STRATEGY;
- ImageChunk(int type, size_t start, const std::vector<uint8_t>* file_content, size_t raw_data_len)
+ ImageChunk(int type, size_t start, const std::vector<uint8_t>* file_content, size_t raw_data_len,
+ std::string entry_name = {})
: type_(type),
start_(start),
input_file_ptr_(file_content),
raw_data_len_(raw_data_len),
compress_level_(6),
- source_start_(0),
- source_len_(0),
- source_uncompressed_len_(0) {
+ entry_name_(std::move(entry_name)) {
CHECK(file_content != nullptr) << "input file container can't be nullptr";
}
@@ -189,6 +188,12 @@ class ImageChunk {
const std::string& GetEntryName() const {
return entry_name_;
}
+ size_t GetStartOffset() const {
+ return start_;
+ }
+ int GetCompressLevel() const {
+ return compress_level_;
+ }
// CHUNK_DEFLATE will return the uncompressed data for diff, while other types will simply return
// the raw data.
@@ -200,8 +205,6 @@ class ImageChunk {
entry_name_.c_str());
}
- void SetSourceInfo(const ImageChunk& other);
- void SetEntryName(std::string entryname);
void SetUncompressedData(std::vector<uint8_t> data);
bool SetBonusData(const std::vector<uint8_t>& bonus_data);
@@ -210,57 +213,46 @@ class ImageChunk {
return !(*this == other);
}
- size_t GetHeaderSize(size_t patch_size) const;
- // Return the offset of the next patch into the patch data.
- size_t WriteHeaderToFd(int fd, const std::vector<uint8_t>& patch, size_t offset) const;
-
/*
- * Cause a gzip chunk to be treated as a normal chunk (ie, as a blob
- * of uninterpreted data). The resulting patch will likely be about
- * as big as the target file, but it lets us handle the case of images
- * where some gzip chunks are reconstructible but others aren't (by
- * treating the ones that aren't as normal chunks).
+ * Cause a gzip chunk to be treated as a normal chunk (ie, as a blob of uninterpreted data).
+ * The resulting patch will likely be about as big as the target file, but it lets us handle
+ * the case of images where some gzip chunks are reconstructible but others aren't (by treating
+ * the ones that aren't as normal chunks).
*/
void ChangeDeflateChunkToNormal();
- bool ChangeChunkToRaw(size_t patch_size);
/*
- * Verify that we can reproduce exactly the same compressed data that
- * we started with. Sets the level, method, windowBits, memLevel, and
- * strategy fields in the chunk to the encoding parameters needed to
- * produce the right output.
+ * Verify that we can reproduce exactly the same compressed data that we started with. Sets the
+ * level, method, windowBits, memLevel, and strategy fields in the chunk to the encoding
+ * parameters needed to produce the right output.
*/
bool ReconstructDeflateChunk();
bool IsAdjacentNormal(const ImageChunk& other) const;
void MergeAdjacentNormal(const ImageChunk& other);
/*
- * Compute a bsdiff patch between |this| and the input source chunks.
- * Store the result in the patch_data.
+ * Compute a bsdiff patch between |src| and |tgt|; Store the result in the patch_data.
* |bsdiff_cache| can be used to cache the suffix array if the same |src| chunk is used
* repeatedly, pass nullptr if not needed.
*/
- bool MakePatch(const ImageChunk& src, std::vector<uint8_t>* patch_data, saidx_t** bsdiff_cache);
+ static bool MakePatch(const ImageChunk& tgt, const ImageChunk& src,
+ std::vector<uint8_t>* patch_data, saidx_t** bsdiff_cache);
private:
+ const uint8_t* GetRawData() const;
+ bool TryReconstruction(int level);
+
int type_; // CHUNK_NORMAL, CHUNK_DEFLATE, CHUNK_RAW
size_t start_; // offset of chunk in the original input file
const std::vector<uint8_t>* input_file_ptr_; // ptr to the full content of original input file
size_t raw_data_len_;
- // --- for CHUNK_DEFLATE chunks only: ---
- std::vector<uint8_t> uncompressed_data_;
- std::string entry_name_; // used for zip entries
-
// deflate encoder parameters
int compress_level_;
- size_t source_start_;
- size_t source_len_;
- size_t source_uncompressed_len_;
-
- const uint8_t* GetRawData() const;
- bool TryReconstruction(int level);
+ // --- for CHUNK_DEFLATE chunks only: ---
+ std::vector<uint8_t> uncompressed_data_;
+ std::string entry_name_; // used for zip entries
};
const uint8_t* ImageChunk::GetRawData() const {
@@ -290,20 +282,6 @@ bool ImageChunk::operator==(const ImageChunk& other) const {
memcmp(GetRawData(), other.GetRawData(), raw_data_len_) == 0);
}
-void ImageChunk::SetSourceInfo(const ImageChunk& src) {
- source_start_ = src.start_;
- if (type_ == CHUNK_NORMAL) {
- source_len_ = src.raw_data_len_;
- } else if (type_ == CHUNK_DEFLATE) {
- source_len_ = src.raw_data_len_;
- source_uncompressed_len_ = src.uncompressed_data_.size();
- }
-}
-
-void ImageChunk::SetEntryName(std::string entryname) {
- entry_name_ = std::move(entryname);
-}
-
void ImageChunk::SetUncompressedData(std::vector<uint8_t> data) {
uncompressed_data_ = std::move(data);
}
@@ -316,18 +294,6 @@ bool ImageChunk::SetBonusData(const std::vector<uint8_t>& bonus_data) {
return true;
}
-// Convert CHUNK_NORMAL & CHUNK_DEFLATE to CHUNK_RAW if the target size is
-// smaller. Also take the header size into account during size comparison.
