blob: 0cb76c19eea9621a466aae4b8664e167f2588e1c [file] [log] [blame]
// Copyright 2013 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/spawned_test_server/base_test_server.h"
#include <limits>
#include <string>
#include <utility>
#include <vector>
#include "base/base64.h"
#include "base/files/file_util.h"
#include "base/json/json_reader.h"
#include "base/logging.h"
#include "base/path_service.h"
#include "base/values.h"
#include "net/base/address_list.h"
#include "net/base/host_port_pair.h"
#include "net/base/net_errors.h"
#include "net/base/port_util.h"
#include "net/base/test_completion_callback.h"
#include "net/cert/test_root_certs.h"
#include "net/cert/x509_certificate.h"
#include "net/dns/host_resolver.h"
#include "net/log/net_log_with_source.h"
#include "net/test/test_data_directory.h"
#include "starboard/types.h"
#include "url/gurl.h"
namespace net {
namespace {
std::string GetHostname(BaseTestServer::Type type,
const BaseTestServer::SSLOptions& options) {
if (BaseTestServer::UsingSSL(type)) {
if (options.server_certificate ==
BaseTestServer::SSLOptions::CERT_MISMATCHED_NAME ||
options.server_certificate ==
BaseTestServer::SSLOptions::CERT_COMMON_NAME_IS_DOMAIN) {
// For |CERT_MISMATCHED_NAME|, return a different hostname string
// that resolves to the same hostname. For
// |CERT_COMMON_NAME_IS_DOMAIN|, the certificate is issued for
// "localhost" instead of "127.0.0.1".
return "localhost";
}
}
return "127.0.0.1";
}
std::string GetClientCertType(SSLClientCertType type) {
switch (type) {
case CLIENT_CERT_RSA_SIGN:
return "rsa_sign";
case CLIENT_CERT_ECDSA_SIGN:
return "ecdsa_sign";
default:
NOTREACHED();
return "";
}
}
void GetKeyExchangesList(int key_exchange, base::ListValue* values) {
if (key_exchange & BaseTestServer::SSLOptions::KEY_EXCHANGE_RSA)
values->AppendString("rsa");
if (key_exchange & BaseTestServer::SSLOptions::KEY_EXCHANGE_DHE_RSA)
values->AppendString("dhe_rsa");
if (key_exchange & BaseTestServer::SSLOptions::KEY_EXCHANGE_ECDHE_RSA)
values->AppendString("ecdhe_rsa");
}
void GetCiphersList(int cipher, base::ListValue* values) {
if (cipher & BaseTestServer::SSLOptions::BULK_CIPHER_RC4)
values->AppendString("rc4");
if (cipher & BaseTestServer::SSLOptions::BULK_CIPHER_AES128)
values->AppendString("aes128");
if (cipher & BaseTestServer::SSLOptions::BULK_CIPHER_AES256)
values->AppendString("aes256");
if (cipher & BaseTestServer::SSLOptions::BULK_CIPHER_3DES)
values->AppendString("3des");
if (cipher & BaseTestServer::SSLOptions::BULK_CIPHER_AES128GCM)
values->AppendString("aes128gcm");
}
std::unique_ptr<base::Value> GetTLSIntoleranceType(
BaseTestServer::SSLOptions::TLSIntoleranceType type) {
switch (type) {
case BaseTestServer::SSLOptions::TLS_INTOLERANCE_ALERT:
return std::make_unique<base::Value>("alert");
case BaseTestServer::SSLOptions::TLS_INTOLERANCE_CLOSE:
return std::make_unique<base::Value>("close");
case BaseTestServer::SSLOptions::TLS_INTOLERANCE_RESET:
return std::make_unique<base::Value>("reset");
default:
NOTREACHED();
return std::make_unique<base::Value>("");
}
}
bool GetLocalCertificatesDir(const base::FilePath& certificates_dir,
base::FilePath* local_certificates_dir) {
if (certificates_dir.IsAbsolute()) {
*local_certificates_dir = certificates_dir;
return true;
}
base::FilePath src_dir;
if (!base::PathService::Get(base::DIR_TEST_DATA, &src_dir))
