drivers/gpu/drm/nouveau/nvkm/subdev/secboot/priv.h - nest-learning-thermostat/6.0/linux-imx-4.9.88 - Git at Google

 /*
  * Copyright (c) 2015, NVIDIA CORPORATION. All rights reserved.
  *
  * Permission is hereby granted, free of charge, to any person obtaining a
  * copy of this software and associated documentation files (the "Software"),
  * to deal in the Software without restriction, including without limitation
  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
  * and/or sell copies of the Software, and to permit persons to whom the
  * Software is furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
  * DEALINGS IN THE SOFTWARE.
  */

 #ifndef __NVKM_SECBOOT_PRIV_H__
 #define __NVKM_SECBOOT_PRIV_H__

 #include <subdev/secboot.h>
 #include <subdev/mmu.h>

 struct nvkm_secboot_func {
 	int (*init)(struct nvkm_secboot *);
 	int (*fini)(struct nvkm_secboot *, bool suspend);
 	void *(*dtor)(struct nvkm_secboot *);
 	int (*reset)(struct nvkm_secboot *, enum nvkm_secboot_falcon);
 	int (*start)(struct nvkm_secboot *, enum nvkm_secboot_falcon);

 	/* ID of the falcon that will perform secure boot */
 	enum nvkm_secboot_falcon boot_falcon;
 	/* Bit-mask of IDs of managed falcons */
 	unsigned long managed_falcons;
 };

 int nvkm_secboot_ctor(const struct nvkm_secboot_func *, struct nvkm_device *,
 		      int index, struct nvkm_secboot *);
 int nvkm_secboot_falcon_reset(struct nvkm_secboot *);
 int nvkm_secboot_falcon_run(struct nvkm_secboot *);

 struct flcn_u64 {
 	u32 lo;
 	u32 hi;
 };
 static inline u64 flcn64_to_u64(const struct flcn_u64 f)
 {
 	return ((u64)f.hi) << 32 | f.lo;
 }

 /**
  * struct gm200_flcn_bl_desc - DMEM bootloader descriptor
  * @signature:		16B signature for secure code. 0s if no secure code
  * @ctx_dma:		DMA context to be used by BL while loading code/data
  * @code_dma_base:	256B-aligned Physical FB Address where code is located
  *			(falcon's $xcbase register)
  * @non_sec_code_off:	offset from code_dma_base where the non-secure code is
  *                      located. The offset must be multiple of 256 to help perf
  * @non_sec_code_size:	the size of the nonSecure code part.
  * @sec_code_off:	offset from code_dma_base where the secure code is
  *                      located. The offset must be multiple of 256 to help perf
  * @sec_code_size:	offset from code_dma_base where the secure code is
  *                      located. The offset must be multiple of 256 to help perf
  * @code_entry_point:	code entry point which will be invoked by BL after
  *                      code is loaded.
  * @data_dma_base:	256B aligned Physical FB Address where data is located.
  *			(falcon's $xdbase register)
  * @data_size:		size of data block. Should be multiple of 256B
  *
  * Structure used by the bootloader to load the rest of the code. This has
  * to be filled by host and copied into DMEM at offset provided in the
  * hsflcn_bl_desc.bl_desc_dmem_load_off.
  */
 struct gm200_flcn_bl_desc {
 	u32 reserved[4];
 	u32 signature[4];
 	u32 ctx_dma;
 	struct flcn_u64 code_dma_base;
 	u32 non_sec_code_off;
 	u32 non_sec_code_size;
 	u32 sec_code_off;
 	u32 sec_code_size;
 	u32 code_entry_point;
 	struct flcn_u64 data_dma_base;
 	u32 data_size;
 };

 /**
  * struct hsflcn_acr_desc - data section of the HS firmware
  *
  * This header is to be copied at the beginning of DMEM by the HS bootloader.
  *
  * @signature:		signature of ACR ucode
  * @wpr_region_id:	region ID holding the WPR header and its details
  * @wpr_offset:		offset from the WPR region holding the wpr header
  * @regions:		region descriptors
  * @nonwpr_ucode_blob_size:	size of LS blob
  * @nonwpr_ucode_blob_start:	FB location of LS blob is
  */
 struct hsflcn_acr_desc {
 	union {
 		u8 reserved_dmem[0x200];
 		u32 signatures[4];
 	} ucode_reserved_space;
 	u32 wpr_region_id;
 	u32 wpr_offset;
 	u32 mmu_mem_range;
 #define FLCN_ACR_MAX_REGIONS 2
 	struct {
 		u32 no_regions;
 		struct {
 			u32 start_addr;
 			u32 end_addr;
 			u32 region_id;
 			u32 read_mask;
 			u32 write_mask;
 			u32 client_mask;
 		} region_props[FLCN_ACR_MAX_REGIONS];
 	} regions;
 	u32 ucode_blob_size;
 	u64 ucode_blob_base __aligned(8);
 	struct {
 		u32 vpr_enabled;
 		u32 vpr_start;
 		u32 vpr_end;
 		u32 hdcp_policies;
 	} vpr_desc;
 };