-bool ImageChunk::ChangeChunkToRaw(size_t patch_size) {
- if (type_ == CHUNK_RAW) {
- return true;
- } else if (type_ == CHUNK_NORMAL && (raw_data_len_ <= 160 || raw_data_len_ < patch_size)) {
- type_ = CHUNK_RAW;
- return true;
- }
- return false;
-}
-
void ImageChunk::ChangeDeflateChunkToNormal() {
if (type_ != CHUNK_DEFLATE) return;
type_ = CHUNK_NORMAL;
@@ -335,61 +301,6 @@ void ImageChunk::ChangeDeflateChunkToNormal() {
uncompressed_data_.clear();
}
-// Header size:
-// header_type 4 bytes
-// CHUNK_NORMAL 8*3 = 24 bytes
-// CHUNK_DEFLATE 8*5 + 4*5 = 60 bytes
-// CHUNK_RAW 4 bytes + patch_size
-size_t ImageChunk::GetHeaderSize(size_t patch_size) const {
- switch (type_) {
- case CHUNK_NORMAL:
- return 4 + 8 * 3;
- case CHUNK_DEFLATE:
- return 4 + 8 * 5 + 4 * 5;
- case CHUNK_RAW:
- return 4 + 4 + patch_size;
- default:
- CHECK(false) << "unexpected chunk type: " << type_; // Should not reach here.
- return 0;
- }
-}
-
-size_t ImageChunk::WriteHeaderToFd(int fd, const std::vector<uint8_t>& patch, size_t offset) const {
- Write4(fd, type_);
- switch (type_) {
- case CHUNK_NORMAL:
- printf("normal (%10zu, %10zu) %10zu\n", start_, raw_data_len_, patch.size());
- Write8(fd, static_cast<int64_t>(source_start_));
- Write8(fd, static_cast<int64_t>(source_len_));
- Write8(fd, static_cast<int64_t>(offset));
- return offset + patch.size();
- case CHUNK_DEFLATE:
- printf("deflate (%10zu, %10zu) %10zu %s\n", start_, raw_data_len_, patch.size(),
- entry_name_.c_str());
- Write8(fd, static_cast<int64_t>(source_start_));
- Write8(fd, static_cast<int64_t>(source_len_));
- Write8(fd, static_cast<int64_t>(offset));
- Write8(fd, static_cast<int64_t>(source_uncompressed_len_));
- Write8(fd, static_cast<int64_t>(uncompressed_data_.size()));
- Write4(fd, compress_level_);
- Write4(fd, METHOD);
- Write4(fd, WINDOWBITS);
- Write4(fd, MEMLEVEL);
- Write4(fd, STRATEGY);
- return offset + patch.size();
- case CHUNK_RAW:
- printf("raw (%10zu, %10zu)\n", start_, raw_data_len_);
- Write4(fd, static_cast<int32_t>(patch.size()));
- if (!android::base::WriteFully(fd, patch.data(), patch.size())) {
- CHECK(false) << "failed to write " << patch.size() <<" bytes patch";
- }
- return offset;
- default:
- CHECK(false) << "unexpected chunk type: " << type_;
- return offset;
- }
-}
-
bool ImageChunk::IsAdjacentNormal(const ImageChunk& other) const {
if (type_ != CHUNK_NORMAL || other.type_ != CHUNK_NORMAL) {
return false;
@@ -402,15 +313,8 @@ void ImageChunk::MergeAdjacentNormal(const ImageChunk& other) {
raw_data_len_ = raw_data_len_ + other.raw_data_len_;
}
-bool ImageChunk::MakePatch(const ImageChunk& src, std::vector<uint8_t>* patch_data,
- saidx_t** bsdiff_cache) {
- if (ChangeChunkToRaw(0)) {
- size_t patch_size = DataLengthForPatch();
- patch_data->resize(patch_size);
- std::copy(DataForPatch(), DataForPatch() + patch_size, patch_data->begin());
- return true;
- }
-
+bool ImageChunk::MakePatch(const ImageChunk& tgt, const ImageChunk& src,
+ std::vector<uint8_t>* patch_data, saidx_t** bsdiff_cache) {
#if defined(__ANDROID__)
char ptemp[] = "/data/local/tmp/imgdiff-patch-XXXXXX";
#else
@@ -424,8 +328,8 @@ bool ImageChunk::MakePatch(const ImageChunk& src, std::vector<uint8_t>* patch_da
}
close(fd);
- int r = bsdiff::bsdiff(src.DataForPatch(), src.DataLengthForPatch(), DataForPatch(),
