security/tf_crypto_sst/lib_object.h - platform/hardware/ti/omap4xxx - Git at Google

 /**
  * Copyright(c) 2011 Trusted Logic.   All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  *
  *  * Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  *  * Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in
  *    the documentation and/or other materials provided with the
  *    distribution.
  *  * Neither the name Trusted Logic nor the names of its
  *    contributors may be used to endorse or promote products derived
  *    from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #ifndef   __LIB_OBJECT_H__
 #define   __LIB_OBJECT_H__

 #include "s_type.h"

 typedef struct
 {
    /* Type of storage: See S_STORAGE_TYPE_XXX */
    uint32_t nStorageType;

    /* Login type of the client: See S_LOGIN_XXX */
    uint32_t nLoginType;

    /* Identifier of the client (secure or non-secure client) */
    S_UUID sClientUUID;
 }
 S_STORAGE_NAME;


 /**
  * This library defines three types of objects and keys:
  * - objects identified by a 16-bit handle
  * - objects identified by a S_STORAGE_NAME
  * - objects identified by a filename, which is a variable-size up-to-64 bytes byte array
  * - unindexed objects
  **/

 /* -------------------------------------------------------------------------
    Useful macro to get a structure from a pointer to one of its fields.

    Typical usage:
    typedef struct
    {
       LIB_OBJECT_NODE_HANDLE16  sNodeInHandleTable;
       LIB_OBJECT_NODE_UNINDEXED sNodeInList;
    }
    CONTEXT;

    LIB_OBJECT_CONTAINER_OF(libObjectUnindexedNext(pList, pObject), CONTEXT, sNodeInList)


    -------------------------------------------------------------------------*/
 #define LIB_OBJECT_CONTAINER_OF(ptr, type, member) (((type*)(((char*)(ptr)) - offsetof(type, member))))


 /* -------------------------------------------------------------------------
    Table of objects indexed by 16-bit handles
    -------------------------------------------------------------------------*/

 #define LIB_OBJECT_HANDLE16_MAX ((uint16_t)0xFFFF)

 /**
  * NODE of an object in a table indexed by 16-bit handles
  **/
 typedef struct
 {
    /* Implementation-defined fields */
    uint32_t _l[2];

    /* Public field */
    uint16_t   nHandle;
 }
 LIB_OBJECT_NODE_HANDLE16;

 /**
  * A table of objects indexed by 16-bit handles
  **/
 typedef struct
 {
    LIB_OBJECT_NODE_HANDLE16* pRoot;
 }
 LIB_OBJECT_TABLE_HANDLE16;

 /**
  * Add an object in a handle table. This function also
  * assigns a new handle value to the object. The handle
  * is guaranteed to be unique among all the objects
  * in the table and non-zero.
  *
  * Returns false if the maximum number of handles has been reached
  *    (i.e., there are already 65535 objects in the table)
  **/
 bool libObjectHandle16Add(
                LIB_OBJECT_TABLE_HANDLE16* pTable,
                LIB_OBJECT_NODE_HANDLE16* pObject);

 /**
  * Search an object by its handle. Return NULL if the
  * object is not found
  **/
 LIB_OBJECT_NODE_HANDLE16* libObjectHandle16Search(
                LIB_OBJECT_TABLE_HANDLE16* pTable,
                uint32_t nHandle);

 /**
  * Remove an object from a handle table.
  *
  * The object must be part of the table
  **/
 void libObjectHandle16Remove(
                LIB_OBJECT_TABLE_HANDLE16* pTable,
                LIB_OBJECT_NODE_HANDLE16* pObject);

 /**
  * Remove one object from the table. This is useful when
  * you want to destroy all the objects in the table.
  *
  * Returns NULL if the table is empty
  **/
 LIB_OBJECT_NODE_HANDLE16* libObjectHandle16RemoveOne(
                LIB_OBJECT_TABLE_HANDLE16* pTable);

