tdlight/td/telegram/files/FileDownloader.cpp

516 lines
19 KiB
C++

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2023
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/telegram/files/FileDownloader.h"
#include "td/telegram/FileReferenceManager.h"
#include "td/telegram/files/FileLoaderUtils.h"
#include "td/telegram/files/FileType.h"
#include "td/telegram/Global.h"
#include "td/telegram/net/DcId.h"
#include "td/telegram/SecureStorage.h"
#include "td/telegram/UniqueId.h"
#include "td/utils/as.h"
#include "td/utils/base64.h"
#include "td/utils/buffer.h"
#include "td/utils/common.h"
#include "td/utils/crypto.h"
#include "td/utils/format.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/port/path.h"
#include "td/utils/port/Stat.h"
#include "td/utils/ScopeGuard.h"
#include "td/utils/SliceBuilder.h"
#include "td/utils/UInt.h"
#include <tuple>
namespace td {
FileDownloader::FileDownloader(const FullRemoteFileLocation &remote, const LocalFileLocation &local, int64 size,
string name, const FileEncryptionKey &encryption_key, bool is_small,
bool need_search_file, int64 offset, int64 limit, unique_ptr<Callback> callback)
: remote_(remote)
, local_(local)
, size_(size)
, name_(std::move(name))
, encryption_key_(encryption_key)
, callback_(std::move(callback))
, is_small_(is_small)
, need_search_file_(need_search_file)
, offset_(offset)
, limit_(limit) {
if (encryption_key.is_secret()) {
set_ordered_flag(true);
}
if (!encryption_key.empty()) {
CHECK(offset_ == 0);
}
}
Result<FileLoader::FileInfo> FileDownloader::init() {
SCOPE_EXIT {
try_release_fd();
};
if (local_.type() == LocalFileLocation::Type::Full) {
return Status::Error("File is already downloaded");
}
if (encryption_key_.is_secure() && !encryption_key_.has_value_hash()) {
LOG(ERROR) << "Can't download Secure file with unknown value_hash";
}
if (remote_.file_type_ == FileType::SecureEncrypted) {
size_ = 0;
}
int32 part_size = 0;
Bitmask bitmask{Bitmask::Ones{}, 0};
if (local_.type() == LocalFileLocation::Type::Partial) {
const auto &partial = local_.partial();
path_ = partial.path_;
auto result_fd = FileFd::open(path_, FileFd::Write | FileFd::Read);
// TODO: check timestamps..
if (result_fd.is_ok()) {
bitmask = Bitmask(Bitmask::Decode{}, partial.ready_bitmask_);
if (encryption_key_.is_secret()) {
LOG_CHECK(partial.iv_.size() == 32) << partial.iv_.size();
encryption_key_.mutable_iv() = as<UInt256>(partial.iv_.data());
next_part_ = narrow_cast<int32>(bitmask.get_ready_parts(0));
}
fd_ = result_fd.move_as_ok();
CHECK(partial.part_size_ <= (1 << 20));
CHECK(0 <= partial.part_size_);
part_size = static_cast<int32>(partial.part_size_);
CHECK((part_size & (part_size - 1)) == 0);
}
}
if (need_search_file_ && fd_.empty() && size_ > 0 && encryption_key_.empty() && !remote_.is_web()) {
[&] {
TRY_RESULT(path, search_file(remote_.file_type_, name_, size_));
TRY_RESULT(fd, FileFd::open(path, FileFd::Read));
LOG(INFO) << "Check hash of local file " << path;
path_ = std::move(path);
fd_ = std::move(fd);
need_check_ = true;
only_check_ = true;
part_size = 128 * (1 << 10);
bitmask = Bitmask{Bitmask::Ones{}, (size_ + part_size - 1) / part_size};
return Status::OK();
}();
}
FileInfo res;
res.size = size_;
res.is_size_final = true;
res.part_size = part_size;
res.ready_parts = bitmask.as_vector();
res.use_part_count_limit = false;
res.only_check = only_check_;
auto file_type = get_main_file_type(remote_.file_type_);
