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/*
* Copyright (C) 2018 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.
*/
#include "private/commands.h"
#include <stdint.h>
#include <string.h>
#include <functional>
#include <ostream>
#include <string>
#include <vector>
#include <android-base/logging.h>
#include <android-base/parseint.h>
#include <android-base/stringprintf.h>
#include <android-base/strings.h>
#include <openssl/sha.h>
#include "otautil/print_sha1.h"
#include "otautil/rangeset.h"
using namespace std::string_literals;
bool Command::abort_allowed_ = false;
Command::Command(Type type, size_t index, std::string cmdline, HashTreeInfo hash_tree_info)
: type_(type),
index_(index),
cmdline_(std::move(cmdline)),
hash_tree_info_(std::move(hash_tree_info)) {
CHECK(type == Type::COMPUTE_HASH_TREE);
}
Command::Type Command::ParseType(const std::string& type_str) {
if (type_str == "abort") {
if (!abort_allowed_) {
LOG(ERROR) << "ABORT disallowed";
return Type::LAST;
}
return Type::ABORT;
} else if (type_str == "bsdiff") {
return Type::BSDIFF;
} else if (type_str == "compute_hash_tree") {
return Type::COMPUTE_HASH_TREE;
} else if (type_str == "erase") {
return Type::ERASE;
} else if (type_str == "free") {
return Type::FREE;
} else if (type_str == "imgdiff") {
return Type::IMGDIFF;
} else if (type_str == "move") {
return Type::MOVE;
} else if (type_str == "new") {
return Type::NEW;
} else if (type_str == "stash") {
return Type::STASH;
} else if (type_str == "zero") {
return Type::ZERO;
}
return Type::LAST;
};
bool Command::ParseTargetInfoAndSourceInfo(const std::vector<std::string>& tokens,
const std::string& tgt_hash, TargetInfo* target,
const std::string& src_hash, SourceInfo* source,
std::string* err) {
// We expect the given args (in 'tokens' vector) in one of the following formats.
//
// <tgt_ranges> <src_block_count> - <[stash_id:location] ...>
// (loads data from stashes only)
//
// <tgt_ranges> <src_block_count> <src_ranges>
// (loads data from source image only)
//
// <tgt_ranges> <src_block_count> <src_ranges> <src_ranges_location> <[stash_id:location] ...>
// (loads data from both of source image and stashes)
// At least it needs to provide three args: <tgt_ranges>, <src_block_count> and "-"/<src_ranges>.
if (tokens.size() < 3) {
*err = "invalid number of args";
return false;
}
size_t pos = 0;
RangeSet tgt_ranges = RangeSet::Parse(tokens[pos++]);
if (!tgt_ranges) {
*err = "invalid target ranges";
return false;
}
*target = TargetInfo(tgt_hash, tgt_ranges);
// <src_block_count>
const std::string& token = tokens[pos++];
size_t src_blocks;
if (!android::base::ParseUint(token, &src_blocks)) {
*err = "invalid src_block_count \""s + token + "\"";
return false;
}
RangeSet src_ranges;
RangeSet src_ranges_location;
// "-" or <src_ranges> [<src_ranges_location>]
if (tokens[pos] == "-") {
// no source ranges, only stashes
pos++;
} else {
src_ranges = RangeSet::Parse(tokens[pos++]);
if (!src_ranges) {
*err = "invalid source ranges";
return false;
}
if (pos >= tokens.size()) {
// No stashes, only source ranges.
SourceInfo result(src_hash, src_ranges, {}, {});
// Sanity check the block count.
if (result.blocks() != src_blocks) {
*err =
android::base::StringPrintf("mismatching block count: %zu (%s) vs %zu", result.blocks(),
src_ranges.ToString().c_str(), src_blocks);
return false;
}
*source = result;
return true;
}
src_ranges_location = RangeSet::Parse(tokens[pos++]);
if (!src_ranges_location) {
*err = "invalid source ranges location";
return false;
}
}
// <[stash_id:stash_location]>
std::vector<StashInfo> stashes;
while (pos < tokens.size()) {
// Each word is a an index into the stash table, a colon, and then a RangeSet describing where
// in the source block that stashed data should go.
std::vector<std::string> pairs = android::base::Split(tokens[pos++], ":");
if (pairs.size() != 2) {
*err = "invalid stash info";
return false;
}
RangeSet stash_location = RangeSet::Parse(pairs[1]);
if (!stash_location) {
*err = "invalid stash location";
return false;
}
stashes.emplace_back(pairs[0], stash_location);
}
SourceInfo result(src_hash, src_ranges, src_ranges_location, stashes);
if (src_blocks != result.blocks()) {
*err = android::base::StringPrintf("mismatching block count: %zu (%s) vs %zu", result.blocks(),
src_ranges.ToString().c_str(), src_blocks);
return false;
}
*source = result;
return true;
}
Command Command::Parse(const std::string& line, size_t index, std::string* err) {
std::vector<std::string> tokens = android::base::Split(line, " ");
size_t pos = 0;
// tokens.size() will be 1 at least.