 /**
  * Get the object following pObject in the handle table.
  * If pObject is NULL, return the first object in the list
  * Return NULL if the object is the last in the table
  **/
 LIB_OBJECT_NODE_HANDLE16* libObjectHandle16Next(
                LIB_OBJECT_TABLE_HANDLE16* pTable,
                LIB_OBJECT_NODE_HANDLE16* pObject);

 /* -------------------------------------------------------------------------
    Table of objects indexed by storage name
    -------------------------------------------------------------------------*/

 /**
  * NODE of an object in a table indexed by storage name
  **/
 typedef struct
 {
    /* Implementation-defined fields */
    uint32_t _l[2];

    /* Public fields */
    S_STORAGE_NAME sStorageName;
 }
 LIB_OBJECT_NODE_STORAGE_NAME;

 /**
  * A table of objects indexed by storage name
  **/
 typedef struct
 {
    LIB_OBJECT_NODE_STORAGE_NAME* pRoot;
 }
 LIB_OBJECT_TABLE_STORAGE_NAME;

 /**
  * Add an object in a storage name table.
  *
  * The object must not be part of the table yet. The caller
  * must have set pObject->sStorageName with the storage name
  **/
 void libObjectStorageNameAdd(
                LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
                LIB_OBJECT_NODE_STORAGE_NAME* pObject);

 /**
  * Search an object by its storage name. Return NULL if the
  * object is not found
  **/
 LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameSearch(
                LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
                S_STORAGE_NAME* pStorageName);

 /**
  * Remove an object from a storage name table.
  *
  * The object must be part of the table
  **/
 void libObjectStorageNameRemove(
                LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
                LIB_OBJECT_NODE_STORAGE_NAME* pObject);

 /**
  * Remove one object from the table. This is useful when
  * you want to destroy all the objects in the table
  * Returns NULL if the table is empty
  **/
 LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameRemoveOne(
                LIB_OBJECT_TABLE_STORAGE_NAME* pTable);

 /**
  * Get the object following pObject in the storage name table.
  * If pObject is NULL, return the first object
  * Return NULL if the object is the last in the table
  **/
 LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameNext(
                LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
                LIB_OBJECT_NODE_STORAGE_NAME* pObject);

 /* -------------------------------------------------------------------------
    Table of objects indexed by filenames
    -------------------------------------------------------------------------*/

 /**
  * NODE of an object in a table indexed by filenames (varsize up-to-64 bytes)
  **/
 typedef struct
 {
    /* Implementation-defined fields */
    uint32_t _l[2];

    /* Public fields */
    uint8_t  sFilename[64];
    uint8_t  nFilenameLength;
 }
 LIB_OBJECT_NODE_FILENAME;

 /**
  * A table of objects indexed by filenames
  **/
 typedef struct
 {
    LIB_OBJECT_NODE_FILENAME* pRoot;
 }
 LIB_OBJECT_TABLE_FILENAME;

 /**
  * Add an object in a filename table.
  *
  * The object must not be part of the table yet. The caller
  * must have set pObject->sFilename and pObject->nFilenameLength
  * with the object filename
  **/
 void libObjectFilenameAdd(
                LIB_OBJECT_TABLE_FILENAME* pTable,
                LIB_OBJECT_NODE_FILENAME* pObject);

 /**
  * Search an object by its filename. Return NULL if the
  * object is not found
  **/
 LIB_OBJECT_NODE_FILENAME* libObjectFilenameSearch(
                LIB_OBJECT_TABLE_FILENAME* pTable,
                uint8_t* pFilename,
                uint32_t  nFilenameLength);

 /**
  * Remove an object from a filename table.
  *
  * The object must be part of the table
  **/
 void libObjectFilenameRemove(
                LIB_OBJECT_TABLE_FILENAME* pTable,
                LIB_OBJECT_NODE_FILENAME* pObject);

 /**
  * Remove one element from the table and return it. This is useful when
  * you want to destroy all the objects in the table
  * Returns NULL if the table is empty
  **/
 LIB_OBJECT_NODE_FILENAME* libObjectFilenameRemoveOne(
                LIB_OBJECT_TABLE_FILENAME* pTable);

