blob: 617eba9de76489545fe92364be42445bee60ba92 [file] [log] [blame]
Dominik Geyerb46acba2008-05-16 12:55:55 +00001/*
2 * This file is part of the flashrom project.
3 *
4 * Copyright (C) 2008 Stefan Wildemann <stefan.wildemann@kontron.com>
5 * Copyright (C) 2008 Claus Gindhart <claus.gindhart@kontron.com>
6 * Copyright (C) 2008 Dominik Geyer <dominik.geyer@kontron.com>
Stefan Reinauera9424d52008-06-27 16:28:34 +00007 * Copyright (C) 2008 coresystems GmbH <info@coresystems.de>
Carl-Daniel Hailfinger5824fbf2010-05-21 23:09:42 +00008 * Copyright (C) 2009, 2010 Carl-Daniel Hailfinger
Stefan Tauner8b391b82011-08-09 01:49:34 +00009 * Copyright (C) 2011 Stefan Tauner
Dominik Geyerb46acba2008-05-16 12:55:55 +000010 *
11 * This program is free software; you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License as published by
13 * the Free Software Foundation; either version 2 of the License, or
14 * (at your option) any later version.
15 *
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
Dominik Geyerb46acba2008-05-16 12:55:55 +000020 */
21
Dominik Geyerb46acba2008-05-16 12:55:55 +000022#include <string.h>
Felix Singer8cfc7372022-08-19 03:10:29 +020023#include <stdbool.h>
Stefan Taunerd0c5dc22011-10-20 12:57:14 +000024#include <stdlib.h>
Dominik Geyerb46acba2008-05-16 12:55:55 +000025#include "flash.h"
Carl-Daniel Hailfinger5b997c32010-07-27 22:41:39 +000026#include "programmer.h"
Thomas Heijligen74b4aa02021-12-14 17:52:30 +010027#include "hwaccess_physmap.h"
Nico Huberd5185632024-01-05 18:44:41 +010028#include "spi_command.h"
Dominik Geyerb46acba2008-05-16 12:55:55 +000029#include "spi.h"
Stefan Tauner1e146392011-09-15 23:52:55 +000030#include "ich_descriptors.h"
Dominik Geyerb46acba2008-05-16 12:55:55 +000031
Nico Huberd2d39932019-01-18 16:49:37 +010032/* Apollo Lake */
33#define APL_REG_FREG12 0xe0 /* 32 Bytes Flash Region 12 */
34
Nico Huberd54e4f42017-03-23 23:45:47 +010035/* Sunrise Point */
36
37/* Added HSFS Status bits */
38#define HSFS_WRSDIS_OFF 11 /* 11: Flash Configuration Lock-Down */
39#define HSFS_WRSDIS (0x1 << HSFS_WRSDIS_OFF)
40#define HSFS_PRR34_LOCKDN_OFF 12 /* 12: PRR3 PRR4 Lock-Down */
41#define HSFS_PRR34_LOCKDN (0x1 << HSFS_PRR34_LOCKDN_OFF)
42/* HSFS_BERASE vanished */
43
44/*
45 * HSFC and HSFS 16-bit registers are combined into the 32-bit
46 * BIOS_HSFSTS_CTL register in the Sunrise Point datasheet,
47 * however we still treat them separately in order to reuse code.
48 */
49
50/* Changed HSFC Control bits */
51#define PCH100_HSFC_FCYCLE_OFF (17 - 16) /* 1-4: FLASH Cycle */
52#define PCH100_HSFC_FCYCLE (0xf << PCH100_HSFC_FCYCLE_OFF)
53/* New HSFC Control bit */
54#define HSFC_WET_OFF (21 - 16) /* 5: Write Enable Type */
55#define HSFC_WET (0x1 << HSFC_WET_OFF)
56
57#define PCH100_FADDR_FLA 0x07ffffff
58
59#define PCH100_REG_DLOCK 0x0c /* 32 Bits Discrete Lock Bits */
60#define DLOCK_BMWAG_LOCKDN_OFF 0
61#define DLOCK_BMWAG_LOCKDN (0x1 << DLOCK_BMWAG_LOCKDN_OFF)
62#define DLOCK_BMRAG_LOCKDN_OFF 1
63#define DLOCK_BMRAG_LOCKDN (0x1 << DLOCK_BMRAG_LOCKDN_OFF)
64#define DLOCK_SBMWAG_LOCKDN_OFF 2
65#define DLOCK_SBMWAG_LOCKDN (0x1 << DLOCK_SBMWAG_LOCKDN_OFF)
66#define DLOCK_SBMRAG_LOCKDN_OFF 3
67#define DLOCK_SBMRAG_LOCKDN (0x1 << DLOCK_SBMRAG_LOCKDN_OFF)
68#define DLOCK_PR0_LOCKDN_OFF 8
69#define DLOCK_PR0_LOCKDN (0x1 << DLOCK_PR0_LOCKDN_OFF)
70#define DLOCK_PR1_LOCKDN_OFF 9
71#define DLOCK_PR1_LOCKDN (0x1 << DLOCK_PR1_LOCKDN_OFF)
72#define DLOCK_PR2_LOCKDN_OFF 10
73#define DLOCK_PR2_LOCKDN (0x1 << DLOCK_PR2_LOCKDN_OFF)
74#define DLOCK_PR3_LOCKDN_OFF 11
75#define DLOCK_PR3_LOCKDN (0x1 << DLOCK_PR3_LOCKDN_OFF)
76#define DLOCK_PR4_LOCKDN_OFF 12
77#define DLOCK_PR4_LOCKDN (0x1 << DLOCK_PR4_LOCKDN_OFF)
78#define DLOCK_SSEQ_LOCKDN_OFF 16
79#define DLOCK_SSEQ_LOCKDN (0x1 << DLOCK_SSEQ_LOCKDN_OFF)
80
81#define PCH100_REG_FPR0 0x84 /* 32 Bits Protected Range 0 */
82#define PCH100_REG_GPR0 0x98 /* 32 Bits Global Protected Range 0 */
83
84#define PCH100_REG_SSFSC 0xA0 /* 32 Bits Status (8) + Control (24) */
85#define PCH100_REG_PREOP 0xA4 /* 16 Bits */
86#define PCH100_REG_OPTYPE 0xA6 /* 16 Bits */
87#define PCH100_REG_OPMENU 0xA8 /* 64 Bits */
88
Stefan Reinauera9424d52008-06-27 16:28:34 +000089/* ICH9 controller register definition */
Stefan Tauner55206942011-06-11 09:53:22 +000090#define ICH9_REG_HSFS 0x04 /* 16 Bits Hardware Sequencing Flash Status */
91#define HSFS_FDONE_OFF 0 /* 0: Flash Cycle Done */
92#define HSFS_FDONE (0x1 << HSFS_FDONE_OFF)
93#define HSFS_FCERR_OFF 1 /* 1: Flash Cycle Error */
94#define HSFS_FCERR (0x1 << HSFS_FCERR_OFF)
95#define HSFS_AEL_OFF 2 /* 2: Access Error Log */
96#define HSFS_AEL (0x1 << HSFS_AEL_OFF)
97#define HSFS_BERASE_OFF 3 /* 3-4: Block/Sector Erase Size */
98#define HSFS_BERASE (0x3 << HSFS_BERASE_OFF)
99#define HSFS_SCIP_OFF 5 /* 5: SPI Cycle In Progress */
100#define HSFS_SCIP (0x1 << HSFS_SCIP_OFF)
101 /* 6-12: reserved */
102#define HSFS_FDOPSS_OFF 13 /* 13: Flash Descriptor Override Pin-Strap Status */
103#define HSFS_FDOPSS (0x1 << HSFS_FDOPSS_OFF)
104#define HSFS_FDV_OFF 14 /* 14: Flash Descriptor Valid */
105#define HSFS_FDV (0x1 << HSFS_FDV_OFF)
106#define HSFS_FLOCKDN_OFF 15 /* 15: Flash Configuration Lock-Down */
107#define HSFS_FLOCKDN (0x1 << HSFS_FLOCKDN_OFF)
108
109#define ICH9_REG_HSFC 0x06 /* 16 Bits Hardware Sequencing Flash Control */
110#define HSFC_FGO_OFF 0 /* 0: Flash Cycle Go */
111#define HSFC_FGO (0x1 << HSFC_FGO_OFF)
112#define HSFC_FCYCLE_OFF 1 /* 1-2: FLASH Cycle */
113#define HSFC_FCYCLE (0x3 << HSFC_FCYCLE_OFF)
114 /* 3-7: reserved */
115#define HSFC_FDBC_OFF 8 /* 8-13: Flash Data Byte Count */
116#define HSFC_FDBC (0x3f << HSFC_FDBC_OFF)