res.need_delay =
!is_small_ && (file_type == FileType::VideoNote || file_type == FileType::Document ||
file_type == FileType::VoiceNote || file_type == FileType::Audio || file_type == FileType::Video ||
file_type == FileType::Animation || (file_type == FileType::Encrypted && size_ > (1 << 20)));
res.offset = offset_;
res.limit = limit_;
return res;
}
Status FileDownloader::on_ok(int64 size) {
std::string path;
fd_.close();
if (encryption_key_.is_secure()) {
TRY_RESULT(file_path, open_temp_file(remote_.file_type_));
string tmp_path;
std::tie(std::ignore, tmp_path) = std::move(file_path);
TRY_STATUS(secure_storage::decrypt_file(encryption_key_.secret(), encryption_key_.value_hash(), path_, tmp_path));
unlink(path_).ignore();
path_ = std::move(tmp_path);
TRY_RESULT(path_stat, stat(path_));
size = path_stat.size_;
}
if (only_check_) {
path = path_;
} else {
TRY_RESULT_ASSIGN(path, create_from_temp(remote_.file_type_, path_, name_));
}
callback_->on_ok(FullLocalFileLocation(remote_.file_type_, std::move(path), 0), size, !only_check_);
return Status::OK();
}
void FileDownloader::on_error(Status status) {
fd_.close();
callback_->on_error(std::move(status));
}
Result<bool> FileDownloader::should_restart_part(Part part, NetQueryPtr &net_query) {
// Check if we should use CDN or reupload file to CDN
if (net_query->is_error()) {
if (net_query->error().message() == "FILE_TOKEN_INVALID") {
use_cdn_ = false;
return true;
}
if (net_query->error().message() == "REQUEST_TOKEN_INVALID") {
return true;
}
return false;
}
switch (narrow_cast<QueryType>(UniqueId::extract_key(net_query->id()))) {
case QueryType::Default: {
if (net_query->ok_tl_constructor() == telegram_api::upload_fileCdnRedirect::ID) {
TRY_RESULT(file_base, fetch_result<telegram_api::upload_getFile>(net_query->ok()));
CHECK(file_base->get_id() == telegram_api::upload_fileCdnRedirect::ID);
auto file = move_tl_object_as<telegram_api::upload_fileCdnRedirect>(file_base);
LOG(DEBUG) << part.id << " got REDIRECT " << to_string(file);
auto new_cdn_file_token = file->file_token_.as_slice();
if (cdn_file_token_ == new_cdn_file_token) {
return true;
}
use_cdn_ = true;
need_check_ = true;
cdn_file_token_generation_++;
cdn_file_token_ = new_cdn_file_token.str();
cdn_dc_id_ = DcId::external(file->dc_id_);
cdn_encryption_key_ = file->encryption_key_.as_slice().str();
cdn_encryption_iv_ = file->encryption_iv_.as_slice().str();
add_hash_info(file->file_hashes_);
if (cdn_encryption_iv_.size() != 16 || cdn_encryption_key_.size() != 32) {
return Status::Error("Wrong ctr key or iv size");
}
return true;
}
return false;
}
case QueryType::ReuploadCDN: {
TRY_RESULT(file_hashes, fetch_result<telegram_api::upload_reuploadCdnFile>(net_query->ok()));
add_hash_info(file_hashes);
LOG(DEBUG) << part.id << " got REUPLOAD_OK";
return true;
}
case QueryType::CDN: {
if (net_query->ok_tl_constructor() == telegram_api::upload_cdnFileReuploadNeeded::ID) {
TRY_RESULT(file_base, fetch_result<telegram_api::upload_getCdnFile>(net_query->ok()));
CHECK(file_base->get_id() == telegram_api::upload_cdnFileReuploadNeeded::ID);
auto file = move_tl_object_as<telegram_api::upload_cdnFileReuploadNeeded>(file_base);
LOG(DEBUG) << part.id << " got REUPLOAD " << to_string(file);
cdn_part_reupload_token_[part.id] = file->request_token_.as_slice().str();
return true;
}
auto it = cdn_part_file_token_generation_.find(part.id);
