1
0
This repository has been archived on 2020-05-25. You can view files and clone it, but cannot push or open issues or pull requests.
tdlib-fork/td/telegram/files/PartsManager.cpp
levlam 0b6c1d226f Update clag-format to the latest (190926/r372920) version.
GitOrigin-RevId: 7861ae8ad28eb1f6a06ff3c6f56eff3f67b1d24c
2019-09-28 05:14:21 +03:00

540 lines
17 KiB
C++

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2019
//
// 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/PartsManager.h"
#include "td/utils/format.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/ScopeGuard.h"
#include <limits>
#include <numeric>
namespace td {
/*** PartsManager ***/
namespace {
int64 calc_part_count(int64 size, int64 part_size) {
CHECK(part_size != 0);
return (size + part_size - 1) / part_size;
}
} // namespace
Status PartsManager::init_known_prefix(int64 known_prefix, size_t part_size, const std::vector<int> &ready_parts) {
known_prefix_flag_ = true;
known_prefix_size_ = known_prefix;
return init_no_size(part_size, ready_parts);
}
void PartsManager::set_streaming_offset(int64 offset) {
SCOPE_EXIT {
set_streaming_limit(streaming_limit_);
};
if (offset < 0 || need_check_ || (!unknown_size_flag_ && get_size() < offset)) {
streaming_offset_ = 0;
LOG_IF(ERROR, offset != 0) << "Ignore streaming_offset " << offset << ", need_check_ = " << need_check_
<< ", unknown_size_flag_ = " << unknown_size_flag_ << ", size = " << get_size();
return;
}
auto part_i = offset / part_size_;
if (use_part_count_limit_ && part_i >= MAX_PART_COUNT) {
streaming_offset_ = 0;
LOG(ERROR) << "Ignore streaming_offset " << offset << " in part " << part_i;
return;
}
streaming_offset_ = offset;
first_streaming_empty_part_ = narrow_cast<int>(part_i);
first_streaming_not_ready_part_ = narrow_cast<int>(part_i);
if (part_count_ < first_streaming_empty_part_) {
part_count_ = first_streaming_empty_part_;
part_status_.resize(part_count_, PartStatus::Empty);
}
}
void PartsManager::set_streaming_limit(int64 limit) {
streaming_limit_ = limit;
streaming_ready_size_ = 0;
if (streaming_limit_ == 0) {
return;
}
for (int part_i = 0; part_i < part_count_; part_i++) {
if (is_part_in_streaming_limit(part_i) && part_status_[part_i] == PartStatus::Ready) {
streaming_ready_size_ += get_part(part_i).size;
}
}
}
Status PartsManager::init_no_size(size_t part_size, const std::vector<int> &ready_parts) {
unknown_size_flag_ = true;
size_ = 0;
min_size_ = 0;
max_size_ = std::numeric_limits<int64>::max();
if (part_size != 0) {
part_size_ = part_size;
} else {
part_size_ = 32 * (1 << 10);
while (use_part_count_limit_ && calc_part_count(expected_size_, part_size_) > MAX_PART_COUNT) {
part_size_ *= 2;
CHECK(part_size_ <= MAX_PART_SIZE);
}
// just in case if expected_size_ is wrong
if (part_size_ < MAX_PART_SIZE) {
part_size_ *= 2;
}
}
part_count_ =
std::accumulate(ready_parts.begin(), ready_parts.end(), 0, [](auto a, auto b) { return max(a, b + 1); });
return init_common(ready_parts);
}
Status PartsManager::init(int64 size, int64 expected_size, bool is_size_final, size_t part_size,
const std::vector<int> &ready_parts, bool use_part_count_limit, bool is_upload) {
CHECK(expected_size >= size);
is_upload_ = is_upload;
use_part_count_limit_ = use_part_count_limit;
expected_size_ = expected_size;
if (expected_size_ > MAX_FILE_SIZE) {
return Status::Error("Too big file");
}
if (!is_size_final) {
return init_known_prefix(size, part_size, ready_parts);
}
if (size == 0) {
return init_no_size(part_size, ready_parts);
}
LOG_CHECK(size > 0) << tag("size", size);
unknown_size_flag_ = false;
size_ = size;
if (part_size != 0) {
part_size_ = part_size;
if (use_part_count_limit_ && calc_part_count(expected_size_, part_size_) > MAX_PART_COUNT) {
return Status::Error("FILE_UPLOAD_RESTART");
}
} else {
// TODO choose part_size_ depending on size
part_size_ = 64 * (1 << 10);
while (use_part_count_limit && calc_part_count(expected_size_, part_size_) > MAX_PART_COUNT) {
