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chromium / chromium / src / 5db4beded0f78f77207790cd9a66bf7fcbfc4fc3 / . / chromeos / cryptohome / homedir_methods.cc
blob: aa3a29e7cf3e80afa9f36c38ea75962be8c2117e [file] [log] [blame]
// Copyright 2014 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/cryptohome/homedir_methods.h"
#include "base/bind.h"
#include "base/logging.h"
#include "chromeos/dbus/cryptohome/key.pb.h"
#include "chromeos/dbus/cryptohome/rpc.pb.h"
#include "chromeos/dbus/dbus_thread_manager.h"
#if defined(USE_SYSTEM_PROTOBUF)
#include <google/protobuf/repeated_field.h>
#else
#include "third_party/protobuf/src/google/protobuf/repeated_field.h"
#endif
using chromeos::DBusThreadManager;
using google::protobuf::RepeatedPtrField;
namespace cryptohome {
namespace {
HomedirMethods* g_homedir_methods = NULL;
void FillKeyProtobuf(const KeyDefinition& key_def, Key* key) {
key->set_secret(key_def.secret);
KeyData* data = key->mutable_data();
DCHECK_EQ(KeyDefinition::TYPE_PASSWORD, key_def.type);
data->set_type(KeyData::KEY_TYPE_PASSWORD);
data->set_label(key_def.label);
if (key_def.revision > 0)
data->set_revision(key_def.revision);
if (key_def.privileges != 0) {
KeyPrivileges* privileges = data->mutable_privileges();
privileges->set_mount(key_def.privileges & PRIV_MOUNT);
privileges->set_add(key_def.privileges & PRIV_ADD);
privileges->set_remove(key_def.privileges & PRIV_REMOVE);
privileges->set_update(key_def.privileges & PRIV_MIGRATE);
privileges->set_authorized_update(key_def.privileges &
PRIV_AUTHORIZED_UPDATE);
}
for (std::vector<KeyDefinition::AuthorizationData>::const_iterator auth_it =
key_def.authorization_data.begin();
auth_it != key_def.authorization_data.end(); ++auth_it) {
KeyAuthorizationData* auth_data = data->add_authorization_data();
switch (auth_it->type) {
case KeyDefinition::AuthorizationData::TYPE_HMACSHA256:
auth_data->set_type(
KeyAuthorizationData::KEY_AUTHORIZATION_TYPE_HMACSHA256);
break;
case KeyDefinition::AuthorizationData::TYPE_AES256CBC_HMACSHA256:
auth_data->set_type(
KeyAuthorizationData::KEY_AUTHORIZATION_TYPE_AES256CBC_HMACSHA256);
break;
default:
NOTREACHED();
break;
}
for (std::vector<KeyDefinition::AuthorizationData::Secret>::const_iterator
secret_it = auth_it->secrets.begin();
secret_it != auth_it->secrets.end(); ++secret_it) {
KeyAuthorizationSecret* secret = auth_data->add_secrets();
secret->mutable_usage()->set_encrypt(secret_it->encrypt);
secret->mutable_usage()->set_sign(secret_it->sign);
if (!secret_it->symmetric_key.empty())
secret->set_symmetric_key(secret_it->symmetric_key);
if (!secret_it->public_key.empty())
secret->set_public_key(secret_it->public_key);
secret->set_wrapped(secret_it->wrapped);
}
}
for (std::vector<KeyDefinition::ProviderData>::const_iterator it =
key_def.provider_data.begin(); it != key_def.provider_data.end();
++it) {
KeyProviderData::Entry* entry =
data->mutable_provider_data()->add_entry();
entry->set_name(it->name);
if (it->number)
entry->set_number(*it->number);
if (it->bytes)
entry->set_bytes(*it->bytes);
}
}
// Fill identification protobuffer.
void FillIdentificationProtobuf(const Identification& id,
cryptohome::AccountIdentifier* id_proto) {
id_proto->set_email(id.user_id);
}
// Fill authorization protobuffer.