Type op = ParseType(tokens[pos++]);
if (op == Type::LAST) {
*err = "invalid type";
return {};
}
PatchInfo patch_info;
TargetInfo target_info;
SourceInfo source_info;
StashInfo stash_info;
if (op == Type::ZERO || op == Type::NEW || op == Type::ERASE) {
// zero/new/erase <rangeset>
if (pos + 1 != tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 1)",
tokens.size() - pos);
return {};
}
RangeSet tgt_ranges = RangeSet::Parse(tokens[pos++]);
if (!tgt_ranges) {
return {};
}
static const std::string kUnknownHash{ "unknown-hash" };
target_info = TargetInfo(kUnknownHash, tgt_ranges);
} else if (op == Type::STASH) {
// stash <stash_id> <src_ranges>
if (pos + 2 != tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 2)",
tokens.size() - pos);
return {};
}
const std::string& id = tokens[pos++];
RangeSet src_ranges = RangeSet::Parse(tokens[pos++]);
if (!src_ranges) {
*err = "invalid token";
return {};
}
stash_info = StashInfo(id, src_ranges);
} else if (op == Type::FREE) {
// free <stash_id>
if (pos + 1 != tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 1)",
tokens.size() - pos);
return {};
}
stash_info = StashInfo(tokens[pos++], {});
} else if (op == Type::MOVE) {
// <hash>
if (pos + 1 > tokens.size()) {
*err = "missing hash";
return {};
}
std::string hash = tokens[pos++];
if (!ParseTargetInfoAndSourceInfo(
std::vector<std::string>(tokens.cbegin() + pos, tokens.cend()), hash, &target_info,
hash, &source_info, err)) {
return {};
}
} else if (op == Type::BSDIFF || op == Type::IMGDIFF) {
// <offset> <length> <srchash> <dsthash>
if (pos + 4 > tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 4+)",
tokens.size() - pos);
return {};
}
size_t offset;
size_t length;
if (!android::base::ParseUint(tokens[pos++], &offset) ||
!android::base::ParseUint(tokens[pos++], &length)) {
*err = "invalid patch offset/length";
return {};
}
patch_info = PatchInfo(offset, length);
std::string src_hash = tokens[pos++];
std::string dst_hash = tokens[pos++];
if (!ParseTargetInfoAndSourceInfo(
std::vector<std::string>(tokens.cbegin() + pos, tokens.cend()), dst_hash, &target_info,
src_hash, &source_info, err)) {
return {};
}
} else if (op == Type::ABORT) {
// No-op, other than sanity checking the input args.
if (pos != tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 0)",
tokens.size() - pos);
return {};
}
} else if (op == Type::COMPUTE_HASH_TREE) {
// <hash_tree_ranges> <source_ranges> <hash_algorithm> <salt_hex> <root_hash>
if (pos + 5 != tokens.size()) {
*err = android::base::StringPrintf("invalid number of args: %zu (expected 5)",
tokens.size() - pos);
return {};
}
// Expects the hash_tree data to be contiguous.
RangeSet hash_tree_ranges = RangeSet::Parse(tokens[pos++]);
if (!hash_tree_ranges || hash_tree_ranges.size() != 1) {
*err = "invalid hash tree ranges in: " + line;
return {};
}
RangeSet source_ranges = RangeSet::Parse(tokens[pos++]);
if (!source_ranges) {
*err = "invalid source ranges in: " + line;
return {};
}
std::string hash_algorithm = tokens[pos++];
std::string salt_hex = tokens[pos++];
std::string root_hash = tokens[pos++];
if (hash_algorithm.empty() || salt_hex.empty() || root_hash.empty()) {
*err = "invalid hash tree arguments in " + line;
return {};
}
HashTreeInfo hash_tree_info(std::move(hash_tree_ranges), std::move(source_ranges),
std::move(hash_algorithm), std::move(salt_hex),
std::move(root_hash));
return Command(op, index, line, std::move(hash_tree_info));
} else {
*err = "invalid op";
return {};
}
return Command(op, index, line, patch_info, target_info, source_info, stash_info);
}
bool SourceInfo::Overlaps(const TargetInfo& target) const {
return ranges_.Overlaps(target.ranges());
}
// Moves blocks in the 'source' vector to the specified locations (as in 'locs') in the 'dest'
// vector. Note that source and dest may be the same buffer.
static void MoveRange(std::vector<uint8_t>* dest, const RangeSet& locs,
const std::vector<uint8_t>& source, size_t block_size) {
const uint8_t* from = source.data();
uint8_t* to = dest->data();
size_t start = locs.blocks();
// Must do the movement backward.
