// 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 "chromeos/network/client_cert_resolver.h"
#include <cert.h>
#include <certt.h> // for (SECCertUsageEnum) certUsageAnyCA
#include <pk11pub.h>
#include <algorithm>
#include <string>
#include "base/bind.h"
#include "base/location.h"
#include "base/stl_util.h"
#include "base/task_runner.h"
#include "base/threading/worker_pool.h"
#include "base/time/time.h"
#include "chromeos/cert_loader.h"
#include "chromeos/dbus/dbus_thread_manager.h"
#include "chromeos/dbus/shill_service_client.h"
#include "chromeos/network/managed_network_configuration_handler.h"
#include "chromeos/network/network_state.h"
#include "components/onc/onc_constants.h"
#include "dbus/object_path.h"
#include "net/cert/scoped_nss_types.h"
#include "net/cert/x509_certificate.h"
namespace chromeos {
// Describes a network |network_path| for which a matching certificate |cert_id|
// was found or for which no certificate was found (|cert_id| will be empty).
struct ClientCertResolver::NetworkAndMatchingCert {
NetworkAndMatchingCert(const std::string& network_path,
client_cert::ConfigType config_type,
const std::string& cert_id,
int slot_id)
: service_path(network_path),
cert_config_type(config_type),
pkcs11_id(cert_id),
key_slot_id(slot_id) {}
std::string service_path;
client_cert::ConfigType cert_config_type;
// The id of the matching certificate or empty if no certificate was found.
std::string pkcs11_id;
// The id of the slot containing the certificate and the private key.
int key_slot_id;
};
typedef std::vector<ClientCertResolver::NetworkAndMatchingCert>
NetworkCertMatches;
namespace {
// Returns true if |vector| contains |value|.
template <class T>
bool ContainsValue(const std::vector<T>& vector, const T& value) {
return find(vector.begin(), vector.end(), value) != vector.end();
}
// Returns true if a private key for certificate |cert| is installed.
bool HasPrivateKey(const net::X509Certificate& cert) {
PK11SlotInfo* slot = PK11_KeyForCertExists(cert.os_cert_handle(), NULL, NULL);
if (!slot)
return false;
PK11_FreeSlot(slot);
return true;
}
// Describes a certificate which is issued by |issuer| (encoded as PEM).
struct CertAndIssuer {
CertAndIssuer(const scoped_refptr<net::X509Certificate>& certificate,
const std::string& issuer)
: cert(certificate),
pem_encoded_issuer(issuer) {}
scoped_refptr<net::X509Certificate> cert;
std::string pem_encoded_issuer;
};
bool CompareCertExpiration(const CertAndIssuer& a,
const CertAndIssuer& b) {
return (a.cert->valid_expiry() > b.cert->valid_expiry());
}
// Describes a network that is configured with the certificate pattern
// |client_cert_pattern|.
struct NetworkAndCertPattern {
NetworkAndCertPattern(const std::string& network_path,
const client_cert::ClientCertConfig& client_cert_config)
: service_path(network_path),
cert_config(client_cert_config) {}
std::string service_path;
client_cert::ClientCertConfig cert_config;
};
// A unary predicate that returns true if the given CertAndIssuer matches the
// given certificate pattern.
struct MatchCertWithPattern {
explicit MatchCertWithPattern(const CertificatePattern& cert_pattern)
: pattern(cert_pattern) {}
bool operator()(const CertAndIssuer& cert_and_issuer) {
if (!pattern.issuer().Empty() &&
!client_cert::CertPrincipalMatches(pattern.issuer(),
cert_and_issuer.cert->issuer())) {
return false;
}
if (!pattern.subject().Empty() &&
!client_cert::CertPrincipalMatches(pattern.subject(),
cert_and_issuer.cert->subject())) {
return false;
}
const std::vector<std::string>& issuer_ca_pems = pattern.issuer_ca_pems();
if (!issuer_ca_pems.empty() &&
!ContainsValue(issuer_ca_pems, cert_and_issuer.pem_encoded_issuer)) {
return false;
}
return true;
}
const CertificatePattern pattern;
};
std::vector<CertAndIssuer> CreateSortedCertAndIssuerList(
const net::CertificateList& certs) {
// Filter all client certs and determines each certificate's issuer, which is
// required for the pattern matching.
std::vector<CertAndIssuer> client_certs;
for (net::CertificateList::const_iterator it = certs.begin();
it != certs.end(); ++it) {
const net::X509Certificate& cert = **it;
if (cert.valid_expiry().is_null() || cert.HasExpired() ||
!HasPrivateKey(cert)) {
continue;
}
net::ScopedCERTCertificate issuer_handle(
CERT_FindCertIssuer(cert.os_cert_handle(), PR_Now(), certUsageAnyCA));
if (!issuer_handle) {
LOG(ERROR) << "Couldn't find an issuer.";
continue;
}
scoped_refptr<net::X509Certificate> issuer =
net::X509Certificate::CreateFromHandle(
issuer_handle.get(),
net::X509Certificate::OSCertHandles() /* no intermediate certs */);
if (!issuer.get()) {
LOG(ERROR) << "Couldn't create issuer cert.";
continue;
}
std::string pem_encoded_issuer;
if (!net::X509Certificate::GetPEMEncoded(issuer->os_cert_handle(),
&pem_encoded_issuer)) {
LOG(ERROR) << "Couldn't PEM-encode certificate.";
continue;
}
client_certs.push_back(CertAndIssuer(*it, pem_encoded_issuer));
}
std::sort(client_certs.begin(), client_certs.end(), &CompareCertExpiration);
return client_certs;
}
// Searches for matches between |networks| and |certs| and writes matches to
// |matches|. Because this calls NSS functions and is potentially slow, it must
// be run on a worker thread.
