naiveproxy/net/test/embedded_test_server/http_request.cc

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2018-12-10 05:59:24 +03:00
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/test/embedded_test_server/http_request.h"
#include <algorithm>
#include <utility>
#include "base/logging.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_split.h"
#include "base/strings/string_util.h"
#include "net/http/http_chunked_decoder.h"
#include "url/gurl.h"
namespace net {
namespace test_server {
namespace {
size_t kRequestSizeLimit = 64 * 1024 * 1024; // 64 mb.
// Helper function used to trim tokens in http request headers.
std::string Trim(const std::string& value) {
std::string result;
base::TrimString(value, " \t", &result);
return result;
}
} // namespace
HttpRequest::HttpRequest() : method(METHOD_UNKNOWN),
has_content(false) {
}
HttpRequest::HttpRequest(const HttpRequest& other) = default;
HttpRequest::~HttpRequest() = default;
GURL HttpRequest::GetURL() const {
if (base_url.is_valid())
return base_url.Resolve(relative_url);
return GURL("http://localhost" + relative_url);
}
HttpRequestParser::HttpRequestParser()
: http_request_(new HttpRequest()),
buffer_position_(0),
state_(STATE_HEADERS),
declared_content_length_(0) {
}
HttpRequestParser::~HttpRequestParser() = default;
void HttpRequestParser::ProcessChunk(const base::StringPiece& data) {
data.AppendToString(&buffer_);
DCHECK_LE(buffer_.size() + data.size(), kRequestSizeLimit) <<
"The HTTP request is too large.";
}
std::string HttpRequestParser::ShiftLine() {
size_t eoln_position = buffer_.find("\r\n", buffer_position_);
DCHECK_NE(std::string::npos, eoln_position);
const int line_length = eoln_position - buffer_position_;
std::string result = buffer_.substr(buffer_position_, line_length);
buffer_position_ += line_length + 2;
return result;
}
HttpRequestParser::ParseResult HttpRequestParser::ParseRequest() {
DCHECK_NE(STATE_ACCEPTED, state_);
// Parse the request from beginning. However, entire request may not be
// available in the buffer.
if (state_ == STATE_HEADERS) {
if (ParseHeaders() == ACCEPTED)
return ACCEPTED;
}
// This should not be 'else if' of the previous block, as |state_| can be
// changed in ParseHeaders().
if (state_ == STATE_CONTENT) {
if (ParseContent() == ACCEPTED)
return ACCEPTED;
}
return WAITING;
}
HttpRequestParser::ParseResult HttpRequestParser::ParseHeaders() {
// Check if the all request headers are available.
if (buffer_.find("\r\n\r\n", buffer_position_) == std::string::npos)
return WAITING;
// Parse request's the first header line.
// Request main main header, eg. GET /foobar.html HTTP/1.1
std::string request_headers;
{
const std::string header_line = ShiftLine();
http_request_->all_headers += header_line + "\r\n";
std::vector<std::string> header_line_tokens = base::SplitString(
header_line, " ", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL);
DCHECK_EQ(3u, header_line_tokens.size());
// Method.
http_request_->method_string = header_line_tokens[0];
http_request_->method =
GetMethodType(base::ToLowerASCII(header_line_tokens[0]));
// Address.
// Don't build an absolute URL as the parser does not know (should not
// know) anything about the server address.
GURL url(header_line_tokens[1]);
if (url.is_valid()) {
http_request_->relative_url = url.PathForRequest();
} else if (header_line_tokens[1][0] == '/') {
http_request_->relative_url = header_line_tokens[1];
} else {
http_request_->relative_url = "/" + header_line_tokens[1];
}
// Protocol.
const std::string protocol = base::ToLowerASCII(header_line_tokens[2]);
CHECK(protocol == "http/1.0" || protocol == "http/1.1") <<
"Protocol not supported: " << protocol;
}
// Parse further headers.
