tdlight/tdnet/td/net/HttpReader.cpp
levlam 6439cf8567 Fix cleaning temoorary file.
GitOrigin-RevId: 68fbf33125dc874bd24b67acae426dc6accedbe9
2018-08-29 01:57:09 +03:00

821 lines
29 KiB
C++

//
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2018
//
// 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/net/HttpReader.h"
#include "td/utils/filesystem.h"
#include "td/utils/find_boundary.h"
#include "td/utils/format.h"
#include "td/utils/Gzip.h"
#include "td/utils/HttpUrl.h"
#include "td/utils/JsonBuilder.h"
#include "td/utils/logging.h"
#include "td/utils/misc.h"
#include "td/utils/Parser.h"
#include "td/utils/PathView.h"
#include "td/utils/port/path.h"
#include <cstring>
namespace td {
constexpr const char HttpReader::TEMP_DIRECTORY_PREFIX[];
static size_t urldecode(Slice from, MutableSlice to, bool decode_plus_sign_as_space) {
size_t to_i = 0;
CHECK(to.size() >= from.size());
for (size_t from_i = 0, n = from.size(); from_i < n; from_i++) {
if (from[from_i] == '%' && from_i + 2 < n) {
int high = hex_to_int(from[from_i + 1]);
int low = hex_to_int(from[from_i + 2]);
if (high < 16 && low < 16) {
to[to_i++] = static_cast<char>(high * 16 + low);
from_i += 2;
continue;
}
}
to[to_i++] = decode_plus_sign_as_space && from[from_i] == '+' ? ' ' : from[from_i];
}
return to_i;
}
static MutableSlice urldecode_inplace(MutableSlice str, bool decode_plus_sign_as_space) {
size_t result_size = urldecode(str, str, decode_plus_sign_as_space);
str.truncate(result_size);
return str;
}
void HttpReader::init(ChainBufferReader *input, size_t max_post_size, size_t max_files) {
input_ = input;
state_ = ReadHeaders;
headers_read_length_ = 0;
content_length_ = 0;
query_ = nullptr;
max_post_size_ = max_post_size;
max_files_ = max_files;
total_parameters_length_ = 0;
total_headers_length_ = 0;
}
Result<size_t> HttpReader::read_next(HttpQuery *query) {
if (query_ != query) {
CHECK(query_ == nullptr);
query_ = query;
}
size_t need_size = input_->size() + 1;
while (true) {
if (state_ != ReadHeaders) {
flow_source_.wakeup();
if (flow_sink_.is_ready() && flow_sink_.status().is_error()) {
if (!temp_file_.empty()) {
clean_temporary_file();
}
return Status::Error(400, PSLICE() << "Bad Request: " << flow_sink_.status().message());
}
need_size = flow_source_.get_need_size();
if (need_size == 0) {
need_size = input_->size() + 1;
}
}
switch (state_) {
case ReadHeaders: {
auto result = split_header();
if (result.is_error() || result.ok() != 0) {
return result;
}
if (transfer_encoding_.empty() && content_length_ == 0) {
break;
}
flow_source_ = ByteFlowSource(input_);
ByteFlowInterface *source = &flow_source_;
if (transfer_encoding_.empty()) {
content_length_flow_ = HttpContentLengthByteFlow(content_length_);
*source >> content_length_flow_;
source = &content_length_flow_;
} else if (transfer_encoding_ == "chunked") {
chunked_flow_ = HttpChunkedByteFlow();
*source >> chunked_flow_;
source = &chunked_flow_;
} else {
LOG(ERROR) << "Unsupported " << tag("transfer-encoding", transfer_encoding_);
return Status::Error(501, "Unimplemented: unsupported transfer-encoding");
}
if (content_encoding_.empty()) {
} else if (content_encoding_ == "gzip" || content_encoding_ == "deflate") {
gzip_flow_ = GzipByteFlow(Gzip::Decode);
gzip_flow_.set_max_output_size(MAX_FILE_SIZE);
*source >> gzip_flow_;
source = &gzip_flow_;
} else {
LOG(WARNING) << "Unsupported " << tag("content-encoding", content_encoding_);