117 /* 14: reserved */
118#define HSFC_SME_OFF 15 /* 15: SPI SMI# Enable */
119#define HSFC_SME (0x1 << HSFC_SME_OFF)
120
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000121#define ICH9_REG_FADDR 0x08 /* 32 Bits */
Nico Huberd54e4f42017-03-23 23:45:47 +0100122#define ICH9_FADDR_FLA 0x01ffffff
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000123#define ICH9_REG_FDATA0 0x10 /* 64 Bytes */
Stefan Reinauera9424d52008-06-27 16:28:34 +0000124
Stefan Tauner29c80832011-06-12 08:14:10 +0000125#define ICH9_REG_FRAP 0x50 /* 32 Bytes Flash Region Access Permissions */
126#define ICH9_REG_FREG0 0x54 /* 32 Bytes Flash Region 0 */
127
128#define ICH9_REG_PR0 0x74 /* 32 Bytes Protected Range 0 */
Stefan Taunerbf69aaa2011-09-17 21:21:48 +0000129#define PR_WP_OFF 31 /* 31: write protection enable */
130#define PR_RP_OFF 15 /* 15: read protection enable */
Stefan Tauner29c80832011-06-12 08:14:10 +0000131
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000132#define ICH9_REG_SSFS 0x90 /* 08 Bits */
Stefan Tauner0c1ec452011-06-11 09:53:09 +0000133#define SSFS_SCIP_OFF 0 /* SPI Cycle In Progress */
134#define SSFS_SCIP (0x1 << SSFS_SCIP_OFF)
135#define SSFS_FDONE_OFF 2 /* Cycle Done Status */
136#define SSFS_FDONE (0x1 << SSFS_FDONE_OFF)
137#define SSFS_FCERR_OFF 3 /* Flash Cycle Error */
138#define SSFS_FCERR (0x1 << SSFS_FCERR_OFF)
139#define SSFS_AEL_OFF 4 /* Access Error Log */
140#define SSFS_AEL (0x1 << SSFS_AEL_OFF)
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000141/* The following bits are reserved in SSFS: 1,5-7. */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000142#define SSFS_RESERVED_MASK 0x000000e2
Stefan Reinauera9424d52008-06-27 16:28:34 +0000143
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000144#define ICH9_REG_SSFC 0x91 /* 24 Bits */
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000145/* We combine SSFS and SSFC to one 32-bit word,
Stefan Tauner0c1ec452011-06-11 09:53:09 +0000146 * therefore SSFC bits are off by 8. */
147 /* 0: reserved */
148#define SSFC_SCGO_OFF (1 + 8) /* 1: SPI Cycle Go */
149#define SSFC_SCGO (0x1 << SSFC_SCGO_OFF)
150#define SSFC_ACS_OFF (2 + 8) /* 2: Atomic Cycle Sequence */
151#define SSFC_ACS (0x1 << SSFC_ACS_OFF)
152#define SSFC_SPOP_OFF (3 + 8) /* 3: Sequence Prefix Opcode Pointer */
153#define SSFC_SPOP (0x1 << SSFC_SPOP_OFF)
154#define SSFC_COP_OFF (4 + 8) /* 4-6: Cycle Opcode Pointer */
155#define SSFC_COP (0x7 << SSFC_COP_OFF)
156 /* 7: reserved */
157#define SSFC_DBC_OFF (8 + 8) /* 8-13: Data Byte Count */
158#define SSFC_DBC (0x3f << SSFC_DBC_OFF)
159#define SSFC_DS_OFF (14 + 8) /* 14: Data Cycle */
160#define SSFC_DS (0x1 << SSFC_DS_OFF)
161#define SSFC_SME_OFF (15 + 8) /* 15: SPI SMI# Enable */
162#define SSFC_SME (0x1 << SSFC_SME_OFF)
163#define SSFC_SCF_OFF (16 + 8) /* 16-18: SPI Cycle Frequency */
164#define SSFC_SCF (0x7 << SSFC_SCF_OFF)
165#define SSFC_SCF_20MHZ 0x00000000
166#define SSFC_SCF_33MHZ 0x01000000
167 /* 19-23: reserved */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000168#define SSFC_RESERVED_MASK 0xf8008100
Stefan Reinauera9424d52008-06-27 16:28:34 +0000169
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000170#define ICH9_REG_PREOP 0x94 /* 16 Bits */
171#define ICH9_REG_OPTYPE 0x96 /* 16 Bits */
172#define ICH9_REG_OPMENU 0x98 /* 64 Bits */
Dominik Geyerb46acba2008-05-16 12:55:55 +0000173
Stefan Tauner29c80832011-06-12 08:14:10 +0000174#define ICH9_REG_BBAR 0xA0 /* 32 Bits BIOS Base Address Configuration */
175#define BBAR_MASK 0x00ffff00 /* 8-23: Bottom of System Flash */
176
Stefan Tauner1e146392011-09-15 23:52:55 +0000177#define ICH8_REG_VSCC 0xC1 /* 32 Bits Vendor Specific Component Capabilities */
178#define ICH9_REG_LVSCC 0xC4 /* 32 Bits Host Lower Vendor Specific Component Capabilities */
179#define ICH9_REG_UVSCC 0xC8 /* 32 Bits Host Upper Vendor Specific Component Capabilities */
180/* The individual fields of the VSCC registers are defined in the file
181 * ich_descriptors.h. The reason is that the same layout is also used in the
182 * flash descriptor to define the properties of the different flash chips
183 * supported. The BIOS (or the ME?) is responsible to populate the ICH registers
184 * with the information from the descriptor on startup depending on the actual
185 * chip(s) detected. */
186
Stefan Taunerbd649e42011-07-01 00:39:16 +0000187#define ICH9_REG_FPB 0xD0 /* 32 Bits Flash Partition Boundary */
188#define FPB_FPBA_OFF 0 /* 0-12: Block/Sector Erase Size */
189#define FPB_FPBA (0x1FFF << FPB_FPBA_OFF)
190
Dominik Geyerb46acba2008-05-16 12:55:55 +0000191// ICH9R SPI commands
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000192#define SPI_OPCODE_TYPE_READ_NO_ADDRESS 0
193#define SPI_OPCODE_TYPE_WRITE_NO_ADDRESS 1
194#define SPI_OPCODE_TYPE_READ_WITH_ADDRESS 2
195#define SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS 3
Dominik Geyerb46acba2008-05-16 12:55:55 +0000196
Stefan Reinauera9424d52008-06-27 16:28:34 +0000197// ICH7 registers
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000198#define ICH7_REG_SPIS 0x00 /* 16 Bits */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000199#define SPIS_SCIP 0x0001
200#define SPIS_GRANT 0x0002
201#define SPIS_CDS 0x0004
202#define SPIS_FCERR 0x0008
203#define SPIS_RESERVED_MASK 0x7ff0
Stefan Reinauera9424d52008-06-27 16:28:34 +0000204
Rudolf Marek3fdbccf2008-06-30 21:38:30 +0000205/* VIA SPI is compatible with ICH7, but maxdata
206 to transfer is 16 bytes.
207
208 DATA byte count on ICH7 is 8:13, on VIA 8:11
209
210 bit 12 is port select CS0 CS1
211 bit 13 is FAST READ enable
212 bit 7 is used with fast read and one shot controls CS de-assert?
