xref: /freebsd/sys/dev/qlnx/qlnxe/nvm_map.h (revision a64729f5077d77e13b9497cb33ecb3c82e606ee8)
1 /*
2  * Copyright (c) 2017-2018 Cavium, Inc.
3  * All rights reserved.
4  *
5  *  Redistribution and use in source and binary forms, with or without
6  *  modification, are permitted provided that the following conditions
7  *  are met:
8  *
9  *  1. Redistributions of source code must retain the above copyright
10  *     notice, this list of conditions and the following disclaimer.
11  *  2. Redistributions in binary form must reproduce the above copyright
12  *     notice, this list of conditions and the following disclaimer in the
13  *     documentation and/or other materials provided with the distribution.
14  *
15  *  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
16  *  AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17  *  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18  *  ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
19  *  LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
20  *  CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
21  *  SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
22  *  INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
23  *  CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
24  *  ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
25  *  POSSIBILITY OF SUCH DAMAGE.
26  *
27  */
28 
29 /****************************************************************************
30  * Name:        nvm_map.h
31  *
32  * Description: Everest NVRAM map
33  *
34  ****************************************************************************/
35 
36 #ifndef NVM_MAP_H
37 #define NVM_MAP_H
38 
39 #define CRC_MAGIC_VALUE                     0xDEBB20E3
40 #define CRC32_POLYNOMIAL                    0xEDB88320
41 #define _KB(x) (x*1024)
42 #define _MB(x) (_KB(x)*1024)
43 #define NVM_CRC_SIZE				(sizeof(u32))
44 enum nvm_sw_arbitrator {
45 	NVM_SW_ARB_HOST,
46 	NVM_SW_ARB_MCP,
47 	NVM_SW_ARB_UART,
48 	NVM_SW_ARB_RESERVED
49 };
50 
51 /****************************************************************************
52  * Boot Strap Region                                                        *
53  ****************************************************************************/
54 struct legacy_bootstrap_region {
55 	u32 magic_value;	/* a pattern not likely to occur randomly */
56 #define NVM_MAGIC_VALUE          0x669955aa
57 	u32 sram_start_addr;	/* where to locate LIM code (byte addr) */
58 	u32 code_len;		/* boot code length (in dwords) */
59 	u32 code_start_addr;	/* location of code on media (media byte addr) */
60 	u32 crc;		/* 32-bit CRC */
61 };
62 
63 /****************************************************************************
64  * Directories Region                                                       *
65  ****************************************************************************/
66 struct nvm_code_entry {
67 	u32 image_type;		/* Image type */
68 	u32 nvm_start_addr;	/* NVM address of the image */
69 	u32 len;		/* Include CRC */
70 	u32 sram_start_addr;	/* Where to load the image on the scratchpad */