 /**
  * Contains the whole secure boot state, allowing it to be performed as needed
  * @wpr_addr:		physical address of the WPR region
  * @wpr_size:		size in bytes of the WPR region
  * @ls_blob:		LS blob of all the LS firmwares, signatures, bootloaders
  * @ls_blob_size:	size of the LS blob
  * @ls_blob_nb_regions:	number of LS firmwares that will be loaded
  * @acr_blob:		HS blob
  * @acr_blob_vma:	mapping of the HS blob into the secure falcon's VM
  * @acr_bl_desc:	bootloader descriptor of the HS blob
  * @hsbl_blob:		HS blob bootloader
  * @inst:		instance block for HS falcon
  * @pgd:		page directory for the HS falcon
  * @vm:			address space used by the HS falcon
  * @falcon_state:	current state of the managed falcons
  * @firmware_ok:	whether the firmware blobs have been created
  */
 struct gm200_secboot {
 	struct nvkm_secboot base;
 	const struct gm200_secboot_func *func;

 	/*
 	 * Address and size of the WPR region. On dGPU this will be the
 	 * address of the LS blob. On Tegra this is a fixed region set by the
 	 * bootloader
 	 */
 	u64 wpr_addr;
 	u32 wpr_size;

 	/*
 	 * HS FW - lock WPR region (dGPU only) and load LS FWs
 	 * on Tegra the HS FW copies the LS blob into the fixed WPR instead
 	 */
 	struct nvkm_gpuobj *acr_load_blob;
 	struct gm200_flcn_bl_desc acr_load_bl_desc;

 	/* HS FW - unlock WPR region (dGPU only) */
 	struct nvkm_gpuobj *acr_unload_blob;
 	struct gm200_flcn_bl_desc acr_unload_bl_desc;

 	/* HS bootloader */
 	void *hsbl_blob;

 	/* LS FWs, to be loaded by the HS ACR */
 	struct nvkm_gpuobj *ls_blob;

 	/* Instance block & address space used for HS FW execution */
 	struct nvkm_gpuobj *inst;
 	struct nvkm_gpuobj *pgd;
 	struct nvkm_vm *vm;

 	/* To keep track of the state of all managed falcons */
 	enum {
 		/* In non-secure state, no firmware loaded, no privileges*/
 		NON_SECURE = 0,
 		/* In low-secure mode and ready to be started */
 		RESET,
 		/* In low-secure mode and running */
 		RUNNING,
 	} falcon_state[NVKM_SECBOOT_FALCON_END];

 	bool firmware_ok;
 };
 #define gm200_secboot(sb) container_of(sb, struct gm200_secboot, base)

 /**
  * Contains functions we wish to abstract between GM200-like implementations
  * @bl_desc_size:	size of the BL descriptor used by this chip.
  * @fixup_bl_desc:	hook that generates the proper BL descriptor format from
  *			the generic GM200 format into a data array of size
  *			bl_desc_size
  * @fixup_hs_desc:	hook that twiddles the HS descriptor before it is used
  * @prepare_blobs:	prepares the various blobs needed for secure booting
  */
 struct gm200_secboot_func {
 	/*
 	 * Size of the bootloader descriptor for this chip. A block of this
 	 * size is allocated before booting a falcon and the fixup_bl_desc
 	 * callback is called on it
 	 */
 	u32 bl_desc_size;
 	void (*fixup_bl_desc)(const struct gm200_flcn_bl_desc *, void *);

 	/*
 	 * Chip-specific modifications of the HS descriptor can be done here.
 	 * On dGPU this is used to fill the information about the WPR region
 	 * we want the HS FW to set up.
 	 */
 	void (*fixup_hs_desc)(struct gm200_secboot *, struct hsflcn_acr_desc *);
 	int (*prepare_blobs)(struct gm200_secboot *);
 };

 int gm200_secboot_init(struct nvkm_secboot *);
 void *gm200_secboot_dtor(struct nvkm_secboot *);
 int gm200_secboot_reset(struct nvkm_secboot *, u32);
 int gm200_secboot_start(struct nvkm_secboot *, u32);

 int gm20x_secboot_prepare_blobs(struct gm200_secboot *);