- DataLengthForPatch(), ptemp, bsdiff_cache);
+ int r = bsdiff::bsdiff(src.DataForPatch(), src.DataLengthForPatch(), tgt.DataForPatch(),
+ tgt.DataLengthForPatch(), ptemp, bsdiff_cache);
if (r != 0) {
printf("bsdiff() failed: %d\n", r);
return false;
@@ -443,14 +347,7 @@ bool ImageChunk::MakePatch(const ImageChunk& src, std::vector<uint8_t>* patch_da
}
size_t sz = static_cast<size_t>(st.st_size);
- // Change the chunk type to raw if the patch takes less space that way.
- if (ChangeChunkToRaw(sz)) {
- unlink(ptemp);
- size_t patch_size = DataLengthForPatch();
- patch_data->resize(patch_size);
- std::copy(DataForPatch(), DataForPatch() + patch_size, patch_data->begin());
- return true;
- }
+
patch_data->resize(sz);
if (!android::base::ReadFully(patch_fd, patch_data->data(), sz)) {
printf("failed to read \"%s\" %s\n", ptemp, strerror(errno));
@@ -459,7 +356,6 @@ bool ImageChunk::MakePatch(const ImageChunk& src, std::vector<uint8_t>* patch_da
}
unlink(ptemp);
- SetSourceInfo(src);
return true;
}
@@ -470,8 +366,8 @@ bool ImageChunk::ReconstructDeflateChunk() {
return false;
}
- // We only check two combinations of encoder parameters: level 6
- // (the default) and level 9 (the maximum).
+ // We only check two combinations of encoder parameters: level 6 (the default) and level 9
+ // (the maximum).
for (int level = 6; level <= 9; level += 3) {
if (TryReconstruction(level)) {
compress_level_ = level;
@@ -483,10 +379,9 @@ bool ImageChunk::ReconstructDeflateChunk() {
}
/*
- * Takes the uncompressed data stored in the chunk, compresses it
- * using the zlib parameters stored in the chunk, and checks that it
- * matches exactly the compressed data we started with (also stored in
- * the chunk).
+ * Takes the uncompressed data stored in the chunk, compresses it using the zlib parameters stored
+ * in the chunk, and checks that it matches exactly the compressed data we started with (also
+ * stored in the chunk).
*/
bool ImageChunk::TryReconstruction(int level) {
z_stream strm;
@@ -529,6 +424,156 @@ bool ImageChunk::TryReconstruction(int level) {
return true;
}
+// PatchChunk stores the patch data between a source chunk and a target chunk. It also keeps track
+// of the metadata of src&tgt chunks (e.g. offset, raw data length, uncompressed data length).
+class PatchChunk {
+ public:
+ PatchChunk(const ImageChunk& tgt, const ImageChunk& src, std::vector<uint8_t> data)
+ : type_(tgt.GetType()),
+ source_start_(src.GetStartOffset()),
+ source_len_(src.GetRawDataLength()),
+ source_uncompressed_len_(src.DataLengthForPatch()),
+ target_start_(tgt.GetStartOffset()),
+ target_len_(tgt.GetRawDataLength()),
+ target_uncompressed_len_(tgt.DataLengthForPatch()),
+ target_compress_level_(tgt.GetCompressLevel()),
+ data_(std::move(data)) {}
+
+ // Construct a CHUNK_RAW patch from the target data directly.
+ explicit PatchChunk(const ImageChunk& tgt)
+ : type_(CHUNK_RAW),
+ source_start_(0),
+ source_len_(0),
+ source_uncompressed_len_(0),
+ target_start_(tgt.GetStartOffset()),
+ target_len_(tgt.GetRawDataLength()),
+ target_uncompressed_len_(tgt.DataLengthForPatch()),
+ target_compress_level_(tgt.GetCompressLevel()),
+ data_(tgt.DataForPatch(), tgt.DataForPatch() + tgt.DataLengthForPatch()) {}
+
+ // Return true if raw data size is smaller than the patch size.
