// Copyright (c) 2011 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 "chrome/browser/policy/user_policy_cache.h" #include #include #include "base/basictypes.h" #include "base/logging.h" #include "base/metrics/histogram.h" #include "base/values.h" #include "chrome/browser/browser_process.h" #include "chrome/browser/policy/browser_policy_connector.h" #include "chrome/browser/policy/cloud_policy_provider.h" #include "chrome/browser/policy/enterprise_metrics.h" #include "chrome/browser/policy/policy_map.h" #include "chrome/browser/policy/proto/cloud_policy.pb.h" #include "chrome/browser/policy/proto/device_management_local.pb.h" #include "chrome/browser/policy/proto/old_generic_format.pb.h" #include "policy/configuration_policy_type.h" namespace policy { // Decodes a CloudPolicySettings object into two maps with mandatory and // recommended settings, respectively. The implementation is generated code // in policy/cloud_policy_generated.cc. void DecodePolicy(const em::CloudPolicySettings& policy, PolicyMap* mandatory, PolicyMap* recommended); UserPolicyCache::UserPolicyCache(const FilePath& backing_file_path) : ALLOW_THIS_IN_INITIALIZER_LIST(weak_ptr_factory_(this)), first_load_complete_(false) { disk_cache_ = new UserPolicyDiskCache(weak_ptr_factory_.GetWeakPtr(), backing_file_path); } UserPolicyCache::~UserPolicyCache() { } void UserPolicyCache::Load() { disk_cache_->Load(); } void UserPolicyCache::SetPolicy(const em::PolicyFetchResponse& policy) { base::Time now = base::Time::NowFromSystemTime(); set_last_policy_refresh_time(now); base::Time timestamp; if (!SetPolicyInternal(policy, ×tamp, false)) return; UMA_HISTOGRAM_ENUMERATION(kMetricPolicy, kMetricPolicyFetchOK, kMetricPolicySize); if (timestamp > base::Time::NowFromSystemTime() + base::TimeDelta::FromMinutes(1)) { LOG(WARNING) << "Server returned policy with timestamp from the future, " "not persisting to disk."; return; } em::CachedCloudPolicyResponse cached_policy; cached_policy.mutable_cloud_policy()->CopyFrom(policy); disk_cache_->Store(cached_policy); } void UserPolicyCache::SetUnmanaged() { DCHECK(CalledOnValidThread()); SetUnmanagedInternal(base::Time::NowFromSystemTime()); em::CachedCloudPolicyResponse cached_policy; cached_policy.set_unmanaged(true); cached_policy.set_timestamp(base::Time::NowFromSystemTime().ToTimeT()); disk_cache_->Store(cached_policy); } bool UserPolicyCache::IsReady() { return initialization_complete() || first_load_complete_; } void UserPolicyCache::OnDiskCacheLoaded( const em::CachedCloudPolicyResponse& cached_response) { first_load_complete_ = true; if (initialization_complete()) return; if (cached_response.unmanaged()) { SetUnmanagedInternal(base::Time::FromTimeT(cached_response.timestamp())); } else if (cached_response.has_cloud_policy()) { base::Time timestamp; if (SetPolicyInternal(cached_response.cloud_policy(), ×tamp, true)) set_last_policy_refresh_time(timestamp); } } bool UserPolicyCache::DecodePolicyData(const em::PolicyData& policy_data, PolicyMap* mandatory, PolicyMap* recommended) { // TODO(jkummerow): Verify policy_data.device_token(). Needs final // specification which token we're actually sending / expecting to get back. em::CloudPolicySettings policy; if (!policy.ParseFromString(policy_data.policy_value())) { LOG(WARNING) << "Failed to parse CloudPolicySettings protobuf."; return false; } DecodePolicy(policy, mandatory, recommended); MaybeDecodeOldstylePolicy(policy_data.policy_value(), mandatory, recommended); return true; } // Everything below is only needed for supporting old-style GenericNamedValue // based policy data and can be removed once this support is no longer needed. using google::protobuf::RepeatedField; using google::protobuf::RepeatedPtrField; class PolicyMapProxy : public ConfigurationPolicyStoreInterface { public: // Does not take ownership of |policy_map|, and callers need to make