Index: src/platform/update_engine/delta_diff_generator.cc |
diff --git a/src/platform/update_engine/delta_diff_generator.cc b/src/platform/update_engine/delta_diff_generator.cc |
index 4114c3229e182722c1b8a71ee3f3fe92ba3ba3f6..4181057b0abd5093b989f7f92b427b4fa0eeab04 100644 |
--- a/src/platform/update_engine/delta_diff_generator.cc |
+++ b/src/platform/update_engine/delta_diff_generator.cc |
@@ -3,3 +3,863 @@ |
// found in the LICENSE file. |
#include "update_engine/delta_diff_generator.h" |
+#include <sys/stat.h> |
+#include <sys/types.h> |
+#include <errno.h> |
+#include <fcntl.h> |
+#include <algorithm> |
+#include <set> |
+#include <string> |
+#include <utility> |
+#include <vector> |
+#include <bzlib.h> |
+#include "chromeos/obsolete_logging.h" |
+#include "update_engine/bzip.h" |
+#include "update_engine/cycle_breaker.h" |
+#include "update_engine/extent_mapper.h" |
+#include "update_engine/file_writer.h" |
+#include "update_engine/filesystem_iterator.h" |
+#include "update_engine/graph_types.h" |
+#include "update_engine/graph_utils.h" |
+#include "update_engine/subprocess.h" |
+#include "update_engine/topological_sort.h" |
+#include "update_engine/update_metadata.pb.h" |
+#include "update_engine/utils.h" |
+ |
+using std::make_pair; |
+using std::min; |
+using std::set; |
+using std::string; |
+using std::vector; |
+ |
+namespace chromeos_update_engine { |
+ |
+typedef DeltaDiffGenerator::Block Block; |
+ |
+namespace { |
+const size_t kBlockSize = 4096; |
+const char* const kBsdiffPath = "/usr/bin/bsdiff"; |
+const uint64 kVersionNumber = 1; |
+const char* const kDeltaMagic = "CrAU"; |
+ |
+// Stores all Extents for a file into 'out'. Returns true on success. |
+bool GatherExtents(const string& path, |
+ google::protobuf::RepeatedPtrField<Extent>* out) { |
+ vector<Extent> extents; |
+ TEST_AND_RETURN_FALSE(extent_mapper::ExtentsForFileFibmap(path, &extents)); |
+ DeltaDiffGenerator::StoreExtents(extents, out); |
+ return true; |
+} |
+ |
+// Runs the bsdiff tool on two files and returns the resulting delta in |
+// 'out'. Returns true on success. |
+bool BsdiffFiles(const string& old_file, |
+ const string& new_file, |
+ vector<char>* out) { |
+ const string kPatchFile = "/tmp/delta.patchXXXXXX"; |
+ string patch_file_path; |
+ |
+ TEST_AND_RETURN_FALSE( |
+ utils::MakeTempFile(kPatchFile, &patch_file_path, NULL)); |
+ |
+ vector<string> cmd; |
+ cmd.push_back(kBsdiffPath); |
+ cmd.push_back(old_file); |
+ cmd.push_back(new_file); |
+ cmd.push_back(patch_file_path); |
+ |
+ int rc = 1; |
+ vector<char> patch_file; |
+ TEST_AND_RETURN_FALSE(Subprocess::SynchronousExec(cmd, &rc)); |
+ TEST_AND_RETURN_FALSE(rc == 0); |
+ TEST_AND_RETURN_FALSE(utils::ReadFile(patch_file_path, out)); |
+ unlink(patch_file_path.c_str()); |
+ return true; |
+} |
+ |
+// The blocks vector contains a reader and writer for each block on the |
+// filesystem that's being in-place updated. We populate the reader/writer |
+// fields of blocks by calling this function. |
+// For each block in 'operation' that is read or written, find that block |
+// in 'blocks' and set the reader/writer field to the vertex passed. |
+// 'graph' is not strictly necessary, but useful for printing out |
+// error messages. |
+bool AddInstallOpToBlocksVector( |
+ const DeltaArchiveManifest_InstallOperation& operation, |
+ vector<Block>* blocks, |
+ const Graph& graph, |
+ Vertex::Index vertex) { |
+ LOG(INFO) << "AddInstallOpToBlocksVector(" << vertex << "), " |
+ << graph[vertex].file_name; |
+ // See if this is already present. |
+ TEST_AND_RETURN_FALSE(operation.dst_extents_size() > 0); |
+ |
+ enum BlockField { READER = 0, WRITER, BLOCK_FIELD_COUNT }; |
+ for (int field = READER; field < BLOCK_FIELD_COUNT; field++) { |
+ const int extents_size = |
+ (field == READER) ? operation.src_extents_size() : |
+ operation.dst_extents_size(); |
+ const char* past_participle = (field == READER) ? "read" : "written"; |