+ static bool RawDataIsSmaller(const ImageChunk& tgt, size_t patch_size);
+
+ static bool WritePatchDataToFd(const std::vector<PatchChunk>& patch_chunks, int patch_fd);
+
+ private:
+ size_t GetHeaderSize() const;
+ size_t WriteHeaderToFd(int fd, size_t offset) const;
+
+ // The patch chunk type is the same as the target chunk type. The only exception is we change
+ // the |type_| to CHUNK_RAW if target length is smaller than the patch size.
+ int type_;
+
+ size_t source_start_;
+ size_t source_len_;
+ size_t source_uncompressed_len_;
+
+ size_t target_start_; // offset of the target chunk within the target file
+ size_t target_len_;
+ size_t target_uncompressed_len_;
+ size_t target_compress_level_; // the deflate compression level of the target chunk.
+
+ std::vector<uint8_t> data_; // storage for the patch data
+};
+
+// Return true if raw data is smaller than the patch size.
+bool PatchChunk::RawDataIsSmaller(const ImageChunk& tgt, size_t patch_size) {
+ size_t target_len = tgt.GetRawDataLength();
+ return (tgt.GetType() == CHUNK_NORMAL && (target_len <= 160 || target_len < patch_size));
+}
+
+// Header size:
+// header_type 4 bytes
+// CHUNK_NORMAL 8*3 = 24 bytes
+// CHUNK_DEFLATE 8*5 + 4*5 = 60 bytes
+// CHUNK_RAW 4 bytes + patch_size
+size_t PatchChunk::GetHeaderSize() const {
+ switch (type_) {
+ case CHUNK_NORMAL:
+ return 4 + 8 * 3;
+ case CHUNK_DEFLATE:
+ return 4 + 8 * 5 + 4 * 5;
+ case CHUNK_RAW:
+ return 4 + 4 + data_.size();
+ default:
+ CHECK(false) << "unexpected chunk type: " << type_; // Should not reach here.
+ return 0;
+ }
+}
+
+// Return the offset of the next patch into the patch data.
+size_t PatchChunk::WriteHeaderToFd(int fd, size_t offset) const {
+ Write4(fd, type_);
+ switch (type_) {
+ case CHUNK_NORMAL:
+ printf("normal (%10zu, %10zu) %10zu\n", target_start_, target_len_, data_.size());
+ Write8(fd, static_cast<int64_t>(source_start_));
+ Write8(fd, static_cast<int64_t>(source_len_));
+ Write8(fd, static_cast<int64_t>(offset));
+ return offset + data_.size();
+ case CHUNK_DEFLATE:
+ printf("deflate (%10zu, %10zu) %10zu\n", target_start_, target_len_, data_.size());
+ Write8(fd, static_cast<int64_t>(source_start_));
+ Write8(fd, static_cast<int64_t>(source_len_));
+ Write8(fd, static_cast<int64_t>(offset));
+ Write8(fd, static_cast<int64_t>(source_uncompressed_len_));
+ Write8(fd, static_cast<int64_t>(target_uncompressed_len_));
+ Write4(fd, target_compress_level_);
+ Write4(fd, ImageChunk::METHOD);
+ Write4(fd, ImageChunk::WINDOWBITS);
+ Write4(fd, ImageChunk::MEMLEVEL);
+ Write4(fd, ImageChunk::STRATEGY);
+ return offset + data_.size();
+ case CHUNK_RAW:
+ printf("raw (%10zu, %10zu)\n", target_start_, target_len_);
+ Write4(fd, static_cast<int32_t>(data_.size()));
+ if (!android::base::WriteFully(fd, data_.data(), data_.size())) {
+ CHECK(false) << "failed to write " << data_.size() << " bytes patch";
+ }
+ return offset;
+ default:
+ CHECK(false) << "unexpected chunk type: " << type_;
+ return offset;
+ }
+}
+
+// Write the contents of |patch_chunks| to |patch_fd|.
+bool PatchChunk::WritePatchDataToFd(const std::vector<PatchChunk>& patch_chunks, int patch_fd) {
+ // Figure out how big the imgdiff file header is going to be, so that we can correctly compute
+ // the offset of each bsdiff patch within the file.
+ size_t total_header_size = 12;
+ for (const auto& patch : patch_chunks) {
+ total_header_size += patch.GetHeaderSize();
+ }
+
+ size_t offset = total_header_size;
+
+ // Write out the headers.