213*/
214
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000215#define ICH7_REG_SPIC 0x02 /* 16 Bits */
216#define SPIC_SCGO 0x0002
217#define SPIC_ACS 0x0004
218#define SPIC_SPOP 0x0008
219#define SPIC_DS 0x4000
Stefan Reinauera9424d52008-06-27 16:28:34 +0000220
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000221#define ICH7_REG_SPIA 0x04 /* 32 Bits */
222#define ICH7_REG_SPID0 0x08 /* 64 Bytes */
223#define ICH7_REG_PREOP 0x54 /* 16 Bits */
224#define ICH7_REG_OPTYPE 0x56 /* 16 Bits */
225#define ICH7_REG_OPMENU 0x58 /* 64 Bits */
Stefan Reinauera9424d52008-06-27 16:28:34 +0000226
Nico Huber7590d1a2016-05-03 13:38:28 +0200227enum ich_access_protection {
228 NO_PROT = 0,
229 READ_PROT = 1,
230 WRITE_PROT = 2,
231 LOCKED = 3,
232};
233
FENG yu ningc05a2952008-12-08 18:16:58 +0000234/* ICH SPI configuration lock-down. May be set during chipset enabling. */
Felix Singer8cfc7372022-08-19 03:10:29 +0200235static bool ichspi_lock = false;
FENG yu ningc05a2952008-12-08 18:16:58 +0000236
Stefan Taunera8d838d2011-11-06 23:51:09 +0000237static enum ich_chipset ich_generation = CHIPSET_ICH_UNKNOWN;
Nico Hubered098d62017-04-21 23:47:08 +0200238static uint32_t ichspi_bbar;
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000239
Michael Karchera4448d92010-07-22 18:04:15 +0000240static void *ich_spibar = NULL;
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000241
Dominik Geyerb46acba2008-05-16 12:55:55 +0000242typedef struct _OPCODE {
243 uint8_t opcode; //This commands spi opcode
244 uint8_t spi_type; //This commands spi type
245 uint8_t atomic; //Use preop: (0: none, 1: preop0, 2: preop1
246} OPCODE;
247
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000248/* Suggested opcode definition:
Dominik Geyerb46acba2008-05-16 12:55:55 +0000249 * Preop 1: Write Enable
250 * Preop 2: Write Status register enable
251 *
252 * OP 0: Write address
253 * OP 1: Read Address
254 * OP 2: ERASE block
255 * OP 3: Read Status register
256 * OP 4: Read ID
257 * OP 5: Write Status register
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000258 * OP 6: chip private (read JEDEC id)
Dominik Geyerb46acba2008-05-16 12:55:55 +0000259 * OP 7: Chip erase
260 */
261typedef struct _OPCODES {
262 uint8_t preop[2];
263 OPCODE opcode[8];
264} OPCODES;
265
Stefan Reinauer325b5d42008-06-27 15:18:20 +0000266static OPCODES *curopcodes = NULL;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000267
268/* HW access functions */
Uwe Hermann09e04f72009-05-16 22:36:00 +0000269static uint32_t REGREAD32(int X)
Dominik Geyerb46acba2008-05-16 12:55:55 +0000270{
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000271 return mmio_readl(ich_spibar + X);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000272}
273
Uwe Hermann09e04f72009-05-16 22:36:00 +0000274static uint16_t REGREAD16(int X)
Stefan Reinauera9424d52008-06-27 16:28:34 +0000275{
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000276 return mmio_readw(ich_spibar + X);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000277}
278
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000279static uint16_t REGREAD8(int X)
280{
281 return mmio_readb(ich_spibar + X);
282}
283
Stefan Taunerccd92a12011-07-01 00:39:01 +0000284#define REGWRITE32(off, val) mmio_writel(val, ich_spibar+(off))
285#define REGWRITE16(off, val) mmio_writew(val, ich_spibar+(off))
286#define REGWRITE8(off, val) mmio_writeb(val, ich_spibar+(off))
Dominik Geyerb46acba2008-05-16 12:55:55 +0000287
Dominik Geyerb46acba2008-05-16 12:55:55 +0000288/* Common SPI functions */
Uwe Hermann09e04f72009-05-16 22:36:00 +0000289static int find_opcode(OPCODES *op, uint8_t opcode);
290static int find_preop(OPCODES *op, uint8_t preop);
FENG yu ningf041e9b2008-12-15 02:32:11 +0000291static int generate_opcodes(OPCODES * op);
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000292static int program_opcodes(OPCODES *op, int enable_undo);
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +0000293static int run_opcode(const struct flashctx *flash, OPCODE op, uint32_t offset,
Stefan Reinauer325b5d42008-06-27 15:18:20 +0000294 uint8_t datalength, uint8_t * data);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000295
FENG yu ningf041e9b2008-12-15 02:32:11 +0000296/* for pairing opcodes with their required preop */
297struct preop_opcode_pair {
298 uint8_t preop;
299 uint8_t opcode;
300};
301
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000302/* List of opcodes which need preopcodes and matching preopcodes. Unused. */
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000303const struct preop_opcode_pair pops[] = {
FENG yu ningf041e9b2008-12-15 02:32:11 +0000304 {JEDEC_WREN, JEDEC_BYTE_PROGRAM},
305 {JEDEC_WREN, JEDEC_SE}, /* sector erase */
306 {JEDEC_WREN, JEDEC_BE_52}, /* block erase */
307 {JEDEC_WREN, JEDEC_BE_D8}, /* block erase */
308 {JEDEC_WREN, JEDEC_CE_60}, /* chip erase */
309 {JEDEC_WREN, JEDEC_CE_C7}, /* chip erase */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000310 /* FIXME: WRSR requires either EWSR or WREN depending on chip type. */
311 {JEDEC_WREN, JEDEC_WRSR},
FENG yu ningf041e9b2008-12-15 02:32:11 +0000312 {JEDEC_EWSR, JEDEC_WRSR},
313 {0,}
314};
315
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000316/* Reasonable default configuration. Needs ad-hoc modifications if we
317 * encounter unlisted opcodes. Fun.
318 */
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000319static OPCODES O_ST_M25P = {
Dominik Geyerb46acba2008-05-16 12:55:55 +0000320 {
321 JEDEC_WREN,
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000322 JEDEC_EWSR,
323 },
Dominik Geyerb46acba2008-05-16 12:55:55 +0000324 {
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000325 {JEDEC_BYTE_PROGRAM, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Write Byte
Stefan Reinauer325b5d42008-06-27 15:18:20 +0000326 {JEDEC_READ, SPI_OPCODE_TYPE_READ_WITH_ADDRESS, 0}, // Read Data
David Hendricks15f539c2010-08-26 21:27:17 -0700327 {JEDEC_SE, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Erase Sector
Stefan Reinauer325b5d42008-06-27 15:18:20 +0000328 {JEDEC_RDSR, SPI_OPCODE_TYPE_READ_NO_ADDRESS, 0}, // Read Device Status Reg
Carl-Daniel Hailfinger15aa7c62009-05-26 21:25:08 +0000329 {JEDEC_REMS, SPI_OPCODE_TYPE_READ_WITH_ADDRESS, 0}, // Read Electronic Manufacturer Signature
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000330 {JEDEC_WRSR, SPI_OPCODE_TYPE_WRITE_NO_ADDRESS, 0}, // Write Status Register
Stefan Reinauer325b5d42008-06-27 15:18:20 +0000331 {JEDEC_RDID, SPI_OPCODE_TYPE_READ_NO_ADDRESS, 0}, // Read JDEC ID
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000332 {JEDEC_CE_C7, SPI_OPCODE_TYPE_WRITE_NO_ADDRESS, 0}, // Bulk erase
333 }
Dominik Geyerb46acba2008-05-16 12:55:55 +0000334};
335
Helge Wagner738e2522010-10-05 22:06:05 +0000336/* List of opcodes with their corresponding spi_type
337 * It is used to reprogram the chipset OPCODE table on-the-fly if an opcode
338 * is needed which is currently not in the chipset OPCODE table
339 */
340static OPCODE POSSIBLE_OPCODES[] = {
341 {JEDEC_BYTE_PROGRAM, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Write Byte
342 {JEDEC_READ, SPI_OPCODE_TYPE_READ_WITH_ADDRESS, 0}, // Read Data
343 {JEDEC_BE_D8, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Erase Sector
344 {JEDEC_RDSR, SPI_OPCODE_TYPE_READ_NO_ADDRESS, 0}, // Read Device Status Reg
345 {JEDEC_REMS, SPI_OPCODE_TYPE_READ_WITH_ADDRESS, 0}, // Read Electronic Manufacturer Signature