return Status::Error(415, "Unsupported Media Type: unsupported content-encoding");
}
flow_sink_ = ByteFlowSink();
*source >> flow_sink_;
content_ = flow_sink_.get_output();
if (content_length_ > MAX_CONTENT_SIZE) {
return Status::Error(413, PSLICE() << "Request Entity Too Large: content length is " << content_length_);
}
if (std::strstr(content_type_lowercased_.c_str(), "multipart/form-data")) {
state_ = ReadMultipartFormData;
const char *p = std::strstr(content_type_lowercased_.c_str(), "boundary");
if (p == nullptr) {
return Status::Error(400, "Bad Request: boundary not found");
}
p += 8;
ptrdiff_t offset = p - content_type_lowercased_.c_str();
p = static_cast<const char *>(
std::memchr(content_type_.begin() + offset, '=', content_type_.size() - offset));
if (p == nullptr) {
return Status::Error(400, "Bad Request: boundary value not found");
}
p++;
const char *end_p = static_cast<const char *>(std::memchr(p, ';', content_type_.end() - p));
if (end_p == nullptr) {
end_p = content_type_.end();
}
if (*p == '"' && p + 1 < end_p && end_p[-1] == '"') {
p++;
end_p--;
}
Slice boundary(p, static_cast<size_t>(end_p - p));
if (boundary.empty() || boundary.size() > MAX_BOUNDARY_LENGTH) {
return Status::Error(400, "Bad Request: boundary too big or empty");
}
boundary_ = "\r\n--" + boundary.str();
form_data_parse_state_ = SkipPrologue;
form_data_read_length_ = 0;
form_data_skipped_length_ = 0;
} else if (std::strstr(content_type_lowercased_.c_str(), "application/x-www-form-urlencoded") ||
std::strstr(content_type_lowercased_.c_str(), "application/json")) {
state_ = ReadArgs;
} else {
form_data_skipped_length_ = 0;
state_ = ReadContent;
}
continue;
}
case ReadContent: {
if (content_->size() > max_post_size_) {
state_ = ReadContentToFile;
continue;
}
if (flow_sink_.is_ready()) {
CHECK(query_->container_.size() == 1u);
query_->container_.emplace_back(content_->cut_head(content_->size()).move_as_buffer_slice());
query_->content_ = query_->container_.back().as_slice();
break;
}
return need_size;
}
case ReadContentToFile: {
// save content to a file
if (temp_file_.empty()) {
auto file = open_temp_file("file");
if (file.is_error()) {
return Status::Error(500, "Internal Server Error: can't create temporary file");
}
}
auto size = content_->size();
if (size) {
TRY_STATUS(save_file_part(content_->cut_head(size).move_as_buffer_slice()));
}
if (flow_sink_.is_ready()) {
query_->files_.emplace_back("file", "", content_type_.str(), file_size_, temp_file_name_);
close_temp_file();
break;
}
return need_size;
}
case ReadArgs: {
auto size = content_->size();
if (size > MAX_TOTAL_PARAMETERS_LENGTH - total_parameters_length_) {
return Status::Error(413, "Request Entity Too Large: too much parameters");
}
if (flow_sink_.is_ready()) {
query_->container_.emplace_back(content_->cut_head(size).move_as_buffer_slice());
Status result;
if (std::strstr(content_type_lowercased_.c_str(), "application/x-www-form-urlencoded")) {
result = parse_parameters(query_->container_.back().as_slice());
} else {
result = parse_json_parameters(query_->container_.back().as_slice());
}
if (result.is_error()) {
if (result.code() == 413) {
return std::move(result);
}
LOG(INFO) << result.message();
}
query_->content_ = MutableSlice();
break;
}
return need_size;
}
case ReadMultipartFormData: {
TRY_RESULT(result, parse_multipart_form_data());
if (result) {
break;
}
return need_size;
}
default:
UNREACHABLE();
}
break;
}
init(input_, max_post_size_, max_files_);
return 0;
}
// returns Status on wrong request
// returns true if parsing has finished
// returns false if need more data
Result<bool> HttpReader::parse_multipart_form_data() {
while (true) {
LOG(DEBUG) << "Parsing multipart form data in state " << form_data_parse_state_;
switch (form_data_parse_state_) {
case SkipPrologue:
if (find_boundary(content_->clone(), {boundary_.c_str() + 2, boundary_.size() - 2}, form_data_read_length_)) {
size_t to_skip = form_data_read_length_ + (boundary_.size() - 2);
content_->advance(to_skip);
form_data_skipped_length_ += to_skip;
form_data_read_length_ = 0;
form_data_parse_state_ = ReadPartHeaders;
continue;
}
content_->advance(form_data_read_length_);
form_data_skipped_length_ += form_data_read_length_;
form_data_read_length_ = 0;
return false;
case ReadPartHeaders:
if (find_boundary(content_->clone(), "\r\n\r\n", form_data_read_length_)) {
total_headers_length_ += form_data_read_length_;
if (total_headers_length_ > MAX_TOTAL_HEADERS_LENGTH) {
return Status::Error(431, "Request Header Fields Too Large: total headers size exceeded");
}
if (form_data_read_length_ == 0) {
// there is no headers at all
return Status::Error(400, "Bad Request: headers in multipart/form-data are empty");
}
content_->advance(2); // "\r\n" after boundary
auto headers = content_->cut_head(form_data_read_length_).move_as_buffer_slice();
CHECK(headers.as_slice().size() == form_data_read_length_);
LOG(DEBUG) << "Parse headers in multipart form data: \"" << headers.as_slice() << "\"";
content_->advance(2);
form_data_skipped_length_ += form_data_read_length_ + 4;
form_data_read_length_ = 0;
field_name_ = MutableSlice();
file_field_name_.clear();
field_content_type_ = "application/octet-stream";
file_name_.clear();
CHECK(temp_file_.empty());
temp_file_name_.clear();
Parser headers_parser(headers.as_slice());
while (headers_parser.status().is_ok() && !headers_parser.data().empty()) {
MutableSlice header_name = headers_parser.read_till(':');
headers_parser.skip(':');
char *header_value_begin = headers_parser.ptr();
char *header_value_end;
do {
headers_parser.read_till('\r');
header_value_end = headers_parser.ptr();
headers_parser.skip('\r');
headers_parser.skip('\n');
} while (headers_parser.status().is_ok() &&
(headers_parser.peek_char() == ' ' || headers_parser.peek_char() == '\t'));
MutableSlice header_value(header_value_begin, header_value_end);
header_name = trim(header_name);
header_value = trim(header_value);
to_lower_inplace(header_name);
if (header_name == "content-disposition") {
if (header_value.substr(0, 10) != "form-data;") {
return Status::Error(400, "Bad Request: expected form-data content disposition");
}
header_value.remove_prefix(10);
while (true) {
header_value = trim(header_value);
const char *key_end =
static_cast<const char *>(std::memchr(header_value.data(), '=', header_value.size()));
if (key_end == nullptr) {
break;
}
size_t key_size = key_end - header_value.data();
auto key = header_value.substr(0, key_size);
key = trim(key);
header_value.remove_prefix(key_size + 1);
const char *value_end =
static_cast<const char *>(std::memchr(header_value.data(), ';', header_value.size()));
size_t value_size;
if (value_end == nullptr) {
value_size = header_value.size();
} else {
value_size = value_end - header_value.data();
}
auto value = header_value.substr(0, value_size);