CHECK(it != cdn_part_file_token_generation_.end());
if (it->second != cdn_file_token_generation_) {
LOG(DEBUG) << part.id << " got part with old file_token";
return true;
}
return false;
}
default:
UNREACHABLE();
}
return false;
}
Result<std::pair<NetQueryPtr, bool>> FileDownloader::start_part(Part part, int32 part_count, int64 streaming_offset) {
if (encryption_key_.is_secret()) {
part.size = (part.size + 15) & ~15; // fix for last part
}
// auto size = part.size;
//// sometimes we can ask more than server has, just to check size
// if (size < get_part_size()) {
// size = min(size + 16, get_part_size());
// LOG(INFO) << "Ask " << size << " instead of " << part.size;
//}
auto size = get_part_size();
CHECK(part.size <= size);
callback_->on_start_download();
auto net_query_type = is_small_ ? NetQuery::Type::DownloadSmall : NetQuery::Type::Download;
NetQueryPtr net_query;
if (!use_cdn_) {
int32 flags = 0;
#if !TD_EMSCRIPTEN
// CDN is supported, unless we use domains instead of IPs from a browser
if (streaming_offset == 0) {
flags |= telegram_api::upload_getFile::CDN_SUPPORTED_MASK;
}
#endif
DcId dc_id = remote_.is_web() ? G()->get_webfile_dc_id() : remote_.get_dc_id();
auto unique_id = UniqueId::next(UniqueId::Type::Default, static_cast<uint8>(QueryType::Default));
net_query =
remote_.is_web()
? G()->net_query_creator().create(
unique_id,
telegram_api::upload_getWebFile(remote_.as_input_web_file_location(), narrow_cast<int32>(part.offset),
narrow_cast<int32>(size)),
{}, dc_id, net_query_type, NetQuery::AuthFlag::On)
: G()->net_query_creator().create(
unique_id,
telegram_api::upload_getFile(flags, false /*ignored*/, false /*ignored*/,
remote_.as_input_file_location(), part.offset, narrow_cast<int32>(size)),
{}, dc_id, net_query_type, NetQuery::AuthFlag::On);
} else {
if (remote_.is_web()) {
return Status::Error("Can't download web file from CDN");
}
auto it = cdn_part_reupload_token_.find(part.id);
if (it == cdn_part_reupload_token_.end()) {
auto query = telegram_api::upload_getCdnFile(BufferSlice(cdn_file_token_), part.offset, narrow_cast<int32>(size));
cdn_part_file_token_generation_[part.id] = cdn_file_token_generation_;
LOG(DEBUG) << part.id << " " << to_string(query);
net_query =
G()->net_query_creator().create(UniqueId::next(UniqueId::Type::Default, static_cast<uint8>(QueryType::CDN)),
query, {}, cdn_dc_id_, net_query_type, NetQuery::AuthFlag::Off);
} else {
auto query = telegram_api::upload_reuploadCdnFile(BufferSlice(cdn_file_token_), BufferSlice(it->second));
LOG(DEBUG) << part.id << " " << to_string(query);
net_query = G()->net_query_creator().create(
UniqueId::next(UniqueId::Type::Default, static_cast<uint8>(QueryType::ReuploadCDN)), query, {},
remote_.get_dc_id(), net_query_type, NetQuery::AuthFlag::On);
cdn_part_reupload_token_.erase(it);
}
}
net_query->file_type_ = narrow_cast<int32>(remote_.file_type_);
return std::make_pair(std::move(net_query), false);
}
Status FileDownloader::check_net_query(NetQueryPtr &net_query) {
if (net_query->is_error()) {
auto error = net_query->move_as_error();
if (FileReferenceManager::is_file_reference_error(error)) {
VLOG(file_references) << "Receive " << error << " for being downloaded file";
error = Status::Error(error.code(),
PSLICE() << error.message() << "#BASE64" << base64_encode(remote_.get_file_reference()));
}
return error;
}
return Status::OK();
}
