// 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/spdy/spdy_http_utils.h" #include #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/time/time.h" #include "net/base/escape.h" #include "net/base/load_flags.h" #include "net/base/net_util.h" #include "net/http/http_request_headers.h" #include "net/http/http_request_info.h" #include "net/http/http_response_headers.h" #include "net/http/http_response_info.h" #include "net/http/http_util.h" namespace net { bool SpdyHeadersToHttpResponse(const SpdyHeaderBlock& headers, SpdyMajorVersion protocol_version, HttpResponseInfo* response) { std::string status_key = (protocol_version >= SPDY3) ? ":status" : "status"; std::string version_key = (protocol_version >= SPDY3) ? ":version" : "version"; std::string version; std::string status; // The "status" and "version" headers are required. SpdyHeaderBlock::const_iterator it; it = headers.find(status_key); if (it == headers.end()) return false; status = it->second; it = headers.find(version_key); if (it == headers.end()) return false; version = it->second; std::string raw_headers(version); raw_headers.push_back(' '); raw_headers.append(status); raw_headers.push_back('\0'); for (it = headers.begin(); it != headers.end(); ++it) { // For each value, if the server sends a NUL-separated // list of values, we separate that back out into // individual headers for each value in the list. // e.g. // Set-Cookie "foo\0bar" // becomes // Set-Cookie: foo\0 // Set-Cookie: bar\0 std::string value = it->second; size_t start = 0; size_t end = 0; do { end = value.find('\0', start); std::string tval; if (end != value.npos) tval = value.substr(start, (end - start)); else tval = value.substr(start); if (protocol_version >= 3 && it->first[0] == ':') raw_headers.append(it->first.substr(1)); else raw_headers.append(it->first); raw_headers.push_back(':'); raw_headers.append(tval); raw_headers.push_back('\0'); start = end + 1; } while (end != value.npos); } response->headers = new HttpResponseHeaders(raw_headers); response->was_fetched_via_spdy = true; return true; } void CreateSpdyHeadersFromHttpRequest(const HttpRequestInfo& info, const HttpRequestHeaders& request_headers, SpdyHeaderBlock* headers, SpdyMajorVersion protocol_version, bool direct) { HttpRequestHeaders::Iterator it(request_headers); while (it.GetNext()) { std::string name = StringToLowerASCII(it.name()); if (name == "connection" || name == "proxy-connection" || name == "transfer-encoding") { continue; } if (headers->find(name) == headers->end()) { (*headers)[name] = it.value(); } else { std::string new_value = (*headers)[name]; new_value.append(1, '\0'); // +=() doesn't append 0's new_value += it.value(); (*headers)[name] = new_value; } } static const char kHttpProtocolVersion[] = "HTTP/1.1"; if (protocol_version < SPDY3) { (*headers)["version"] = kHttpProtocolVersion; (*headers)["method"] = info.method; (*headers)["host"] = GetHostAndOptionalPort(info.url); (*headers)["scheme"] = info.url.scheme(); if (direct) (*headers)["url"] = HttpUtil::PathForRequest(info.url); else (*headers)["url"] = HttpUtil::SpecForRequest(info.url); } else { (*headers)[":version"] = kHttpProtocolVersion; (*headers)[":method"] = info.method; (*headers)[":host"] = GetHostAndOptionalPort(info.url); (*headers)[":scheme"] = info.url.scheme(); (*headers)[":path"] = HttpUtil::PathForRequest(info.url); headers->erase("host"); // this is kinda insane, spdy 3 spec. } } COMPILE_ASSERT(HIGHEST - LOWEST < 4 && HIGHEST - MINIMUM_PRIORITY < 5, request_priority_incompatible_with_spdy); SpdyPriority ConvertRequestPriorityToSpdyPriority( const RequestPriority priority, SpdyMajorVersion protocol_version) { DCHECK_GE(priority, MINIMUM_PRIORITY); DCHECK_LE(priority, MAXIMUM_PRIORITY); if (protocol_version == SPDY2) { // SPDY 2 only has 2 bits of priority, but we have 5 RequestPriorities. // Map IDLE => 3, LOWEST => 2, LOW => 2, MEDIUM => 1, HIGHEST => 0. if (priority > LOWEST) { return static_cast(HIGHEST - priority); } else { return static_cast(HIGHEST - priority - 1); } } else { return static_cast(HIGHEST - priority); } } NET_EXPORT_PRIVATE RequestPriority ConvertSpdyPriorityToRequestPriority( SpdyPriority priority, SpdyMajorVersion protocol_version) { // Handle invalid values gracefully, and pick LOW to map 2 back // to for SPDY/2. SpdyPriority idle_cutoff = (protocol_version == SPDY2) ? 3 : 5; return (priority >= idle_cutoff) ? IDLE : static_cast(HIGHEST - priority); } GURL GetUrlFromHeaderBlock(const SpdyHeaderBlock& headers, SpdyMajorVersion protocol_version, bool pushed) { // SPDY 2 server push urls are specified in a single "url" header. if (pushed && protocol_version == SPDY2) { std::string url; SpdyHeaderBlock::const_iterator it; it = headers.find("url"); if (it != headers.end()) url = it->second; return GURL(url); } const char* scheme_header = protocol_version >= SPDY3 ? ":scheme" : "scheme"; const char* host_header = protocol_version >= SPDY3 ? ":host" : "host"; const char* path_header = protocol_version >= SPDY3 ? ":path" : "url"; std::string scheme; std::string host_port; std::string path; SpdyHeaderBlock::const_iterator it; it = headers.find(scheme_header); if (it != headers.end()) scheme = it->second; it = headers.find(host_header); if (it != headers.end()) host_port = it->second; it = headers.find(path_header); if (it != headers.end()) path = it->second; std::string url = (scheme.empty() || host_port.empty() || path.empty()) ? std::string() : scheme + "://" + host_port + path; return GURL(url); } bool ShouldShowHttpHeaderValue(const std::string& header_name) { #if defined(SPDY_PROXY_AUTH_ORIGIN) if (header_name == "proxy-authorization") return false; #endif return true; } } // namespace net