 /**
  * Get the object following pObject in the filename table.
  * If pObject is NULL, return the first object
  * Return NULL if the object is the last in the table
  **/
 LIB_OBJECT_NODE_FILENAME* libObjectFilenameNext(
                LIB_OBJECT_TABLE_FILENAME* pTable,
                LIB_OBJECT_NODE_FILENAME* pObject);

 /* -------------------------------------------------------------------------
    Unindexed table of objects
    -------------------------------------------------------------------------*/
 /**
  * NODE of an unindexed object
  **/
 typedef struct
 {
    /* Implementation-defined fields */
    uint32_t _l[2];
 }
 LIB_OBJECT_NODE_UNINDEXED;

 /**
  * A table of unindexed objects
  **/
 typedef struct
 {
    LIB_OBJECT_NODE_UNINDEXED* pRoot;
 }
 LIB_OBJECT_TABLE_UNINDEXED;


 /**
  * Add an object in an unindexed table. The object must not be part of the table yet.
  **/
 void libObjectUnindexedAdd(
          LIB_OBJECT_TABLE_UNINDEXED* pTable,
          LIB_OBJECT_NODE_UNINDEXED* pObject);

 /**
  * Remove an object from an unindexed table. The object must be part of the table.
  **/
 void libObjectUnindexedRemove(
          LIB_OBJECT_TABLE_UNINDEXED* pTable,
          LIB_OBJECT_NODE_UNINDEXED* pObject);

 /**
  * Remove one object in the table. This is useful when you want to destroy all objects
  * in the table.
  * Returns NULL if the table is empty
  **/
 LIB_OBJECT_NODE_UNINDEXED* libObjectUnindexedRemoveOne(LIB_OBJECT_TABLE_UNINDEXED* pTable);

 /**
  * Get the object following pObject in the table.
  * If pObject is NULL, return the first object
  * Return NULL if the object is the last in the table
  **/
 LIB_OBJECT_NODE_UNINDEXED* libObjectUnindexedNext(
                LIB_OBJECT_TABLE_UNINDEXED* pTable,
                LIB_OBJECT_NODE_UNINDEXED* pObject);

 #endif /* __LIB_OBJECT_H__ */
	/**
	* Copyright(c) 2011 Trusted Logic. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in
	* the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name Trusted Logic nor the names of its
	* contributors may be used to endorse or promote products derived
	* from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#ifndef __LIB_OBJECT_H__
	#define __LIB_OBJECT_H__

	#include "s_type.h"

	typedef struct
	{
	/* Type of storage: See S_STORAGE_TYPE_XXX */
	uint32_t nStorageType;

	/* Login type of the client: See S_LOGIN_XXX */
	uint32_t nLoginType;

	/* Identifier of the client (secure or non-secure client) */
	S_UUID sClientUUID;
	}
	S_STORAGE_NAME;


	/**
	* This library defines three types of objects and keys:
	* - objects identified by a 16-bit handle
	* - objects identified by a S_STORAGE_NAME
	* - objects identified by a filename, which is a variable-size up-to-64 bytes byte array
	* - unindexed objects
	**/

	/* -------------------------------------------------------------------------
	Useful macro to get a structure from a pointer to one of its fields.

	Typical usage:
	typedef struct
	{
	LIB_OBJECT_NODE_HANDLE16 sNodeInHandleTable;
	LIB_OBJECT_NODE_UNINDEXED sNodeInList;
	}
	CONTEXT;

	LIB_OBJECT_CONTAINER_OF(libObjectUnindexedNext(pList, pObject), CONTEXT, sNodeInList)


	-------------------------------------------------------------------------*/
	#define LIB_OBJECT_CONTAINER_OF(ptr, type, member) (((type)(((char)(ptr)) - offsetof(type, member))))


	/* -------------------------------------------------------------------------
	Table of objects indexed by 16-bit handles
	-------------------------------------------------------------------------*/

	#define LIB_OBJECT_HANDLE16_MAX ((uint16_t)0xFFFF)

	/**
	* NODE of an object in a table indexed by 16-bit handles
	**/
	typedef struct
	{
	/* Implementation-defined fields */
	uint32_t _l[2];