+ const google::protobuf::RepeatedPtrField<Extent>& extents = |
+ (field == READER) ? operation.src_extents() : operation.dst_extents(); |
+ Vertex::Index Block::*access_type = |
+ (field == READER) ? &Block::reader : &Block::writer; |
+ |
+ for (int i = 0; i < extents_size; i++) { |
+ const Extent& extent = extents.Get(i); |
+ if (extent.start_block() == kSparseHole) { |
+ // Hole in sparse file. skip |
+ continue; |
+ } |
+ for (uint64_t block = extent.start_block(); |
+ block < (extent.start_block() + extent.num_blocks()); block++) { |
+ LOG(INFO) << "ext: " << i << " block: " << block; |
+ if ((*blocks)[block].*access_type != Vertex::kInvalidIndex) { |
+ LOG(FATAL) << "Block " << block << " is already " |
+ << past_participle << " by " |
+ << (*blocks)[block].*access_type << "(" |
+ << graph[(*blocks)[block].*access_type].file_name |
+ << ") and also " << vertex << "(" |
+ << graph[vertex].file_name << ")"; |
+ } |
+ (*blocks)[block].*access_type = vertex; |
+ } |
+ } |
+ } |
+ return true; |
+} |
+ |
+// For a given regular file which must exist at new_root + path, and may |
+// exist at old_root + path, creates a new InstallOperation and adds it to |
+// the graph. Also, populates the 'blocks' array as necessary. |
+// Also, writes the data necessary to send the file down to the client |
+// into data_fd, which has length *data_file_size. *data_file_size is |
+// updated appropriately. |
+// Returns true on success. |
+bool DeltaReadFile(Graph* graph, |
+ vector<Block>* blocks, |
+ const string& old_root, |
+ const string& new_root, |
+ const string& path, // within new_root |
+ int data_fd, |
+ off_t* data_file_size) { |
+ vector<char> data; |
+ DeltaArchiveManifest_InstallOperation operation; |
+ |
+ TEST_AND_RETURN_FALSE(DeltaDiffGenerator::ReadFileToDiff(old_root + path, |
+ new_root + path, |
+ &data, |
+ &operation)); |
+ |
+ // Write the data |
+ if (operation.type() != DeltaArchiveManifest_InstallOperation_Type_MOVE) { |
+ operation.set_data_offset(*data_file_size); |
+ operation.set_data_length(data.size()); |
+ } |
+ |
+ TEST_AND_RETURN_FALSE(utils::WriteAll(data_fd, &data[0], data.size())); |
+ *data_file_size += data.size(); |
+ |
+ // Now, insert into graph and blocks vector |
+ graph->resize(graph->size() + 1); |
+ graph->back().op = operation; |
+ CHECK(graph->back().op.has_type()); |
+ graph->back().file_name = path; |
+ |
+ TEST_AND_RETURN_FALSE(AddInstallOpToBlocksVector(graph->back().op, |
+ blocks, |
+ *graph, |
+ graph->size() - 1)); |
+ return true; |
+} |
+ |
+// For each regular file within new_root, creates a node in the graph, |
+// determines the best way to compress it (REPLACE, REPLACE_BZ, COPY, BSDIFF), |
+// and writes any necessary data to the end of data_fd. |
+bool DeltaReadFiles(Graph* graph, |
+ vector<Block>* blocks, |
+ const string& old_root, |
+ const string& new_root, |
+ int data_fd, |
+ off_t* data_file_size) { |
+ set<ino_t> visited_inodes; |
+ for (FilesystemIterator fs_iter(new_root, |
+ utils::SetWithValue<string>("/lost+found")); |
+ !fs_iter.IsEnd(); fs_iter.Increment()) { |
+ if (!S_ISREG(fs_iter.GetStat().st_mode)) |
+ continue; |
+ |
+ // Make sure we visit each inode only once. |
+ if (utils::SetContainsKey(visited_inodes, fs_iter.GetStat().st_ino)) |
+ continue; |
+ visited_inodes.insert(fs_iter.GetStat().st_ino); |
+ if (fs_iter.GetStat().st_size == 0) |
+ continue; |
+ |
+ LOG(INFO) << "Encoding file " << fs_iter.GetPartialPath(); |
+ |
+ TEST_AND_RETURN_FALSE(DeltaReadFile(graph, |
+ blocks, |
+ old_root, |
+ new_root, |
+ fs_iter.GetPartialPath(), |
+ data_fd, |
+ data_file_size)); |
+ } |
+ return true; |
+} |
+ |
+// Attempts to find block_count blocks to use as scratch space. |
+// Returns true on success. |
+// Right now we return exactly as many blocks as are required. |
+// TODO(adlr): consider returning all scratch blocks, |
+// even if there are extras, to make it easier for a scratch allocator |
