xref: /openbmc/u-boot/arch/arm/include/asm/mach-imx/hab.h (revision e23b19f4)
1 /*
2  * Copyright (C) 2012-2015 Freescale Semiconductor, Inc. All Rights Reserved.
3  *
4  * SPDX-License-Identifier:    GPL-2.0+
5  *
6 */
7 
8 #ifndef __SECURE_MX6Q_H__
9 #define __SECURE_MX6Q_H__
10 
11 #include <linux/types.h>
12 
13 /*
14  * IVT header definitions
15  * Security Reference Manual for i.MX 7Dual and 7Solo Applications Processors,
16  * Rev. 0, 03/2017
17  * Section : 6.7.1.1
18  */
19 #define IVT_HEADER_MAGIC	0xD1
20 #define IVT_TOTAL_LENGTH	0x20
21 #define IVT_HEADER_V1		0x40
22 #define IVT_HEADER_V2		0x41
23 
24 struct ivt_header {
25 	uint8_t		magic;
26 	uint16_t	length;
27 	uint8_t		version;
28 } __attribute__((packed));
29 
30 struct ivt {
31 	struct ivt_header hdr;	/* IVT header above */
32 	uint32_t entry;		/* Absolute address of first instruction */
33 	uint32_t reserved1;	/* Reserved should be zero */
34 	uint32_t dcd;		/* Absolute address of the image DCD */
35 	uint32_t boot;		/* Absolute address of the boot data */
36 	uint32_t self;		/* Absolute address of the IVT */
37 	uint32_t csf;		/* Absolute address of the CSF */
38 	uint32_t reserved2;	/* Reserved should be zero */
39 };
40 
41 /* -------- start of HAB API updates ------------*/
42 /* The following are taken from HAB4 SIS */
43 
44 /* Status definitions */
45 enum hab_status {
46 	HAB_STS_ANY = 0x00,
47 	HAB_FAILURE = 0x33,
48 	HAB_WARNING = 0x69,
49 	HAB_SUCCESS = 0xf0
50 };
51 
52 /* Security Configuration definitions */
53 enum hab_config {
54 	HAB_CFG_RETURN = 0x33,	/* < Field Return IC */
55 	HAB_CFG_OPEN = 0xf0,	/* < Non-secure IC */
56 	HAB_CFG_CLOSED = 0xcc	/* < Secure IC */
57 };
58 
59 /* State definitions */
60 enum hab_state {
61 	HAB_STATE_INITIAL = 0x33,	/* Initialising state (transitory) */
62 	HAB_STATE_CHECK = 0x55,		/* Check state (non-secure) */
63 	HAB_STATE_NONSECURE = 0x66,	/* Non-secure state */
64 	HAB_STATE_TRUSTED = 0x99,	/* Trusted state */
65 	HAB_STATE_SECURE = 0xaa,	/* Secure state */
66 	HAB_STATE_FAIL_SOFT = 0xcc, /* Soft fail state */
67 	HAB_STATE_FAIL_HARD = 0xff, /* Hard fail state (terminal) */
68 	HAB_STATE_NONE = 0xf0,		/* No security state machine */
69 	HAB_STATE_MAX
70 };
71 
72 enum hab_reason {
73 	HAB_RSN_ANY = 0x00,			/* Match any reason */
74 	HAB_ENG_FAIL = 0x30,		/* Engine failure */
75 	HAB_INV_ADDRESS = 0x22,		/* Invalid address: access denied */
76 	HAB_INV_ASSERTION = 0x0c,   /* Invalid assertion */
77 	HAB_INV_CALL = 0x28,		/* Function called out of sequence */
78 	HAB_INV_CERTIFICATE = 0x21, /* Invalid certificate */
79 	HAB_INV_COMMAND = 0x06,     /* Invalid command: command malformed */
80 	HAB_INV_CSF = 0x11,			/* Invalid csf */
81 	HAB_INV_DCD = 0x27,			/* Invalid dcd */
82 	HAB_INV_INDEX = 0x0f,		/* Invalid index: access denied */
83 	HAB_INV_IVT = 0x05,			/* Invalid ivt */
84 	HAB_INV_KEY = 0x1d,			/* Invalid key */
85 	HAB_INV_RETURN = 0x1e,		/* Failed callback function */
86 	HAB_INV_SIGNATURE = 0x18,   /* Invalid signature */
87 	HAB_INV_SIZE = 0x17,		/* Invalid data size */
88 	HAB_MEM_FAIL = 0x2e,		/* Memory failure */
89 	HAB_OVR_COUNT = 0x2b,		/* Expired poll count */
90 	HAB_OVR_STORAGE = 0x2d,		/* Exhausted storage region */
91 	HAB_UNS_ALGORITHM = 0x12,   /* Unsupported algorithm */
92 	HAB_UNS_COMMAND = 0x03,		/* Unsupported command */
93 	HAB_UNS_ENGINE = 0x0a,		/* Unsupported engine */
94 	HAB_UNS_ITEM = 0x24,		/* Unsupported configuration item */
95 	HAB_UNS_KEY = 0x1b,	        /* Unsupported key type/parameters */
96 	HAB_UNS_PROTOCOL = 0x14,	/* Unsupported protocol */
97 	HAB_UNS_STATE = 0x09,		/* Unsuitable state */
98 	HAB_RSN_MAX
99 };
100 
101 enum hab_context {
102 	HAB_CTX_ANY = 0x00,			/* Match any context */
103 	HAB_CTX_FAB = 0xff,		    /* Event logged in hab_fab_test() */
104 	HAB_CTX_ENTRY = 0xe1,		/* Event logged in hab_rvt.entry() */
105 	HAB_CTX_TARGET = 0x33,	    /* Event logged in hab_rvt.check_target() */
