drivers/tpm/sandbox_common.h - mirrors/cros/chromiumos/third_party/u-boot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * Common features for sandbox TPM1 and TPM2 implementations
  *
  * Copyright 2021 Google LLC
  */

 #ifndef __TPM_SANDBOX_COMMON_H
 #define __TPM_SANDBOX_COMMON_H

 /*
  * These numbers derive from adding the sizes of command fields as shown in
  * the TPM commands manual.
  */
 #define TPM_HDR_LEN	10

 /* These are the different non-volatile spaces that we emulate */
 enum sandbox_nv_space {
 	NV_SEQ_ENABLE_LOCKING,
 	NV_SEQ_GLOBAL_LOCK,
 	NV_SEQ_FIRMWARE,
 	NV_SEQ_KERNEL,
 	NV_SEQ_BACKUP,
 	NV_SEQ_FWMP,
 	NV_SEQ_REC_HASH,

 	NV_SEQ_COUNT,
 };

 /* TPM NVRAM location indices */
 #define FIRMWARE_NV_INDEX		0x1007
 #define KERNEL_NV_INDEX			0x1008
 #define BACKUP_NV_INDEX			0x1009
 #define FWMP_NV_INDEX			0x100a
 #define MRC_REC_HASH_NV_INDEX		0x100b

 /* Size of each non-volatile space */
 #define NV_DATA_SIZE		0x28

 /**
  * struct nvdata_state - state of a single non-volatile-data 'space'
  *
  * @present: true if present
  * @length: length in bytes (max NV_DATA_SIZE)
  * @data: contents of non-volatile space
  */
 struct nvdata_state {
 	bool present;
 	int length;
 	u8 data[NV_DATA_SIZE];
 };

 /**
  * sb_tpm_index_to_seq() - convert an index into a space sequence number
  *
  * This converts the index as used by the vboot code into an internal sequence
  * number used by the sandbox emulation.
  *
  * @index: Index to use (FIRMWARE_NV_INDEX, etc.)
  * @return associated space (enum sandbox_nv_space)
  */
 int sb_tpm_index_to_seq(uint index);

 /**
  * sb_tpm_read_data() - Read non-volatile data
  *
  * This handles a TPM read of nvdata. If the nvdata is not present, a
  * TPM_BADINDEX error is put in the buffer. If @length is too large,
  * TPM_BAD_DATASIZE is put in the buffer.
  *
  * @nvdata: Current nvdata state
  * @seq: Sequence number to read
  * @recvbuf: Buffer to update with the TPM response, assumed to contain zeroes
  * @data_ofs: Offset of the 'data' portion of @recvbuf
  * @length: Number of bytes to read
  */
 void sb_tpm_read_data(const struct nvdata_state nvdata[NV_SEQ_COUNT],
 		      enum sandbox_nv_space seq, u8 *recvbuf, int data_ofs,
 		      int length);

 /**
  * sb_tpm_write_data() - Write non-volatile data
  *
  * If @length is too large, an error is logged and nothing is written.
  *
  * @nvdata: Current nvdata state
  * @seq: Sequence number to read
  * @buf: Buffer containing the data to write
  * @data_ofs: Offset of the 'data' portion of @buf
  * @length: Number of bytes to write
  */
 void sb_tpm_write_data(struct nvdata_state nvdata[NV_SEQ_COUNT],
 		       enum sandbox_nv_space seq, const u8 *buf, int data_ofs,
 		       int length);

 /**
  * sb_tpm_define_data() - Set up non-volatile data
  *
  * If @length is too large, an error is logged and nothing is written.
  *
  * @nvdata: Current nvdata state
  * @seq: Sequence number to set up
  * @length: Length of space in bytes
  */
 void sb_tpm_define_data(struct nvdata_state nvdata[NV_SEQ_COUNT],
 			enum sandbox_nv_space seq, int length);

 #endif
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* Common features for sandbox TPM1 and TPM2 implementations
	*
	* Copyright 2021 Google LLC
	*/

	#ifndef __TPM_SANDBOX_COMMON_H
	#define __TPM_SANDBOX_COMMON_H

	/*
	* These numbers derive from adding the sizes of command fields as shown in
	* the TPM commands manual.
	*/
	#define TPM_HDR_LEN 10

	/* These are the different non-volatile spaces that we emulate */
	enum sandbox_nv_space {
	NV_SEQ_ENABLE_LOCKING,
	NV_SEQ_GLOBAL_LOCK,
	NV_SEQ_FIRMWARE,
	NV_SEQ_KERNEL,
	NV_SEQ_BACKUP,
	NV_SEQ_FWMP,
	NV_SEQ_REC_HASH,

	NV_SEQ_COUNT,
	};

	/* TPM NVRAM location indices */
	#define FIRMWARE_NV_INDEX 0x1007
	#define KERNEL_NV_INDEX 0x1008
	#define BACKUP_NV_INDEX 0x1009
	#define FWMP_NV_INDEX 0x100a
	#define MRC_REC_HASH_NV_INDEX 0x100b

	/* Size of each non-volatile space */
	#define NV_DATA_SIZE 0x28

	/**
	* struct nvdata_state - state of a single non-volatile-data 'space'
	*
	* @present: true if present
	* @length: length in bytes (max NV_DATA_SIZE)
	* @data: contents of non-volatile space
	*/
	struct nvdata_state {
	bool present;
	int length;
	u8 data[NV_DATA_SIZE];
	};

	/**
	* sb_tpm_index_to_seq() - convert an index into a space sequence number
	*
	* This converts the index as used by the vboot code into an internal sequence
	* number used by the sandbox emulation.
	*
	* @index: Index to use (FIRMWARE_NV_INDEX, etc.)
	* @return associated space (enum sandbox_nv_space)
	*/
	int sb_tpm_index_to_seq(uint index);

	/**
	* sb_tpm_read_data() - Read non-volatile data
	*
	* This handles a TPM read of nvdata. If the nvdata is not present, a
	* TPM_BADINDEX error is put in the buffer. If @length is too large,
	* TPM_BAD_DATASIZE is put in the buffer.
	*
	* @nvdata: Current nvdata state
	* @seq: Sequence number to read
	* @recvbuf: Buffer to update with the TPM response, assumed to contain zeroes
	* @data_ofs: Offset of the 'data' portion of @recvbuf
	* @length: Number of bytes to read
	*/
	void sb_tpm_read_data(const struct nvdata_state nvdata[NV_SEQ_COUNT],
	enum sandbox_nv_space seq, u8 *recvbuf, int data_ofs,
	int length);

	/**
	* sb_tpm_write_data() - Write non-volatile data
	*
	* If @length is too large, an error is logged and nothing is written.
	*
	* @nvdata: Current nvdata state
	* @seq: Sequence number to read
	* @buf: Buffer containing the data to write
	* @data_ofs: Offset of the 'data' portion of @buf
	* @length: Number of bytes to write
	*/
	void sb_tpm_write_data(struct nvdata_state nvdata[NV_SEQ_COUNT],
	enum sandbox_nv_space seq, const u8 *buf, int data_ofs,
	int length);

	/**
	* sb_tpm_define_data() - Set up non-volatile data
	*
	* If @length is too large, an error is logged and nothing is written.
	*
	* @nvdata: Current nvdata state
	* @seq: Sequence number to set up
	* @length: Length of space in bytes
	*/
	void sb_tpm_define_data(struct nvdata_state nvdata[NV_SEQ_COUNT],
	enum sandbox_nv_space seq, int length);

	#endif