value = trim(value);
if (value.size() > 1u && value[0] == '"' && value.back() == '"') {
value = {value.data() + 1, value.size() - 2};
}
header_value.remove_prefix(value_size + (header_value.size() > value_size));
if (key == "name") {
field_name_ = value;
} else if (key == "filename") {
file_name_ = value.str();
} else {
// ignore unknown parts of header
}
}
} else if (header_name == "content-type") {
field_content_type_ = header_value.str();
} else {
// ignore unknown header
}
}
if (headers_parser.status().is_error()) {
return Status::Error(400, "Bad Request: can't parse form data headers");
}
if (field_name_.empty()) {
return Status::Error(400, "Bad Request: field name in multipart/form-data not found");
}
if (!file_name_.empty()) {
// file
if (query_->files_.size() == max_files_) {
return Status::Error(413, "Request Entity Too Large: too much files attached");
}
auto file = open_temp_file(file_name_);
if (file.is_error()) {
return Status::Error(500, "Internal Server Error: can't create temporary file");
}
// don't need to save headers for files
file_field_name_ = field_name_.str();
form_data_parse_state_ = ReadFile;
} else {
// save headers for query parameters. They contain header names
query_->container_.push_back(std::move(headers));
form_data_parse_state_ = ReadPartValue;
}
continue;
}
if (total_headers_length_ + form_data_read_length_ > MAX_TOTAL_HEADERS_LENGTH) {
return Status::Error(431, "Request Header Fields Too Large: total headers size exceeded");
}
return false;
case ReadPartValue:
if (find_boundary(content_->clone(), boundary_, form_data_read_length_)) {
if (total_parameters_length_ + form_data_read_length_ > MAX_TOTAL_PARAMETERS_LENGTH) {
return Status::Error(413, "Request Entity Too Large: too much parameters in form data");
}
query_->container_.emplace_back(content_->cut_head(form_data_read_length_).move_as_buffer_slice());
MutableSlice value = query_->container_.back().as_slice();
content_->advance(boundary_.size());
form_data_skipped_length_ += form_data_read_length_ + boundary_.size();
form_data_read_length_ = 0;
if (begins_with(field_content_type_, "application/x-www-form-urlencoded")) {
// treat value as ordinary parameters
auto result = parse_parameters(value);
if (result.is_error()) {
return std::move(result);
}
} else {
total_parameters_length_ += form_data_read_length_;
LOG(DEBUG) << "Get ordinary parameter in multipart form data: \"" << field_name_ << "\": \"" << value
<< "\"";
query_->args_.emplace_back(field_name_, value);
}
form_data_parse_state_ = CheckForLastBoundary;
continue;
}
CHECK(content_->size() < form_data_read_length_ + boundary_.size());
if (total_parameters_length_ + form_data_read_length_ > MAX_TOTAL_PARAMETERS_LENGTH) {
return Status::Error(413, "Request Entity Too Large: too much parameters in form data");
}
return false;
case ReadFile: {
if (find_boundary(content_->clone(), boundary_, form_data_read_length_)) {
auto file_part = content_->cut_head(form_data_read_length_).move_as_buffer_slice();
content_->advance(boundary_.size());
form_data_skipped_length_ += form_data_read_length_ + boundary_.size();
form_data_read_length_ = 0;
TRY_STATUS(save_file_part(std::move(file_part)));
query_->files_.emplace_back(file_field_name_, file_name_, field_content_type_, file_size_, temp_file_name_);
close_temp_file();
form_data_parse_state_ = CheckForLastBoundary;
continue;
}
// TODO optimize?