+// to find contiguous regions for specific scratch writes. |
+bool FindScratchSpace(const vector<Block>& blocks, |
+ vector<Block>::size_type block_count, |
+ vector<Extent>* out) { |
+ // Scan blocks for blocks that are neither read nor written. |
+ // If we don't find enough of those, return false. |
+ // TODO(adlr): return blocks that are written by |
+ // operations that don't have incoming edges (and thus, can be |
+ // deferred until all old blocks are read by other operations). |
+ vector<Extent> ret; |
+ vector<Block>::size_type blocks_found = 0; |
+ for (vector<Block>::size_type i = 0; |
+ i < blocks.size() && blocks_found < block_count; i++) { |
+ if (blocks[i].reader == Vertex::kInvalidIndex && |
+ blocks[i].writer == Vertex::kInvalidIndex) { |
+ graph_utils::AppendBlockToExtents(&ret, i); |
+ blocks_found++; |
+ } |
+ } |
+ if (blocks_found == block_count) { |
+ LOG(INFO) << "returning " << blocks_found << " scratch blocks"; |
+ out->swap(ret); |
+ return true; |
+ } |
+ return false; |
+} |
+ |
+// This class takes a collection of Extents and allows the client to |
+// allocate space from these extents. The client must not request more |
+// space then exists in the source extents. Space is allocated from the |
+// beginning of the source extents on; no consideration is paid to |
+// fragmentation. |
+class LinearExtentAllocator { |
+ public: |
+ explicit LinearExtentAllocator(const vector<Extent>& extents) |
+ : extents_(extents), |
+ extent_index_(0), |
+ extent_blocks_allocated_(0) {} |
+ vector<Extent> Allocate(const uint64_t block_count) { |
+ vector<Extent> ret; |
+ for (uint64_t blocks = 0; blocks < block_count; blocks++) { |
+ CHECK_LT(extent_index_, extents_.size()); |
+ CHECK_LT(extent_blocks_allocated_, extents_[extent_index_].num_blocks()); |
+ graph_utils::AppendBlockToExtents( |
+ &ret, |
+ extents_[extent_index_].start_block() + extent_blocks_allocated_); |
+ extent_blocks_allocated_++; |
+ if (extent_blocks_allocated_ >= extents_[extent_index_].num_blocks()) { |
+ extent_blocks_allocated_ = 0; |
+ extent_index_++; |
+ } |
+ } |
+ return ret; |
+ } |
+ private: |
+ const vector<Extent> extents_; |
+ vector<Extent>::size_type extent_index_; // current Extent |
+ // number of blocks allocated from the current extent |
+ uint64_t extent_blocks_allocated_; |
+}; |
+ |
+// Reads blocks from image_path that are not yet marked as being written |
+// in the blocks array. These blocks that remain are non-file-data blocks. |
+// In the future we might consider intelligent diffing between this data |
+// and data in the previous image, but for now we just bzip2 compress it |
+// and include it in the update. |
+// Creates a new node in the graph to write these blocks and writes the |
+// appropriate blob to blobs_fd. Reads and updates blobs_length; |
+bool ReadUnwrittenBlocks(const vector<Block>& blocks, |
+ int blobs_fd, |
+ off_t* blobs_length, |
+ const string& image_path, |
+ DeltaArchiveManifest_InstallOperation* out_op) { |
+ int image_fd = open(image_path.c_str(), O_RDONLY, 000); |
+ TEST_AND_RETURN_FALSE_ERRNO(image_fd >= 0); |
+ ScopedFdCloser image_fd_closer(&image_fd); |
+ |
+ string temp_file_path; |
+ TEST_AND_RETURN_FALSE(utils::MakeTempFile("/tmp/CrAU_temp_data.XXXXXX", |
+ &temp_file_path, |
+ NULL)); |
+ |
+ FILE* file = fopen(temp_file_path.c_str(), "w"); |
+ TEST_AND_RETURN_FALSE(file); |
+ int err = BZ_OK; |
+ |
+ BZFILE* bz_file = BZ2_bzWriteOpen(&err, |
+ file, |
+ 9, // max compression |
+ 0, // verbosity |
+ 0); // default work factor |
+ TEST_AND_RETURN_FALSE(err == BZ_OK); |
+ |
+ vector<Extent> extents; |
+ vector<Block>::size_type block_count = 0; |
+ |
+ LOG(INFO) << "Appending left over blocks to extents"; |
+ for (vector<Block>::size_type i = 0; i < blocks.size(); i++) { |
+ if (blocks[i].writer != Vertex::kInvalidIndex) |
+ continue; |
+ graph_utils::AppendBlockToExtents(&extents, i); |