	/* Public field */
	uint16_t nHandle;
	}
	LIB_OBJECT_NODE_HANDLE16;

	/**
	* A table of objects indexed by 16-bit handles
	**/
	typedef struct
	{
	LIB_OBJECT_NODE_HANDLE16* pRoot;
	}
	LIB_OBJECT_TABLE_HANDLE16;

	/**
	* Add an object in a handle table. This function also
	* assigns a new handle value to the object. The handle
	* is guaranteed to be unique among all the objects
	* in the table and non-zero.
	*
	* Returns false if the maximum number of handles has been reached
	* (i.e., there are already 65535 objects in the table)
	**/
	bool libObjectHandle16Add(
	LIB_OBJECT_TABLE_HANDLE16* pTable,
	LIB_OBJECT_NODE_HANDLE16* pObject);

	/**
	* Search an object by its handle. Return NULL if the
	* object is not found
	**/
	LIB_OBJECT_NODE_HANDLE16* libObjectHandle16Search(
	LIB_OBJECT_TABLE_HANDLE16* pTable,
	uint32_t nHandle);

	/**
	* Remove an object from a handle table.
	*
	* The object must be part of the table
	**/
	void libObjectHandle16Remove(
	LIB_OBJECT_TABLE_HANDLE16* pTable,
	LIB_OBJECT_NODE_HANDLE16* pObject);

	/**
	* Remove one object from the table. This is useful when
	* you want to destroy all the objects in the table.
	*
	* Returns NULL if the table is empty
	**/
	LIB_OBJECT_NODE_HANDLE16* libObjectHandle16RemoveOne(
	LIB_OBJECT_TABLE_HANDLE16* pTable);

	/**
	* Get the object following pObject in the handle table.
	* If pObject is NULL, return the first object in the list
	* Return NULL if the object is the last in the table
	**/
	LIB_OBJECT_NODE_HANDLE16* libObjectHandle16Next(
	LIB_OBJECT_TABLE_HANDLE16* pTable,
	LIB_OBJECT_NODE_HANDLE16* pObject);

	/* -------------------------------------------------------------------------
	Table of objects indexed by storage name
	-------------------------------------------------------------------------*/

	/**
	* NODE of an object in a table indexed by storage name
	**/
	typedef struct
	{
	/* Implementation-defined fields */
	uint32_t _l[2];

	/* Public fields */
	S_STORAGE_NAME sStorageName;
	}
	LIB_OBJECT_NODE_STORAGE_NAME;

	/**
	* A table of objects indexed by storage name
	**/
	typedef struct
	{
	LIB_OBJECT_NODE_STORAGE_NAME* pRoot;
	}
	LIB_OBJECT_TABLE_STORAGE_NAME;

	/**
	* Add an object in a storage name table.
	*
	* The object must not be part of the table yet. The caller
	* must have set pObject->sStorageName with the storage name
	**/
	void libObjectStorageNameAdd(
	LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
	LIB_OBJECT_NODE_STORAGE_NAME* pObject);

	/**
	* Search an object by its storage name. Return NULL if the
	* object is not found
	**/
	LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameSearch(
	LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
	S_STORAGE_NAME* pStorageName);

	/**
	* Remove an object from a storage name table.
	*
	* The object must be part of the table
	**/
	void libObjectStorageNameRemove(
	LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
	LIB_OBJECT_NODE_STORAGE_NAME* pObject);

	/**
	* Remove one object from the table. This is useful when
	* you want to destroy all the objects in the table
	* Returns NULL if the table is empty
	**/
	LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameRemoveOne(
	LIB_OBJECT_TABLE_STORAGE_NAME* pTable);

	/**
	* Get the object following pObject in the storage name table.
	* If pObject is NULL, return the first object
	* Return NULL if the object is the last in the table
	**/
	LIB_OBJECT_NODE_STORAGE_NAME* libObjectStorageNameNext(
	LIB_OBJECT_TABLE_STORAGE_NAME* pTable,
	LIB_OBJECT_NODE_STORAGE_NAME* pObject);