auto file_part = content_->cut_head(form_data_read_length_).move_as_buffer_slice();
form_data_skipped_length_ += form_data_read_length_;
form_data_read_length_ = 0;
CHECK(content_->size() < boundary_.size());
TRY_STATUS(save_file_part(std::move(file_part)));
return false;
}
case CheckForLastBoundary: {
if (content_->size() < 2) {
// need more data
return false;
}
auto range = content_->clone();
char x[2];
range.advance(2, {x, 2});
if (x[0] == '-' && x[1] == '-') {
content_->advance(2);
form_data_skipped_length_ += 2;
form_data_parse_state_ = SkipEpilogue;
} else {
form_data_parse_state_ = ReadPartHeaders;
}
continue;
}
case SkipEpilogue: {
size_t size = content_->size();
LOG(DEBUG) << "Skipping epilogue. Have " << size << " bytes";
content_->advance(size);
form_data_skipped_length_ += size;
// TODO(now): check if form_data_skipped_length is too big
return flow_sink_.is_ready();
}
default:
UNREACHABLE();
}
break;
}
return true;
}
Result<size_t> HttpReader::split_header() {
if (find_boundary(input_->clone(), "\r\n\r\n", headers_read_length_)) {
query_->container_.clear();
auto a = input_->cut_head(headers_read_length_ + 2);
auto b = a.move_as_buffer_slice();
query_->container_.emplace_back(std::move(b));
// query_->container_.emplace_back(input_->cut_head(headers_read_length_ + 2).move_as_buffer_slice());
CHECK(query_->container_.back().size() == headers_read_length_ + 2);
input_->advance(2);
total_headers_length_ = headers_read_length_;
auto status = parse_head(query_->container_.back().as_slice());
if (status.is_error()) {
return std::move(status);
}
return 0;
}
if (input_->size() > MAX_TOTAL_HEADERS_LENGTH) {
return Status::Error(431, "Request Header Fields Too Large: total headers size exceeded");
}
return input_->size() + 1;
}
void HttpReader::process_header(MutableSlice header_name, MutableSlice header_value) {
header_name = trim(header_name);
header_value = trim(header_value); // TODO need to remove "\r\n" from value
to_lower_inplace(header_name);
LOG(DEBUG) << "process_header [" << header_name << "=>" << header_value << "]";
query_->headers_.emplace_back(header_name, header_value);
// TODO: check if protocol is HTTP/1.1
query_->keep_alive_ = true;
if (header_name == "content-length") {
content_length_ = to_integer<size_t>(header_value);
} else if (header_name == "connection") {
to_lower_inplace(header_value);
if (header_value == "close") {
query_->keep_alive_ = false;
}
} else if (header_name == "content-type") {
content_type_ = header_value;
content_type_lowercased_ = header_value.str();
to_lower_inplace(content_type_lowercased_);
} else if (header_name == "content-encoding") {
to_lower_inplace(header_value);
content_encoding_ = header_value;
} else if (header_name == "transfer-encoding") {
to_lower_inplace(header_value);
transfer_encoding_ = header_value;
}
}
Status HttpReader::parse_url(MutableSlice url) {
size_t url_path_size = 0;
while (url_path_size < url.size() && url[url_path_size] != '?' && url[url_path_size] != '#') {
url_path_size++;
}
query_->url_path_ = urldecode_inplace({url.data(), url_path_size}, false);
if (url_path_size == url.size() || url[url_path_size] != '?') {
return Status::OK();
}
return parse_parameters(url.substr(url_path_size + 1));
}
Status HttpReader::parse_parameters(MutableSlice parameters) {
total_parameters_length_ += parameters.size();
if (total_parameters_length_ > MAX_TOTAL_PARAMETERS_LENGTH) {
return Status::Error(413, "Request Entity Too Large: too much parameters");
}
LOG(DEBUG) << "Parse parameters: \"" << parameters << "\"";
Parser parser(parameters);
while (!parser.data().empty()) {
auto key_value = parser.read_till_nofail('&');
parser.skip_nofail('&');
Parser kv_parser(key_value);
auto key = urldecode_inplace(kv_parser.read_till_nofail('='), true);
kv_parser.skip_nofail('=');
auto value = urldecode_inplace(kv_parser.data(), true);