sure // that |policy_map| outlives this PolicyMapProxy. explicit PolicyMapProxy(PolicyMap* policy_map) : policy_map_(policy_map) {} virtual ~PolicyMapProxy() {} virtual void Apply(ConfigurationPolicyType policy, Value* value) { policy_map_->Set(policy, value); } private: PolicyMap* policy_map_; DISALLOW_COPY_AND_ASSIGN(PolicyMapProxy); }; void UserPolicyCache::MaybeDecodeOldstylePolicy( const std::string& policy_data, PolicyMap* mandatory, PolicyMap* recommended) { // Return immediately if we already have policy information in the maps. if (!mandatory->empty() || !recommended->empty()) return; em::LegacyChromeSettingsProto policy; // Return if the input string doesn't match the protobuf definition. if (!policy.ParseFromString(policy_data)) return; // Return if there's no old-style policy to decode. if (policy.named_value_size() == 0) return; // Inspect GenericNamedValues and decode them. DictionaryValue result; RepeatedPtrField::const_iterator named_value; for (named_value = policy.named_value().begin(); named_value != policy.named_value().end(); ++named_value) { if (named_value->has_value()) { Value* decoded_value = DecodeValue(named_value->value()); if (decoded_value) result.Set(named_value->name(), decoded_value); } } // Hack: Let one of the providers do the transformation from DictionaryValue // to PolicyMap, since they have the required code anyway. PolicyMapProxy map_proxy(mandatory); g_browser_process->browser_policy_connector()->GetManagedCloudProvider()-> ApplyPolicyValueTree(&result, &map_proxy); } Value* UserPolicyCache::DecodeIntegerValue( google::protobuf::int64 value) const { if (value < std::numeric_limits::min() || value > std::numeric_limits::max()) { LOG(WARNING) << "Integer value " << value << " out of numeric limits, ignoring."; return NULL; } return Value::CreateIntegerValue(static_cast(value)); } Value* UserPolicyCache::DecodeValue(const em::GenericValue& value) const { if (!value.has_value_type()) return NULL; switch (value.value_type()) { case em::GenericValue::VALUE_TYPE_BOOL: if (value.has_bool_value()) return Value::CreateBooleanValue(value.bool_value()); return NULL; case em::GenericValue::VALUE_TYPE_INT64: if (value.has_int64_value()) return DecodeIntegerValue(value.int64_value()); return NULL; case em::GenericValue::VALUE_TYPE_STRING: if (value.has_string_value()) return Value::CreateStringValue(value.string_value()); return NULL; case em::GenericValue::VALUE_TYPE_DOUBLE: if (value.has_double_value()) return Value::CreateDoubleValue(value.double_value()); return NULL; case em::GenericValue::VALUE_TYPE_BYTES: if (value.has_bytes_value()) { std::string bytes = value.bytes_value(); return BinaryValue::CreateWithCopiedBuffer(bytes.c_str(), bytes.size()); } return NULL; case em::GenericValue::VALUE_TYPE_BOOL_ARRAY: { ListValue* list = new ListValue; RepeatedField::const_iterator i; for (i = value.bool_array().begin(); i != value.bool_array().end(); ++i) list->Append(Value::CreateBooleanValue(*i)); return list; } case em::GenericValue::VALUE_TYPE_INT64_ARRAY: { ListValue* list = new ListValue; RepeatedField::const_iterator i; for (i = value.int64_array().begin(); i != value.int64_array().end(); ++i) { Value* int_value = DecodeIntegerValue(*i); if (int_value) list->Append(int_value); } return list; } case em::GenericValue::VALUE_TYPE_STRING_ARRAY: { ListValue* list = new ListValue; RepeatedPtrField::const_iterator i; for (i = value.string_array().begin(); i != value.string_array().end(); ++i) list->Append(Value::CreateStringValue(*i)); return list; } case em::GenericValue::VALUE_TYPE_DOUBLE_ARRAY: { ListValue* list = new ListValue; RepeatedField::const_iterator i; for (i = value.double_array().begin(); i != value.double_array().end(); ++i) list->Append(Value::CreateDoubleValue(*i)); return list; } default: NOTREACHED() << "Unhandled value type"; } return NULL; } } // namespace policy