keystore/auth_token_table.h - platform/system/security - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <memory>
 #include <vector>

 #include <hardware/hw_auth_token.h>
 #include <keystore/authorization_set.h>

 #ifndef KEYSTORE_AUTH_TOKEN_TABLE_H_
 #define KEYSTORE_AUTH_TOKEN_TABLE_H_

 namespace keystore {

 using android::hardware::keymaster::V3_0::HardwareAuthToken;

 namespace test {
 class AuthTokenTableTest;
 }  // namespace test

 time_t clock_gettime_raw();

 /**
  * AuthTokenTable manages a set of received authorization tokens and can provide the appropriate
  * token for authorizing a key operation.
  *
  * To keep the table from growing without bound, superseded entries are removed when possible, and
  * least recently used entries are automatically pruned when when the table exceeds a size limit,
  * which is expected to be relatively small, since the implementation uses a linear search.
  */
 class AuthTokenTable {
   public:
     explicit AuthTokenTable(size_t max_entries = 32, time_t (*clock_function)() = clock_gettime_raw)
         : max_entries_(max_entries), last_off_body_(clock_function()),
           clock_function_(clock_function) {}

     enum Error {
         OK,
         AUTH_NOT_REQUIRED = -1,
         AUTH_TOKEN_EXPIRED = -2,    // Found a matching token, but it's too old.
         AUTH_TOKEN_WRONG_SID = -3,  // Found a token with the right challenge, but wrong SID.  This
                                     // most likely indicates that the authenticator was updated
                                     // (e.g. new fingerprint enrolled).
         OP_HANDLE_REQUIRED = -4,    // The key requires auth per use but op_handle was zero.
         AUTH_TOKEN_NOT_FOUND = -5,
     };

     /**
      * Add an authorization token to the table.  The table takes ownership of the argument.
      */
     void AddAuthenticationToken(const HardwareAuthToken* token);

     /**
      * Find an authorization token that authorizes the operation specified by \p operation_handle on
      * a key with the characteristics specified in \p key_info.
      *
      * This method is O(n * m), where n is the number of KM_TAG_USER_SECURE_ID entries in key_info
      * and m is the number of entries in the table.  It could be made better, but n and m should
      * always be small.
      *
      * The table retains ownership of the returned object.
      */
     Error FindAuthorization(const AuthorizationSet& key_info, KeyPurpose purpose,
                             uint64_t op_handle, const HardwareAuthToken** found);

     /**
      * Mark operation completed.  This allows tokens associated with the specified operation to be
      * superseded by new tokens.
      */
     void MarkCompleted(const uint64_t op_handle);

     /**
      * Update the last_off_body_ timestamp so that tokens which remain authorized only so long as
      * the device stays on body can be revoked.
      */
     void onDeviceOffBody();

     void Clear();

     size_t size() { return entries_.size(); }

   private:
     friend class AuthTokenTableTest;

     class Entry {
       public:
         Entry(const HardwareAuthToken* token, time_t current_time);
         Entry(Entry&& entry) { *this = std::move(entry); }

         void operator=(Entry&& rhs) {
             token_ = std::move(rhs.token_);
             time_received_ = rhs.time_received_;
             last_use_ = rhs.last_use_;
             operation_completed_ = rhs.operation_completed_;
         }

         bool operator<(const Entry& rhs) const { return last_use_ < rhs.last_use_; }

         void UpdateLastUse(time_t time);

         bool Supersedes(const Entry& entry) const;
         bool SatisfiesAuth(const std::vector<uint64_t>& sids, HardwareAuthenticatorType auth_type);

         bool is_newer_than(const Entry* entry) const {
             if (!entry) return true;
             uint64_t ts = timestamp_host_order();
             uint64_t other_ts = entry->timestamp_host_order();
             // Normally comparing timestamp_host_order alone is sufficient, but here is an
             // additional hack to compare time_received value for some devices where their auth
             // tokens contain fixed timestamp (due to the a stuck secure RTC on them)
             return (ts > other_ts) ||
                    ((ts == other_ts) && (time_received_ > entry->time_received_));
         }

         void mark_completed() { operation_completed_ = true; }

         const HardwareAuthToken* token() { return token_.get(); }
         time_t time_received() const { return time_received_; }
         bool completed() const { return operation_completed_; }
         uint64_t timestamp_host_order() const;
         HardwareAuthenticatorType authenticator_type() const;

       private:
         std::unique_ptr<const HardwareAuthToken> token_;
         time_t time_received_;
         time_t last_use_;
         bool operation_completed_;
     };

     Error FindAuthPerOpAuthorization(const std::vector<uint64_t>& sids,
                                      HardwareAuthenticatorType auth_type, uint64_t op_handle,
                                      const HardwareAuthToken** found);
     Error FindTimedAuthorization(const std::vector<uint64_t>& sids,
                                  HardwareAuthenticatorType auth_type,
                                  const AuthorizationSet& key_info, const HardwareAuthToken** found);
     void ExtractSids(const AuthorizationSet& key_info, std::vector<uint64_t>* sids);
     void RemoveEntriesSupersededBy(const Entry& entry);
     bool IsSupersededBySomeEntry(const Entry& entry);

     std::vector<Entry> entries_;
     size_t max_entries_;
     time_t last_off_body_;
     time_t (*clock_function_)();
 };