return false;
*local_certificates_dir = src_dir.Append(certificates_dir);
return true;
}
std::string OCSPStatusToString(
const BaseTestServer::SSLOptions::OCSPStatus& ocsp_status) {
switch (ocsp_status) {
case BaseTestServer::SSLOptions::OCSP_OK:
return "ok";
case BaseTestServer::SSLOptions::OCSP_REVOKED:
return "revoked";
case BaseTestServer::SSLOptions::OCSP_INVALID_RESPONSE:
return "invalid";
case BaseTestServer::SSLOptions::OCSP_UNAUTHORIZED:
return "unauthorized";
case BaseTestServer::SSLOptions::OCSP_UNKNOWN:
return "unknown";
case BaseTestServer::SSLOptions::OCSP_TRY_LATER:
return "later";
case BaseTestServer::SSLOptions::OCSP_INVALID_RESPONSE_DATA:
return "invalid_data";
case BaseTestServer::SSLOptions::OCSP_MISMATCHED_SERIAL:
return "mismatched_serial";
}
NOTREACHED();
return std::string();
}
std::string OCSPDateToString(
const BaseTestServer::SSLOptions::OCSPDate& ocsp_date) {
switch (ocsp_date) {
case BaseTestServer::SSLOptions::OCSP_DATE_VALID:
return "valid";
case BaseTestServer::SSLOptions::OCSP_DATE_OLD:
return "old";
case BaseTestServer::SSLOptions::OCSP_DATE_EARLY:
return "early";
case BaseTestServer::SSLOptions::OCSP_DATE_LONG:
return "long";
case BaseTestServer::SSLOptions::OCSP_DATE_LONGER:
return "longer";
}
NOTREACHED();
return std::string();
}
std::string OCSPProducedToString(
BaseTestServer::SSLOptions::OCSPProduced ocsp_produced) {
switch (ocsp_produced) {
case BaseTestServer::SSLOptions::OCSPProduced::OCSP_PRODUCED_VALID:
return "valid";
case BaseTestServer::SSLOptions::OCSPProduced::OCSP_PRODUCED_BEFORE_CERT:
return "before";
case BaseTestServer::SSLOptions::OCSPProduced::OCSP_PRODUCED_AFTER_CERT:
return "after";
default:
NOTREACHED();
return std::string();
}
}
bool RegisterRootCertsInternal(const base::FilePath& file_path) {
TestRootCerts* root_certs = TestRootCerts::GetInstance();
return root_certs->AddFromFile(file_path.AppendASCII("ocsp-test-root.pem")) &&
root_certs->AddFromFile(file_path.AppendASCII("root_ca_cert.pem"));
}
} // namespace
BaseTestServer::SSLOptions::SSLOptions() = default;
BaseTestServer::SSLOptions::SSLOptions(ServerCertificate cert)
: server_certificate(cert) {}
BaseTestServer::SSLOptions::SSLOptions(const SSLOptions& other) = default;
BaseTestServer::SSLOptions::~SSLOptions() = default;
base::FilePath BaseTestServer::SSLOptions::GetCertificateFile() const {
switch (server_certificate) {
case CERT_OK:
case CERT_MISMATCHED_NAME:
return base::FilePath(FILE_PATH_LITERAL("ok_cert.pem"));
case CERT_COMMON_NAME_IS_DOMAIN:
return base::FilePath(FILE_PATH_LITERAL("localhost_cert.pem"));
case CERT_EXPIRED:
return base::FilePath(FILE_PATH_LITERAL("expired_cert.pem"));
case CERT_CHAIN_WRONG_ROOT:
// This chain uses its own dedicated test root certificate to avoid
// side-effects that may affect testing.
return base::FilePath(FILE_PATH_LITERAL("redundant-server-chain.pem"));
case CERT_BAD_VALIDITY:
return base::FilePath(FILE_PATH_LITERAL("bad_validity.pem"));
case CERT_AUTO:
case CERT_AUTO_WITH_INTERMEDIATE:
case CERT_AUTO_AIA_INTERMEDIATE:
return base::FilePath();
default:
NOTREACHED();
}
return base::FilePath();
}
std::string BaseTestServer::SSLOptions::GetOCSPArgument() const {
if (server_certificate != CERT_AUTO &&
server_certificate != CERT_AUTO_WITH_INTERMEDIATE) {
return std::string();
}
// |ocsp_responses| overrides when it is non-empty.