71 	u32 sram_run_addr;	/* Relevant in case of MIM only */
72 };
73 
74 enum nvm_image_type {
75 	NVM_TYPE_TIM1       = 0x01,
76 	NVM_TYPE_TIM2       = 0x02,
77 	NVM_TYPE_MIM1       = 0x03,
78 	NVM_TYPE_MIM2       = 0x04,
79 	NVM_TYPE_MBA        = 0x05,
80 	NVM_TYPE_MODULES_PN = 0x06,
81 	NVM_TYPE_VPD        = 0x07,
82 	NVM_TYPE_MFW_TRACE1 = 0x08,
83 	NVM_TYPE_MFW_TRACE2 = 0x09,
84 	NVM_TYPE_NVM_CFG1   = 0x0a,
85 	NVM_TYPE_L2B        = 0x0b,
86 	NVM_TYPE_DIR1       = 0x0c,
87 	NVM_TYPE_EAGLE_FW1  = 0x0d,
88 	NVM_TYPE_FALCON_FW1 = 0x0e,
89 	NVM_TYPE_PCIE_FW1   = 0x0f,
90 	NVM_TYPE_HW_SET     = 0x10,
91 	NVM_TYPE_LIM        = 0x11,
92 	NVM_TYPE_AVS_FW1    = 0x12,
93 	NVM_TYPE_DIR2       = 0x13,
94 	NVM_TYPE_CCM        = 0x14,
95 	NVM_TYPE_EAGLE_FW2  = 0x15,
96 	NVM_TYPE_FALCON_FW2 = 0x16,
97 	NVM_TYPE_PCIE_FW2   = 0x17,
98 	NVM_TYPE_AVS_FW2    = 0x18,
99 	NVM_TYPE_INIT_HW    = 0x19,
100 	NVM_TYPE_DEFAULT_CFG= 0x1a,
101 	NVM_TYPE_MDUMP	    = 0x1b,
102 	NVM_TYPE_NVM_META   = 0x1c,
103 	NVM_TYPE_ISCSI_CFG  = 0x1d,
104 	NVM_TYPE_FCOE_CFG   = 0x1f,
105 	NVM_TYPE_ETH_PHY_FW1 = 0x20,
106 	NVM_TYPE_ETH_PHY_FW2 = 0x21,
107 	NVM_TYPE_BDN        = 0x22,
108 	NVM_TYPE_8485X_PHY_FW = 0x23,
109 	NVM_TYPE_PUB_KEY    = 0x24,
110 	NVM_TYPE_RECOVERY   = 0x25,
111 	NVM_TYPE_PLDM       = 0x26,
112 	NVM_TYPE_UPK1       = 0x27,
113 	NVM_TYPE_UPK2       = 0x28,
114 	NVM_TYPE_MASTER_KC  = 0x29,
115 	NVM_TYPE_BACKUP_KC  = 0x2a,
116 	NVM_TYPE_ROM_TEST   = 0xf0,
117 	NVM_TYPE_MAX,
118 };
119 
120 #ifdef DEFINE_IMAGE_TABLE
121 struct image_map {
122 	char name[32];
123 	char option[32];
124 	u32 image_type;
125 };
126 
127 struct image_map g_image_table[] = {
128 	{"TIM1",        "-tim1",    NVM_TYPE_TIM1},
129 	{"TIM2",        "-tim2",    NVM_TYPE_TIM2},
130 	{"MIM1",        "-mim1",    NVM_TYPE_MIM1},
131 	{"MIM2",        "-mim2",    NVM_TYPE_MIM2},
132 	{"MBA",         "-mba",     NVM_TYPE_MBA},
133 	{"OPT_MODULES", "-optm",    NVM_TYPE_MODULES_PN},
134 	{"VPD",         "-vpd",     NVM_TYPE_VPD},
135 	{"MFW_TRACE1",  "-mfwt1",   NVM_TYPE_MFW_TRACE1},
136 	{"MFW_TRACE2",  "-mfwt2",   NVM_TYPE_MFW_TRACE2},
137 	{"NVM_CFG1",    "-cfg",     NVM_TYPE_NVM_CFG1},
138 	{"L2B",         "-l2b",     NVM_TYPE_L2B},
139 	{"DIR1",        "-dir1",    NVM_TYPE_DIR1},
140 	{"EAGLE_FW1",   "-eagle1",  NVM_TYPE_EAGLE_FW1},
141 	{"FALCON_FW1",  "-falcon1", NVM_TYPE_FALCON_FW1},
142 	{"PCIE_FW1",    "-pcie1",   NVM_TYPE_PCIE_FW1},
143 	{"HW_SET",      "-hw_set",  NVM_TYPE_HW_SET},
144 	{"LIM",         "-lim",     NVM_TYPE_LIM},
145 	{"AVS_FW1",     "-avs1",    NVM_TYPE_AVS_FW1},
146 	{"DIR2",        "-dir2",    NVM_TYPE_DIR2},
147 	{"CCM",         "-ccm",     NVM_TYPE_CCM},
148 	{"EAGLE_FW2",   "-eagle2",  NVM_TYPE_EAGLE_FW2},
149 	{"FALCON_FW2",  "-falcon2", NVM_TYPE_FALCON_FW2},
150 	{"PCIE_FW2",    "-pcie2",   NVM_TYPE_PCIE_FW2},
151 	{"AVS_FW2",     "-avs2",    NVM_TYPE_AVS_FW2},
152 	{"INIT_HW",     "-init_hw", NVM_TYPE_INIT_HW},
153 	{"DEFAULT_CFG", "-def_cfg", NVM_TYPE_DEFAULT_CFG},
154 	{"CRASH_DUMP",  "-mdump",   NVM_TYPE_MDUMP},