346 {JEDEC_WRSR, SPI_OPCODE_TYPE_WRITE_NO_ADDRESS, 0}, // Write Status Register
347 {JEDEC_RDID, SPI_OPCODE_TYPE_READ_NO_ADDRESS, 0}, // Read JDEC ID
348 {JEDEC_CE_C7, SPI_OPCODE_TYPE_WRITE_NO_ADDRESS, 0}, // Bulk erase
349 {JEDEC_SE, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Sector erase
350 {JEDEC_BE_52, SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS, 0}, // Block erase
351 {JEDEC_AAI_WORD_PROGRAM, SPI_OPCODE_TYPE_WRITE_NO_ADDRESS, 0}, // Auto Address Increment
352};
353
Carl-Daniel Hailfingerad3cc552010-07-03 11:02:10 +0000354static OPCODES O_EXISTING = {};
FENG yu ningc05a2952008-12-08 18:16:58 +0000355
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000356/* pretty printing functions */
Stefan Tauner8b391b82011-08-09 01:49:34 +0000357static void prettyprint_opcodes(OPCODES *ops)
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000358{
Stefan Tauner84e1dde2011-09-17 19:53:11 +0000359 OPCODE oc;
360 const char *t;
361 const char *a;
362 uint8_t i;
363 static const char *const spi_type[4] = {
364 "read w/o addr",
365 "write w/o addr",
366 "read w/ addr",
367 "write w/ addr"
368 };
369 static const char *const atomic_type[3] = {
370 "none",
371 " 0 ",
372 " 1 "
373 };
374
375 if (ops == NULL)
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000376 return;
377
Stefan Tauner84e1dde2011-09-17 19:53:11 +0000378 msg_pdbg2(" OP Type Pre-OP\n");
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000379 for (i = 0; i < 8; i++) {
380 oc = ops->opcode[i];
Stefan Tauner84e1dde2011-09-17 19:53:11 +0000381 t = (oc.spi_type > 3) ? "invalid" : spi_type[oc.spi_type];
382 a = (oc.atomic > 2) ? "invalid" : atomic_type[oc.atomic];
383 msg_pdbg2("op[%d]: 0x%02x, %s, %s\n", i, oc.opcode, t, a);
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000384 }
Stefan Tauner84e1dde2011-09-17 19:53:11 +0000385 msg_pdbg2("Pre-OP 0: 0x%02x, Pre-OP 1: 0x%02x\n", ops->preop[0],
386 ops->preop[1]);
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000387}
388
Nico Huberd54e4f42017-03-23 23:45:47 +0100389#define _pprint_reg(bit, mask, off, val, sep) msg_pdbg("%s=%d" sep, #bit, (val & mask) >> off)
390#define pprint_reg(reg, bit, val, sep) _pprint_reg(bit, reg##_##bit, reg##_##bit##_OFF, val, sep)
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000391
Stefan Tauner55206942011-06-11 09:53:22 +0000392static void prettyprint_ich9_reg_hsfs(uint16_t reg_val)
393{
394 msg_pdbg("HSFS: ");
395 pprint_reg(HSFS, FDONE, reg_val, ", ");
396 pprint_reg(HSFS, FCERR, reg_val, ", ");
397 pprint_reg(HSFS, AEL, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200398 switch (ich_generation) {
399 case CHIPSET_100_SERIES_SUNRISE_POINT:
400 case CHIPSET_C620_SERIES_LEWISBURG:
401 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +0200402 case CHIPSET_500_SERIES_TIGER_POINT:
Werner Zehe57d4e42022-01-03 09:44:29 +0100403 case CHIPSET_ELKHART_LAKE:
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200404 break;
405 default:
Nico Huberd54e4f42017-03-23 23:45:47 +0100406 pprint_reg(HSFS, BERASE, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200407 break;
Nico Huberd54e4f42017-03-23 23:45:47 +0100408 }
Stefan Tauner55206942011-06-11 09:53:22 +0000409 pprint_reg(HSFS, SCIP, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200410 switch (ich_generation) {
411 case CHIPSET_100_SERIES_SUNRISE_POINT:
412 case CHIPSET_C620_SERIES_LEWISBURG:
413 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +0200414 case CHIPSET_500_SERIES_TIGER_POINT:
Werner Zehe57d4e42022-01-03 09:44:29 +0100415 case CHIPSET_ELKHART_LAKE:
Nico Huberd54e4f42017-03-23 23:45:47 +0100416 pprint_reg(HSFS, PRR34_LOCKDN, reg_val, ", ");
417 pprint_reg(HSFS, WRSDIS, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200418 break;
419 default:
420 break;
Nico Huberd54e4f42017-03-23 23:45:47 +0100421 }
Stefan Tauner55206942011-06-11 09:53:22 +0000422 pprint_reg(HSFS, FDOPSS, reg_val, ", ");
423 pprint_reg(HSFS, FDV, reg_val, ", ");
424 pprint_reg(HSFS, FLOCKDN, reg_val, "\n");
425}
426
427static void prettyprint_ich9_reg_hsfc(uint16_t reg_val)
428{
429 msg_pdbg("HSFC: ");
430 pprint_reg(HSFC, FGO, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200431 switch (ich_generation) {
432 case CHIPSET_100_SERIES_SUNRISE_POINT:
433 case CHIPSET_C620_SERIES_LEWISBURG:
434 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +0200435 case CHIPSET_500_SERIES_TIGER_POINT:
Werner Zehe57d4e42022-01-03 09:44:29 +0100436 case CHIPSET_ELKHART_LAKE:
Nico Huberd54e4f42017-03-23 23:45:47 +0100437 _pprint_reg(HSFC, PCH100_HSFC_FCYCLE, PCH100_HSFC_FCYCLE_OFF, reg_val, ", ");
438 pprint_reg(HSFC, WET, reg_val, ", ");
Nico Huber2a5dfaf2019-07-04 16:01:51 +0200439 break;
440 default:
441 pprint_reg(HSFC, FCYCLE, reg_val, ", ");
442 break;
Nico Huberd54e4f42017-03-23 23:45:47 +0100443 }
Stefan Tauner55206942011-06-11 09:53:22 +0000444 pprint_reg(HSFC, FDBC, reg_val, ", ");
445 pprint_reg(HSFC, SME, reg_val, "\n");
446}
447
Stefan Tauner2a8b2622011-06-11 09:53:16 +0000448static void prettyprint_ich9_reg_ssfs(uint32_t reg_val)
449{
450 msg_pdbg("SSFS: ");
451 pprint_reg(SSFS, SCIP, reg_val, ", ");
452 pprint_reg(SSFS, FDONE, reg_val, ", ");
453 pprint_reg(SSFS, FCERR, reg_val, ", ");
454 pprint_reg(SSFS, AEL, reg_val, "\n");
455}
456
457static void prettyprint_ich9_reg_ssfc(uint32_t reg_val)
458{
459 msg_pdbg("SSFC: ");
460 pprint_reg(SSFC, SCGO, reg_val, ", ");
461 pprint_reg(SSFC, ACS, reg_val, ", ");
462 pprint_reg(SSFC, SPOP, reg_val, ", ");
463 pprint_reg(SSFC, COP, reg_val, ", ");
464 pprint_reg(SSFC, DBC, reg_val, ", ");
465 pprint_reg(SSFC, SME, reg_val, ", ");
466 pprint_reg(SSFC, SCF, reg_val, "\n");
467}
468
Nico Huberd54e4f42017-03-23 23:45:47 +0100469static void prettyprint_pch100_reg_dlock(const uint32_t reg_val)
470{
471 msg_pdbg("DLOCK: ");
472 pprint_reg(DLOCK, BMWAG_LOCKDN, reg_val, ", ");
473 pprint_reg(DLOCK, BMRAG_LOCKDN, reg_val, ", ");
474 pprint_reg(DLOCK, SBMWAG_LOCKDN, reg_val, ", ");
475 pprint_reg(DLOCK, SBMRAG_LOCKDN, reg_val, ",\n ");
476 pprint_reg(DLOCK, PR0_LOCKDN, reg_val, ", ");
477 pprint_reg(DLOCK, PR1_LOCKDN, reg_val, ", ");
478 pprint_reg(DLOCK, PR2_LOCKDN, reg_val, ", ");
479 pprint_reg(DLOCK, PR3_LOCKDN, reg_val, ", ");
480 pprint_reg(DLOCK, PR4_LOCKDN, reg_val, ",\n ");
481 pprint_reg(DLOCK, SSEQ_LOCKDN, reg_val, "\n");
482}
483
484static struct {
485 size_t reg_ssfsc;
486 size_t reg_preop;
487 size_t reg_optype;
488 size_t reg_opmenu;
489} swseq_data;
490
Helge Wagner738e2522010-10-05 22:06:05 +0000491static uint8_t lookup_spi_type(uint8_t opcode)
492{
Nico Huber519be662018-12-23 20:03:35 +0100493 unsigned int a;
Helge Wagner738e2522010-10-05 22:06:05 +0000494
Uwe Hermann91f4afa2011-07-28 08:13:25 +0000495 for (a = 0; a < ARRAY_SIZE(POSSIBLE_OPCODES); a++) {
Helge Wagner738e2522010-10-05 22:06:05 +0000496 if (POSSIBLE_OPCODES[a].opcode == opcode)
497 return POSSIBLE_OPCODES[a].spi_type;
498 }
499
500 return 0xFF;
501}
502
503static int reprogram_opcode_on_the_fly(uint8_t opcode, unsigned int writecnt, unsigned int readcnt)
504{
505 uint8_t spi_type;
506
507 spi_type = lookup_spi_type(opcode);
508 if (spi_type > 3) {
509 /* Try to guess spi type from read/write sizes.
510 * The following valid writecnt/readcnt combinations exist:
511 * writecnt = 4, readcnt >= 0
512 * writecnt = 1, readcnt >= 0
513 * writecnt >= 4, readcnt = 0
514 * writecnt >= 1, readcnt = 0
515 * writecnt >= 1 is guaranteed for all commands.
