// 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/proxy/proxy_script_decider.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/compiler_specific.h" #include "base/format_macros.h" #include "base/logging.h" #include "base/metrics/histogram_macros.h" #include "base/strings/string_util.h" #include "base/strings/utf_string_conversions.h" #include "base/values.h" #include "net/base/net_errors.h" #include "net/proxy/dhcp_proxy_script_fetcher.h" #include "net/proxy/dhcp_proxy_script_fetcher_factory.h" #include "net/proxy/proxy_script_fetcher.h" #include "net/url_request/url_request_context.h" namespace net { namespace { bool LooksLikePacScript(const base::string16& script) { // Note: this is only an approximation! It may not always work correctly, // however it is very likely that legitimate scripts have this exact string, // since they must minimally define a function of this name. Conversely, a // file not containing the string is not likely to be a PAC script. // // An exact test would have to load the script in a javascript evaluator. return script.find(base::ASCIIToUTF16("FindProxyForURL")) != base::string16::npos; } } // This is the hard-coded location used by the DNS portion of web proxy // auto-discovery. // // Note that we not use DNS devolution to find the WPAD host, since that could // be dangerous should our top level domain registry become out of date. // // Instead we directly resolve "wpad", and let the operating system apply the // DNS suffix search paths. This is the same approach taken by Firefox, and // compatibility hasn't been an issue. // // For more details, also check out this comment: // http://code.google.com/p/chromium/issues/detail?id=18575#c20 namespace { const char kWpadUrl[] = "http://wpad/wpad.dat"; const int kQuickCheckDelayMs = 1000; }; scoped_ptr ProxyScriptDecider::PacSource::NetLogCallback( const GURL* effective_pac_url, NetLogCaptureMode /* capture_mode */) const { scoped_ptr dict(new base::DictionaryValue()); std::string source; switch (type) { case PacSource::WPAD_DHCP: source = "WPAD DHCP"; break; case PacSource::WPAD_DNS: source = "WPAD DNS: "; source += effective_pac_url->possibly_invalid_spec(); break; case PacSource::CUSTOM: source = "Custom PAC URL: "; source += effective_pac_url->possibly_invalid_spec(); break; } dict->SetString("source", source); return dict.Pass(); } ProxyScriptDecider::ProxyScriptDecider( ProxyScriptFetcher* proxy_script_fetcher, DhcpProxyScriptFetcher* dhcp_proxy_script_fetcher, NetLog* net_log) : proxy_script_fetcher_(proxy_script_fetcher), dhcp_proxy_script_fetcher_(dhcp_proxy_script_fetcher), current_pac_source_index_(0u), pac_mandatory_(false), next_state_(STATE_NONE), net_log_(BoundNetLog::Make(net_log, NetLog::SOURCE_PROXY_SCRIPT_DECIDER)), fetch_pac_bytes_(false), quick_check_enabled_(true) { if (proxy_script_fetcher && proxy_script_fetcher->GetRequestContext() && proxy_script_fetcher->GetRequestContext()->host_resolver()) { host_resolver_.reset(new SingleRequestHostResolver( proxy_script_fetcher->GetRequestContext()->host_resolver())); } } ProxyScriptDecider::~ProxyScriptDecider() { if (next_state_ != STATE_NONE) Cancel(); } int ProxyScriptDecider::Start( const ProxyConfig& config, const base::TimeDelta wait_delay, bool fetch_pac_bytes, const CompletionCallback& callback) { DCHECK_EQ(STATE_NONE, next_state_); DCHECK(!callback.is_null()); DCHECK(config.HasAutomaticSettings()); net_log_.BeginEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER); fetch_pac_bytes_ = fetch_pac_bytes; // Save the |wait_delay| as a non-negative value. wait_delay_ = wait_delay; if (wait_delay_ < base::TimeDelta()) wait_delay_ = base::TimeDelta(); pac_mandatory_ = config.pac_mandatory(); have_custom_pac_url_ = config.has_pac_url(); pac_sources_ = BuildPacSourcesFallbackList(config); DCHECK(!pac_sources_.empty()); next_state_ = STATE_WAIT; int rv = DoLoop(OK); if (rv == ERR_IO_PENDING) callback_ = callback; else DidComplete(); return rv; } const ProxyConfig& ProxyScriptDecider::effective_config() const { DCHECK_EQ(STATE_NONE, next_state_); return effective_config_; } // TODO(eroman): Return a const-pointer. ProxyResolverScriptData* ProxyScriptDecider::script_data() const { DCHECK_EQ(STATE_NONE, next_state_); return script_data_.get(); } // Initialize the fallback