query_->args_.emplace_back(key, value);
}
CHECK(parser.status().is_ok());
return Status::OK();
}
Status HttpReader::parse_json_parameters(MutableSlice parameters) {
if (parameters.empty()) {
return Status::OK();
}
total_parameters_length_ += parameters.size();
if (total_parameters_length_ > MAX_TOTAL_PARAMETERS_LENGTH) {
return Status::Error(413, "Request Entity Too Large: too much parameters");
}
LOG(DEBUG) << "Parse json parameters: \"" << parameters << "\"";
Parser parser(parameters);
parser.skip_whitespaces();
parser.skip('{');
if (parser.status().is_error()) {
return Status::Error(400, "Bad Request: json object expected");
}
while (true) {
parser.skip_whitespaces();
if (parser.try_skip('}')) {
parser.skip_whitespaces();
if (parser.empty()) {
return Status::OK();
}
return Status::Error(400, "Bad Request: unexpected data after object end");
}
if (parser.empty()) {
return Status::Error(400, "Bad Request: expected parameter name");
}
auto r_key = json_string_decode(parser);
if (r_key.is_error()) {
return Status::Error(400, PSLICE() << "Bad Request: can't parse parameter name: " << r_key.error().message());
}
parser.skip_whitespaces();
if (!parser.try_skip(':')) {
return Status::Error(400, "Bad Request: can't parse object, ':' expected");
}
parser.skip_whitespaces();
auto r_value = [&]() -> Result<MutableSlice> {
if (parser.peek_char() == '"') {
return json_string_decode(parser);
} else {
const int32 DEFAULT_MAX_DEPTH = 100;
auto begin = parser.ptr();
auto result = do_json_skip(parser, DEFAULT_MAX_DEPTH);
if (result.is_ok()) {
return MutableSlice(begin, parser.ptr());
} else {
return result.move_as_error();
}
}
}();
if (r_value.is_error()) {
return Status::Error(400, PSLICE() << "Bad Request: can't parse parameter value: " << r_value.error().message());
}
query_->args_.emplace_back(r_key.move_as_ok(), r_value.move_as_ok());
parser.skip_whitespaces();
if (parser.peek_char() != '}' && !parser.try_skip(',')) {
return Status::Error(400, "Bad Request: expected next field or object end");
}
}
UNREACHABLE();
return Status::OK();
}
Status HttpReader::parse_head(MutableSlice head) {
Parser parser(head);
Slice type = parser.read_till(' ');
parser.skip(' ');
// GET POST HTTP/1.1
if (type == "GET") {
query_->type_ = HttpQuery::Type::GET;
} else if (type == "POST") {
query_->type_ = HttpQuery::Type::POST;
} else if (type.size() >= 4 && type.substr(0, 4) == "HTTP") {
if (type == "HTTP/1.1" || type == "HTTP/1.0") {
query_->type_ = HttpQuery::Type::RESPONSE;
} else {
LOG(INFO) << "Unsupported HTTP version: " << type;
return Status::Error(505, "HTTP Version Not Supported");
}
} else {
LOG(INFO) << "Not Implemented " << tag("type", type) << tag("head", head);
return Status::Error(501, "Not Implemented");
}
query_->args_.clear();
if (query_->type_ == HttpQuery::Type::RESPONSE) {
query_->code_ = to_integer<int32>(parser.read_till(' '));
parser.skip(' ');
query_->reason_ = parser.read_till('\r');
LOG(DEBUG) << "Receive HTTP response " << query_->code_ << " " << query_->reason_;
} else {
auto url_version = parser.read_till('\r');
auto space_pos = url_version.rfind(' ');
if (space_pos == static_cast<size_t>(-1)) {
return Status::Error(400, "Bad Request: wrong request line");
}
TRY_STATUS(parse_url(url_version.substr(0, space_pos)));
auto http_version = url_version.substr(space_pos + 1);
if (http_version != "HTTP/1.1" && http_version != "HTTP/1.0") {
LOG(WARNING) << "Unsupported HTTP version: " << http_version;
return Status::Error(505, "HTTP Version Not Supported");
}
}
parser.skip('\r');
parser.skip('\n');
content_length_ = 0;
content_type_ = "application/octet-stream";
content_type_lowercased_ = content_type_.str();
transfer_encoding_ = "";
content_encoding_ = "";
query_->keep_alive_ = false;
query_->headers_.clear();
query_->files_.clear();
query_->content_ = MutableSlice();