 #endif
	/*
	* Copyright (c) 2015, NVIDIA CORPORATION. All rights reserved.
	*
	* Permission is hereby granted, free of charge, to any person obtaining a
	* copy of this software and associated documentation files (the "Software"),
	* to deal in the Software without restriction, including without limitation
	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
	* and/or sell copies of the Software, and to permit persons to whom the
	* Software is furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
	* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
	* DEALINGS IN THE SOFTWARE.
	*/

	#ifndef __NVKM_SECBOOT_PRIV_H__
	#define __NVKM_SECBOOT_PRIV_H__

	#include <subdev/secboot.h>
	#include <subdev/mmu.h>

	struct nvkm_secboot_func {
	int (init)(struct nvkm_secboot );
	int (fini)(struct nvkm_secboot , bool suspend);
	void (dtor)(struct nvkm_secboot *);
	int (reset)(struct nvkm_secboot , enum nvkm_secboot_falcon);
	int (start)(struct nvkm_secboot , enum nvkm_secboot_falcon);

	/* ID of the falcon that will perform secure boot */
	enum nvkm_secboot_falcon boot_falcon;
	/* Bit-mask of IDs of managed falcons */
	unsigned long managed_falcons;
	};

	int nvkm_secboot_ctor(const struct nvkm_secboot_func , struct nvkm_device ,
	int index, struct nvkm_secboot *);
	int nvkm_secboot_falcon_reset(struct nvkm_secboot *);
	int nvkm_secboot_falcon_run(struct nvkm_secboot *);

	struct flcn_u64 {
	u32 lo;
	u32 hi;
	};
	static inline u64 flcn64_to_u64(const struct flcn_u64 f)
	{
	return ((u64)f.hi) << 32 \| f.lo;
	}

	/**
	* struct gm200_flcn_bl_desc - DMEM bootloader descriptor
	* @signature: 16B signature for secure code. 0s if no secure code
	* @ctx_dma: DMA context to be used by BL while loading code/data
	* @code_dma_base: 256B-aligned Physical FB Address where code is located
	* (falcon's $xcbase register)
	* @non_sec_code_off: offset from code_dma_base where the non-secure code is
	* located. The offset must be multiple of 256 to help perf
	* @non_sec_code_size: the size of the nonSecure code part.
	* @sec_code_off: offset from code_dma_base where the secure code is
	* located. The offset must be multiple of 256 to help perf
	* @sec_code_size: offset from code_dma_base where the secure code is
	* located. The offset must be multiple of 256 to help perf
	* @code_entry_point: code entry point which will be invoked by BL after
	* code is loaded.
	* @data_dma_base: 256B aligned Physical FB Address where data is located.
	* (falcon's $xdbase register)
	* @data_size: size of data block. Should be multiple of 256B
	*
	* Structure used by the bootloader to load the rest of the code. This has
	* to be filled by host and copied into DMEM at offset provided in the
	* hsflcn_bl_desc.bl_desc_dmem_load_off.
	*/
	struct gm200_flcn_bl_desc {
	u32 reserved[4];
	u32 signature[4];
	u32 ctx_dma;
	struct flcn_u64 code_dma_base;
	u32 non_sec_code_off;
	u32 non_sec_code_size;
	u32 sec_code_off;
	u32 sec_code_size;
	u32 code_entry_point;
	struct flcn_u64 data_dma_base;
	u32 data_size;
	};

	/**
	* struct hsflcn_acr_desc - data section of the HS firmware
	*
	* This header is to be copied at the beginning of DMEM by the HS bootloader.
	*
	* @signature: signature of ACR ucode
	* @wpr_region_id: region ID holding the WPR header and its details
	* @wpr_offset: offset from the WPR region holding the wpr header
	* @regions: region descriptors
	* @nonwpr_ucode_blob_size: size of LS blob
	* @nonwpr_ucode_blob_start: FB location of LS blob is
	*/
	struct hsflcn_acr_desc {
	union {
	u8 reserved_dmem[0x200];
	u32 signatures[4];
	} ucode_reserved_space;
	u32 wpr_region_id;
	u32 wpr_offset;
	u32 mmu_mem_range;
	#define FLCN_ACR_MAX_REGIONS 2
	struct {
	u32 no_regions;
	struct {
	u32 start_addr;
	u32 end_addr;
	u32 region_id;
	u32 read_mask;
	u32 write_mask;
	u32 client_mask;
	} region_props[FLCN_ACR_MAX_REGIONS];
	} regions;
	u32 ucode_blob_size;
	u64 ucode_blob_base __aligned(8);
	struct {
	u32 vpr_enabled;
	u32 vpr_start;
	u32 vpr_end;
	u32 hdcp_policies;
	} vpr_desc;
	};