	/* -------------------------------------------------------------------------
	Table of objects indexed by filenames
	-------------------------------------------------------------------------*/

	/**
	* NODE of an object in a table indexed by filenames (varsize up-to-64 bytes)
	**/
	typedef struct
	{
	/* Implementation-defined fields */
	uint32_t _l[2];

	/* Public fields */
	uint8_t sFilename[64];
	uint8_t nFilenameLength;
	}
	LIB_OBJECT_NODE_FILENAME;

	/**
	* A table of objects indexed by filenames
	**/
	typedef struct
	{
	LIB_OBJECT_NODE_FILENAME* pRoot;
	}
	LIB_OBJECT_TABLE_FILENAME;

	/**
	* Add an object in a filename table.
	*
	* The object must not be part of the table yet. The caller
	* must have set pObject->sFilename and pObject->nFilenameLength
	* with the object filename
	**/
	void libObjectFilenameAdd(
	LIB_OBJECT_TABLE_FILENAME* pTable,
	LIB_OBJECT_NODE_FILENAME* pObject);

	/**
	* Search an object by its filename. Return NULL if the
	* object is not found
	**/
	LIB_OBJECT_NODE_FILENAME* libObjectFilenameSearch(
	LIB_OBJECT_TABLE_FILENAME* pTable,
	uint8_t* pFilename,
	uint32_t nFilenameLength);

	/**
	* Remove an object from a filename table.
	*
	* The object must be part of the table
	**/
	void libObjectFilenameRemove(
	LIB_OBJECT_TABLE_FILENAME* pTable,
	LIB_OBJECT_NODE_FILENAME* pObject);

	/**
	* Remove one element from the table and return it. This is useful when
	* you want to destroy all the objects in the table
	* Returns NULL if the table is empty
	**/
	LIB_OBJECT_NODE_FILENAME* libObjectFilenameRemoveOne(
	LIB_OBJECT_TABLE_FILENAME* pTable);

	/**
	* Get the object following pObject in the filename table.
	* If pObject is NULL, return the first object
	* Return NULL if the object is the last in the table
	**/
	LIB_OBJECT_NODE_FILENAME* libObjectFilenameNext(
	LIB_OBJECT_TABLE_FILENAME* pTable,
	LIB_OBJECT_NODE_FILENAME* pObject);

	/* -------------------------------------------------------------------------
	Unindexed table of objects
	-------------------------------------------------------------------------*/
	/**
	* NODE of an unindexed object
	**/
	typedef struct
	{
	/* Implementation-defined fields */
	uint32_t _l[2];
	}
	LIB_OBJECT_NODE_UNINDEXED;

	/**
	* A table of unindexed objects
	**/
	typedef struct
	{
	LIB_OBJECT_NODE_UNINDEXED* pRoot;
	}
	LIB_OBJECT_TABLE_UNINDEXED;


	/**
	* Add an object in an unindexed table. The object must not be part of the table yet.
	**/
	void libObjectUnindexedAdd(
	LIB_OBJECT_TABLE_UNINDEXED* pTable,
	LIB_OBJECT_NODE_UNINDEXED* pObject);

	/**
	* Remove an object from an unindexed table. The object must be part of the table.
	**/
	void libObjectUnindexedRemove(
	LIB_OBJECT_TABLE_UNINDEXED* pTable,
	LIB_OBJECT_NODE_UNINDEXED* pObject);

	/**
	* Remove one object in the table. This is useful when you want to destroy all objects
	* in the table.
	* Returns NULL if the table is empty
	**/
	LIB_OBJECT_NODE_UNINDEXED* libObjectUnindexedRemoveOne(LIB_OBJECT_TABLE_UNINDEXED* pTable);

	/**
	* Get the object following pObject in the table.
	* If pObject is NULL, return the first object
	* Return NULL if the object is the last in the table
	**/
	LIB_OBJECT_NODE_UNINDEXED* libObjectUnindexedNext(
	LIB_OBJECT_TABLE_UNINDEXED* pTable,
	LIB_OBJECT_NODE_UNINDEXED* pObject);

	#endif /* __LIB_OBJECT_H__ */