516 */
517 if (readcnt == 0)
518 /* if readcnt=0 and writecount >= 4, we don't know if it is WRITE_NO_ADDRESS
519 * or WRITE_WITH_ADDRESS. But if we use WRITE_NO_ADDRESS and the first 3 data
520 * bytes are actual the address, they go to the bus anyhow
521 */
522 spi_type = SPI_OPCODE_TYPE_WRITE_NO_ADDRESS;
523 else if (writecnt == 1) // and readcnt is > 0
524 spi_type = SPI_OPCODE_TYPE_READ_NO_ADDRESS;
525 else if (writecnt == 4) // and readcnt is > 0
526 spi_type = SPI_OPCODE_TYPE_READ_WITH_ADDRESS;
Stefan Taunerdc704ed2012-05-06 15:11:26 +0000527 else // we have an invalid case
528 return SPI_INVALID_LENGTH;
Helge Wagner738e2522010-10-05 22:06:05 +0000529 }
Stefan Taunerdc704ed2012-05-06 15:11:26 +0000530 int oppos = 2; // use original JEDEC_BE_D8 offset
531 curopcodes->opcode[oppos].opcode = opcode;
532 curopcodes->opcode[oppos].spi_type = spi_type;
533 program_opcodes(curopcodes, 0);
534 oppos = find_opcode(curopcodes, opcode);
Stefan Taunerd94d25d2012-07-28 03:17:15 +0000535 msg_pdbg2("on-the-fly OPCODE (0x%02X) re-programmed, op-pos=%d\n", opcode, oppos);
Stefan Taunerdc704ed2012-05-06 15:11:26 +0000536 return oppos;
Helge Wagner738e2522010-10-05 22:06:05 +0000537}
538
Uwe Hermann09e04f72009-05-16 22:36:00 +0000539static int find_opcode(OPCODES *op, uint8_t opcode)
FENG yu ningc05a2952008-12-08 18:16:58 +0000540{
541 int a;
542
Stefan Tauner50e7c602011-11-08 10:55:54 +0000543 if (op == NULL) {
544 msg_perr("\n%s: null OPCODES pointer!\n", __func__);
545 return -1;
546 }
547
FENG yu ningc05a2952008-12-08 18:16:58 +0000548 for (a = 0; a < 8; a++) {
549 if (op->opcode[a].opcode == opcode)
550 return a;
551 }
552
553 return -1;
554}
555
Uwe Hermann09e04f72009-05-16 22:36:00 +0000556static int find_preop(OPCODES *op, uint8_t preop)
FENG yu ningc05a2952008-12-08 18:16:58 +0000557{
558 int a;
559
Stefan Tauner50e7c602011-11-08 10:55:54 +0000560 if (op == NULL) {
561 msg_perr("\n%s: null OPCODES pointer!\n", __func__);
562 return -1;
563 }
564
FENG yu ningc05a2952008-12-08 18:16:58 +0000565 for (a = 0; a < 2; a++) {
566 if (op->preop[a] == preop)
567 return a;
568 }
569
570 return -1;
571}
572
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000573/* Create a struct OPCODES based on what we find in the locked down chipset. */
FENG yu ningf041e9b2008-12-15 02:32:11 +0000574static int generate_opcodes(OPCODES * op)
FENG yu ningc05a2952008-12-08 18:16:58 +0000575{
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000576 int a;
FENG yu ningc05a2952008-12-08 18:16:58 +0000577 uint16_t preop, optype;
578 uint32_t opmenu[2];
FENG yu ningc05a2952008-12-08 18:16:58 +0000579
580 if (op == NULL) {
Sean Nelson316a29f2010-05-07 20:09:04 +0000581 msg_perr("\n%s: null OPCODES pointer!\n", __func__);
FENG yu ningc05a2952008-12-08 18:16:58 +0000582 return -1;
583 }
584
Stefan Taunera8d838d2011-11-06 23:51:09 +0000585 switch (ich_generation) {
586 case CHIPSET_ICH7:
Stefan Tauner92d6a862013-10-25 00:33:37 +0000587 case CHIPSET_TUNNEL_CREEK:
588 case CHIPSET_CENTERTON:
FENG yu ningc05a2952008-12-08 18:16:58 +0000589 preop = REGREAD16(ICH7_REG_PREOP);
590 optype = REGREAD16(ICH7_REG_OPTYPE);
591 opmenu[0] = REGREAD32(ICH7_REG_OPMENU);
592 opmenu[1] = REGREAD32(ICH7_REG_OPMENU + 4);
593 break;
Stefan Taunera8d838d2011-11-06 23:51:09 +0000594 case CHIPSET_ICH8:
595 default: /* Future version might behave the same */
Nico Huberd54e4f42017-03-23 23:45:47 +0100596 preop = REGREAD16(swseq_data.reg_preop);
597 optype = REGREAD16(swseq_data.reg_optype);
598 opmenu[0] = REGREAD32(swseq_data.reg_opmenu);
599 opmenu[1] = REGREAD32(swseq_data.reg_opmenu + 4);
FENG yu ningc05a2952008-12-08 18:16:58 +0000600 break;
FENG yu ningc05a2952008-12-08 18:16:58 +0000601 }
602
603 op->preop[0] = (uint8_t) preop;
604 op->preop[1] = (uint8_t) (preop >> 8);
605
606 for (a = 0; a < 8; a++) {
607 op->opcode[a].spi_type = (uint8_t) (optype & 0x3);
608 optype >>= 2;
609 }
610
611 for (a = 0; a < 4; a++) {
612 op->opcode[a].opcode = (uint8_t) (opmenu[0] & 0xff);
613 opmenu[0] >>= 8;
614 }
615
616 for (a = 4; a < 8; a++) {
617 op->opcode[a].opcode = (uint8_t) (opmenu[1] & 0xff);
618 opmenu[1] >>= 8;
619 }
620
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000621 /* No preopcodes used by default. */
622 for (a = 0; a < 8; a++)
FENG yu ningc05a2952008-12-08 18:16:58 +0000623 op->opcode[a].atomic = 0;
624
FENG yu ningc05a2952008-12-08 18:16:58 +0000625 return 0;
626}
627
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000628static int program_opcodes(OPCODES *op, int enable_undo)
Dominik Geyerb46acba2008-05-16 12:55:55 +0000629{
630 uint8_t a;
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000631 uint16_t preop, optype;
632 uint32_t opmenu[2];
Dominik Geyerb46acba2008-05-16 12:55:55 +0000633
634 /* Program Prefix Opcodes */
Dominik Geyerb46acba2008-05-16 12:55:55 +0000635 /* 0:7 Prefix Opcode 1 */
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000636 preop = (op->preop[0]);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000637 /* 8:16 Prefix Opcode 2 */
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000638 preop |= ((uint16_t) op->preop[1]) << 8;
Uwe Hermann394131e2008-10-18 21:14:13 +0000639
Stefan Reinauera9424d52008-06-27 16:28:34 +0000640 /* Program Opcode Types 0 - 7 */
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000641 optype = 0;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000642 for (a = 0; a < 8; a++) {
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000643 optype |= ((uint16_t) op->opcode[a].spi_type) << (a * 2);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000644 }
Uwe Hermann394131e2008-10-18 21:14:13 +0000645
Stefan Reinauera9424d52008-06-27 16:28:34 +0000646 /* Program Allowable Opcodes 0 - 3 */
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000647 opmenu[0] = 0;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000648 for (a = 0; a < 4; a++) {
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000649 opmenu[0] |= ((uint32_t) op->opcode[a].opcode) << (a * 8);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000650 }
Stefan Reinauera9424d52008-06-27 16:28:34 +0000651
Stefan Tauner92d6a862013-10-25 00:33:37 +0000652 /* Program Allowable Opcodes 4 - 7 */
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000653 opmenu[1] = 0;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000654 for (a = 4; a < 8; a++) {
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000655 opmenu[1] |= ((uint32_t) op->opcode[a].opcode) << ((a - 4) * 8);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000656 }
Stefan Reinauera9424d52008-06-27 16:28:34 +0000657
Stefan Taunerd94d25d2012-07-28 03:17:15 +0000658 msg_pdbg2("\n%s: preop=%04x optype=%04x opmenu=%08x%08x\n", __func__, preop, optype, opmenu[0], opmenu[1]);
Stefan Taunera8d838d2011-11-06 23:51:09 +0000659 switch (ich_generation) {
660 case CHIPSET_ICH7:
Stefan Tauner92d6a862013-10-25 00:33:37 +0000661 case CHIPSET_TUNNEL_CREEK:
662 case CHIPSET_CENTERTON:
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000663 /* Register undo only for enable_undo=1, i.e. first call. */
664 if (enable_undo) {
665 rmmio_valw(ich_spibar + ICH7_REG_PREOP);
666 rmmio_valw(ich_spibar + ICH7_REG_OPTYPE);
667 rmmio_vall(ich_spibar + ICH7_REG_OPMENU);
668 rmmio_vall(ich_spibar + ICH7_REG_OPMENU + 4);
669 }
670 mmio_writew(preop, ich_spibar + ICH7_REG_PREOP);
671 mmio_writew(optype, ich_spibar + ICH7_REG_OPTYPE);
672 mmio_writel(opmenu[0], ich_spibar + ICH7_REG_OPMENU);
673 mmio_writel(opmenu[1], ich_spibar + ICH7_REG_OPMENU + 4);
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000674 break;
Stefan Taunera8d838d2011-11-06 23:51:09 +0000675 case CHIPSET_ICH8:
676 default: /* Future version might behave the same */
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000677 /* Register undo only for enable_undo=1, i.e. first call. */
678 if (enable_undo) {
Nico Huberd54e4f42017-03-23 23:45:47 +0100679 rmmio_valw(ich_spibar + swseq_data.reg_preop);
680 rmmio_valw(ich_spibar + swseq_data.reg_optype);
681 rmmio_vall(ich_spibar + swseq_data.reg_opmenu);
682 rmmio_vall(ich_spibar + swseq_data.reg_opmenu + 4);
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000683 }
Nico Huberd54e4f42017-03-23 23:45:47 +0100684 mmio_writew(preop, ich_spibar + swseq_data.reg_preop);
685 mmio_writew(optype, ich_spibar + swseq_data.reg_optype);
686 mmio_writel(opmenu[0], ich_spibar + swseq_data.reg_opmenu);
687 mmio_writel(opmenu[1], ich_spibar + swseq_data.reg_opmenu + 4);
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000688 break;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000689 }
Dominik Geyerb46acba2008-05-16 12:55:55 +0000690
691 return 0;
692}
693
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000694/*
Stefan Tauner50e7c602011-11-08 10:55:54 +0000695 * Returns -1 if at least one mandatory opcode is inaccessible, 0 otherwise.