155 	{"META",	    "-meta",    NVM_TYPE_NVM_META},
156 	{"ISCSI_CFG",   "-iscsi_cfg", NVM_TYPE_ISCSI_CFG},
157 	{"FCOE_CFG",    "-fcoe_cfg",NVM_TYPE_FCOE_CFG},
158 	{"ETH_PHY_FW1", "-ethphy1", NVM_TYPE_ETH_PHY_FW1},
159 	{"ETH_PHY_FW2", "-ethphy2", NVM_TYPE_ETH_PHY_FW2},
160 	{"BDN",         "-bdn",     NVM_TYPE_BDN},
161 	{"PK",          "-pk",      NVM_TYPE_PUB_KEY},
162 	{"RECOVERY",    "-recovery",NVM_TYPE_RECOVERY},
163 	{"PLDM",        "-pldm",    NVM_TYPE_PLDM},
164 	{"UPK1",        "-upk1",    NVM_TYPE_UPK1},
165 	{"UPK2",        "-upk2",    NVM_TYPE_UPK2},
166 	{"ROMTEST",     "-romtest" ,NVM_TYPE_ROM_TEST},
167 	{"MASTER_KC",	"-kc" 	   ,NVM_TYPE_MASTER_KC},
168 	{"BACKUP_KC",	"" 	   ,NVM_TYPE_BACKUP_KC}
169 };
170 
171 #define IMAGE_TABLE_SIZE (sizeof(g_image_table) / sizeof(struct image_map))
172 
173 #endif	/* #ifdef DEFINE_IMAGE_TABLE */
174 #define MAX_NVM_DIR_ENTRIES 150
175 /* Note: The has given 150 possible entries since anyway each file captures at least one page. */
176 
177 struct nvm_dir_meta {
178 	u32 dir_id;
179 	u32 nvm_dir_addr;
180 	u32 num_images;
181 	u32 next_mfw_to_run;
182 };
183 
184 struct nvm_dir {
185 	s32 seq; /* This dword is used to indicate whether this dir is valid, and whether it is more updated than the other dir */
186 #define NVM_DIR_NEXT_MFW_MASK	0x00000001
187 #define NVM_DIR_SEQ_MASK	0xfffffffe
188 #define NVM_DIR_NEXT_MFW(seq) ((seq) & NVM_DIR_NEXT_MFW_MASK)
189 #define NVM_DIR_UPDATE_SEQ(_seq, swap_mfw) \
190 	do { \
191 		_seq = (((_seq + 2) & NVM_DIR_SEQ_MASK) | (NVM_DIR_NEXT_MFW(_seq ^ swap_mfw))); \
192 	} while (0)
193 #define IS_DIR_SEQ_VALID(seq) ((seq & NVM_DIR_SEQ_MASK) != NVM_DIR_SEQ_MASK)
194 
195 	u32 num_images;
196 	u32 rsrv;
197 	struct nvm_code_entry code[1];	/* Up to MAX_NVM_DIR_ENTRIES */
198 };
199 #define NVM_DIR_SIZE(_num_images) (sizeof(struct nvm_dir) + (_num_images - 1) * sizeof(struct nvm_code_entry) + NVM_CRC_SIZE)
200 
201 struct nvm_vpd_image {
202 	u32 format_revision;
203 #define VPD_IMAGE_VERSION        1
204 
205 	/* This array length depends on the number of VPD fields */
206 	u8 vpd_data[1];
207 };
208 
209 /****************************************************************************
210  * NVRAM FULL MAP                                                           *
211  ****************************************************************************/
212 #define DIR_ID_1    (0)
213 #define DIR_ID_2    (1)
214 #define MAX_DIR_IDS (2)
215 
216 #define MFW_BUNDLE_1    (0)
217 #define MFW_BUNDLE_2    (1)
218 #define MAX_MFW_BUNDLES (2)
219 
220 #define FLASH_PAGE_SIZE 0x1000
221 #define NVM_DIR_MAX_SIZE    (FLASH_PAGE_SIZE) 		/* 4Kb */
222 #define LEGACY_ASIC_MIM_MAX_SIZE  	(_KB(1200))	/* 1.2Mb - E4*/
223 #define NG_ASIC_MIM_MAX_SIZE		(_MB(2))	/* 2Mb - E5 */
224 
225 #define FPGA_MIM_MAX_SIZE   (0x3E000)			/* 250Kb */
226 
227 /* Each image must start on its own page. Bootstrap and LIM are bound together, so they can share the same page.
228  * The LIM itself should be very small, so limit it to 8Kb, but in order to open a new page, we decrement the bootstrap size out of it.