+ if (!android::base::WriteStringToFd("IMGDIFF2", patch_fd)) {
+ printf("failed to write \"IMGDIFF2\": %s\n", strerror(errno));
+ return false;
+ }
+
+ Write4(patch_fd, static_cast<int32_t>(patch_chunks.size()));
+ for (size_t i = 0; i < patch_chunks.size(); ++i) {
+ printf("chunk %zu: ", i);
+ offset = patch_chunks[i].WriteHeaderToFd(patch_fd, offset);
+ }
+
+ // Append each chunk's bsdiff patch, in order.
+ for (const auto& patch : patch_chunks) {
+ if (patch.type_ == CHUNK_RAW) {
+ continue;
+ }
+ if (!android::base::WriteFully(patch_fd, patch.data_.data(), patch.data_.size())) {
+ printf("failed to write %zu bytes patch to patch_fd\n", patch.data_.size());
+ return false;
+ }
+ }
+
+ return true;
+}
+
// Interface for zip_mode and image_mode images. We initialize the image from an input file and
// split the file content into a list of image chunks.
class Image {
@@ -548,8 +593,7 @@ class Image {
// also if |find_normal| is true.
ImageChunk* FindChunkByName(const std::string& name, bool find_normal = false);
- // Write the contents of |patch_data| to |patch_fd|.
- bool WritePatchDataToFd(const std::vector<std::vector<uint8_t>>& patch_data, int patch_fd) const;
+ const ImageChunk* FindChunkByName(const std::string& name, bool find_normal = false) const;
void DumpChunks() const;
@@ -561,10 +605,15 @@ class Image {
std::vector<ImageChunk>::iterator end() {
return chunks_.end();
}
- // Return a pointer to the ith ImageChunk.
- ImageChunk* Get(size_t i) {
+
+ ImageChunk& operator[](size_t i) {
CHECK_LT(i, chunks_.size());
- return &chunks_[i];
+ return chunks_[i];
+ }
+
+ const ImageChunk& operator[](size_t i) const {
+ CHECK_LT(i, chunks_.size());
+ return chunks_[i];
}
size_t NumOfChunks() const {
@@ -601,7 +650,7 @@ void Image::MergeAdjacentNormalChunks() {
}
}
-ImageChunk* Image::FindChunkByName(const std::string& name, bool find_normal) {
+const ImageChunk* Image::FindChunkByName(const std::string& name, bool find_normal) const {
if (name.empty()) {
return nullptr;
}
@@ -613,40 +662,9 @@ ImageChunk* Image::FindChunkByName(const std::string& name, bool find_normal) {
return nullptr;
}
-bool Image::WritePatchDataToFd(const std::vector<std::vector<uint8_t>>& patch_data,
- int patch_fd) const {
- // Figure out how big the imgdiff file header is going to be, so that we can correctly compute
- // the offset of each bsdiff patch within the file.
- CHECK_EQ(chunks_.size(), patch_data.size());
- size_t total_header_size = 12;
- for (size_t i = 0; i < chunks_.size(); ++i) {
- total_header_size += chunks_[i].GetHeaderSize(patch_data[i].size());
- }
-
- size_t offset = total_header_size;
-
- // Write out the headers.
- if (!android::base::WriteStringToFd("IMGDIFF2", patch_fd)) {
- printf("failed to write \"IMGDIFF2\": %s\n", strerror(errno));
- return false;
- }
- Write4(patch_fd, static_cast<int32_t>(chunks_.size()));
- for (size_t i = 0; i < chunks_.size(); ++i) {
- printf("chunk %zu: ", i);
- offset = chunks_[i].WriteHeaderToFd(patch_fd, patch_data[i], offset);
- }
-
- // Append each chunk's bsdiff patch, in order.
- for (size_t i = 0; i < chunks_.size(); ++i) {
- if (chunks_[i].GetType() != CHUNK_RAW) {
- if (!android::base::WriteFully(patch_fd, patch_data[i].data(), patch_data[i].size())) {
- printf("failed to write %zu bytes patch for chunk %zu\n", patch_data[i].size(), i);
- return false;
- }
- }
- }
-
- return true;
+ImageChunk* Image::FindChunkByName(const std::string& name, bool find_normal) {
+ return const_cast<ImageChunk*>(
+ static_cast<const Image*>(this)->FindChunkByName(name, find_normal));
}
void Image::DumpChunks() const {
@@ -699,8 +717,8 @@ class ZipModeImage : public Image {
// src and tgt are identical.
static bool CheckAndProcessChunks(ZipModeImage* tgt_image, ZipModeImage* src_image);
- // Compute the patches against the input image, and write the data into |patch_name|.