106 	HAB_CTX_AUTHENTICATE = 0x0a,/* Logged in hab_rvt.authenticate_image() */
107 	HAB_CTX_DCD = 0xdd,         /* Event logged in hab_rvt.run_dcd() */
108 	HAB_CTX_CSF = 0xcf,         /* Event logged in hab_rvt.run_csf() */
109 	HAB_CTX_COMMAND = 0xc0,     /* Event logged executing csf/dcd command */
110 	HAB_CTX_AUT_DAT = 0xdb,		/* Authenticated data block */
111 	HAB_CTX_ASSERT = 0xa0,		/* Event logged in hab_rvt.assert() */
112 	HAB_CTX_EXIT = 0xee,		/* Event logged in hab_rvt.exit() */
113 	HAB_CTX_MAX
114 };
115 
116 enum hab_target {
117 	HAB_TGT_MEMORY		= 0x0f,
118 	HAB_TGT_PERIPHERAL	= 0xf0,
119 	HAB_TGT_ANY		= 0x55,
120 };
121 
122 struct imx_sec_config_fuse_t {
123 	int bank;
124 	int word;
125 };
126 
127 #if defined(CONFIG_SECURE_BOOT)
128 extern struct imx_sec_config_fuse_t const imx_sec_config_fuse;
129 #endif
130 
131 /*Function prototype description*/
132 typedef enum hab_status hab_rvt_report_event_t(enum hab_status, uint32_t,
133 		uint8_t* , size_t*);
134 typedef enum hab_status hab_rvt_report_status_t(enum hab_config *,
135 		enum hab_state *);
136 typedef enum hab_status hab_loader_callback_f_t(void**, size_t*, const void*);
137 typedef enum hab_status hab_rvt_entry_t(void);
138 typedef enum hab_status hab_rvt_exit_t(void);
139 typedef void *hab_rvt_authenticate_image_t(uint8_t, ptrdiff_t,
140 		void **, size_t *, hab_loader_callback_f_t);
141 typedef enum hab_status hab_rvt_check_target_t(enum hab_target, const void *,
142 					       size_t);
143 typedef void hab_rvt_failsafe_t(void);
144 typedef void hapi_clock_init_t(void);
145 
146 #define HAB_ENG_ANY		0x00   /* Select first compatible engine */
147 #define HAB_ENG_SCC		0x03   /* Security controller */
148 #define HAB_ENG_RTIC	0x05   /* Run-time integrity checker */
149 #define HAB_ENG_SAHARA  0x06   /* Crypto accelerator */
150 #define HAB_ENG_CSU		0x0a   /* Central Security Unit */
151 #define HAB_ENG_SRTC	0x0c   /* Secure clock */
152 #define HAB_ENG_DCP		0x1b   /* Data Co-Processor */
153 #define HAB_ENG_CAAM	0x1d   /* CAAM */
154 #define HAB_ENG_SNVS	0x1e   /* Secure Non-Volatile Storage */
155 #define HAB_ENG_OCOTP	0x21   /* Fuse controller */
156 #define HAB_ENG_DTCP	0x22   /* DTCP co-processor */
157 #define HAB_ENG_ROM		0x36   /* Protected ROM area */
158 #define HAB_ENG_HDCP	0x24   /* HDCP co-processor */
159 #define HAB_ENG_RTL		0x77   /* RTL simulation engine */
160 #define HAB_ENG_SW		0xff   /* Software engine */
161 
162 #ifdef CONFIG_ROM_UNIFIED_SECTIONS
163 #define HAB_RVT_BASE			0x00000100
164 #else
165 #define HAB_RVT_BASE			0x00000094
166 #endif
167 
168 #define HAB_RVT_ENTRY			(*(uint32_t *)(HAB_RVT_BASE + 0x04))
169 #define HAB_RVT_EXIT			(*(uint32_t *)(HAB_RVT_BASE + 0x08))
170 #define HAB_RVT_CHECK_TARGET		(*(uint32_t *)(HAB_RVT_BASE + 0x0C))
171 #define HAB_RVT_AUTHENTICATE_IMAGE	(*(uint32_t *)(HAB_RVT_BASE + 0x10))
172 #define HAB_RVT_REPORT_EVENT		(*(uint32_t *)(HAB_RVT_BASE + 0x20))
173 #define HAB_RVT_REPORT_STATUS		(*(uint32_t *)(HAB_RVT_BASE + 0x24))
174 #define HAB_RVT_FAILSAFE		(*(uint32_t *)(HAB_RVT_BASE + 0x28))
175 
176 #define HAB_RVT_REPORT_EVENT_NEW               (*(uint32_t *)0x000000B8)
177 #define HAB_RVT_REPORT_STATUS_NEW              (*(uint32_t *)0x000000BC)
178 #define HAB_RVT_AUTHENTICATE_IMAGE_NEW         (*(uint32_t *)0x000000A8)
179 #define HAB_RVT_ENTRY_NEW                      (*(uint32_t *)0x0000009C)
180 #define HAB_RVT_EXIT_NEW                       (*(uint32_t *)0x000000A0)
181 
182 #define HAB_CID_ROM 0 /**< ROM Caller ID */
183 #define HAB_CID_UBOOT 1 /**< UBOOT Caller ID*/
184 
185 #define IVT_SIZE			0x20
186 #define CSF_PAD_SIZE			0x2000
187 
188 /* ----------- end of HAB API updates ------------*/
189 
190 int imx_hab_authenticate_image(uint32_t ddr_start, uint32_t image_size,
191 			       uint32_t ivt_offset);
192 bool imx_hab_is_enabled(void);
193 
194 #endif
195