696 * FIXME: this should also check for
697 * - at least one probing opcode (RDID (incl. AT25F variants?), REMS, RES?)
698 * - at least one erasing opcode (lots.)
699 * - at least one program opcode (BYTE_PROGRAM, AAI_WORD_PROGRAM, ...?)
700 * - necessary preops? (EWSR, WREN, ...?)
701 */
Richard Hughes93e16252018-12-19 11:54:47 +0000702static int ich_missing_opcodes(void)
Stefan Tauner50e7c602011-11-08 10:55:54 +0000703{
704 uint8_t ops[] = {
705 JEDEC_READ,
706 JEDEC_RDSR,
707 0
708 };
709 int i = 0;
710 while (ops[i] != 0) {
711 msg_pspew("checking for opcode 0x%02x\n", ops[i]);
712 if (find_opcode(curopcodes, ops[i]) == -1)
713 return -1;
714 i++;
715 }
716 return 0;
717}
718
719/*
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000720 * Try to set BBAR (BIOS Base Address Register), but read back the value in case
721 * it didn't stick.
722 */
Stefan Taunera8d838d2011-11-06 23:51:09 +0000723static void ich_set_bbar(uint32_t min_addr)
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000724{
Stefan Taunere27b2d42011-07-01 00:39:09 +0000725 int bbar_off;
Stefan Tauner7783f312011-09-17 21:21:42 +0000726 switch (ich_generation) {
Stefan Taunera8d838d2011-11-06 23:51:09 +0000727 case CHIPSET_ICH7:
Stefan Tauner92d6a862013-10-25 00:33:37 +0000728 case CHIPSET_TUNNEL_CREEK:
729 case CHIPSET_CENTERTON:
Stefan Taunere27b2d42011-07-01 00:39:09 +0000730 bbar_off = 0x50;
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000731 break;
Stefan Taunera8d838d2011-11-06 23:51:09 +0000732 case CHIPSET_ICH8:
Duncan Laurie4095ed72014-08-20 15:39:32 +0000733 case CHIPSET_BAYTRAIL:
734 msg_pdbg("BBAR offset is unknown!\n");
Stefan Tauner7783f312011-09-17 21:21:42 +0000735 return;
Stefan Taunera8d838d2011-11-06 23:51:09 +0000736 case CHIPSET_ICH9:
Stefan Tauner7783f312011-09-17 21:21:42 +0000737 default: /* Future version might behave the same */
Stefan Taunere27b2d42011-07-01 00:39:09 +0000738 bbar_off = ICH9_REG_BBAR;
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000739 break;
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000740 }
Elyes HAOUAS124ef382018-03-27 12:15:09 +0200741
Stefan Taunere27b2d42011-07-01 00:39:09 +0000742 ichspi_bbar = mmio_readl(ich_spibar + bbar_off) & ~BBAR_MASK;
743 if (ichspi_bbar) {
744 msg_pdbg("Reserved bits in BBAR not zero: 0x%08x\n",
745 ichspi_bbar);
746 }
747 min_addr &= BBAR_MASK;
748 ichspi_bbar |= min_addr;
749 rmmio_writel(ichspi_bbar, ich_spibar + bbar_off);
750 ichspi_bbar = mmio_readl(ich_spibar + bbar_off) & BBAR_MASK;
751
752 /* We don't have any option except complaining. And if the write
753 * failed, the restore will fail as well, so no problem there.
754 */
755 if (ichspi_bbar != min_addr)
Stefan Tauner7783f312011-09-17 21:21:42 +0000756 msg_perr("Setting BBAR to 0x%08x failed! New value: 0x%08x.\n",
757 min_addr, ichspi_bbar);
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000758}
759
Stefan Tauner8b391b82011-08-09 01:49:34 +0000760/* Read len bytes from the fdata/spid register into the data array.
761 *
Nico Huber9a11cbf2023-01-13 01:19:07 +0100762 * Note that using len > flash->mst.spi->max_data_read will return garbage or
Stefan Tauner8b391b82011-08-09 01:49:34 +0000763 * may even crash.
764 */
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +0000765static void ich_read_data(uint8_t *data, int len, int reg0_off)
Elyes HAOUAS124ef382018-03-27 12:15:09 +0200766{
Stefan Tauner8b391b82011-08-09 01:49:34 +0000767 int i;
768 uint32_t temp32 = 0;
769
770 for (i = 0; i < len; i++) {
771 if ((i % 4) == 0)
772 temp32 = REGREAD32(reg0_off + i);
773
774 data[i] = (temp32 >> ((i % 4) * 8)) & 0xff;
775 }
776}
777
778/* Fill len bytes from the data array into the fdata/spid registers.
779 *
Nico Huber9a11cbf2023-01-13 01:19:07 +0100780 * Note that using len > flash->mst.spi->max_data_write will trash the registers
Stefan Tauner8b391b82011-08-09 01:49:34 +0000781 * following the data registers.
782 */
783static void ich_fill_data(const uint8_t *data, int len, int reg0_off)
784{
785 uint32_t temp32 = 0;
786 int i;
787
788 if (len <= 0)
789 return;
790
791 for (i = 0; i < len; i++) {
792 if ((i % 4) == 0)
793 temp32 = 0;
794
795 temp32 |= ((uint32_t) data[i]) << ((i % 4) * 8);
796
797 if ((i % 4) == 3) /* 32 bits are full, write them to regs. */
798 REGWRITE32(reg0_off + (i - (i % 4)), temp32);
799 }
800 i--;
801 if ((i % 4) != 3) /* Write remaining data to regs. */
802 REGWRITE32(reg0_off + (i - (i % 4)), temp32);
803}
804
FENG yu ningf041e9b2008-12-15 02:32:11 +0000805/* This function generates OPCODES from or programs OPCODES to ICH according to
806 * the chipset's SPI configuration lock.
FENG yu ningc05a2952008-12-08 18:16:58 +0000807 *
FENG yu ningf041e9b2008-12-15 02:32:11 +0000808 * It should be called before ICH sends any spi command.