void FillAuthorizationProtobuf(const Authorization& auth,
cryptohome::AuthorizationRequest* auth_proto) {
Key* key = auth_proto->mutable_key();
if (!auth.label.empty()) {
key->mutable_data()->set_label(auth.label);
}
key->set_secret(auth.key);
}
void ParseAuthorizationDataProtobuf(
const KeyAuthorizationData& authorization_data_proto,
KeyDefinition::AuthorizationData* authorization_data) {
switch (authorization_data_proto.type()) {
case KeyAuthorizationData::KEY_AUTHORIZATION_TYPE_HMACSHA256:
authorization_data->type =
KeyDefinition::AuthorizationData::TYPE_HMACSHA256;
break;
case KeyAuthorizationData::KEY_AUTHORIZATION_TYPE_AES256CBC_HMACSHA256:
authorization_data->type =
KeyDefinition::AuthorizationData::TYPE_AES256CBC_HMACSHA256;
break;
default:
NOTREACHED();
return;
}
for (RepeatedPtrField<KeyAuthorizationSecret>::const_iterator it =
authorization_data_proto.secrets().begin();
it != authorization_data_proto.secrets().end(); ++it) {
authorization_data->secrets.push_back(
KeyDefinition::AuthorizationData::Secret(it->usage().encrypt(),
it->usage().sign(),
it->symmetric_key(),
it->public_key(),
it->wrapped()));
}
}
MountError MapError(CryptohomeErrorCode code) {
switch (code) {
case CRYPTOHOME_ERROR_NOT_SET:
return MOUNT_ERROR_NONE;
case CRYPTOHOME_ERROR_ACCOUNT_NOT_FOUND:
return MOUNT_ERROR_USER_DOES_NOT_EXIST;
case CRYPTOHOME_ERROR_NOT_IMPLEMENTED:
case CRYPTOHOME_ERROR_MOUNT_FATAL:
case CRYPTOHOME_ERROR_KEY_QUOTA_EXCEEDED:
case CRYPTOHOME_ERROR_BACKING_STORE_FAILURE:
return MOUNT_ERROR_FATAL;
case CRYPTOHOME_ERROR_AUTHORIZATION_KEY_NOT_FOUND:
case CRYPTOHOME_ERROR_KEY_NOT_FOUND:
case CRYPTOHOME_ERROR_AUTHORIZATION_KEY_FAILED:
return MOUNT_ERROR_KEY_FAILURE;
case CRYPTOHOME_ERROR_TPM_COMM_ERROR:
return MOUNT_ERROR_TPM_COMM_ERROR;
case CRYPTOHOME_ERROR_TPM_DEFEND_LOCK:
return MOUNT_ERROR_TPM_DEFEND_LOCK;
case CRYPTOHOME_ERROR_MOUNT_MOUNT_POINT_BUSY:
return MOUNT_ERROR_MOUNT_POINT_BUSY;
case CRYPTOHOME_ERROR_TPM_NEEDS_REBOOT:
return MOUNT_ERROR_TPM_NEEDS_REBOOT;
case CRYPTOHOME_ERROR_AUTHORIZATION_KEY_DENIED:
case CRYPTOHOME_ERROR_KEY_LABEL_EXISTS:
case CRYPTOHOME_ERROR_UPDATE_SIGNATURE_INVALID:
return MOUNT_ERROR_KEY_FAILURE;
default:
NOTREACHED();
return MOUNT_ERROR_FATAL;
}
}
// The implementation of HomedirMethods
class HomedirMethodsImpl : public HomedirMethods {
public:
HomedirMethodsImpl() : weak_ptr_factory_(this) {}
~HomedirMethodsImpl() override {}
void GetKeyDataEx(const Identification& id,
const std::string& label,
const GetKeyDataCallback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest kEmptyAuthProto;
cryptohome::GetKeyDataRequest request;
FillIdentificationProtobuf(id, &id_proto);
request.mutable_key()->mutable_data()->set_label(label);
DBusThreadManager::Get()->GetCryptohomeClient()->GetKeyDataEx(
id_proto,
kEmptyAuthProto,
request,
base::Bind(&HomedirMethodsImpl::OnGetKeyDataExCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
void CheckKeyEx(const Identification& id,
const Authorization& auth,
const Callback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest auth_proto;
cryptohome::CheckKeyRequest request;
FillIdentificationProtobuf(id, &id_proto);
FillAuthorizationProtobuf(auth, &auth_proto);
DBusThreadManager::Get()->GetCryptohomeClient()->CheckKeyEx(
id_proto,
auth_proto,
request,
base::Bind(&HomedirMethodsImpl::OnBaseReplyCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
void MountEx(const Identification& id,
const Authorization& auth,
const MountParameters& request,