if (!ocsp_responses.empty()) {
std::string arg;
for (size_t i = 0; i < ocsp_responses.size(); i++) {
if (i != 0)
arg += ":";
arg += OCSPStatusToString(ocsp_responses[i].status);
}
return arg;
}
return OCSPStatusToString(ocsp_status);
}
std::string BaseTestServer::SSLOptions::GetOCSPDateArgument() const {
if (server_certificate != CERT_AUTO &&
server_certificate != CERT_AUTO_WITH_INTERMEDIATE) {
return std::string();
}
if (!ocsp_responses.empty()) {
std::string arg;
for (size_t i = 0; i < ocsp_responses.size(); i++) {
if (i != 0)
arg += ":";
arg += OCSPDateToString(ocsp_responses[i].date);
}
return arg;
}
return OCSPDateToString(ocsp_date);
}
std::string BaseTestServer::SSLOptions::GetOCSPProducedArgument() const {
if (server_certificate != CERT_AUTO &&
server_certificate != CERT_AUTO_WITH_INTERMEDIATE) {
return std::string();
}
return OCSPProducedToString(ocsp_produced);
}
std::string BaseTestServer::SSLOptions::GetOCSPIntermediateArgument() const {
if (server_certificate != CERT_AUTO_WITH_INTERMEDIATE)
return std::string();
// |ocsp_intermediate_responses| overrides when it is non-empty.
if (!ocsp_intermediate_responses.empty()) {
std::string arg;
for (size_t i = 0; i < ocsp_intermediate_responses.size(); i++) {
if (i != 0)
arg += ":";
arg += OCSPStatusToString(ocsp_intermediate_responses[i].status);
}
return arg;
}
return OCSPStatusToString(ocsp_intermediate_status);
}
std::string BaseTestServer::SSLOptions::GetOCSPIntermediateDateArgument()
const {
if (server_certificate != CERT_AUTO_WITH_INTERMEDIATE)
return std::string();
if (!ocsp_intermediate_responses.empty()) {
std::string arg;
for (size_t i = 0; i < ocsp_intermediate_responses.size(); i++) {
if (i != 0)
arg += ":";
arg += OCSPDateToString(ocsp_intermediate_responses[i].date);
}
return arg;
}
return OCSPDateToString(ocsp_intermediate_date);
}
std::string BaseTestServer::SSLOptions::GetOCSPIntermediateProducedArgument()
const {
if (server_certificate != CERT_AUTO_WITH_INTERMEDIATE)
return std::string();
return OCSPProducedToString(ocsp_intermediate_produced);
}
BaseTestServer::BaseTestServer(Type type) : type_(type) {
Init(GetHostname(type, ssl_options_));
}
BaseTestServer::BaseTestServer(Type type, const SSLOptions& ssl_options)
: ssl_options_(ssl_options), type_(type) {
DCHECK(UsingSSL(type));
Init(GetHostname(type, ssl_options));
}
BaseTestServer::~BaseTestServer() = default;
bool BaseTestServer::Start() {
return StartInBackground() && BlockUntilStarted();
}
const HostPortPair& BaseTestServer::host_port_pair() const {
DCHECK(started_);
return host_port_pair_;
}
const base::DictionaryValue& BaseTestServer::server_data() const {
DCHECK(server_data_);
return *server_data_;
}
std::string BaseTestServer::GetScheme() const {
switch (type_) {
case TYPE_FTP:
return "ftp";
case TYPE_HTTP:
return "http";
case TYPE_HTTPS:
return "https";
case TYPE_WS:
return "ws";
case TYPE_WSS:
return "wss";
case TYPE_TCP_ECHO:
case TYPE_UDP_ECHO:
default:
NOTREACHED();
}
return std::string();
}
bool BaseTestServer::GetAddressList(AddressList* address_list) const {
DCHECK(address_list);
std::unique_ptr<HostResolver> resolver(
HostResolver::CreateDefaultResolver(NULL));
HostResolver::RequestInfo info(host_port_pair_);
// Limit the lookup to IPv4. When started with the default
// address of kLocalhost, testserver.py only supports IPv4.
// If a custom hostname is used, it's possible that the test
// server will listen on both IPv4 and IPv6, so this will
// still work. The testserver does not support explicit
// IPv6 literal hostnames.