- static bool GeneratePatches(ZipModeImage* tgt_image, ZipModeImage* src_image,
+ // Compute the patch between tgt & src images, and write the data into |patch_name|.
+ static bool GeneratePatches(const ZipModeImage& tgt_image, const ZipModeImage& src_image,
const std::string& patch_name);
private:
@@ -834,14 +852,11 @@ bool ZipModeImage::AddZipEntryToChunks(ZipArchiveHandle handle, const std::strin
ErrorCodeString(ret));
return false;
}
- ImageChunk curr(CHUNK_DEFLATE, entry->offset, &file_content_, compressed_len);
- curr.SetEntryName(entry_name);
+ ImageChunk curr(CHUNK_DEFLATE, entry->offset, &file_content_, compressed_len, entry_name);
curr.SetUncompressedData(std::move(uncompressed_data));
- chunks_.push_back(curr);
+ chunks_.push_back(std::move(curr));
} else {
- ImageChunk curr(CHUNK_NORMAL, entry->offset, &file_content_, compressed_len);
- curr.SetEntryName(entry_name);
- chunks_.push_back(curr);
+ chunks_.emplace_back(CHUNK_NORMAL, entry->offset, &file_content_, compressed_len, entry_name);
}
return true;
@@ -907,40 +922,55 @@ bool ZipModeImage::CheckAndProcessChunks(ZipModeImage* tgt_image, ZipModeImage*
}
}
- return true;
-}
-
-bool ZipModeImage::GeneratePatches(ZipModeImage* tgt_image, ZipModeImage* src_image,
- const std::string& patch_name) {
// For zips, we only need merge normal chunks for the target: deflated chunks are matched via
// filename, and normal chunks are patched using the entire source file as the source.
tgt_image->MergeAdjacentNormalChunks();
tgt_image->DumpChunks();
- printf("Construct patches for %zu chunks...\n", tgt_image->NumOfChunks());
- std::vector<std::vector<uint8_t>> patch_data(tgt_image->NumOfChunks());
+ return true;
+}
+
+bool ZipModeImage::GeneratePatches(const ZipModeImage& tgt_image, const ZipModeImage& src_image,
+ const std::string& patch_name) {
+ printf("Construct patches for %zu chunks...\n", tgt_image.NumOfChunks());
+ std::vector<PatchChunk> patch_chunks;
+ patch_chunks.reserve(tgt_image.NumOfChunks());
saidx_t* bsdiff_cache = nullptr;
- size_t i = 0;
- for (auto& tgt_chunk : *tgt_image) {
- ImageChunk* src_chunk = (tgt_chunk.GetType() != CHUNK_DEFLATE)
- ? nullptr
- : src_image->FindChunkByName(tgt_chunk.GetEntryName());
+ for (size_t i = 0; i < tgt_image.NumOfChunks(); i++) {
+ const auto& tgt_chunk = tgt_image[i];
+
+ if (PatchChunk::RawDataIsSmaller(tgt_chunk, 0)) {
+ patch_chunks.emplace_back(tgt_chunk);
+ continue;
+ }
- const auto& src_ref = (src_chunk == nullptr) ? src_image->PseudoSource() : *src_chunk;
+ const ImageChunk* src_chunk = (tgt_chunk.GetType() != CHUNK_DEFLATE)
+ ? nullptr
+ : src_image.FindChunkByName(tgt_chunk.GetEntryName());
+
+ const auto& src_ref = (src_chunk == nullptr) ? src_image.PseudoSource() : *src_chunk;
saidx_t** bsdiff_cache_ptr = (src_chunk == nullptr) ? &bsdiff_cache : nullptr;
- if (!tgt_chunk.MakePatch(src_ref, &patch_data[i], bsdiff_cache_ptr)) {
+ std::vector<uint8_t> patch_data;
+ if (!ImageChunk::MakePatch(tgt_chunk, src_ref, &patch_data, bsdiff_cache_ptr)) {
printf("Failed to generate patch, name: %s\n", tgt_chunk.GetEntryName().c_str());
return false;
}
- printf("patch %3zu is %zu bytes (of %zu)\n", i, patch_data[i].size(),
+ printf("patch %3zu is %zu bytes (of %zu)\n", i, patch_data.size(),
tgt_chunk.GetRawDataLength());
- i++;
+
+ if (PatchChunk::RawDataIsSmaller(tgt_chunk, patch_data.size())) {
+ patch_chunks.emplace_back(tgt_chunk);
+ } else {
+ patch_chunks.emplace_back(tgt_chunk, src_ref, std::move(patch_data));
+ }
}
free(bsdiff_cache);
+ CHECK_EQ(tgt_image.NumOfChunks(), patch_chunks.size());
+
android::base::unique_fd patch_fd(
open(patch_name.c_str(), O_CREAT | O_WRONLY | O_TRUNC, S_IRUSR | S_IWUSR));
if (patch_fd == -1) {
@@ -948,7 +978,7 @@ bool ZipModeImage::GeneratePatches(ZipModeImage* tgt_image, ZipModeImage* src_im
return false;
}
- return tgt_image->WritePatchDataToFd(patch_data, patch_fd);
+ return PatchChunk::WritePatchDataToFd(patch_chunks, patch_fd);
}
class ImageModeImage : public Image {
@@ -958,14 +988,16 @@ class ImageModeImage : public Image {
// Initialize the image chunks list by searching the magic numbers in an image file.