FENG yu ningc05a2952008-12-08 18:16:58 +0000809 */
Michael Karchera4448d92010-07-22 18:04:15 +0000810static int ich_init_opcodes(void)
FENG yu ningc05a2952008-12-08 18:16:58 +0000811{
812 int rc = 0;
813 OPCODES *curopcodes_done;
814
815 if (curopcodes)
816 return 0;
817
818 if (ichspi_lock) {
Carl-Daniel Hailfinger80f3d052010-05-28 15:53:08 +0000819 msg_pdbg("Reading OPCODES... ");
FENG yu ningc05a2952008-12-08 18:16:58 +0000820 curopcodes_done = &O_EXISTING;
FENG yu ningf041e9b2008-12-15 02:32:11 +0000821 rc = generate_opcodes(curopcodes_done);
FENG yu ningc05a2952008-12-08 18:16:58 +0000822 } else {
Sean Nelson316a29f2010-05-07 20:09:04 +0000823 msg_pdbg("Programming OPCODES... ");
FENG yu ningc05a2952008-12-08 18:16:58 +0000824 curopcodes_done = &O_ST_M25P;
Carl-Daniel Hailfinger54ce73a2011-05-03 21:49:41 +0000825 rc = program_opcodes(curopcodes_done, 1);
FENG yu ningc05a2952008-12-08 18:16:58 +0000826 }
827
828 if (rc) {
829 curopcodes = NULL;
Sean Nelson316a29f2010-05-07 20:09:04 +0000830 msg_perr("failed\n");
FENG yu ningc05a2952008-12-08 18:16:58 +0000831 return 1;
832 } else {
833 curopcodes = curopcodes_done;
Sean Nelson316a29f2010-05-07 20:09:04 +0000834 msg_pdbg("done\n");
Stefan Tauner8b391b82011-08-09 01:49:34 +0000835 prettyprint_opcodes(curopcodes);
FENG yu ningc05a2952008-12-08 18:16:58 +0000836 return 0;
837 }
838}
839
Stefan Reinauer43119562008-11-02 19:51:50 +0000840static int ich7_run_opcode(OPCODE op, uint32_t offset,
Rudolf Marek3fdbccf2008-06-30 21:38:30 +0000841 uint8_t datalength, uint8_t * data, int maxdata)
Dominik Geyerb46acba2008-05-16 12:55:55 +0000842{
Felix Singer8cfc7372022-08-19 03:10:29 +0200843 bool write_cmd = false;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000844 int timeout;
Stefan Tauner8b391b82011-08-09 01:49:34 +0000845 uint32_t temp32;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000846 uint16_t temp16;
Stefan Reinauer43119562008-11-02 19:51:50 +0000847 uint64_t opmenu;
848 int opcode_index;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000849
850 /* Is it a write command? */
851 if ((op.spi_type == SPI_OPCODE_TYPE_WRITE_NO_ADDRESS)
852 || (op.spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS)) {
Felix Singer8cfc7372022-08-19 03:10:29 +0200853 write_cmd = true;
Dominik Geyerb46acba2008-05-16 12:55:55 +0000854 }
855
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000856 timeout = 100 * 60; /* 60 ms are 9.6 million cycles at 16 MHz. */
857 while ((REGREAD16(ICH7_REG_SPIS) & SPIS_SCIP) && --timeout) {
858 programmer_delay(10);
859 }
860 if (!timeout) {
861 msg_perr("Error: SCIP never cleared!\n");
862 return 1;
863 }
864
Stefan Tauner10b3e222011-07-01 00:39:23 +0000865 /* Program offset in flash into SPIA while preserving reserved bits. */
866 temp32 = REGREAD32(ICH7_REG_SPIA) & ~0x00FFFFFF;
867 REGWRITE32(ICH7_REG_SPIA, (offset & 0x00FFFFFF) | temp32);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000868
Stefan Tauner10b3e222011-07-01 00:39:23 +0000869 /* Program data into SPID0 to N */
Stefan Tauner8b391b82011-08-09 01:49:34 +0000870 if (write_cmd && (datalength != 0))
871 ich_fill_data(data, datalength, ICH7_REG_SPID0);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000872
873 /* Assemble SPIS */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000874 temp16 = REGREAD16(ICH7_REG_SPIS);
875 /* keep reserved bits */
876 temp16 &= SPIS_RESERVED_MASK;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000877 /* clear error status registers */
Stefan Tauner0c1ec452011-06-11 09:53:09 +0000878 temp16 |= (SPIS_CDS | SPIS_FCERR);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000879 REGWRITE16(ICH7_REG_SPIS, temp16);
880
881 /* Assemble SPIC */
882 temp16 = 0;
883
884 if (datalength != 0) {
885 temp16 |= SPIC_DS;
Rudolf Marek3fdbccf2008-06-30 21:38:30 +0000886 temp16 |= ((uint32_t) ((datalength - 1) & (maxdata - 1))) << 8;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000887 }
888
889 /* Select opcode */
Stefan Reinauer43119562008-11-02 19:51:50 +0000890 opmenu = REGREAD32(ICH7_REG_OPMENU);
891 opmenu |= ((uint64_t)REGREAD32(ICH7_REG_OPMENU + 4)) << 32;
892
Uwe Hermann7b2969b2009-04-15 10:52:49 +0000893 for (opcode_index = 0; opcode_index < 8; opcode_index++) {
894 if ((opmenu & 0xff) == op.opcode) {
Stefan Reinauer43119562008-11-02 19:51:50 +0000895 break;
896 }
897 opmenu >>= 8;
898 }
899 if (opcode_index == 8) {
Sean Nelson316a29f2010-05-07 20:09:04 +0000900 msg_pdbg("Opcode %x not found.\n", op.opcode);
Stefan Reinauer43119562008-11-02 19:51:50 +0000901 return 1;
902 }
903 temp16 |= ((uint16_t) (opcode_index & 0x07)) << 4;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000904
Michael Karcher136125a2011-04-29 22:11:36 +0000905 timeout = 100 * 60; /* 60 ms are 9.6 million cycles at 16 MHz. */
906 /* Handle Atomic. Atomic commands include three steps:
907 - sending the preop (mainly EWSR or WREN)
908 - sending the main command
909 - waiting for the busy bit (WIP) to be cleared
910 This means the timeout must be sufficient for chip erase
911 of slow high-capacity chips.
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000912 */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000913 switch (op.atomic) {
914 case 2:
915 /* Select second preop. */
916 temp16 |= SPIC_SPOP;
Richard Hughesdb7482b2018-12-19 12:04:30 +0000917 /* Fall through. */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000918 case 1:
919 /* Atomic command (preop+op) */
Stefan Reinauera9424d52008-06-27 16:28:34 +0000920 temp16 |= SPIC_ACS;
Michael Karcher136125a2011-04-29 22:11:36 +0000921 timeout = 100 * 1000 * 60; /* 60 seconds */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +0000922 break;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000923 }
924
925 /* Start */
926 temp16 |= SPIC_SCGO;
927
928 /* write it */
929 REGWRITE16(ICH7_REG_SPIC, temp16);
930
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000931 /* Wait for Cycle Done Status or Flash Cycle Error. */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000932 while (((REGREAD16(ICH7_REG_SPIS) & (SPIS_CDS | SPIS_FCERR)) == 0) &&
933 --timeout) {
Carl-Daniel Hailfingerca8bfc62009-06-05 17:48:08 +0000934 programmer_delay(10);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000935 }
936 if (!timeout) {
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000937 msg_perr("timeout, ICH7_REG_SPIS=0x%04x\n",
938 REGREAD16(ICH7_REG_SPIS));
939 return 1;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000940 }
941
Sean Nelson316a29f2010-05-07 20:09:04 +0000942 /* FIXME: make sure we do not needlessly cause transaction errors. */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000943 temp16 = REGREAD16(ICH7_REG_SPIS);
944 if (temp16 & SPIS_FCERR) {
Stefan Tauner8ed29342011-04-29 23:53:09 +0000945 msg_perr("Transaction error!\n");
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000946 /* keep reserved bits */
947 temp16 &= SPIS_RESERVED_MASK;
948 REGWRITE16(ICH7_REG_SPIS, temp16 | SPIS_FCERR);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000949 return 1;
950 }
951
Stefan Tauner8b391b82011-08-09 01:49:34 +0000952 if ((!write_cmd) && (datalength != 0))
953 ich_read_data(data, datalength, ICH7_REG_SPID0);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000954
955 return 0;
956}
957
Stefan Reinauer43119562008-11-02 19:51:50 +0000958static int ich9_run_opcode(OPCODE op, uint32_t offset,
Stefan Reinauera9424d52008-06-27 16:28:34 +0000959 uint8_t datalength, uint8_t * data)
960{
Felix Singer8cfc7372022-08-19 03:10:29 +0200961 bool write_cmd = false;