const MountCallback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest auth_proto;
cryptohome::MountRequest request_proto;
FillIdentificationProtobuf(id, &id_proto);
FillAuthorizationProtobuf(auth, &auth_proto);
if (request.ephemeral)
request_proto.set_require_ephemeral(true);
if (!request.create_keys.empty()) {
CreateRequest* create = request_proto.mutable_create();
for (size_t i = 0; i < request.create_keys.size(); ++i)
FillKeyProtobuf(request.create_keys[i], create->add_keys());
}
DBusThreadManager::Get()->GetCryptohomeClient()->MountEx(
id_proto,
auth_proto,
request_proto,
base::Bind(&HomedirMethodsImpl::OnMountExCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
void AddKeyEx(const Identification& id,
const Authorization& auth,
const KeyDefinition& new_key,
bool clobber_if_exists,
const Callback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest auth_proto;
cryptohome::AddKeyRequest request;
FillIdentificationProtobuf(id, &id_proto);
FillAuthorizationProtobuf(auth, &auth_proto);
FillKeyProtobuf(new_key, request.mutable_key());
request.set_clobber_if_exists(clobber_if_exists);
DBusThreadManager::Get()->GetCryptohomeClient()->AddKeyEx(
id_proto,
auth_proto,
request,
base::Bind(&HomedirMethodsImpl::OnBaseReplyCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
void RemoveKeyEx(const Identification& id,
const Authorization& auth,
const std::string& label,
const Callback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest auth_proto;
cryptohome::RemoveKeyRequest request;
FillIdentificationProtobuf(id, &id_proto);
FillAuthorizationProtobuf(auth, &auth_proto);
request.mutable_key()->mutable_data()->set_label(label);
DBusThreadManager::Get()->GetCryptohomeClient()->RemoveKeyEx(
id_proto,
auth_proto,
request,
base::Bind(&HomedirMethodsImpl::OnBaseReplyCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
void UpdateKeyEx(const Identification& id,
const Authorization& auth,
const KeyDefinition& new_key,
const std::string& signature,
const Callback& callback) override {
cryptohome::AccountIdentifier id_proto;
cryptohome::AuthorizationRequest auth_proto;
cryptohome::UpdateKeyRequest pb_update_key;
FillIdentificationProtobuf(id, &id_proto);
FillAuthorizationProtobuf(auth, &auth_proto);
FillKeyProtobuf(new_key, pb_update_key.mutable_changes());
pb_update_key.set_authorization_signature(signature);
DBusThreadManager::Get()->GetCryptohomeClient()->UpdateKeyEx(
id_proto,
auth_proto,
pb_update_key,
base::Bind(&HomedirMethodsImpl::OnBaseReplyCallback,
weak_ptr_factory_.GetWeakPtr(),
callback));
}
private:
void OnGetKeyDataExCallback(const GetKeyDataCallback& callback,
chromeos::DBusMethodCallStatus call_status,
bool result,
const BaseReply& reply) {
if (call_status != chromeos::DBUS_METHOD_CALL_SUCCESS) {
callback.Run(false, MOUNT_ERROR_FATAL, std::vector<KeyDefinition>());
return;
}
if (reply.has_error()) {
if (reply.error() != CRYPTOHOME_ERROR_NOT_SET) {
callback.Run(false,
MapError(reply.error()),
std::vector<KeyDefinition>());
return;
}
}
if (!reply.HasExtension(GetKeyDataReply::reply)) {
callback.Run(false, MOUNT_ERROR_FATAL, std::vector<KeyDefinition>());
return;
}
// Extract the contents of the |KeyData| protos returned.
const RepeatedPtrField<KeyData>& key_data =
reply.GetExtension(GetKeyDataReply::reply).key_data();
std::vector<KeyDefinition> key_definitions;
for (RepeatedPtrField<KeyData>::const_iterator it = key_data.begin();
it != key_data.end(); ++it) {
// Extract |type|, |label| and |revision|.