bool Initialize(const std::string& filename) override;
+ bool SetBonusData(const std::vector<uint8_t>& bonus_data);
+
// In Image Mode, verify that the source and target images have the same chunk structure (ie, the
// same sequence of deflate and normal chunks).
static bool CheckAndProcessChunks(ImageModeImage* tgt_image, ImageModeImage* src_image);
// In image mode, generate patches against the given source chunks and bonus_data; write the
// result to |patch_name|.
- static bool GeneratePatches(ImageModeImage* tgt_image, ImageModeImage* src_image,
- const std::vector<uint8_t>& bonus_data, const std::string& patch_name);
+ static bool GeneratePatches(const ImageModeImage& tgt_image, const ImageModeImage& src_image,
+ const std::string& patch_name);
};
bool ImageModeImage::Initialize(const std::string& filename) {
@@ -1053,7 +1085,7 @@ bool ImageModeImage::Initialize(const std::string& filename) {
ImageChunk body(CHUNK_DEFLATE, pos, &file_content_, raw_data_len);
uncompressed_data.resize(uncompressed_len);
body.SetUncompressedData(std::move(uncompressed_data));
- chunks_.push_back(body);
+ chunks_.push_back(std::move(body));
pos += raw_data_len;
@@ -1083,6 +1115,18 @@ bool ImageModeImage::Initialize(const std::string& filename) {
return true;
}
+bool ImageModeImage::SetBonusData(const std::vector<uint8_t>& bonus_data) {
+ CHECK(is_source_);
+ if (chunks_.size() < 2 || !chunks_[1].SetBonusData(bonus_data)) {
+ printf("Failed to set bonus data\n");
+ DumpChunks();
+ return false;
+ }
+
+ printf(" using %zu bytes of bonus data\n", bonus_data.size());
+ return true;
+}
+
// In Image Mode, verify that the source and target images have the same chunk structure (ie, the
// same sequence of deflate and normal chunks).
bool ImageModeImage::CheckAndProcessChunks(ImageModeImage* tgt_image, ImageModeImage* src_image) {
@@ -1097,7 +1141,7 @@ bool ImageModeImage::CheckAndProcessChunks(ImageModeImage* tgt_image, ImageModeI
return false;
}
for (size_t i = 0; i < tgt_image->NumOfChunks(); ++i) {
- if (tgt_image->Get(i)->GetType() != src_image->Get(i)->GetType()) {
+ if ((*tgt_image)[i].GetType() != (*src_image)[i].GetType()) {
printf("source and target don't have same chunk structure! (chunk %zu)\n", i);
tgt_image->DumpChunks();
src_image->DumpChunks();
@@ -1106,26 +1150,23 @@ bool ImageModeImage::CheckAndProcessChunks(ImageModeImage* tgt_image, ImageModeI
}
for (size_t i = 0; i < tgt_image->NumOfChunks(); ++i) {
- auto& tgt_chunk = *tgt_image->Get(i);
- auto& src_chunk = *src_image->Get(i);
+ auto& tgt_chunk = (*tgt_image)[i];
+ auto& src_chunk = (*src_image)[i];
if (tgt_chunk.GetType() != CHUNK_DEFLATE) {
continue;
}
- // Confirm that we can recompress the data and get exactly the same bits as are in the
- // input target image.
- if (!tgt_chunk.ReconstructDeflateChunk()) {
- printf("failed to reconstruct target deflate chunk %zu [%s]; treating as normal\n", i,
- tgt_chunk.GetEntryName().c_str());
- tgt_chunk.ChangeDeflateChunkToNormal();
- src_chunk.ChangeDeflateChunkToNormal();
- continue;
- }
-
// If two deflate chunks are identical treat them as normal chunks.
if (tgt_chunk == src_chunk) {
tgt_chunk.ChangeDeflateChunkToNormal();
src_chunk.ChangeDeflateChunkToNormal();
+ } else if (!tgt_chunk.ReconstructDeflateChunk()) {
+ // We cannot recompress the data and get exactly the same bits as are in the input target
+ // image, fall back to normal
+ printf("failed to reconstruct target deflate chunk %zu [%s]; treating as normal\n", i,
+ tgt_chunk.GetEntryName().c_str());
+ tgt_chunk.ChangeDeflateChunkToNormal();
+ src_chunk.ChangeDeflateChunkToNormal();
}
}
@@ -1144,29 +1185,39 @@ bool ImageModeImage::CheckAndProcessChunks(ImageModeImage* tgt_image, ImageModeI
// In image mode, generate patches against the given source chunks and bonus_data; write the
// result to |patch_name|.