void FindCertificateMatches(const net::CertificateList& certs,
std::vector<NetworkAndCertPattern>* networks,
NetworkCertMatches* matches) {
std::vector<CertAndIssuer> client_certs(CreateSortedCertAndIssuerList(certs));
for (std::vector<NetworkAndCertPattern>::const_iterator it =
networks->begin();
it != networks->end(); ++it) {
std::vector<CertAndIssuer>::iterator cert_it =
std::find_if(client_certs.begin(),
client_certs.end(),
MatchCertWithPattern(it->cert_config.pattern));
std::string pkcs11_id;
int slot_id = -1;
if (cert_it == client_certs.end()) {
VLOG(1) << "Couldn't find a matching client cert for network "
<< it->service_path;
// Leave |pkcs11_id| empty to indicate that no cert was found for this
// network.
} else {
pkcs11_id =
CertLoader::GetPkcs11IdAndSlotForCert(*cert_it->cert, &slot_id);
if (pkcs11_id.empty()) {
LOG(ERROR) << "Couldn't determine PKCS#11 ID.";
// So far this error is not expected to happen. We can just continue, in
// the worst case the user can remove the problematic cert.
continue;
}
}
matches->push_back(ClientCertResolver::NetworkAndMatchingCert(
it->service_path, it->cert_config.location, pkcs11_id, slot_id));
}
}
void LogError(const std::string& service_path,
const std::string& dbus_error_name,
const std::string& dbus_error_message) {
network_handler::ShillErrorCallbackFunction(
"ClientCertResolver.SetProperties failed",
service_path,
network_handler::ErrorCallback(),
dbus_error_name,
dbus_error_message);
}
bool ClientCertificatesLoaded() {
if (!CertLoader::Get()->certificates_loaded()) {
VLOG(1) << "Certificates not loaded yet.";
return false;
}
if (!CertLoader::Get()->IsHardwareBacked()) {
VLOG(1) << "TPM is not available.";
return false;
}
return true;
}
} // namespace
ClientCertResolver::ClientCertResolver()
: network_state_handler_(NULL),
managed_network_config_handler_(NULL),
weak_ptr_factory_(this) {
}
ClientCertResolver::~ClientCertResolver() {
if (network_state_handler_)
network_state_handler_->RemoveObserver(this, FROM_HERE);
if (CertLoader::IsInitialized())
CertLoader::Get()->RemoveObserver(this);
if (managed_network_config_handler_)
managed_network_config_handler_->RemoveObserver(this);
}
void ClientCertResolver::Init(
NetworkStateHandler* network_state_handler,
ManagedNetworkConfigurationHandler* managed_network_config_handler) {
DCHECK(network_state_handler);
network_state_handler_ = network_state_handler;
network_state_handler_->AddObserver(this, FROM_HERE);
DCHECK(managed_network_config_handler);
managed_network_config_handler_ = managed_network_config_handler;
managed_network_config_handler_->AddObserver(this);
CertLoader::Get()->AddObserver(this);
}
void ClientCertResolver::SetSlowTaskRunnerForTest(
const scoped_refptr<base::TaskRunner>& task_runner) {
slow_task_runner_for_test_ = task_runner;
}
// static
bool ClientCertResolver::ResolveCertificatePatternSync(
const client_cert::ConfigType client_cert_type,
const CertificatePattern& pattern,
base::DictionaryValue* shill_properties) {
// Prepare and sort the list of known client certs.
std::vector<CertAndIssuer> client_certs(
CreateSortedCertAndIssuerList(CertLoader::Get()->cert_list()));
// Search for a certificate matching the pattern.
std::vector<CertAndIssuer>::iterator cert_it = std::find_if(
client_certs.begin(), client_certs.end(), MatchCertWithPattern(pattern));
if (cert_it == client_certs.end()) {
VLOG(1) << "Couldn't find a matching client cert";
client_cert::SetEmptyShillProperties(client_cert_type, shill_properties);
return false;
}
int slot_id = -1;
std::string pkcs11_id =
CertLoader::GetPkcs11IdAndSlotForCert(*cert_it->cert, &slot_id);
if (pkcs11_id.empty()) {
LOG(ERROR) << "Couldn't determine PKCS#11 ID.";
// So far this error is not expected to happen. We can just continue, in
// the worst case the user can remove the problematic cert.
return false;
}
client_cert::SetShillProperties(
client_cert_type, slot_id, pkcs11_id, shill_properties);
return true;
}
void ClientCertResolver::NetworkListChanged() {
VLOG(2) << "NetworkListChanged.";
if (!ClientCertificatesLoaded())
return;
// Configure only networks that were not configured before.