Result<size_t> FileDownloader::process_part(Part part, NetQueryPtr net_query) {
TRY_STATUS(check_net_query(net_query));
BufferSlice bytes;
bool need_cdn_decrypt = false;
auto query_type = narrow_cast<QueryType>(UniqueId::extract_key(net_query->id()));
switch (query_type) {
case QueryType::Default: {
if (remote_.is_web()) {
TRY_RESULT(file, fetch_result<telegram_api::upload_getWebFile>(net_query->ok()));
bytes = std::move(file->bytes_);
} else {
TRY_RESULT(file_base, fetch_result<telegram_api::upload_getFile>(net_query->ok()));
CHECK(file_base->get_id() == telegram_api::upload_file::ID);
auto file = move_tl_object_as<telegram_api::upload_file>(file_base);
LOG(DEBUG) << part.id << " upload.getFile result " << to_string(file);
bytes = std::move(file->bytes_);
}
break;
}
case QueryType::CDN: {
TRY_RESULT(file_base, fetch_result<telegram_api::upload_getCdnFile>(net_query->ok()));
CHECK(file_base->get_id() == telegram_api::upload_cdnFile::ID);
auto file = move_tl_object_as<telegram_api::upload_cdnFile>(file_base);
LOG(DEBUG) << part.id << " upload.getCdnFile result " << to_string(file);
bytes = std::move(file->bytes_);
need_cdn_decrypt = true;
break;
}
default:
UNREACHABLE();
}
auto padded_size = part.size;
if (encryption_key_.is_secret()) {
padded_size = (part.size + 15) & ~15;
}
if (bytes.size() > padded_size) {
return Status::Error("Part size is more than requested");
}
if (bytes.empty()) {
return 0;
}
// Encryption
if (need_cdn_decrypt) {
CHECK(part.offset % 16 == 0);
auto offset = narrow_cast<uint32>(part.offset / 16);
offset =
((offset & 0xff) << 24) | ((offset & 0xff00) << 8) | ((offset & 0xff0000) >> 8) | ((offset & 0xff000000) >> 24);
AesCtrState ctr_state;
string iv = cdn_encryption_iv_;
as<uint32>(&iv[12]) = offset;
ctr_state.init(cdn_encryption_key_, iv);
ctr_state.decrypt(bytes.as_slice(), bytes.as_mutable_slice());
}
if (encryption_key_.is_secret()) {
LOG_CHECK(next_part_ == part.id) << tag("expected part.id", next_part_) << "!=" << tag("part.id", part.id);
CHECK(!next_part_stop_);
next_part_++;
if (part.size % 16 != 0) {
next_part_stop_ = true;
}
aes_ige_decrypt(as_slice(encryption_key_.key()), as_mutable_slice(encryption_key_.mutable_iv()), bytes.as_slice(),
bytes.as_mutable_slice());
}
auto slice = bytes.as_slice().substr(0, part.size);
TRY_STATUS(acquire_fd());
LOG(INFO) << "Got " << slice.size() << " bytes at offset " << part.offset << " for \"" << path_ << '"';
TRY_RESULT(written, fd_.pwrite(slice, part.offset));
LOG(INFO) << "Written " << written << " bytes";
// may write less than part.size, when size of downloadable file is unknown
if (written != slice.size()) {
return Status::Error("Failed to save file part to the file");
}
return written;
}
void FileDownloader::on_progress(Progress progress) {
if (progress.is_ready) {
// do not send partial location. will lead to wrong local_size
return;
}
if (progress.ready_size == 0 || path_.empty()) {
return;
}
if (encryption_key_.empty() || encryption_key_.is_secure()) {
callback_->on_partial_download(
PartialLocalFileLocation{remote_.file_type_, progress.part_size, path_, "", std::move(progress.ready_bitmask)},
progress.ready_size, progress.size);
} else if (encryption_key_.is_secret()) {
UInt256 iv;
if (progress.ready_part_count == next_part_) {
iv = encryption_key_.mutable_iv();
} else {
LOG(FATAL) << tag("ready_part_count", progress.ready_part_count) << tag("next_part", next_part_);
}