 }  // namespace keymaster

 #endif  // KEYSTORE_AUTH_TOKEN_TABLE_H_
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <memory>
	#include <vector>

	#include <hardware/hw_auth_token.h>
	#include <keystore/authorization_set.h>

	#ifndef KEYSTORE_AUTH_TOKEN_TABLE_H_
	#define KEYSTORE_AUTH_TOKEN_TABLE_H_

	namespace keystore {

	using android::hardware::keymaster::V3_0::HardwareAuthToken;

	namespace test {
	class AuthTokenTableTest;
	} // namespace test

	time_t clock_gettime_raw();

	/**
	* AuthTokenTable manages a set of received authorization tokens and can provide the appropriate
	* token for authorizing a key operation.
	*
	* To keep the table from growing without bound, superseded entries are removed when possible, and
	* least recently used entries are automatically pruned when when the table exceeds a size limit,
	* which is expected to be relatively small, since the implementation uses a linear search.
	*/
	class AuthTokenTable {
	public:
	explicit AuthTokenTable(size_t max_entries = 32, time_t (*clock_function)() = clock_gettime_raw)
	: max_entries_(max_entries), last_off_body_(clock_function()),
	clock_function_(clock_function) {}

	enum Error {
	OK,
	AUTH_NOT_REQUIRED = -1,
	AUTH_TOKEN_EXPIRED = -2, // Found a matching token, but it's too old.
	AUTH_TOKEN_WRONG_SID = -3, // Found a token with the right challenge, but wrong SID. This
	// most likely indicates that the authenticator was updated
	// (e.g. new fingerprint enrolled).
	OP_HANDLE_REQUIRED = -4, // The key requires auth per use but op_handle was zero.
	AUTH_TOKEN_NOT_FOUND = -5,
	};

	/**
	* Add an authorization token to the table. The table takes ownership of the argument.
	*/
	void AddAuthenticationToken(const HardwareAuthToken* token);

	/**
	* Find an authorization token that authorizes the operation specified by \p operation_handle on
	* a key with the characteristics specified in \p key_info.
	*
	* This method is O(n * m), where n is the number of KM_TAG_USER_SECURE_ID entries in key_info
	* and m is the number of entries in the table. It could be made better, but n and m should
	* always be small.
	*
	* The table retains ownership of the returned object.
	*/
	Error FindAuthorization(const AuthorizationSet& key_info, KeyPurpose purpose,
	uint64_t op_handle, const HardwareAuthToken** found);

	/**
	* Mark operation completed. This allows tokens associated with the specified operation to be
	* superseded by new tokens.
	*/
	void MarkCompleted(const uint64_t op_handle);

	/**
	* Update the last_off_body_ timestamp so that tokens which remain authorized only so long as
	* the device stays on body can be revoked.
	*/
	void onDeviceOffBody();

	void Clear();

	size_t size() { return entries_.size(); }

	private:
	friend class AuthTokenTableTest;

	class Entry {
	public:
	Entry(const HardwareAuthToken* token, time_t current_time);
	Entry(Entry&& entry) { *this = std::move(entry); }

	void operator=(Entry&& rhs) {
	token_ = std::move(rhs.token_);
	time_received_ = rhs.time_received_;
	last_use_ = rhs.last_use_;
	operation_completed_ = rhs.operation_completed_;
	}

	bool operator<(const Entry& rhs) const { return last_use_ < rhs.last_use_; }

	void UpdateLastUse(time_t time);

	bool Supersedes(const Entry& entry) const;
	bool SatisfiesAuth(const std::vector<uint64_t>& sids, HardwareAuthenticatorType auth_type);

	bool is_newer_than(const Entry* entry) const {
	if (!entry) return true;
	uint64_t ts = timestamp_host_order();
	uint64_t other_ts = entry->timestamp_host_order();
	// Normally comparing timestamp_host_order alone is sufficient, but here is an
	// additional hack to compare time_received value for some devices where their auth
	// tokens contain fixed timestamp (due to the a stuck secure RTC on them)
	return (ts > other_ts) \|\|
	((ts == other_ts) && (time_received_ > entry->time_received_));
	}

	void mark_completed() { operation_completed_ = true; }

	const HardwareAuthToken* token() { return token_.get(); }
	time_t time_received() const { return time_received_; }
	bool completed() const { return operation_completed_; }
	uint64_t timestamp_host_order() const;
	HardwareAuthenticatorType authenticator_type() const;

	private:
	std::unique_ptr<const HardwareAuthToken> token_;
	time_t time_received_;
	time_t last_use_;
	bool operation_completed_;
	};

	Error FindAuthPerOpAuthorization(const std::vector<uint64_t>& sids,
	HardwareAuthenticatorType auth_type, uint64_t op_handle,
	const HardwareAuthToken** found);
	Error FindTimedAuthorization(const std::vector<uint64_t>& sids,
	HardwareAuthenticatorType auth_type,
	const AuthorizationSet& key_info, const HardwareAuthToken** found);
	void ExtractSids(const AuthorizationSet& key_info, std::vector<uint64_t>* sids);
	void RemoveEntriesSupersededBy(const Entry& entry);
	bool IsSupersededBySomeEntry(const Entry& entry);

	std::vector<Entry> entries_;
	size_t max_entries_;
	time_t last_off_body_;
	time_t (*clock_function_)();
	};

	} // namespace keymaster

	#endif // KEYSTORE_AUTH_TOKEN_TABLE_H_