+ block_count++; |
+ } |
+ |
+ // Code will handle 'buf' at any size that's a multiple of kBlockSize, |
+ // so we arbitrarily set it to 1024 * kBlockSize. |
+ vector<char> buf(1024 * kBlockSize); |
+ |
+ LOG(INFO) << "Reading left over blocks"; |
+ vector<Block>::size_type blocks_copied_count = 0; |
+ |
+ // For each extent in extents, write the data into BZ2_bzWrite which |
+ // sends it to an output file. |
+ // We use the temporary buffer 'buf' to hold the data, which may be |
+ // smaller than the extent, so in that case we have to loop to get |
+ // the extent's data (that's the inner while loop). |
+ for (vector<Extent>::const_iterator it = extents.begin(); |
+ it != extents.end(); ++it) { |
+ vector<Block>::size_type blocks_read = 0; |
+ while (blocks_read < it->num_blocks()) { |
+ const int copy_block_cnt = |
+ min(buf.size() / kBlockSize, |
+ static_cast<vector<char>::size_type>( |
+ it->num_blocks() - blocks_read)); |
+ ssize_t rc = pread(image_fd, |
+ &buf[0], |
+ copy_block_cnt * kBlockSize, |
+ (it->start_block() + blocks_read) * kBlockSize); |
+ TEST_AND_RETURN_FALSE_ERRNO(rc >= 0); |
+ TEST_AND_RETURN_FALSE(static_cast<size_t>(rc) == |
+ copy_block_cnt * kBlockSize); |
+ BZ2_bzWrite(&err, bz_file, &buf[0], copy_block_cnt * kBlockSize); |
+ TEST_AND_RETURN_FALSE(err == BZ_OK); |
+ blocks_read += copy_block_cnt; |
+ blocks_copied_count += copy_block_cnt; |
+ LOG(INFO) << "progress: " << ((float)blocks_copied_count)/block_count; |
+ } |
+ } |
+ BZ2_bzWriteClose(&err, bz_file, 0, NULL, NULL); |
+ TEST_AND_RETURN_FALSE(err == BZ_OK); |
+ bz_file = NULL; |
+ TEST_AND_RETURN_FALSE_ERRNO(0 == fclose(file)); |
+ file = NULL; |
+ |
+ vector<char> compressed_data; |
+ LOG(INFO) << "Reading compressed data off disk"; |
+ TEST_AND_RETURN_FALSE(utils::ReadFile(temp_file_path, &compressed_data)); |
+ TEST_AND_RETURN_FALSE(unlink(temp_file_path.c_str()) == 0); |
+ |
+ // Add node to graph to write these blocks |
+ out_op->set_type(DeltaArchiveManifest_InstallOperation_Type_REPLACE_BZ); |
+ out_op->set_data_offset(*blobs_length); |
+ out_op->set_data_length(compressed_data.size()); |
+ *blobs_length += compressed_data.size(); |
+ out_op->set_dst_length(kBlockSize * block_count); |
+ DeltaDiffGenerator::StoreExtents(extents, out_op->mutable_dst_extents()); |
+ |
+ TEST_AND_RETURN_FALSE(utils::WriteAll(blobs_fd, |
+ &compressed_data[0], |
+ compressed_data.size())); |
+ LOG(INFO) << "done with extra blocks"; |
+ return true; |
+} |
+ |
+// Writes the uint64 passed in in host-endian to the file as big-endian. |
+// Returns true on success. |
+bool WriteUint64AsBigEndian(FileWriter* writer, const uint64 value) { |
+ uint64 value_be = htobe64(value); |
+ TEST_AND_RETURN_FALSE(writer->Write(&value_be, sizeof(value_be)) == |
+ sizeof(value_be)); |
+ return true; |
+} |
+ |
+// Adds each operation from the graph to the manifest in the order |
+// specified by 'order'. |
+void InstallOperationsToManifest( |
+ const Graph& graph, |
+ const vector<Vertex::Index>& order, |
+ DeltaArchiveManifest* out_manifest) { |
+ for (vector<Vertex::Index>::const_iterator it = order.begin(); |
+ it != order.end(); ++it) { |
+ DeltaArchiveManifest_InstallOperation* op = |
+ out_manifest->add_install_operations(); |
+ *op = graph[*it].op; |
+ } |
+} |
+ |
+void CheckGraph(const Graph& graph) { |
+ for (Graph::const_iterator it = graph.begin(); it != graph.end(); ++it) { |
+ CHECK(it->op.has_type()); |
+ } |
+} |
+ |
+} // namespace {} |
+ |
+bool DeltaDiffGenerator::ReadFileToDiff( |
+ const string& old_filename, |
+ const string& new_filename, |
+ vector<char>* out_data, |
+ DeltaArchiveManifest_InstallOperation* out_op) { |
+ // Read new data in |
+ vector<char> new_data; |
+ TEST_AND_RETURN_FALSE(utils::ReadFile(new_filename, &new_data)); |
+ |
+ TEST_AND_RETURN_FALSE(!new_data.empty()); |
+ |
+ vector<char> new_data_bz; |
+ TEST_AND_RETURN_FALSE(BzipCompress(new_data, &new_data_bz)); |