callback_->on_partial_download(PartialLocalFileLocation{remote_.file_type_, progress.part_size, path_,
as_slice(iv).str(), std::move(progress.ready_bitmask)},
progress.ready_size, progress.size);
} else {
UNREACHABLE();
}
}
FileLoader::Callback *FileDownloader::get_callback() {
return static_cast<FileLoader::Callback *>(callback_.get());
}
Status FileDownloader::process_check_query(NetQueryPtr net_query) {
has_hash_query_ = false;
TRY_STATUS(check_net_query(net_query));
TRY_RESULT(file_hashes, fetch_result<telegram_api::upload_getFileHashes>(std::move(net_query)));
add_hash_info(file_hashes);
return Status::OK();
}
Result<FileLoader::CheckInfo> FileDownloader::check_loop(int64 checked_prefix_size, int64 ready_prefix_size,
bool is_ready) {
if (!need_check_) {
return CheckInfo{};
}
SCOPE_EXIT {
try_release_fd();
};
CheckInfo info;
while (checked_prefix_size < ready_prefix_size) {
//LOG(ERROR) << "NEED TO CHECK: " << checked_prefix_size << "->" << ready_prefix_size - checked_prefix_size;
HashInfo search_info;
search_info.offset = checked_prefix_size;
auto it = hash_info_.upper_bound(search_info);
if (it != hash_info_.begin()) {
--it;
}
if (it != hash_info_.end() && it->offset <= checked_prefix_size &&
it->offset + narrow_cast<int64>(it->size) > checked_prefix_size) {
int64 begin_offset = it->offset;
int64 end_offset = it->offset + narrow_cast<int64>(it->size);
if (ready_prefix_size < end_offset) {
if (!is_ready) {
break;
}
end_offset = ready_prefix_size;
}
auto size = narrow_cast<size_t>(end_offset - begin_offset);
auto slice = BufferSlice(size);
TRY_STATUS(acquire_fd());
TRY_RESULT(read_size, fd_.pread(slice.as_mutable_slice(), begin_offset));
if (size != read_size) {
return Status::Error("Failed to read file to check hash");
}
string hash(32, ' ');
sha256(slice.as_slice(), hash);
if (hash != it->hash) {
if (only_check_) {
return Status::Error("FILE_DOWNLOAD_RESTART");
}
return Status::Error("Hash mismatch");
}
checked_prefix_size = end_offset;
info.changed = true;
continue;
}
if (!has_hash_query_) {
has_hash_query_ = true;
auto query = telegram_api::upload_getFileHashes(remote_.as_input_file_location(), checked_prefix_size);
auto net_query_type = is_small_ ? NetQuery::Type::DownloadSmall : NetQuery::Type::Download;
auto net_query = G()->net_query_creator().create(query, {}, remote_.get_dc_id(), net_query_type);
info.queries.push_back(std::move(net_query));
break;
}
// Should fail?
break;
}
info.need_check = need_check_;
info.checked_prefix_size = checked_prefix_size;
return std::move(info);
}
void FileDownloader::add_hash_info(const std::vector<telegram_api::object_ptr<telegram_api::fileHash>> &hashes) {
for (auto &hash : hashes) {
//LOG(ERROR) << "ADD HASH " << hash->offset_ << "->" << hash->limit_;
HashInfo hash_info;
hash_info.size = hash->limit_;
hash_info.offset = hash->offset_;
hash_info.hash = hash->hash_.as_slice().str();
hash_info_.insert(std::move(hash_info));
}
}
void FileDownloader::keep_fd_flag(bool keep_fd) {
keep_fd_ = keep_fd;
try_release_fd();
}
void FileDownloader::try_release_fd() {
if (!keep_fd_ && !fd_.empty()) {
fd_.close();
}
}
Status FileDownloader::acquire_fd() {
if (fd_.empty()) {
if (path_.empty()) {
TRY_RESULT_ASSIGN(std::tie(fd_, path_), open_temp_file(remote_.file_type_));
} else {
TRY_RESULT_ASSIGN(fd_, FileFd::open(path_, (only_check_ ? 0 : FileFd::Write) | FileFd::Read));
}
}
return Status::OK();
}
} // namespace td