DCHECK_EQ(KeyData::KEY_TYPE_PASSWORD, it->type());
key_definitions.push_back(KeyDefinition(std::string() /* secret */,
it->label(),
0 /* privileges */));
KeyDefinition& key_definition = key_definitions.back();
key_definition.revision = it->revision();
// Extract |privileges|.
const KeyPrivileges& privileges = it->privileges();
if (privileges.mount())
key_definition.privileges |= PRIV_MOUNT;
if (privileges.add())
key_definition.privileges |= PRIV_ADD;
if (privileges.remove())
key_definition.privileges |= PRIV_REMOVE;
if (privileges.update())
key_definition.privileges |= PRIV_MIGRATE;
if (privileges.authorized_update())
key_definition.privileges |= PRIV_AUTHORIZED_UPDATE;
// Extract |authorization_data|.
for (RepeatedPtrField<KeyAuthorizationData>::const_iterator auth_it =
it->authorization_data().begin();
auth_it != it->authorization_data().end(); ++auth_it) {
key_definition.authorization_data.push_back(
KeyDefinition::AuthorizationData());
ParseAuthorizationDataProtobuf(
*auth_it,
&key_definition.authorization_data.back());
}
// Extract |provider_data|.
for (RepeatedPtrField<KeyProviderData::Entry>::const_iterator
provider_data_it = it->provider_data().entry().begin();
provider_data_it != it->provider_data().entry().end();
++provider_data_it) {
// Extract |name|.
key_definition.provider_data.push_back(
KeyDefinition::ProviderData(provider_data_it->name()));
KeyDefinition::ProviderData& provider_data =
key_definition.provider_data.back();
int data_items = 0;
// Extract |number|.
if (provider_data_it->has_number()) {
provider_data.number.reset(new int64(provider_data_it->number()));
++data_items;
}
// Extract |bytes|.
if (provider_data_it->has_bytes()) {
provider_data.bytes.reset(
new std::string(provider_data_it->bytes()));
++data_items;
}
DCHECK_EQ(1, data_items);
}
}
callback.Run(true, MOUNT_ERROR_NONE, key_definitions);
}
void OnMountExCallback(const MountCallback& callback,
chromeos::DBusMethodCallStatus call_status,
bool result,
const BaseReply& reply) {
if (call_status != chromeos::DBUS_METHOD_CALL_SUCCESS) {
callback.Run(false, MOUNT_ERROR_FATAL, std::string());
return;
}
if (reply.has_error()) {
if (reply.error() != CRYPTOHOME_ERROR_NOT_SET) {
callback.Run(false, MapError(reply.error()), std::string());
return;
}
}
if (!reply.HasExtension(MountReply::reply)) {
callback.Run(false, MOUNT_ERROR_FATAL, std::string());
return;
}
std::string mount_hash;
mount_hash = reply.GetExtension(MountReply::reply).sanitized_username();
callback.Run(true, MOUNT_ERROR_NONE, mount_hash);
}
void OnBaseReplyCallback(const Callback& callback,
chromeos::DBusMethodCallStatus call_status,
bool result,
const BaseReply& reply) {
if (call_status != chromeos::DBUS_METHOD_CALL_SUCCESS) {
callback.Run(false, MOUNT_ERROR_FATAL);
return;
}
if (reply.has_error()) {
if (reply.error() != CRYPTOHOME_ERROR_NOT_SET) {
callback.Run(false, MapError(reply.error()));
return;
}
}
callback.Run(true, MOUNT_ERROR_NONE);
}
base::WeakPtrFactory<HomedirMethodsImpl> weak_ptr_factory_;
DISALLOW_COPY_AND_ASSIGN(HomedirMethodsImpl);
};
} // namespace
// static
void HomedirMethods::Initialize() {
if (g_homedir_methods) {
LOG(WARNING) << "HomedirMethods was already initialized";
return;
}
g_homedir_methods = new HomedirMethodsImpl();
VLOG(1) << "HomedirMethods initialized";
}
// static
void HomedirMethods::InitializeForTesting(HomedirMethods* homedir_methods) {
if (g_homedir_methods) {
LOG(WARNING) << "HomedirMethods was already initialized";
return;
}
g_homedir_methods = homedir_methods;
VLOG(1) << "HomedirMethods initialized";
}
// static
void HomedirMethods::Shutdown() {
if (!g_homedir_methods) {
LOG(WARNING) << "AsyncMethodCaller::Shutdown() called with NULL manager";
return;
}
delete g_homedir_methods;
g_homedir_methods = NULL;
VLOG(1) << "HomedirMethods Shutdown completed";
}
// static
HomedirMethods* HomedirMethods::GetInstance() { return g_homedir_methods; }
} // namespace cryptohome