+ CHECK(!new_data_bz.empty()); |
+ |
+ vector<char> data; // Data blob that will be written to delta file. |
+ |
+ DeltaArchiveManifest_InstallOperation operation; |
+ size_t current_best_size = 0; |
+ if (new_data.size() <= new_data_bz.size()) { |
+ operation.set_type(DeltaArchiveManifest_InstallOperation_Type_REPLACE); |
+ current_best_size = new_data.size(); |
+ data = new_data; |
+ } else { |
+ operation.set_type(DeltaArchiveManifest_InstallOperation_Type_REPLACE_BZ); |
+ current_best_size = new_data_bz.size(); |
+ data = new_data_bz; |
+ } |
+ |
+ // Do we have an original file to consider? |
+ struct stat old_stbuf; |
+ if (0 != stat(old_filename.c_str(), &old_stbuf)) { |
+ // If stat-ing the old file fails, it should be because it doesn't exist. |
+ TEST_AND_RETURN_FALSE(errno == ENOTDIR || errno == ENOENT); |
+ } else { |
+ // Read old data |
+ vector<char> old_data; |
+ TEST_AND_RETURN_FALSE(utils::ReadFile(old_filename, &old_data)); |
+ if (old_data == new_data) { |
+ // No change in data. |
+ operation.set_type(DeltaArchiveManifest_InstallOperation_Type_MOVE); |
+ current_best_size = 0; |
+ data.clear(); |
+ } else { |
+ // Try bsdiff of old to new data |
+ vector<char> bsdiff_delta; |
+ TEST_AND_RETURN_FALSE( |
+ BsdiffFiles(old_filename, new_filename, &bsdiff_delta)); |
+ CHECK_GT(bsdiff_delta.size(), 0); |
+ if (bsdiff_delta.size() < current_best_size) { |
+ operation.set_type(DeltaArchiveManifest_InstallOperation_Type_BSDIFF); |
+ current_best_size = bsdiff_delta.size(); |
+ |
+ data = bsdiff_delta; |
+ } |
+ } |
+ } |
+ |
+ // Set parameters of the operations |
+ CHECK_EQ(data.size(), current_best_size); |
+ |
+ if (operation.type() == DeltaArchiveManifest_InstallOperation_Type_MOVE || |
+ operation.type() == DeltaArchiveManifest_InstallOperation_Type_BSDIFF) { |
+ TEST_AND_RETURN_FALSE( |
+ GatherExtents(old_filename, operation.mutable_src_extents())); |
+ operation.set_src_length(old_stbuf.st_size); |
+ } |
+ |
+ TEST_AND_RETURN_FALSE( |
+ GatherExtents(new_filename, operation.mutable_dst_extents())); |
+ operation.set_dst_length(new_data.size()); |
+ |
+ out_data->swap(data); |
+ *out_op = operation; |
+ |
+ return true; |
+} |
+ |
+void DeltaDiffGenerator::SubstituteBlocks( |
+ DeltaArchiveManifest_InstallOperation* op, |
+ const vector<Extent>& remove_extents, |
+ const vector<Extent>& replace_extents) { |
+ // First, expand out the blocks that op reads from |
+ vector<uint64> read_blocks; |
+ for (int i = 0; i < op->src_extents_size(); i++) { |
+ const Extent& extent = op->src_extents(i); |
+ if (extent.start_block() == kSparseHole) { |
+ read_blocks.resize(read_blocks.size() + extent.num_blocks(), kSparseHole); |
+ } else { |
+ for (uint64 block = extent.start_block(); |
+ block < (extent.start_block() + extent.num_blocks()); block++) { |
+ read_blocks.push_back(block); |
+ } |
+ } |
+ } |
+ { |
+ // Expand remove_extents and replace_extents |
+ vector<uint64> remove_extents_expanded; |
+ for (vector<Extent>::const_iterator it = remove_extents.begin(); |
+ it != remove_extents.end(); ++it) { |
+ const Extent& extent = *it; |
+ for (uint64 block = extent.start_block(); |
+ block < (extent.start_block() + extent.num_blocks()); block++) { |
+ remove_extents_expanded.push_back(block); |
+ } |
+ } |
+ vector<uint64> replace_extents_expanded; |
+ for (vector<Extent>::const_iterator it = replace_extents.begin(); |
+ it != replace_extents.end(); ++it) { |
+ const Extent& extent = *it; |
+ for (uint64 block = extent.start_block(); |
+ block < (extent.start_block() + extent.num_blocks()); block++) { |
+ replace_extents_expanded.push_back(block); |
+ } |
+ } |
+ CHECK_EQ(remove_extents_expanded.size(), replace_extents_expanded.size()); |
+ for (vector<uint64>::size_type i = 0; |
+ i < replace_extents_expanded.size(); i++) { |
+ vector<uint64>::size_type index = 0; |
+ CHECK(utils::VectorIndexOf(read_blocks, |