info.set_address_family(ADDRESS_FAMILY_IPV4);
TestCompletionCallback callback;
std::unique_ptr<HostResolver::Request> request;
int rv = resolver->Resolve(info, DEFAULT_PRIORITY, address_list,
callback.callback(), &request, NetLogWithSource());
if (rv == ERR_IO_PENDING)
rv = callback.WaitForResult();
if (rv != OK) {
LOG(ERROR) << "Failed to resolve hostname: " << host_port_pair_.host();
return false;
}
return true;
}
uint16_t BaseTestServer::GetPort() {
return host_port_pair_.port();
}
void BaseTestServer::SetPort(uint16_t port) {
host_port_pair_.set_port(port);
}
GURL BaseTestServer::GetURL(const std::string& path) const {
return GURL(GetScheme() + "://" + host_port_pair_.ToString() + "/" + path);
}
GURL BaseTestServer::GetURLWithUser(const std::string& path,
const std::string& user) const {
return GURL(GetScheme() + "://" + user + "@" + host_port_pair_.ToString() +
"/" + path);
}
GURL BaseTestServer::GetURLWithUserAndPassword(const std::string& path,
const std::string& user,
const std::string& password) const {
return GURL(GetScheme() + "://" + user + ":" + password + "@" +
host_port_pair_.ToString() + "/" + path);
}
// static
bool BaseTestServer::GetFilePathWithReplacements(
const std::string& original_file_path,
const std::vector<StringPair>& text_to_replace,
std::string* replacement_path) {
std::string new_file_path = original_file_path;
bool first_query_parameter = true;
const std::vector<StringPair>::const_iterator end = text_to_replace.end();
for (auto it = text_to_replace.begin(); it != end; ++it) {
const std::string& old_text = it->first;
const std::string& new_text = it->second;
std::string base64_old;
std::string base64_new;
base::Base64Encode(old_text, &base64_old);
base::Base64Encode(new_text, &base64_new);
if (first_query_parameter) {
new_file_path += "?";
first_query_parameter = false;
} else {
new_file_path += "&";
}
new_file_path += "replace_text=";
new_file_path += base64_old;
new_file_path += ":";
new_file_path += base64_new;
}
*replacement_path = new_file_path;
return true;
}
void BaseTestServer::RegisterTestCerts() {
bool added_root_certs = RegisterRootCertsInternal(GetTestCertsDirectory());
DCHECK(added_root_certs);
}
bool BaseTestServer::LoadTestRootCert() const {
TestRootCerts* root_certs = TestRootCerts::GetInstance();
DCHECK(root_certs);
// Should always use absolute path to load the root certificate.
base::FilePath root_certificate_path;
if (!GetLocalCertificatesDir(certificates_dir_, &root_certificate_path)) {
LOG(ERROR) << "Could not get local certificates directory from "
<< certificates_dir_ << ".";
return false;
}
if (!RegisterRootCertsInternal(root_certificate_path)) {
LOG(ERROR) << "Could not register root certificates from "
<< root_certificate_path << ".";
return false;
}
return true;
}
scoped_refptr<X509Certificate> BaseTestServer::GetCertificate() const {
base::FilePath certificate_path;
if (!GetLocalCertificatesDir(certificates_dir_, &certificate_path))
return nullptr;
base::FilePath certificate_file(ssl_options_.GetCertificateFile());
if (certificate_file.value().empty())
return nullptr;
certificate_path = certificate_path.Append(certificate_file);
std::string cert_data;
if (!base::ReadFileToString(certificate_path, &cert_data))
return nullptr;
CertificateList certs_in_file =
X509Certificate::CreateCertificateListFromBytes(
cert_data.data(), cert_data.size(),
X509Certificate::FORMAT_PEM_CERT_SEQUENCE);
if (certs_in_file.empty())
return nullptr;
return certs_in_file[0];
}
void BaseTestServer::Init(const std::string& host) {
host_port_pair_ = HostPortPair(host, 0);
// TODO(battre) Remove this after figuring out why the TestServer is flaky.
// http://crbug.com/96594
log_to_console_ = true;
}
void BaseTestServer::SetResourcePath(const base::FilePath& document_root,
const base::FilePath& certificates_dir) {
// This method shouldn't get called twice.