-bool ImageModeImage::GeneratePatches(ImageModeImage* tgt_image, ImageModeImage* src_image,
- const std::vector<uint8_t>& bonus_data,
+bool ImageModeImage::GeneratePatches(const ImageModeImage& tgt_image,
+ const ImageModeImage& src_image,
const std::string& patch_name) {
- printf("Construct patches for %zu chunks...\n", tgt_image->NumOfChunks());
- std::vector<std::vector<uint8_t>> patch_data(tgt_image->NumOfChunks());
+ printf("Construct patches for %zu chunks...\n", tgt_image.NumOfChunks());
+ std::vector<PatchChunk> patch_chunks;
+ patch_chunks.reserve(tgt_image.NumOfChunks());
- for (size_t i = 0; i < tgt_image->NumOfChunks(); i++) {
- auto& tgt_chunk = *tgt_image->Get(i);
- auto& src_chunk = *src_image->Get(i);
+ for (size_t i = 0; i < tgt_image.NumOfChunks(); i++) {
+ const auto& tgt_chunk = tgt_image[i];
+ const auto& src_chunk = src_image[i];
- if (i == 1 && !bonus_data.empty()) {
- printf(" using %zu bytes of bonus data for chunk %zu\n", bonus_data.size(), i);
- src_chunk.SetBonusData(bonus_data);
+ if (PatchChunk::RawDataIsSmaller(tgt_chunk, 0)) {
+ patch_chunks.emplace_back(tgt_chunk);
+ continue;
}
- if (!tgt_chunk.MakePatch(src_chunk, &patch_data[i], nullptr)) {
+ std::vector<uint8_t> patch_data;
+ if (!ImageChunk::MakePatch(tgt_chunk, src_chunk, &patch_data, nullptr)) {
printf("Failed to generate patch for target chunk %zu: ", i);
return false;
}
- printf("patch %3zu is %zu bytes (of %zu)\n", i, patch_data[i].size(),
+ printf("patch %3zu is %zu bytes (of %zu)\n", i, patch_data.size(),
tgt_chunk.GetRawDataLength());
+
+ if (PatchChunk::RawDataIsSmaller(tgt_chunk, patch_data.size())) {
+ patch_chunks.emplace_back(tgt_chunk);
+ } else {
+ patch_chunks.emplace_back(tgt_chunk, src_chunk, std::move(patch_data));
+ }
}
+ CHECK_EQ(tgt_image.NumOfChunks(), patch_chunks.size());
+
android::base::unique_fd patch_fd(
open(patch_name.c_str(), O_CREAT | O_WRONLY | O_TRUNC, S_IRUSR | S_IWUSR));
if (patch_fd == -1) {
@@ -1174,7 +1225,7 @@ bool ImageModeImage::GeneratePatches(ImageModeImage* tgt_image, ImageModeImage*
return false;
}
- return tgt_image->WritePatchDataToFd(patch_data, patch_fd);
+ return PatchChunk::WritePatchDataToFd(patch_chunks, patch_fd);
}
int imgdiff(int argc, const char** argv) {
@@ -1236,7 +1287,7 @@ int imgdiff(int argc, const char** argv) {
}
// Compute bsdiff patches for each chunk's data (the uncompressed data, in the case of
// deflate chunks).
- if (!ZipModeImage::GeneratePatches(&tgt_image, &src_image, argv[optind + 2])) {
+ if (!ZipModeImage::GeneratePatches(tgt_image, src_image, argv[optind + 2])) {
return 1;
}
} else {
@@ -1253,7 +1304,12 @@ int imgdiff(int argc, const char** argv) {
if (!ImageModeImage::CheckAndProcessChunks(&tgt_image, &src_image)) {
return 1;
}
- if (!ImageModeImage::GeneratePatches(&tgt_image, &src_image, bonus_data, argv[optind + 2])) {
+
+ if (!bonus_data.empty() && !src_image.SetBonusData(bonus_data)) {
+ return 1;
+ }
+
+ if (!ImageModeImage::GeneratePatches(tgt_image, src_image, argv[optind + 2])) {
return 1;
}
}