+ remove_extents_expanded[i], |
+ &index)); |
+ CHECK(read_blocks[index] == remove_extents_expanded[i]); |
+ read_blocks[index] = replace_extents_expanded[i]; |
+ } |
+ } |
+ // Convert read_blocks back to extents |
+ op->clear_src_extents(); |
+ vector<Extent> new_extents; |
+ for (vector<uint64>::const_iterator it = read_blocks.begin(); |
+ it != read_blocks.end(); ++it) { |
+ graph_utils::AppendBlockToExtents(&new_extents, *it); |
+ } |
+ DeltaDiffGenerator::StoreExtents(new_extents, op->mutable_src_extents()); |
+} |
+ |
+bool DeltaDiffGenerator::CutEdges(Graph* graph, |
+ const vector<Block>& blocks, |
+ const set<Edge>& edges) { |
+ // First, find enough scratch space for the edges we'll be cutting. |
+ vector<Block>::size_type blocks_required = 0; |
+ for (set<Edge>::const_iterator it = edges.begin(); it != edges.end(); ++it) { |
+ blocks_required += graph_utils::EdgeWeight(*graph, *it); |
+ } |
+ vector<Extent> scratch_extents; |
+ LOG(INFO) << "requesting " << blocks_required << " blocks of scratch"; |
+ TEST_AND_RETURN_FALSE( |
+ FindScratchSpace(blocks, blocks_required, &scratch_extents)); |
+ LinearExtentAllocator scratch_allocator(scratch_extents); |
+ |
+ uint64_t scratch_blocks_used = 0; |
+ for (set<Edge>::const_iterator it = edges.begin(); |
+ it != edges.end(); ++it) { |
+ vector<Extent> old_extents = |
+ (*graph)[it->first].out_edges[it->second].extents; |
+ // Choose some scratch space |
+ scratch_blocks_used += graph_utils::EdgeWeight(*graph, *it); |
+ LOG(INFO) << "using " << graph_utils::EdgeWeight(*graph, *it) |
+ << " scratch blocks (" |
+ << scratch_blocks_used << ")"; |
+ vector<Extent> scratch = |
+ scratch_allocator.Allocate(graph_utils::EdgeWeight(*graph, *it)); |
+ // create vertex to copy original->scratch |
+ graph->resize(graph->size() + 1); |
+ |
+ // make node depend on the copy operation |
+ (*graph)[it->first].out_edges.insert(make_pair(graph->size() - 1, |
+ EdgeProperties())); |
+ |
+ // Set src/dst extents and other proto variables for copy operation |
+ graph->back().op.set_type(DeltaArchiveManifest_InstallOperation_Type_MOVE); |
+ DeltaDiffGenerator::StoreExtents( |
+ (*graph)[it->first].out_edges[it->second].extents, |
+ graph->back().op.mutable_src_extents()); |
+ DeltaDiffGenerator::StoreExtents(scratch, |
+ graph->back().op.mutable_dst_extents()); |
+ graph->back().op.set_src_length( |
+ graph_utils::EdgeWeight(*graph, *it) * kBlockSize); |
+ graph->back().op.set_dst_length(graph->back().op.src_length()); |
+ |
+ // make the dest node read from the scratch space |
+ DeltaDiffGenerator::SubstituteBlocks( |
+ &((*graph)[it->second].op), |
+ (*graph)[it->first].out_edges[it->second].extents, |
+ scratch); |
+ |
+ // delete the old edge |
+ CHECK_EQ(1, (*graph)[it->first].out_edges.erase(it->second)); |
+ } |
+ return true; |
+} |
+ |
+// Stores all Extents in 'extents' into 'out'. |
+void DeltaDiffGenerator::StoreExtents( |
+ vector<Extent>& extents, |
+ google::protobuf::RepeatedPtrField<Extent>* out) { |
+ for (vector<Extent>::const_iterator it = extents.begin(); |
+ it != extents.end(); ++it) { |
+ Extent* new_extent = out->Add(); |
+ *new_extent = *it; |
+ } |
+} |
+ |
+// Creates all the edges for the graph. Writers of a block point to |
+// readers of the same block. This is because for an edge A->B, B |
+// must complete before A executes. |
+void DeltaDiffGenerator::CreateEdges(Graph* graph, |
+ const vector<Block>& blocks) { |
+ for (vector<Block>::size_type i = 0; i < blocks.size(); i++) { |
+ // Blocks with both a reader and writer get an edge |
+ if (blocks[i].reader == Vertex::kInvalidIndex || |
+ blocks[i].writer == Vertex::kInvalidIndex) |
+ continue; |
+ // Don't have a node depend on itself |
+ if (blocks[i].reader == blocks[i].writer) |
+ continue; |
+ // See if there's already an edge we can add onto |
+ Vertex::EdgeMap::iterator edge_it = |
+ (*graph)[blocks[i].writer].out_edges.find(blocks[i].reader); |