// We'll drop networks from |resolved_networks_|, which are not known anymore.
std::set<std::string> old_resolved_networks;
old_resolved_networks.swap(resolved_networks_);
NetworkStateHandler::NetworkStateList networks;
network_state_handler_->GetNetworkListByType(
NetworkTypePattern::Default(),
true /* configured_only */,
false /* visible_only */,
0 /* no limit */,
&networks);
NetworkStateHandler::NetworkStateList networks_to_check;
for (NetworkStateHandler::NetworkStateList::const_iterator it =
networks.begin(); it != networks.end(); ++it) {
const std::string& service_path = (*it)->path();
if (ContainsKey(old_resolved_networks, service_path)) {
resolved_networks_.insert(service_path);
continue;
}
networks_to_check.push_back(*it);
}
ResolveNetworks(networks_to_check);
}
void ClientCertResolver::OnCertificatesLoaded(
const net::CertificateList& cert_list,
bool initial_load) {
VLOG(2) << "OnCertificatesLoaded.";
if (!ClientCertificatesLoaded())
return;
// Compare all networks with all certificates.
NetworkStateHandler::NetworkStateList networks;
network_state_handler_->GetNetworkListByType(
NetworkTypePattern::Default(),
true /* configured_only */,
false /* visible_only */,
0 /* no limit */,
&networks);
ResolveNetworks(networks);
}
void ClientCertResolver::PolicyApplied(const std::string& service_path) {
VLOG(2) << "PolicyApplied " << service_path;
if (!ClientCertificatesLoaded())
return;
// Compare this network with all certificates.
const NetworkState* network =
network_state_handler_->GetNetworkStateFromServicePath(
service_path, true /* configured_only */);
if (!network) {
LOG(ERROR) << "service path '" << service_path << "' unknown.";
return;
}
NetworkStateHandler::NetworkStateList networks;
networks.push_back(network);
ResolveNetworks(networks);
}
void ClientCertResolver::ResolveNetworks(
const NetworkStateHandler::NetworkStateList& networks) {
scoped_ptr<std::vector<NetworkAndCertPattern> > networks_with_pattern(
new std::vector<NetworkAndCertPattern>);
// Filter networks with ClientCertPattern. As ClientCertPatterns can only be
// set by policy, we check there.
for (NetworkStateHandler::NetworkStateList::const_iterator it =
networks.begin(); it != networks.end(); ++it) {
const NetworkState* network = *it;
// In any case, don't check this network again in NetworkListChanged.
resolved_networks_.insert(network->path());
// If this network is not configured, it cannot have a ClientCertPattern.
if (network->profile_path().empty())
continue;
const base::DictionaryValue* policy =
managed_network_config_handler_->FindPolicyByGuidAndProfile(
network->guid(), network->profile_path());
if (!policy) {
VLOG(1) << "The policy for network " << network->path() << " with GUID "
<< network->guid() << " is not available yet.";
// Skip this network for now. Once the policy is loaded, PolicyApplied()
// will retry.
continue;
}
VLOG(2) << "Inspecting network " << network->path();
client_cert::ClientCertConfig cert_config;
OncToClientCertConfig(*policy, &cert_config);
// Skip networks that don't have a ClientCertPattern.
if (cert_config.client_cert_type != ::onc::client_cert::kPattern)
continue;
networks_with_pattern->push_back(
NetworkAndCertPattern(network->path(), cert_config));
}
if (networks_with_pattern->empty())
return;
VLOG(2) << "Start task for resolving client cert patterns.";
base::TaskRunner* task_runner = slow_task_runner_for_test_.get();
if (!task_runner)
task_runner =
base::WorkerPool::GetTaskRunner(true /* task is slow */).get();
NetworkCertMatches* matches = new NetworkCertMatches;
task_runner->PostTaskAndReply(
FROM_HERE,
base::Bind(&FindCertificateMatches,
CertLoader::Get()->cert_list(),
base::Owned(networks_with_pattern.release()),
matches),
base::Bind(&ClientCertResolver::ConfigureCertificates,
weak_ptr_factory_.GetWeakPtr(),
base::Owned(matches)));
}
void ClientCertResolver::ConfigureCertificates(NetworkCertMatches* matches) {
for (NetworkCertMatches::const_iterator it = matches->begin();
it != matches->end(); ++it) {
VLOG(1) << "Configuring certificate of network " << it->service_path;
base::DictionaryValue shill_properties;
if (it->pkcs11_id.empty()) {
client_cert::SetEmptyShillProperties(it->cert_config_type,
&shill_properties);
} else {
client_cert::SetShillProperties(it->cert_config_type,
it->key_slot_id,
it->pkcs11_id,
&shill_properties);
}
DBusThreadManager::Get()->GetShillServiceClient()->
SetProperties(dbus::ObjectPath(it->service_path),
shill_properties,
base::Bind(&base::DoNothing),
base::Bind(&LogError, it->service_path));
network_state_handler_->RequestUpdateForNetwork(it->service_path);
}
}
} // namespace chromeos