part_size_ *= 2;
CHECK(part_size_ <= MAX_PART_SIZE);
}
}
LOG_CHECK(1 <= size_) << tag("size_", size_);
LOG_CHECK(!use_part_count_limit || calc_part_count(expected_size_, part_size_) <= MAX_PART_COUNT)
<< tag("size_", size_) << tag("expected_size", size_) << tag("is_size_final", is_size_final)
<< tag("part_size_", part_size_) << tag("ready_parts", ready_parts.size());
part_count_ = static_cast<int>(calc_part_count(size_, part_size_));
return init_common(ready_parts);
}
bool PartsManager::unchecked_ready() {
VLOG(files) << "Check readiness. Ready size is " << ready_size_ << ", total size is " << size_
<< ", unknown_size_flag = " << unknown_size_flag_ << ", need_check = " << need_check_
<< ", checked_prefix_size = " << checked_prefix_size_;
return !unknown_size_flag_ && ready_size_ == size_;
}
bool PartsManager::may_finish() {
if (is_streaming_limit_reached()) {
return true;
}
return ready();
}
bool PartsManager::ready() {
return unchecked_ready() && (!need_check_ || checked_prefix_size_ == size_);
}
Status PartsManager::finish() {
if (ready()) {
return Status::OK();
}
if (is_streaming_limit_reached()) {
return Status::Error("FILE_DOWNLOAD_LIMIT");
}
return Status::Error("File transferring not finished");
}
void PartsManager::update_first_empty_part() {
while (first_empty_part_ < part_count_ && part_status_[first_empty_part_] != PartStatus::Empty) {
first_empty_part_++;
}
if (streaming_offset_ == 0) {
first_streaming_empty_part_ = first_empty_part_;
return;
}
while (first_streaming_empty_part_ < part_count_ && part_status_[first_streaming_empty_part_] != PartStatus::Empty) {
first_streaming_empty_part_++;
}
}
void PartsManager::update_first_not_ready_part() {
while (first_not_ready_part_ < part_count_ && part_status_[first_not_ready_part_] == PartStatus::Ready) {
first_not_ready_part_++;
}
if (streaming_offset_ == 0) {
first_streaming_not_ready_part_ = first_not_ready_part_;
return;
}
while (first_streaming_not_ready_part_ < part_count_ &&
part_status_[first_streaming_not_ready_part_] == PartStatus::Ready) {
first_streaming_not_ready_part_++;
}
}
int32 PartsManager::get_unchecked_ready_prefix_count() {
update_first_not_ready_part();
return first_not_ready_part_;
}
int32 PartsManager::get_ready_prefix_count() {
auto res = get_unchecked_ready_prefix_count();
if (need_check_) {
auto checked_parts = narrow_cast<int32>(checked_prefix_size_ / part_size_);
if (checked_parts < res) {
return checked_parts;
}
}
return res;
}
int64 PartsManager::get_streaming_offset() const {
return streaming_offset_;
}
string PartsManager::get_bitmask() {
int32 prefix_count = -1;
if (need_check_) {
prefix_count = narrow_cast<int32>(checked_prefix_size_ / part_size_);
}
return bitmask_.encode(prefix_count);
}
bool PartsManager::is_part_in_streaming_limit(int part_i) const {
auto offset_begin = static_cast<int64>(part_i) * static_cast<int64>(get_part_size());
auto offset_end = offset_begin + static_cast<int64>(get_part(part_i).size);
if (offset_begin >= get_expected_size()) {
return false;
}
if (streaming_limit_ == 0) {
return true;
}
auto is_intersect_with = [&](int64 begin, int64 end) {
return max(begin, offset_begin) < min(end, offset_end);
};
auto streaming_begin = streaming_offset_;
auto streaming_end = streaming_offset_ + streaming_limit_;
if (is_intersect_with(streaming_begin, streaming_end)) {
return true;
}
// wrap limit
if (!unknown_size_flag_ && streaming_end > get_size() && is_intersect_with(0, streaming_end - get_size())) {
return true;
}
return false;
}
bool PartsManager::is_streaming_limit_reached() {
if (streaming_limit_ == 0) {
return false;
}
update_first_not_ready_part();
auto part_i = first_streaming_not_ready_part_;
// wrap
if (!unknown_size_flag_ && part_i == part_count_) {
part_i = first_not_ready_part_;
}
return !is_part_in_streaming_limit(part_i);
}
Result<Part> PartsManager::start_part() {
update_first_empty_part();