+ if (edge_it == (*graph)[blocks[i].writer].out_edges.end()) { |
+ // No existing edge. Create one |
+ (*graph)[blocks[i].writer].out_edges.insert( |
+ make_pair(blocks[i].reader, EdgeProperties())); |
+ edge_it = (*graph)[blocks[i].writer].out_edges.find(blocks[i].reader); |
+ CHECK_NE(edge_it, (*graph)[blocks[i].writer].out_edges.end()); |
+ } |
+ graph_utils::AppendBlockToExtents(&edge_it->second.extents, i); |
+ } |
+} |
+ |
+bool DeltaDiffGenerator::ReorderDataBlobs( |
+ DeltaArchiveManifest* manifest, |
+ const std::string& data_blobs_path, |
+ const std::string& new_data_blobs_path) { |
+ int in_fd = open(data_blobs_path.c_str(), O_RDONLY, 0); |
+ TEST_AND_RETURN_FALSE_ERRNO(in_fd >= 0); |
+ ScopedFdCloser in_fd_closer(&in_fd); |
+ |
+ DirectFileWriter writer; |
+ TEST_AND_RETURN_FALSE( |
+ writer.Open(new_data_blobs_path.c_str(), |
+ O_WRONLY | O_TRUNC | O_CREAT, |
+ 0644) == 0); |
+ ScopedFileWriterCloser writer_closer(&writer); |
+ uint64 out_file_size = 0; |
+ |
+ for (int i = 0; i < manifest->install_operations_size(); i++) { |
+ DeltaArchiveManifest_InstallOperation* op = |
+ manifest->mutable_install_operations(i); |
+ if (!op->has_data_offset()) |
+ continue; |
+ CHECK(op->has_data_length()); |
+ vector<char> buf(op->data_length()); |
+ ssize_t rc = pread(in_fd, &buf[0], buf.size(), op->data_offset()); |
+ TEST_AND_RETURN_FALSE(rc == static_cast<ssize_t>(buf.size())); |
+ |
+ op->set_data_offset(out_file_size); |
+ TEST_AND_RETURN_FALSE(writer.Write(&buf[0], buf.size()) == |
+ static_cast<ssize_t>(buf.size())); |
+ out_file_size += buf.size(); |
+ } |
+ return true; |
+} |
+ |
+bool DeltaDiffGenerator::GenerateDeltaUpdateFile(const string& old_root, |
+ const string& old_image, |
+ const string& new_root, |
+ const string& new_image, |
+ const string& output_path) { |
+ struct stat old_image_stbuf; |
+ TEST_AND_RETURN_FALSE_ERRNO(stat(old_image.c_str(), &old_image_stbuf) == 0); |
+ struct stat new_image_stbuf; |
+ TEST_AND_RETURN_FALSE_ERRNO(stat(new_image.c_str(), &new_image_stbuf) == 0); |
+ LOG_IF(WARNING, new_image_stbuf.st_size != old_image_stbuf.st_size) |
+ << "Old and new images are different sizes."; |
+ LOG_IF(FATAL, new_image_stbuf.st_size % kBlockSize) |
+ << "New image not a multiple of block size " << kBlockSize; |
+ LOG_IF(FATAL, old_image_stbuf.st_size % kBlockSize) |
+ << "Old image not a multiple of block size " << kBlockSize; |
+ |
+ vector<Block> blocks(min(old_image_stbuf.st_size / kBlockSize, |
+ new_image_stbuf.st_size / kBlockSize)); |
+ LOG(INFO) << "blocks (orig): " << (uint32)(&blocks); |
+ LOG(INFO) << "w:" << blocks[4097].writer; |
+ LOG(INFO) << "invalid: " << Vertex::kInvalidIndex; |
+ LOG(INFO) << "len: " << blocks.size(); |
+ for (vector<Block>::size_type i = 0; i < blocks.size(); i++) { |
+ CHECK(blocks[i].reader == Vertex::kInvalidIndex); |
+ CHECK(blocks[i].writer == Vertex::kInvalidIndex); |
+ } |
+ Graph graph; |
+ CheckGraph(graph); |
+ |
+ const string kTempFileTemplate("/tmp/CrAU_temp_data.XXXXXX"); |
+ string temp_file_path; |
+ off_t data_file_size = 0; |
+ |
+ LOG(INFO) << "Reading files..."; |
+ |
+ DeltaArchiveManifest_InstallOperation final_op; |
+ { |
+ int fd; |
+ TEST_AND_RETURN_FALSE( |
+ utils::MakeTempFile(kTempFileTemplate, &temp_file_path, &fd)); |
+ TEST_AND_RETURN_FALSE(fd >= 0); |
+ ScopedFdCloser fd_closer(&fd); |
+ |
+ TEST_AND_RETURN_FALSE(DeltaReadFiles(&graph, |
+ &blocks, |
+ old_root, |
+ new_root, |
+ fd, |
+ &data_file_size)); |
+ CheckGraph(graph); |
+ |
+ // TODO(adlr): read all the rest of the blocks in |
+ TEST_AND_RETURN_FALSE(ReadUnwrittenBlocks(blocks, |
+ fd, |
+ &data_file_size, |
+ new_image, |
+ &final_op)); |
+ } |
+ CheckGraph(graph); |
+ |
+ LOG(INFO) << "Creating edges..."; |
+ CreateEdges(&graph, blocks); |
+ CheckGraph(graph); |
+ |
+ CycleBreaker cycle_breaker; |
+ LOG(INFO) << "Finding cycles..."; |
+ set<Edge> cut_edges; |