{
std::string header_name;
while (true) {
std::string header_line = ShiftLine();
if (header_line.empty())
break;
http_request_->all_headers += header_line + "\r\n";
if (header_line[0] == ' ' || header_line[0] == '\t') {
// Continuation of the previous multi-line header.
std::string header_value =
Trim(header_line.substr(1, header_line.size() - 1));
http_request_->headers[header_name] += " " + header_value;
} else {
// New header.
size_t delimiter_pos = header_line.find(":");
DCHECK_NE(std::string::npos, delimiter_pos) << "Syntax error.";
header_name = Trim(header_line.substr(0, delimiter_pos));
std::string header_value = Trim(header_line.substr(
delimiter_pos + 1,
header_line.size() - delimiter_pos - 1));
http_request_->headers[header_name] = header_value;
}
}
}
// Headers done. Is any content data attached to the request?
declared_content_length_ = 0;
if (http_request_->headers.count("Content-Length") > 0) {
http_request_->has_content = true;
const bool success = base::StringToSizeT(
http_request_->headers["Content-Length"],
&declared_content_length_);
if (!success) {
declared_content_length_ = 0;
LOG(WARNING) << "Malformed Content-Length header's value.";
}
} else if (http_request_->headers.count("Transfer-Encoding") > 0) {
if (http_request_->headers["Transfer-Encoding"] == "chunked") {
http_request_->has_content = true;
chunked_decoder_.reset(new HttpChunkedDecoder());
state_ = STATE_CONTENT;
return WAITING;
}
}
if (declared_content_length_ == 0) {
// No content data, so parsing is finished.
state_ = STATE_ACCEPTED;
return ACCEPTED;
}
// The request has not yet been parsed yet, content data is still to be
// processed.
state_ = STATE_CONTENT;
return WAITING;
}
HttpRequestParser::ParseResult HttpRequestParser::ParseContent() {
const size_t available_bytes = buffer_.size() - buffer_position_;
if (chunked_decoder_.get()) {
int bytes_written = chunked_decoder_->FilterBuf(
const_cast<char*>(buffer_.data()) + buffer_position_, available_bytes);
http_request_->content.append(buffer_.data() + buffer_position_,
bytes_written);
if (chunked_decoder_->reached_eof()) {
buffer_ =
buffer_.substr(buffer_.size() - chunked_decoder_->bytes_after_eof());
buffer_position_ = 0;
state_ = STATE_ACCEPTED;
return ACCEPTED;
}
buffer_ = "";
buffer_position_ = 0;
state_ = STATE_CONTENT;
return WAITING;
}
const size_t fetch_bytes = std::min(
available_bytes,
declared_content_length_ - http_request_->content.size());
http_request_->content.append(buffer_.data() + buffer_position_,
fetch_bytes);
buffer_position_ += fetch_bytes;
if (declared_content_length_ == http_request_->content.size()) {
state_ = STATE_ACCEPTED;
return ACCEPTED;
}
state_ = STATE_CONTENT;
return WAITING;
}
std::unique_ptr<HttpRequest> HttpRequestParser::GetRequest() {
DCHECK_EQ(STATE_ACCEPTED, state_);
std::unique_ptr<HttpRequest> result = std::move(http_request_);
// Prepare for parsing a new request.
state_ = STATE_HEADERS;
http_request_.reset(new HttpRequest());
buffer_.clear();
buffer_position_ = 0;
declared_content_length_ = 0;
return result;
}
HttpMethod HttpRequestParser::GetMethodType(const std::string& token) const {
if (token == "get") {
return METHOD_GET;
} else if (token == "head") {
return METHOD_HEAD;
} else if (token == "post") {
return METHOD_POST;
} else if (token == "put") {
return METHOD_PUT;
} else if (token == "delete") {
return METHOD_DELETE;
} else if (token == "patch") {
return METHOD_PATCH;
} else if (token == "connect") {
return METHOD_CONNECT;
} else if (token == "options") {
return METHOD_OPTIONS;
}
LOG(WARNING) << "Method not implemented: " << token;
return METHOD_GET;
}
} // namespace test_server
} // namespace net