229  */
230 #define LIM_MAX_SIZE	    ((2*FLASH_PAGE_SIZE) - sizeof(struct legacy_bootstrap_region) - NVM_RSV_SIZE)
231 #define LIM_OFFSET          (NVM_OFFSET(lim_image))
232 #define NVM_RSV_SIZE		(44)
233 #define GET_MIM_MAX_SIZE(is_asic, is_e4) ((!is_asic) ? FPGA_MIM_MAX_SIZE : ((is_e4) ?  LEGACY_ASIC_MIM_MAX_SIZE : NG_ASIC_MIM_MAX_SIZE))
234 #define GET_MIM_OFFSET(idx, is_asic, is_e4) (NVM_OFFSET(dir[MAX_MFW_BUNDLES]) + ((idx == NVM_TYPE_MIM2) ?GET_MIM_MAX_SIZE(is_asic, is_e4) : 0))
235 #define GET_NVM_FIXED_AREA_SIZE(is_asic, is_e4) (sizeof(struct nvm_image) + GET_MIM_MAX_SIZE(is_asic, is_e4)*2)
236 
237 #define EMUL_NVM_FIXED_AREA_SIZE() (sizeof(struct nvm_image) + GET_MIM_MAX_SIZE(0, 0))
238 
239 #define E5_MASTER_KEY_CHAIN_ADDR 0x1000
240 #define E5_BACKUP_KEY_CHAIN_ADDR ((0x20000 << (REG_READ(0, MCP_REG_NVM_CFG4) & 0x7)) - 0x1000)
241 
242 union nvm_dir_union {
243 	struct nvm_dir dir;
244 	u8 page[FLASH_PAGE_SIZE];
245 };
246 
247 /*          E4            Address                                 E5            Address
248  *  +-------------------+ 0x000000                     *  +-------------------+ 0x000000
249  *  |    Bootstrap:     |                              *  |                   |
250  *  | magic_number      |                              *  |                   |
251  *  | sram_start_addr   |                              *  |                   |
252  *  | code_len  	|                              *  |                   |
253  *  | code_start_addr   |                              *  |                   |
254  *  | crc               |                              *  |                   |
255  *  +-------------------+ 0x000014                     *  |                   |
256  *  | rsrv              |                              *  | rsrv              |
257  *  +-------------------+ 0x000040                     *  +-------------------+ 0x001000
258  *  | LIM               |                              *  | Master Key Chain  |
259  *  +-------------------+ 0x002000                     *  +-------------------+ 0x002000
260  *  | Dir1              |                              *  | Dir1              |
261  *  +-------------------+ 0x003000                     *  +-------------------+ 0x003000
262  *  | Dir2              |                              *  | Dir2              |
263  *  +-------------------+ 0x004000                     *  +-------------------+ 0x004000
264  *  | MIM1              |                              *  | MIM1              |
265  *  +-------------------+ 0x130000                     *  +-------------------+ 0x130000
266  *  | MIM2              |                              *  | MIM2              |
267  *  +-------------------+ 0x25C000                     *  +-------------------+ 0x25C000
268  *  | Rest Images:      |                              *  | Rest Images:      |
269  *  | TIM1/2    	|                              *  | TIM1/2            |
270  *  | MFW_TRACE1/2      |                              *  | MFW_TRACE1/2      |
271  *  | Eagle/Falcon FW   |                              *  | Eagle/Falcon FW   |
272  *  | PCIE/AVS FW       |                              *  | PCIE/AVS FW       |
273  *  | MBA/CCM/L2B       |                              *  | MBA/CCM/L2B       |
274  *  | VPD       	|                              *  | VPD               |
275  *  | optic_modules     |                              *  +-------------------+ Flash end - 0x1000
276  *  |  ...              |                              *  | Backup Key Chain  |
277  *  +-------------------+ 0x400000                     *  +-------------------+ Flash end
278 */
279 struct nvm_image {
280 /*********** !!!  FIXED SECTIONS  !!! DO NOT MODIFY !!! **********************/
281 						/* NVM Offset  (size) */
282 	struct legacy_bootstrap_region bootstrap;	/* 0x000000 (0x000014) */
283 	u8 rsrv[NVM_RSV_SIZE];			/* 0x000014 (0x00002c) */
284 	u8 lim_image[LIM_MAX_SIZE];		/* 0x000040 (0x001fc0) */
285 	union nvm_dir_union dir[MAX_MFW_BUNDLES];	/* 0x002000 (0x001000)x2 */
286 	/* MIM1_IMAGE        	                   0x004000 (0x12c000) */
287 	/* MIM2_IMAGE                              0x130000 (0x12c000) */
288 /*********** !!!  FIXED SECTIONS  !!! DO NOT MODIFY !!! **********************/
289 };				/* 0x134 */
290 
291 #define NVM_OFFSET(f)       ((u32_t)((int_ptr_t)(&(((struct nvm_image*)0)->f))))
292 
293 struct hw_set_info {
294 	u32 reg_type;
295 #define GRC_REG_TYPE 1
296 #define PHY_REG_TYPE 2
297 #define PCI_REG_TYPE 4
298 
299 	u32 bank_num;
300 	u32 pf_num;
301 	u32 operation;
302 #define READ_OP     1
303 #define WRITE_OP    2
304 #define RMW_SET_OP  3
305 #define RMW_CLR_OP  4
306 
307 	u32 reg_addr;
308 	u32 reg_data;
309 
310 	u32 reset_type;
311 #define POR_RESET_TYPE  (1 << 0)
312 #define HARD_RESET_TYPE (1 << 1)
313 #define CORE_RESET_TYPE (1 << 2)
314 #define MCP_RESET_TYPE  (1 << 3)
315 #define PERSET_ASSERT   (1 << 4)
316 #define PERSET_DEASSERT (1 << 5)
317 
318 };
319 
320 struct hw_set_image {
321 	u32 format_version;
322 #define HW_SET_IMAGE_VERSION        1
323 	u32 no_hw_sets;
324 	/* This array length depends on the no_hw_sets */
325 	struct hw_set_info hw_sets[1];
326 };
327 
328 #endif				//NVM_MAP_H
329