for (auto it = locs.crbegin(); it != locs.crend(); it++) {
size_t blocks = it->second - it->first;
start -= blocks;
memmove(to + (it->first * block_size), from + (start * block_size), blocks * block_size);
}
}
bool SourceInfo::ReadAll(
std::vector<uint8_t>* buffer, size_t block_size,
const std::function<int(const RangeSet&, std::vector<uint8_t>*)>& block_reader,
const std::function<int(const std::string&, std::vector<uint8_t>*)>& stash_reader) const {
if (buffer->size() < blocks() * block_size) {
return false;
}
// Read in the source ranges.
if (ranges_) {
if (block_reader(ranges_, buffer) != 0) {
return false;
}
if (location_) {
MoveRange(buffer, location_, *buffer, block_size);
}
}
// Read in the stashes.
for (const StashInfo& stash : stashes_) {
std::vector<uint8_t> stash_buffer(stash.blocks() * block_size);
if (stash_reader(stash.id(), &stash_buffer) != 0) {
return false;
}
MoveRange(buffer, stash.ranges(), stash_buffer, block_size);
}
return true;
}
void SourceInfo::DumpBuffer(const std::vector<uint8_t>& buffer, size_t block_size) const {
LOG(INFO) << "Dumping hashes in hex for " << ranges_.blocks() << " source blocks";
const RangeSet& location = location_ ? location_ : RangeSet({ Range{ 0, ranges_.blocks() } });
for (size_t i = 0; i < ranges_.blocks(); i++) {
size_t block_num = ranges_.GetBlockNumber(i);
size_t buffer_index = location.GetBlockNumber(i);
CHECK_LE((buffer_index + 1) * block_size, buffer.size());
uint8_t digest[SHA_DIGEST_LENGTH];
SHA1(buffer.data() + buffer_index * block_size, block_size, digest);
std::string hexdigest = print_sha1(digest);
LOG(INFO) << " block number: " << block_num << ", SHA-1: " << hexdigest;
}
}
std::ostream& operator<<(std::ostream& os, const Command& command) {
os << command.index() << ": " << command.cmdline();
return os;
}
std::ostream& operator<<(std::ostream& os, const TargetInfo& target) {
os << target.blocks() << " blocks (" << target.hash_ << "): " << target.ranges_.ToString();
return os;
}
std::ostream& operator<<(std::ostream& os, const StashInfo& stash) {
os << stash.blocks() << " blocks (" << stash.id_ << "): " << stash.ranges_.ToString();
return os;
}
std::ostream& operator<<(std::ostream& os, const SourceInfo& source) {
os << source.blocks_ << " blocks (" << source.hash_ << "): ";
if (source.ranges_) {
os << source.ranges_.ToString();
if (source.location_) {
os << " (location: " << source.location_.ToString() << ")";
}
}
if (!source.stashes_.empty()) {
os << " " << source.stashes_.size() << " stash(es)";
}
return os;
}
TransferList TransferList::Parse(const std::string& transfer_list_str, std::string* err) {
TransferList result{};
std::vector<std::string> lines = android::base::Split(transfer_list_str, "\n");
if (lines.size() < kTransferListHeaderLines) {
*err = android::base::StringPrintf("too few lines in the transfer list [%zu]", lines.size());
return TransferList{};
}
// First line in transfer list is the version number.
if (!android::base::ParseInt(lines[0], &result.version_, 3, 4)) {
*err = "unexpected transfer list version ["s + lines[0] + "]";
return TransferList{};
}
// Second line in transfer list is the total number of blocks we expect to write.
if (!android::base::ParseUint(lines[1], &result.total_blocks_)) {
*err = "unexpected block count ["s + lines[1] + "]";
return TransferList{};
}
// Third line is how many stash entries are needed simultaneously.
if (!android::base::ParseUint(lines[2], &result.stash_max_entries_)) {
return TransferList{};
}
// Fourth line is the maximum number of blocks that will be stashed simultaneously.
if (!android::base::ParseUint(lines[3], &result.stash_max_blocks_)) {
*err = "unexpected maximum stash blocks ["s + lines[3] + "]";
return TransferList{};
}
// Subsequent lines are all individual transfer commands.
for (size_t i = kTransferListHeaderLines; i < lines.size(); i++) {
const std::string& line = lines[i];
if (line.empty()) continue;
size_t cmdindex = i - kTransferListHeaderLines;
std::string parsing_error;
Command command = Command::Parse(line, cmdindex, &parsing_error);
if (!command) {
*err = android::base::StringPrintf("Failed to parse command %zu [%s]: %s", cmdindex,
line.c_str(), parsing_error.c_str());
return TransferList{};
}
result.commands_.push_back(command);
}
return result;
}
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