DCHECK(certificates_dir_.empty());
document_root_ = document_root;
certificates_dir_ = certificates_dir;
DCHECK(!certificates_dir_.empty());
}
bool BaseTestServer::SetAndParseServerData(const std::string& server_data,
int* port) {
VLOG(1) << "Server data: " << server_data;
base::JSONReader json_reader;
std::unique_ptr<base::Value> value(json_reader.ReadToValue(server_data));
if (!value.get() || !value->is_dict()) {
LOG(ERROR) << "Could not parse server data: "
<< json_reader.GetErrorMessage();
return false;
}
server_data_.reset(static_cast<base::DictionaryValue*>(value.release()));
if (!server_data_->GetInteger("port", port)) {
LOG(ERROR) << "Could not find port value";
return false;
}
if ((*port <= 0) || (*port > std::numeric_limits<uint16_t>::max())) {
LOG(ERROR) << "Invalid port value: " << port;
return false;
}
return true;
}
bool BaseTestServer::SetupWhenServerStarted() {
DCHECK(host_port_pair_.port());
DCHECK(!started_);
if (UsingSSL(type_) && !LoadTestRootCert()) {
LOG(ERROR) << "Could not load test root certificate.";
return false;
}
started_ = true;
allowed_port_.reset(new ScopedPortException(host_port_pair_.port()));
return true;
}
void BaseTestServer::CleanUpWhenStoppingServer() {
TestRootCerts* root_certs = TestRootCerts::GetInstance();
root_certs->Clear();
host_port_pair_.set_port(0);
allowed_port_.reset();
started_ = false;
}
// Generates a dictionary of arguments to pass to the Python test server via
// the test server spawner, in the form of
// { argument-name: argument-value, ... }
// Returns false if an invalid configuration is specified.
bool BaseTestServer::GenerateArguments(base::DictionaryValue* arguments) const {
DCHECK(arguments);
arguments->SetString("host", host_port_pair_.host());
arguments->SetInteger("port", host_port_pair_.port());
arguments->SetString("data-dir", document_root_.value());
if (VLOG_IS_ON(1) || log_to_console_)
arguments->Set("log-to-console", std::make_unique<base::Value>());
if (ws_basic_auth_) {
DCHECK(type_ == TYPE_WS || type_ == TYPE_WSS);
arguments->Set("ws-basic-auth", std::make_unique<base::Value>());
}
if (no_anonymous_ftp_user_) {
DCHECK_EQ(TYPE_FTP, type_);
arguments->Set("no-anonymous-ftp-user", std::make_unique<base::Value>());
}
if (redirect_connect_to_localhost_) {
DCHECK(type_ == TYPE_BASIC_AUTH_PROXY || type_ == TYPE_PROXY);
arguments->Set("redirect-connect-to-localhost",
std::make_unique<base::Value>());
}
if (UsingSSL(type_)) {
// Check the certificate arguments of the HTTPS server.
base::FilePath certificate_path(certificates_dir_);
base::FilePath certificate_file(ssl_options_.GetCertificateFile());
if (!certificate_file.value().empty()) {
certificate_path = certificate_path.Append(certificate_file);
if (certificate_path.IsAbsolute() &&
!base::PathExists(certificate_path)) {
LOG(ERROR) << "Certificate path " << certificate_path.value()
<< " doesn't exist. Can't launch https server.";
return false;
}
arguments->SetString("cert-and-key-file", certificate_path.value());
}
// Check the client certificate related arguments.
if (ssl_options_.request_client_certificate)
arguments->Set("ssl-client-auth", std::make_unique<base::Value>());
std::unique_ptr<base::ListValue> ssl_client_certs(new base::ListValue());
std::vector<base::FilePath>::const_iterator it;
for (it = ssl_options_.client_authorities.begin();
it != ssl_options_.client_authorities.end(); ++it) {
if (it->IsAbsolute() && !base::PathExists(*it)) {
LOG(ERROR) << "Client authority path " << it->value()
<< " doesn't exist. Can't launch https server.";
return false;
}
ssl_client_certs->AppendString(it->value());
}
if (ssl_client_certs->GetSize())
arguments->Set("ssl-client-ca", std::move(ssl_client_certs));
std::unique_ptr<base::ListValue> client_cert_types(new base::ListValue());
for (size_t i = 0; i < ssl_options_.client_cert_types.size(); i++) {
client_cert_types->AppendString(
GetClientCertType(ssl_options_.client_cert_types[i]));
}
if (client_cert_types->GetSize())
arguments->Set("ssl-client-cert-type", std::move(client_cert_types));
}
if (type_ == TYPE_HTTPS) {