rules. // (1) WPAD (DHCP). // (2) WPAD (DNS). // (3) Custom PAC URL. ProxyScriptDecider::PacSourceList ProxyScriptDecider:: BuildPacSourcesFallbackList( const ProxyConfig& config) const { PacSourceList pac_sources; if (config.auto_detect()) { pac_sources.push_back(PacSource(PacSource::WPAD_DHCP, GURL(kWpadUrl))); pac_sources.push_back(PacSource(PacSource::WPAD_DNS, GURL(kWpadUrl))); } if (config.has_pac_url()) pac_sources.push_back(PacSource(PacSource::CUSTOM, config.pac_url())); return pac_sources; } void ProxyScriptDecider::OnIOCompletion(int result) { DCHECK_NE(STATE_NONE, next_state_); int rv = DoLoop(result); if (rv != ERR_IO_PENDING) { DidComplete(); DoCallback(rv); } } int ProxyScriptDecider::DoLoop(int result) { DCHECK_NE(next_state_, STATE_NONE); int rv = result; do { State state = next_state_; next_state_ = STATE_NONE; switch (state) { case STATE_WAIT: DCHECK_EQ(OK, rv); rv = DoWait(); break; case STATE_WAIT_COMPLETE: rv = DoWaitComplete(rv); break; case STATE_QUICK_CHECK: DCHECK_EQ(OK, rv); rv = DoQuickCheck(); break; case STATE_QUICK_CHECK_COMPLETE: rv = DoQuickCheckComplete(rv); break; case STATE_FETCH_PAC_SCRIPT: DCHECK_EQ(OK, rv); rv = DoFetchPacScript(); break; case STATE_FETCH_PAC_SCRIPT_COMPLETE: rv = DoFetchPacScriptComplete(rv); break; case STATE_VERIFY_PAC_SCRIPT: DCHECK_EQ(OK, rv); rv = DoVerifyPacScript(); break; case STATE_VERIFY_PAC_SCRIPT_COMPLETE: rv = DoVerifyPacScriptComplete(rv); break; default: NOTREACHED() << "bad state"; rv = ERR_UNEXPECTED; break; } } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE); return rv; } void ProxyScriptDecider::DoCallback(int result) { DCHECK_NE(ERR_IO_PENDING, result); DCHECK(!callback_.is_null()); callback_.Run(result); } int ProxyScriptDecider::DoWait() { next_state_ = STATE_WAIT_COMPLETE; // If no waiting is required, continue on to the next state. if (wait_delay_.ToInternalValue() == 0) return OK; // Otherwise wait the specified amount of time. wait_timer_.Start(FROM_HERE, wait_delay_, this, &ProxyScriptDecider::OnWaitTimerFired); net_log_.BeginEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER_WAIT); return ERR_IO_PENDING; } int ProxyScriptDecider::DoWaitComplete(int result) { DCHECK_EQ(OK, result); if (wait_delay_.ToInternalValue() != 0) { net_log_.EndEventWithNetErrorCode(NetLog::TYPE_PROXY_SCRIPT_DECIDER_WAIT, result); } if (quick_check_enabled_ && current_pac_source().type == PacSource::WPAD_DNS) next_state_ = STATE_QUICK_CHECK; else next_state_ = GetStartState(); return OK; } int ProxyScriptDecider::DoQuickCheck() { DCHECK(quick_check_enabled_); if (host_resolver_.get() == NULL) { // If we have no resolver, skip QuickCheck altogether. next_state_ = GetStartState(); return OK; } quick_check_start_time_ = base::Time::Now(); std::string host = current_pac_source().url.host(); HostResolver::RequestInfo reqinfo(HostPortPair(host, 80)); reqinfo.set_host_resolver_flags(HOST_RESOLVER_SYSTEM_ONLY); CompletionCallback callback = base::Bind( &ProxyScriptDecider::OnIOCompletion, base::Unretained(this)); next_state_ = STATE_QUICK_CHECK_COMPLETE; quick_check_timer_.Start(FROM_HERE, base::TimeDelta::FromMilliseconds( kQuickCheckDelayMs), base::Bind(callback, ERR_NAME_NOT_RESOLVED)); // We use HIGHEST here because proxy decision blocks doing any other requests. return host_resolver_->Resolve(reqinfo, HIGHEST, &wpad_addresses_, callback, net_log_); } int ProxyScriptDecider::DoQuickCheckComplete(int result) { DCHECK(quick_check_enabled_); base::TimeDelta delta = base::Time::Now() - quick_check_start_time_; if (result == OK) UMA_HISTOGRAM_TIMES("Net.WpadQuickCheckSuccess", delta); else UMA_HISTOGRAM_TIMES("Net.WpadQuickCheckFailure", delta); host_resolver_->Cancel(); quick_check_timer_.Stop(); if (result != OK) return TryToFallbackPacSource(result); next_state_ = GetStartState(); return result; } int ProxyScriptDecider::DoFetchPacScript() { DCHECK(fetch_pac_bytes_); next_state_ = STATE_FETCH_PAC_SCRIPT_COMPLETE; const PacSource& pac_source = current_pac_source(); GURL effective_pac_url; DetermineURL(pac_source, &effective_pac_url); net_log_.BeginEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER_FETCH_PAC_SCRIPT, base::Bind(&PacSource::NetLogCallback, base::Unretained(&pac_source), &effective_pac_url)); if (pac_source.type == PacSource::WPAD_DHCP) { if (!dhcp_proxy_script_fetcher_) { net_log_.AddEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER_HAS_NO_FETCHER); return ERR_UNEXPECTED; } return dhcp_proxy_script_fetcher_->Fetch( &pac_script_, base::Bind(&ProxyScriptDecider::OnIOCompletion, base::Unretained(this))); } if (!proxy_script_fetcher_) { net_log_.AddEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER_HAS_NO_FETCHER); return ERR_UNEXPECTED; } return proxy_script_fetcher_->Fetch( effective_pac_url, &pac_script_, base::Bind(&ProxyScriptDecider::OnIOCompletion, base::Unretained(this))); } int ProxyScriptDecider::DoFetchPacScriptComplete(int result) { DCHECK(fetch_pac_bytes_); net_log_.EndEventWithNetErrorCode( NetLog::TYPE_PROXY_SCRIPT_DECIDER_FETCH_PAC_SCRIPT, result); if (result != OK) return TryToFallbackPacSource(result); next_state_ = STATE_VERIFY_PAC_SCRIPT; return result; } int ProxyScriptDecider::DoVerifyPacScript() { next_state_ = STATE_VERIFY_PAC_SCRIPT_COMPLETE; // This is just a heuristic. Ideally we would try to parse the script. if (fetch_pac_bytes_ && !LooksLikePacScript(pac_script_)) return ERR_PAC_SCRIPT_FAILED; return OK; } int ProxyScriptDecider::DoVerifyPacScriptComplete(int result) { if (result != OK) return TryToFallbackPacSource(result); const PacSource& pac_source = current_pac_source(); // Extract the current script data. if (fetch_pac_bytes_) { script_data_ = ProxyResolverScriptData::FromUTF16(pac_script_); } else { script_data_ = pac_source.type == PacSource::CUSTOM ? ProxyResolverScriptData::FromURL(pac_source.url) : ProxyResolverScriptData::ForAutoDetect(); } // Let the caller know which automatic setting we ended up initializing the // resolver for (there may have been multiple fallbacks to choose from.) if (current_pac_source().type == PacSource::CUSTOM) { effective_config_ = ProxyConfig::CreateFromCustomPacURL(current_pac_source().url); effective_config_.set_pac_mandatory(pac_mandatory_); } else { if (fetch_pac_bytes_) { GURL auto_detected_url; switch (current_pac_source().type) { case PacSource::WPAD_DHCP: auto_detected_url = dhcp_proxy_script_fetcher_->GetPacURL(); break; case PacSource::WPAD_DNS: auto_detected_url = GURL(kWpadUrl); break; default: NOTREACHED(); } effective_config_ = ProxyConfig::CreateFromCustomPacURL(auto_detected_url); } else { // The resolver does its own resolution so we cannot know the // URL. Just do the best we can and state that the configuration // is to auto-detect proxy settings. effective_config_ = ProxyConfig::CreateAutoDetect(); } } return OK; } int ProxyScriptDecider::TryToFallbackPacSource(int error) { DCHECK_LT(error, 0); if (current_pac_source_index_ + 1 >= pac_sources_.size()) { // Nothing left to fall back to. return error; } // Advance to next URL in our list. ++current_pac_source_index_; net_log_.AddEvent( NetLog::TYPE_PROXY_SCRIPT_DECIDER_FALLING_BACK_TO_NEXT_PAC_SOURCE); if (quick_check_enabled_ && current_pac_source().type == PacSource::WPAD_DNS) next_state_ = STATE_QUICK_CHECK; else next_state_ = GetStartState(); return OK; } ProxyScriptDecider::State ProxyScriptDecider::GetStartState() const { return fetch_pac_bytes_ ? STATE_FETCH_PAC_SCRIPT : STATE_VERIFY_PAC_SCRIPT; } void ProxyScriptDecider::DetermineURL(const PacSource& pac_source, GURL* effective_pac_url) { DCHECK(effective_pac_url); switch (pac_source.type) { case PacSource::WPAD_DHCP: break; case PacSource::WPAD_DNS: *effective_pac_url = GURL(kWpadUrl); break; case PacSource::CUSTOM: *effective_pac_url = pac_source.url; break; } } const ProxyScriptDecider::PacSource& ProxyScriptDecider::current_pac_source() const { DCHECK_LT(current_pac_source_index_, pac_sources_.size()); return pac_sources_[current_pac_source_index_]; } void ProxyScriptDecider::OnWaitTimerFired() { OnIOCompletion(OK); } void ProxyScriptDecider::DidComplete() { net_log_.EndEvent(NetLog::TYPE_PROXY_SCRIPT_DECIDER); } void ProxyScriptDecider::Cancel() { DCHECK_NE(STATE_NONE, next_state_); net_log_.AddEvent(NetLog::TYPE_CANCELLED); switch (next_state_) { case STATE_WAIT_COMPLETE: wait_timer_.Stop(); break; case STATE_FETCH_PAC_SCRIPT_COMPLETE: proxy_script_fetcher_->Cancel(); break; default: break; } // This is safe to call in any state. if (dhcp_proxy_script_fetcher_) dhcp_proxy_script_fetcher_->Cancel(); DidComplete(); } } // namespace net