	/**
	* Contains the whole secure boot state, allowing it to be performed as needed
	* @wpr_addr: physical address of the WPR region
	* @wpr_size: size in bytes of the WPR region
	* @ls_blob: LS blob of all the LS firmwares, signatures, bootloaders
	* @ls_blob_size: size of the LS blob
	* @ls_blob_nb_regions: number of LS firmwares that will be loaded
	* @acr_blob: HS blob
	* @acr_blob_vma: mapping of the HS blob into the secure falcon's VM
	* @acr_bl_desc: bootloader descriptor of the HS blob
	* @hsbl_blob: HS blob bootloader
	* @inst: instance block for HS falcon
	* @pgd: page directory for the HS falcon
	* @vm: address space used by the HS falcon
	* @falcon_state: current state of the managed falcons
	* @firmware_ok: whether the firmware blobs have been created
	*/
	struct gm200_secboot {
	struct nvkm_secboot base;
	const struct gm200_secboot_func *func;

	/*
	* Address and size of the WPR region. On dGPU this will be the
	* address of the LS blob. On Tegra this is a fixed region set by the
	* bootloader
	*/
	u64 wpr_addr;
	u32 wpr_size;

	/*
	* HS FW - lock WPR region (dGPU only) and load LS FWs
	* on Tegra the HS FW copies the LS blob into the fixed WPR instead
	*/
	struct nvkm_gpuobj *acr_load_blob;
	struct gm200_flcn_bl_desc acr_load_bl_desc;

	/* HS FW - unlock WPR region (dGPU only) */
	struct nvkm_gpuobj *acr_unload_blob;
	struct gm200_flcn_bl_desc acr_unload_bl_desc;

	/* HS bootloader */
	void *hsbl_blob;

	/* LS FWs, to be loaded by the HS ACR */
	struct nvkm_gpuobj *ls_blob;

	/* Instance block & address space used for HS FW execution */
	struct nvkm_gpuobj *inst;
	struct nvkm_gpuobj *pgd;
	struct nvkm_vm *vm;

	/* To keep track of the state of all managed falcons */
	enum {
	/* In non-secure state, no firmware loaded, no privileges*/
	NON_SECURE = 0,
	/* In low-secure mode and ready to be started */
	RESET,
	/* In low-secure mode and running */
	RUNNING,
	} falcon_state[NVKM_SECBOOT_FALCON_END];

	bool firmware_ok;
	};
	#define gm200_secboot(sb) container_of(sb, struct gm200_secboot, base)

	/**
	* Contains functions we wish to abstract between GM200-like implementations
	* @bl_desc_size: size of the BL descriptor used by this chip.
	* @fixup_bl_desc: hook that generates the proper BL descriptor format from
	* the generic GM200 format into a data array of size
	* bl_desc_size
	* @fixup_hs_desc: hook that twiddles the HS descriptor before it is used
	* @prepare_blobs: prepares the various blobs needed for secure booting
	*/
	struct gm200_secboot_func {
	/*
	* Size of the bootloader descriptor for this chip. A block of this
	* size is allocated before booting a falcon and the fixup_bl_desc
	* callback is called on it
	*/
	u32 bl_desc_size;
	void (fixup_bl_desc)(const struct gm200_flcn_bl_desc , void *);

	/*
	* Chip-specific modifications of the HS descriptor can be done here.
	* On dGPU this is used to fill the information about the WPR region
	* we want the HS FW to set up.
	*/
	void (fixup_hs_desc)(struct gm200_secboot , struct hsflcn_acr_desc *);
	int (prepare_blobs)(struct gm200_secboot );
	};

	int gm200_secboot_init(struct nvkm_secboot *);
	void gm200_secboot_dtor(struct nvkm_secboot );
	int gm200_secboot_reset(struct nvkm_secboot *, u32);
	int gm200_secboot_start(struct nvkm_secboot *, u32);

	int gm20x_secboot_prepare_blobs(struct gm200_secboot *);

	#endif