doc/driver-model/UDM-tpm.txt - uboot/armada - Git at Google

 The U-Boot Driver Model Project
 ===============================
 TPM system analysis
 ===================
 Marek Vasut <marek.vasut@gmail.com>
 2012-02-23

 I) Overview
 -----------

 There is currently only one TPM chip driver available and therefore the API
 controlling it is very much based on this. The API is very simple:

   int tis_open(void);
   int tis_close(void);
   int tis_sendrecv(const u8 *sendbuf, size_t send_size,
                          u8 *recvbuf, size_t *recv_len);

 The command operating the TPM chip only provides operations to send and receive
 bytes from the chip.

 II) Approach
 ------------

 The API can't be generalised too much considering there's only one TPM chip
 supported. But it's a good idea to split the tis_sendrecv() function in two
 functions. Therefore the new API will use register the TPM chip by calling:

   tpm_device_register(struct instance *i, const struct tpm_ops *ops);

 And the struct tpm_ops will contain the following members:

   struct tpm_ops {
     int (*tpm_open)(struct instance *i);
     int (*tpm_close)(struct instance *i);
     int (*tpm_send)(const uint8_t *buf, const size_t size);
     int (*tpm_recv)(uint8_t *buf, size_t *size);
   };

 The behaviour of "tpm_open()" and "tpm_close()" will basically copy the
 behaviour of "tis_open()" and "tis_close()". The "tpm_send()" will be based on
 the "tis_senddata()" and "tis_recv()" will be based on "tis_readresponse()".

 III) Analysis of in-tree drivers
 --------------------------------

 There is only one in-tree driver present, the "drivers/tpm/generic_lpc_tpm.c",
 which will be simply converted as outlined in previous chapter.
	The U-Boot Driver Model Project
	===============================
	TPM system analysis
	===================
	Marek Vasut <marek.vasut@gmail.com>
	2012-02-23

	I) Overview
	-----------

	There is currently only one TPM chip driver available and therefore the API
	controlling it is very much based on this. The API is very simple:

	int tis_open(void);
	int tis_close(void);
	int tis_sendrecv(const u8 *sendbuf, size_t send_size,
	u8 recvbuf, size_t recv_len);

	The command operating the TPM chip only provides operations to send and receive
	bytes from the chip.

	II) Approach
	------------

	The API can't be generalised too much considering there's only one TPM chip
	supported. But it's a good idea to split the tis_sendrecv() function in two
	functions. Therefore the new API will use register the TPM chip by calling:

	tpm_device_register(struct instance i, const struct tpm_ops ops);

	And the struct tpm_ops will contain the following members:

	struct tpm_ops {
	int (tpm_open)(struct instance i);
	int (tpm_close)(struct instance i);
	int (tpm_send)(const uint8_t buf, const size_t size);
	int (tpm_recv)(uint8_t buf, size_t *size);
	};

	The behaviour of "tpm_open()" and "tpm_close()" will basically copy the
	behaviour of "tis_open()" and "tis_close()". The "tpm_send()" will be based on
	the "tis_senddata()" and "tis_recv()" will be based on "tis_readresponse()".

	III) Analysis of in-tree drivers
	--------------------------------

	There is only one in-tree driver present, the "drivers/tpm/generic_lpc_tpm.c",
	which will be simply converted as outlined in previous chapter.