arguments->Set("https", std::make_unique<base::Value>());
if (ssl_options_.server_certificate ==
SSLOptions::CERT_AUTO_AIA_INTERMEDIATE)
arguments->Set("aia-intermediate", std::make_unique<base::Value>());
std::string ocsp_arg = ssl_options_.GetOCSPArgument();
if (!ocsp_arg.empty())
arguments->SetString("ocsp", ocsp_arg);
std::string ocsp_date_arg = ssl_options_.GetOCSPDateArgument();
if (!ocsp_date_arg.empty())
arguments->SetString("ocsp-date", ocsp_date_arg);
std::string ocsp_produced_arg = ssl_options_.GetOCSPProducedArgument();
if (!ocsp_produced_arg.empty())
arguments->SetString("ocsp-produced", ocsp_produced_arg);
std::string ocsp_intermediate_arg =
ssl_options_.GetOCSPIntermediateArgument();
if (!ocsp_intermediate_arg.empty())
arguments->SetString("ocsp-intermediate", ocsp_intermediate_arg);
std::string ocsp_intermediate_date_arg =
ssl_options_.GetOCSPIntermediateDateArgument();
if (!ocsp_intermediate_date_arg.empty()) {
arguments->SetString("ocsp-intermediate-date",
ocsp_intermediate_date_arg);
}
std::string ocsp_intermediate_produced_arg =
ssl_options_.GetOCSPIntermediateProducedArgument();
if (!ocsp_intermediate_produced_arg.empty()) {
arguments->SetString("ocsp-intermediate-produced",
ocsp_intermediate_produced_arg);
}
if (ssl_options_.cert_serial != 0) {
arguments->SetInteger("cert-serial", ssl_options_.cert_serial);
}
if (!ssl_options_.cert_common_name.empty()) {
arguments->SetString("cert-common-name", ssl_options_.cert_common_name);
}
// Check key exchange argument.
std::unique_ptr<base::ListValue> key_exchange_values(new base::ListValue());
GetKeyExchangesList(ssl_options_.key_exchanges, key_exchange_values.get());
if (key_exchange_values->GetSize())
arguments->Set("ssl-key-exchange", std::move(key_exchange_values));
// Check bulk cipher argument.
std::unique_ptr<base::ListValue> bulk_cipher_values(new base::ListValue());
GetCiphersList(ssl_options_.bulk_ciphers, bulk_cipher_values.get());
if (bulk_cipher_values->GetSize())
arguments->Set("ssl-bulk-cipher", std::move(bulk_cipher_values));
if (ssl_options_.record_resume)
arguments->Set("https-record-resume", std::make_unique<base::Value>());
if (ssl_options_.tls_intolerant != SSLOptions::TLS_INTOLERANT_NONE) {
arguments->SetInteger("tls-intolerant", ssl_options_.tls_intolerant);
arguments->Set("tls-intolerance-type", GetTLSIntoleranceType(
ssl_options_.tls_intolerance_type));
}
if (ssl_options_.fallback_scsv_enabled)
arguments->Set("fallback-scsv", std::make_unique<base::Value>());
if (!ssl_options_.signed_cert_timestamps_tls_ext.empty()) {
std::string b64_scts_tls_ext;
base::Base64Encode(ssl_options_.signed_cert_timestamps_tls_ext,
&b64_scts_tls_ext);
arguments->SetString("signed-cert-timestamps-tls-ext", b64_scts_tls_ext);
}
if (ssl_options_.staple_ocsp_response)
arguments->Set("staple-ocsp-response", std::make_unique<base::Value>());
if (ssl_options_.ocsp_server_unavailable) {
arguments->Set("ocsp-server-unavailable",
std::make_unique<base::Value>());
}
if (!ssl_options_.alpn_protocols.empty()) {
std::unique_ptr<base::ListValue> alpn_protocols(new base::ListValue());
for (const std::string& proto : ssl_options_.alpn_protocols) {
alpn_protocols->AppendString(proto);
}
arguments->Set("alpn-protocols", std::move(alpn_protocols));
}
if (!ssl_options_.npn_protocols.empty()) {
std::unique_ptr<base::ListValue> npn_protocols(new base::ListValue());
for (const std::string& proto : ssl_options_.npn_protocols) {
npn_protocols->AppendString(proto);
}
arguments->Set("npn-protocols", std::move(npn_protocols));
}
if (ssl_options_.alert_after_handshake)
arguments->Set("alert-after-handshake", std::make_unique<base::Value>());
if (ssl_options_.disable_channel_id)
arguments->Set("disable-channel-id", std::make_unique<base::Value>());
if (ssl_options_.disable_extended_master_secret) {
arguments->Set("disable-extended-master-secret",
std::make_unique<base::Value>());
}
}
return GenerateAdditionalArguments(arguments);
}
bool BaseTestServer::GenerateAdditionalArguments(
base::DictionaryValue* arguments) const {
return true;
}
} // namespace net