while (parser.status().is_ok() && !parser.data().empty()) {
MutableSlice header_name = parser.read_till(':');
parser.skip(':');
char *header_value_begin = parser.ptr();
char *header_value_end;
do {
parser.read_till('\r');
header_value_end = parser.ptr();
parser.skip('\r');
parser.skip('\n');
} while (parser.status().is_ok() && (parser.peek_char() == ' ' || parser.peek_char() == '\t'));
process_header(header_name, {header_value_begin, header_value_end});
}
return parser.status().is_ok() ? Status::OK() : Status::Error(400, "Bad Request");
}
Status HttpReader::open_temp_file(CSlice desired_file_name) {
CHECK(temp_file_.empty());
auto tmp_dir = get_temporary_dir();
if (tmp_dir.empty()) {
return Status::Error("Can't find temporary directory");
}
TRY_RESULT(dir, realpath(tmp_dir, true));
CHECK(!dir.empty());
auto first_try = try_open_temp_file(dir, desired_file_name);
if (first_try.is_ok()) {
return Status::OK();
}
// Creation of new file with desired name has failed. Trying to create unique directory for it
TRY_RESULT(directory, mkdtemp(dir, TEMP_DIRECTORY_PREFIX));
auto second_try = try_open_temp_file(directory, desired_file_name);
if (second_try.is_ok()) {
return Status::OK();
}
auto third_try = try_open_temp_file(directory, "file");
if (third_try.is_ok()) {
return Status::OK();
}
rmdir(directory).ignore();
LOG(WARNING) << "Failed to create temporary file " << desired_file_name << ": " << second_try.error();
return second_try.move_as_error();
}
Status HttpReader::try_open_temp_file(Slice directory_name, CSlice desired_file_name) {
CHECK(temp_file_.empty());
CHECK(!directory_name.empty());
string file_name = clean_filename(desired_file_name);
if (file_name.empty()) {
file_name = "file";
}
temp_file_name_.clear();
temp_file_name_.reserve(directory_name.size() + 1 + file_name.size());
temp_file_name_.append(directory_name.data(), directory_name.size());
if (temp_file_name_.back() != TD_DIR_SLASH) {
temp_file_name_ += TD_DIR_SLASH;
}
temp_file_name_.append(file_name.data(), file_name.size());
TRY_RESULT(opened_file, FileFd::open(temp_file_name_, FileFd::Write | FileFd::CreateNew, 0640));
file_size_ = 0;
temp_file_ = std::move(opened_file);
LOG(DEBUG) << "Created temporary file " << temp_file_name_;
return Status::OK();
}
Status HttpReader::save_file_part(BufferSlice &&file_part) {
file_size_ += narrow_cast<int64>(file_part.size());
if (file_size_ > MAX_FILE_SIZE) {
clean_temporary_file();
return Status::Error(
413, PSLICE() << "Request Entity Too Large: file of size " << file_size_ << " is too big to be uploaded");
}
LOG(DEBUG) << "Save file part of size " << file_part.size() << " to file " << temp_file_name_;
auto result_written = temp_file_.write(file_part.as_slice());
if (result_written.is_error() || result_written.ok() != file_part.size()) {
clean_temporary_file();
return Status::Error(500, "Internal server error: can't upload the file");
}
return Status::OK();
}
void HttpReader::clean_temporary_file() {
string file_name = temp_file_name_;
close_temp_file();
delete_temp_file(file_name);
}
void HttpReader::close_temp_file() {
LOG(DEBUG) << "Close temporary file " << temp_file_name_;
CHECK(!temp_file_.empty());
temp_file_.close();
CHECK(temp_file_.empty());
temp_file_name_.clear();
}
void HttpReader::delete_temp_file(CSlice file_name) {
CHECK(!file_name.empty());
LOG(DEBUG) << "Unlink temporary file " << file_name;
unlink(file_name).ignore();
PathView path_view(file_name);
Slice parent = path_view.parent_dir();
const size_t prefix_length = std::strlen(TEMP_DIRECTORY_PREFIX);
if (parent.size() >= prefix_length + 7 &&
parent.substr(parent.size() - prefix_length - 7, prefix_length) == TEMP_DIRECTORY_PREFIX) {
LOG(DEBUG) << "Unlink temporary directory " << parent;
rmdir(PSLICE() << Slice(parent.data(), parent.size() - 1)).ignore();
}
}
} // namespace td