auto part_i = first_streaming_empty_part_;
if (known_prefix_flag_ && part_i >= static_cast<int>(known_prefix_size_ / part_size_)) {
return Status::Error(1, "Wait for prefix to be known");
}
if (part_i == part_count_) {
if (unknown_size_flag_) {
part_count_++;
if (part_count_ > MAX_PART_COUNT) {
if (!is_upload_) {
// Caller will try to increase part size if it is possible
return Status::Error("FILE_DOWNLOAD_RESTART_INCREASE_PART_SIZE");
}
return Status::Error("Too big file with unknown size");
}
part_status_.push_back(PartStatus::Empty);
} else {
if (first_empty_part_ < part_count_) {
part_i = first_empty_part_;
} else {
return get_empty_part();
}
}
}
if (!is_part_in_streaming_limit(part_i)) {
return get_empty_part();
}
CHECK(part_status_[part_i] == PartStatus::Empty);
on_part_start(part_i);
return get_part(part_i);
}
Status PartsManager::set_known_prefix(size_t size, bool is_ready) {
if (!known_prefix_flag_ || size < static_cast<size_t>(known_prefix_size_)) {
CHECK(is_upload_);
return Status::Error("FILE_UPLOAD_RESTART");
}
known_prefix_size_ = narrow_cast<int64>(size);
expected_size_ = max(known_prefix_size_, expected_size_);
CHECK(static_cast<size_t>(part_count_) == part_status_.size());
if (is_ready) {
part_count_ = static_cast<int>(calc_part_count(size, part_size_));
size_ = narrow_cast<int64>(size);
unknown_size_flag_ = false;
known_prefix_flag_ = false;
} else {
part_count_ = static_cast<int>(size / part_size_);
}
LOG_CHECK(static_cast<size_t>(part_count_) >= part_status_.size())
<< size << " " << is_ready << " " << part_count_ << " " << part_size_ << " " << part_status_.size();
part_status_.resize(part_count_);
if (use_part_count_limit_ && calc_part_count(expected_size_, part_size_) > MAX_PART_COUNT) {
CHECK(is_upload_);
return Status::Error("FILE_UPLOAD_RESTART");
}
return Status::OK();
}
Status PartsManager::on_part_ok(int32 id, size_t part_size, size_t actual_size) {
CHECK(part_status_[id] == PartStatus::Pending);
pending_count_--;
part_status_[id] = PartStatus::Ready;
if (actual_size != 0) {
bitmask_.set(id);
}
ready_size_ += narrow_cast<int64>(actual_size);
if (streaming_limit_ > 0 && is_part_in_streaming_limit(id)) {
streaming_ready_size_ += narrow_cast<int64>(actual_size);
}
VLOG(files) << "Transferred part " << id << " of size " << part_size << ", total ready size = " << ready_size_;
int64 offset = narrow_cast<int64>(part_size_) * id;
int64 end_offset = offset + narrow_cast<int64>(actual_size);
if (unknown_size_flag_) {
CHECK(part_size == part_size_);
if (actual_size < part_size_) {
max_size_ = min(max_size_, end_offset);
}
if (actual_size) {
min_size_ = max(min_size_, end_offset);
}
if (min_size_ > max_size_) {
auto status = Status::Error(PSLICE() << "Failed to transfer file: " << tag("min_size", min_size_)
<< tag("max_size", max_size_));
LOG(ERROR) << status;
return status;
} else if (min_size_ == max_size_) {
unknown_size_flag_ = false;
size_ = min_size_;
}
} else {
if ((actual_size < part_size && offset < size_) || (offset >= size_ && actual_size > 0)) {
auto status = Status::Error(PSLICE() << "Failed to transfer file: " << tag("size", size_) << tag("offset", offset)
<< tag("transferred size", actual_size) << tag("part size", part_size));
LOG(ERROR) << status;
return status;
}
}
return Status::OK();
}
void PartsManager::on_part_failed(int32 id) {
CHECK(part_status_[id] == PartStatus::Pending);
pending_count_--;
part_status_[id] = PartStatus::Empty;
if (id < first_empty_part_) {
first_empty_part_ = id;
}
if (streaming_offset_ == 0) {
first_streaming_empty_part_ = id;
return;
}
auto part_i = narrow_cast<int>(streaming_offset_ / part_size_);
if (id >= part_i && id < first_streaming_empty_part_) {
first_streaming_empty_part_ = id;
}
}
int64 PartsManager::get_size() const {
CHECK(!unknown_size_flag_);
return size_;
}
int64 PartsManager::get_size_or_zero() const {
return size_;
}
int64 PartsManager::get_estimated_extra() const {