+ cycle_breaker.BreakCycles(graph, &cut_edges); |
+ CheckGraph(graph); |
+ |
+ // Calculate number of scratch blocks needed |
+ |
+ LOG(INFO) << "Cutting cycles..."; |
+ TEST_AND_RETURN_FALSE(CutEdges(&graph, blocks, cut_edges)); |
+ CheckGraph(graph); |
+ |
+ vector<Vertex::Index> final_order; |
+ LOG(INFO) << "Ordering..."; |
+ TopologicalSort(graph, &final_order); |
+ CheckGraph(graph); |
+ |
+ // Convert to protobuf Manifest object |
+ DeltaArchiveManifest manifest; |
+ CheckGraph(graph); |
+ InstallOperationsToManifest(graph, final_order, &manifest); |
+ { |
+ // Write final operation |
+ DeltaArchiveManifest_InstallOperation* op = |
+ manifest.add_install_operations(); |
+ *op = final_op; |
+ CHECK(op->has_type()); |
+ LOG(INFO) << "final op length: " << op->data_length(); |
+ } |
+ CheckGraph(graph); |
+ manifest.set_block_size(kBlockSize); |
+ // TODO(adlr): set checksums |
+ |
+ // Reorder the data blobs with the newly ordered manifest |
+ string ordered_blobs_path; |
+ TEST_AND_RETURN_FALSE(utils::MakeTempFile( |
+ "/tmp/CrAU_temp_data.ordered.XXXXXX", |
+ &ordered_blobs_path, |
+ false)); |
+ TEST_AND_RETURN_FALSE(ReorderDataBlobs(&manifest, |
+ temp_file_path, |
+ ordered_blobs_path)); |
+ |
+ // Check that install op blobs are in order and that all blocks are written. |
+ { |
+ vector<uint32> written_count(blocks.size(), 0); |
+ uint64 next_blob_offset = 0; |
+ for (int i = 0; i < manifest.install_operations_size(); i++) { |
+ const DeltaArchiveManifest_InstallOperation& op = |
+ manifest.install_operations(i); |
+ for (int j = 0; j < op.dst_extents_size(); j++) { |
+ const Extent& extent = op.dst_extents(j); |
+ for (uint64 block = extent.start_block(); |
+ block < (extent.start_block() + extent.num_blocks()); block++) { |
+ written_count[block]++; |
+ } |
+ } |
+ if (op.has_data_offset()) { |
+ if (op.data_offset() != next_blob_offset) { |
+ LOG(FATAL) << "bad blob offset! " << op.data_offset() << " != " |
+ << next_blob_offset; |
+ } |
+ next_blob_offset += op.data_length(); |
+ } |
+ } |
+ // check all blocks written to |
+ for (vector<uint32>::size_type i = 0; i < written_count.size(); i++) { |
+ if (written_count[i] == 0) { |
+ LOG(FATAL) << "block " << i << " not written!"; |
+ } |
+ } |
+ } |
+ |
+ // Serialize protobuf |
+ string serialized_manifest; |
+ |
+ CheckGraph(graph); |
+ TEST_AND_RETURN_FALSE(manifest.AppendToString(&serialized_manifest)); |
+ CheckGraph(graph); |
+ |
+ LOG(INFO) << "Writing final delta file header..."; |
+ DirectFileWriter writer; |
+ TEST_AND_RETURN_FALSE_ERRNO(writer.Open(output_path.c_str(), |
+ O_WRONLY | O_CREAT | O_TRUNC, |
+ 0644) == 0); |
+ ScopedFileWriterCloser writer_closer(&writer); |
+ |
+ // Write header |
+ TEST_AND_RETURN_FALSE(writer.Write(kDeltaMagic, strlen(kDeltaMagic)) == |
+ strlen(kDeltaMagic)); |
+ |
+ // Write version number |
+ TEST_AND_RETURN_FALSE(WriteUint64AsBigEndian(&writer, kVersionNumber)); |
+ |
+ // Write protobuf length |
+ TEST_AND_RETURN_FALSE(WriteUint64AsBigEndian(&writer, |
+ serialized_manifest.size())); |
+ |
+ // Write protobuf |
+ LOG(INFO) << "Writing final delta file protobuf... " |
+ << serialized_manifest.size(); |
+ TEST_AND_RETURN_FALSE(writer.Write(serialized_manifest.data(), |
+ serialized_manifest.size()) == |
+ static_cast<ssize_t>(serialized_manifest.size())); |
+ |
+ // Append the data blobs |
+ LOG(INFO) << "Writing final delta file data blobs..."; |
+ int blobs_fd = open(temp_file_path.c_str(), O_RDONLY, 0); |
+ ScopedFdCloser blobs_fd_closer(&blobs_fd); |
+ TEST_AND_RETURN_FALSE(blobs_fd >= 0); |
+ for (;;) { |
+ char buf[kBlockSize]; |
+ ssize_t rc = read(blobs_fd, buf, sizeof(buf)); |
+ if (0 == rc) { |
+ // EOF |
+ break; |
+ } |
+ TEST_AND_RETURN_FALSE_ERRNO(rc > 0); |
+ TEST_AND_RETURN_FALSE(writer.Write(buf, rc) == rc); |
+ } |
+ |
+ LOG(INFO) << "All done. Successfully created delta file."; |
+ return true; |
+} |
+ |
+}; // namespace chromeos_update_engine |