auto total_estimated_extra = get_expected_size() - get_ready_size();
if (streaming_limit_ != 0) {
int64 expected_size = get_expected_size();
int64 streaming_begin = streaming_offset_ / get_part_size() * get_part_size();
int64 streaming_end =
(streaming_offset_ + streaming_limit_ + get_part_size() - 1) / get_part_size() * get_part_size();
int64 streaming_size = streaming_end - streaming_begin;
if (unknown_size_flag_) {
if (streaming_begin < expected_size) {
streaming_size = min(expected_size - streaming_begin, streaming_size);
} else {
streaming_size = 0;
}
} else {
if (streaming_end > expected_size) {
int64 total = streaming_limit_;
int64 suffix = 0;
if (streaming_offset_ < expected_size_) {
suffix = expected_size_ - streaming_begin;
total -= expected_size_ - streaming_offset_;
}
int64 prefix = (total + get_part_size() - 1) / get_part_size() * get_part_size();
streaming_size = min(expected_size, prefix + suffix);
}
}
int64 res = streaming_size;
//TODO: delete this block if CHECK won't fail
int64 sub = 0;
for (int part_i = 0; part_i < part_count_; part_i++) {
if (is_part_in_streaming_limit(part_i) && part_status_[part_i] == PartStatus::Ready) {
sub += get_part(part_i).size;
}
}
CHECK(sub == streaming_ready_size_);
res -= streaming_ready_size_;
CHECK(res >= 0);
return res;
}
return total_estimated_extra;
}
int64 PartsManager::get_ready_size() const {
return ready_size_;
}
int64 PartsManager::get_expected_size() const {
if (unknown_size_flag_) {
return max(static_cast<int64>(512 * (1 << 10)), get_ready_size() * 2);
}
return get_size();
}
size_t PartsManager::get_part_size() const {
return part_size_;
}
int32 PartsManager::get_part_count() const {
return part_count_;
}
Status PartsManager::init_common(const std::vector<int> &ready_parts) {
ready_size_ = 0;
streaming_ready_size_ = 0;
pending_count_ = 0;
first_empty_part_ = 0;
first_not_ready_part_ = 0;
part_status_ = vector<PartStatus>(part_count_);
for (auto i : ready_parts) {
if (known_prefix_flag_ && i >= static_cast<int>(known_prefix_size_ / part_size_)) {
CHECK(is_upload_);
return Status::Error("FILE_UPLOAD_RESTART");
}
if (is_upload_ && i >= part_count_) {
return Status::Error("FILE_UPLOAD_RESTART");
}
LOG_CHECK(0 <= i && i < part_count_) << tag("i", i) << tag("part_count", part_count_) << tag("size", size_)
<< tag("part_size", part_size_) << tag("known_prefix_flag", known_prefix_flag_)
<< tag("known_prefix_size", known_prefix_size_)
<< tag("real part_count",
std::accumulate(ready_parts.begin(), ready_parts.end(), 0,
[](auto a, auto b) { return max(a, b + 1); }));
part_status_[i] = PartStatus::Ready;
bitmask_.set(i);
auto part = get_part(i);
ready_size_ += narrow_cast<int64>(part.size);
}
checked_prefix_size_ = get_ready_prefix_count() * narrow_cast<int64>(part_size_);
return Status::OK();
}
void PartsManager::set_need_check() {
need_check_ = true;
set_streaming_offset(0);
}
void PartsManager::set_checked_prefix_size(int64 size) {
checked_prefix_size_ = size;
}
int64 PartsManager::get_checked_prefix_size() const {
return checked_prefix_size_;
}
int64 PartsManager::get_unchecked_ready_prefix_size() {
update_first_not_ready_part();
auto count = first_not_ready_part_;
if (count == 0) {
return 0;
}
auto part = get_part(count - 1);
int64 res = part.offset;
if (!unknown_size_flag_) {
res += narrow_cast<int64>(part.size);
res = min(res, get_size());
}
return res;
}
Part PartsManager::get_part(int id) const {
int64 offset = narrow_cast<int64>(part_size_) * id;
int64 size = narrow_cast<int64>(part_size_);
auto total_size = unknown_size_flag_ ? max_size_ : get_size();
if (total_size < offset) {
size = 0;
} else {
size = min(size, total_size - offset);
}
return Part{id, offset, static_cast<size_t>(size)};
}
Part PartsManager::get_empty_part() {
return Part{-1, 0, 0};
}
void PartsManager::on_part_start(int32 id) {
CHECK(part_status_[id] == PartStatus::Empty);
part_status_[id] = PartStatus::Pending;
pending_count_++;
}
} // namespace td