Stefan Reinauer2cb94e12008-06-30 23:45:22 +0000962 int timeout;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000963 uint32_t temp32;
Stefan Reinauer43119562008-11-02 19:51:50 +0000964 uint64_t opmenu;
965 int opcode_index;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000966
967 /* Is it a write command? */
968 if ((op.spi_type == SPI_OPCODE_TYPE_WRITE_NO_ADDRESS)
969 || (op.spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS)) {
Felix Singer8cfc7372022-08-19 03:10:29 +0200970 write_cmd = true;
Stefan Reinauera9424d52008-06-27 16:28:34 +0000971 }
972
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000973 timeout = 100 * 60; /* 60 ms are 9.6 million cycles at 16 MHz. */
Nico Huberd54e4f42017-03-23 23:45:47 +0100974 while ((REGREAD8(swseq_data.reg_ssfsc) & SSFS_SCIP) && --timeout) {
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000975 programmer_delay(10);
976 }
977 if (!timeout) {
978 msg_perr("Error: SCIP never cleared!\n");
979 return 1;
980 }
981
Stefan Tauner10b3e222011-07-01 00:39:23 +0000982 /* Program offset in flash into FADDR while preserve the reserved bits
Martin Rothf6c1cb12022-03-15 10:55:25 -0600983 * and clearing the 25. address bit which is only usable in hwseq. */
Stefan Tauner10b3e222011-07-01 00:39:23 +0000984 temp32 = REGREAD32(ICH9_REG_FADDR) & ~0x01FFFFFF;
985 REGWRITE32(ICH9_REG_FADDR, (offset & 0x00FFFFFF) | temp32);
Stefan Reinauera9424d52008-06-27 16:28:34 +0000986
987 /* Program data into FDATA0 to N */
Stefan Tauner8b391b82011-08-09 01:49:34 +0000988 if (write_cmd && (datalength != 0))
989 ich_fill_data(data, datalength, ICH9_REG_FDATA0);
Dominik Geyerb46acba2008-05-16 12:55:55 +0000990
991 /* Assemble SSFS + SSFC */
Nico Huberd54e4f42017-03-23 23:45:47 +0100992 temp32 = REGREAD32(swseq_data.reg_ssfsc);
Stefan Taunerc0aaf952011-05-19 02:58:17 +0000993 /* Keep reserved bits only */
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000994 temp32 &= SSFS_RESERVED_MASK | SSFC_RESERVED_MASK;
Stefan Tauner0c1ec452011-06-11 09:53:09 +0000995 /* Clear cycle done and cycle error status registers */
996 temp32 |= (SSFS_FDONE | SSFS_FCERR);
Nico Huberd54e4f42017-03-23 23:45:47 +0100997 REGWRITE32(swseq_data.reg_ssfsc, temp32);
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +0000998
Uwe Hermann4e3d0b32010-03-25 23:18:41 +0000999 /* Use 20 MHz */
Dominik Geyerb46acba2008-05-16 12:55:55 +00001000 temp32 |= SSFC_SCF_20MHZ;
1001
Stefan Taunerc0aaf952011-05-19 02:58:17 +00001002 /* Set data byte count (DBC) and data cycle bit (DS) */
Dominik Geyerb46acba2008-05-16 12:55:55 +00001003 if (datalength != 0) {
1004 uint32_t datatemp;
1005 temp32 |= SSFC_DS;
Stefan Tauner0c1ec452011-06-11 09:53:09 +00001006 datatemp = ((((uint32_t)datalength - 1) << SSFC_DBC_OFF) &
1007 SSFC_DBC);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001008 temp32 |= datatemp;
1009 }
1010
1011 /* Select opcode */
Nico Huber8b2152d2017-08-31 13:18:49 +02001012 opmenu = REGREAD32(swseq_data.reg_opmenu);
1013 opmenu |= ((uint64_t)REGREAD32(swseq_data.reg_opmenu + 4)) << 32;
Stefan Reinauer43119562008-11-02 19:51:50 +00001014
Uwe Hermann7b2969b2009-04-15 10:52:49 +00001015 for (opcode_index = 0; opcode_index < 8; opcode_index++) {
1016 if ((opmenu & 0xff) == op.opcode) {
Stefan Reinauer43119562008-11-02 19:51:50 +00001017 break;
1018 }
1019 opmenu >>= 8;
1020 }
1021 if (opcode_index == 8) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001022 msg_pdbg("Opcode %x not found.\n", op.opcode);
Stefan Reinauer43119562008-11-02 19:51:50 +00001023 return 1;
1024 }
1025 temp32 |= ((uint32_t) (opcode_index & 0x07)) << (8 + 4);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001026
Michael Karcher136125a2011-04-29 22:11:36 +00001027 timeout = 100 * 60; /* 60 ms are 9.6 million cycles at 16 MHz. */
1028 /* Handle Atomic. Atomic commands include three steps:
1029 - sending the preop (mainly EWSR or WREN)
1030 - sending the main command
1031 - waiting for the busy bit (WIP) to be cleared
1032 This means the timeout must be sufficient for chip erase
1033 of slow high-capacity chips.
Stefan Taunerc0aaf952011-05-19 02:58:17 +00001034 */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001035 switch (op.atomic) {
1036 case 2:
1037 /* Select second preop. */
1038 temp32 |= SSFC_SPOP;
Richard Hughesdb7482b2018-12-19 12:04:30 +00001039 /* Fall through. */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001040 case 1:
1041 /* Atomic command (preop+op) */
Dominik Geyerb46acba2008-05-16 12:55:55 +00001042 temp32 |= SSFC_ACS;
Michael Karcher136125a2011-04-29 22:11:36 +00001043 timeout = 100 * 1000 * 60; /* 60 seconds */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001044 break;
Dominik Geyerb46acba2008-05-16 12:55:55 +00001045 }
1046
1047 /* Start */
1048 temp32 |= SSFC_SCGO;
1049
1050 /* write it */
Nico Huberd54e4f42017-03-23 23:45:47 +01001051 REGWRITE32(swseq_data.reg_ssfsc, temp32);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001052
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +00001053 /* Wait for Cycle Done Status or Flash Cycle Error. */
Nico Huberd54e4f42017-03-23 23:45:47 +01001054 while (((REGREAD32(swseq_data.reg_ssfsc) & (SSFS_FDONE | SSFS_FCERR)) == 0) &&
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +00001055 --timeout) {
Carl-Daniel Hailfingerca8bfc62009-06-05 17:48:08 +00001056 programmer_delay(10);
Stefan Reinauer2cb94e12008-06-30 23:45:22 +00001057 }
1058 if (!timeout) {
Nico Huberd54e4f42017-03-23 23:45:47 +01001059 msg_perr("timeout, REG_SSFS=0x%08x\n",
1060 REGREAD32(swseq_data.reg_ssfsc));
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +00001061 return 1;
Dominik Geyerb46acba2008-05-16 12:55:55 +00001062 }
1063
Sean Nelson316a29f2010-05-07 20:09:04 +00001064 /* FIXME make sure we do not needlessly cause transaction errors. */
Nico Huberd54e4f42017-03-23 23:45:47 +01001065 temp32 = REGREAD32(swseq_data.reg_ssfsc);
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +00001066 if (temp32 & SSFS_FCERR) {
Stefan Tauner8ed29342011-04-29 23:53:09 +00001067 msg_perr("Transaction error!\n");
Stefan Tauner2a8b2622011-06-11 09:53:16 +00001068 prettyprint_ich9_reg_ssfs(temp32);
1069 prettyprint_ich9_reg_ssfc(temp32);
Carl-Daniel Hailfingereacbd162011-03-17 00:10:25 +00001070 /* keep reserved bits */
1071 temp32 &= SSFS_RESERVED_MASK | SSFC_RESERVED_MASK;
1072 /* Clear the transaction error. */
Nico Huberd54e4f42017-03-23 23:45:47 +01001073 REGWRITE32(swseq_data.reg_ssfsc, temp32 | SSFS_FCERR);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001074 return 1;
1075 }
1076
Stefan Tauner8b391b82011-08-09 01:49:34 +00001077 if ((!write_cmd) && (datalength != 0))
1078 ich_read_data(data, datalength, ICH9_REG_FDATA0);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001079
1080 return 0;
1081}
1082
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001083static int run_opcode(const struct flashctx *flash, OPCODE op, uint32_t offset,
Stefan Reinauera9424d52008-06-27 16:28:34 +00001084 uint8_t datalength, uint8_t * data)
1085{
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001086 /* max_data_read == max_data_write for all Intel/VIA SPI masters */
Nico Huber9a11cbf2023-01-13 01:19:07 +01001087 uint8_t maxlength = flash->mst.spi->max_data_read;
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001088
Carl-Daniel Hailfingerc40cff72011-12-20 00:19:29 +00001089 if (ich_generation == CHIPSET_ICH_UNKNOWN) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001090 msg_perr("%s: unsupported chipset\n", __func__);
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001091 return -1;
Stefan Reinauer2cb94e12008-06-30 23:45:22 +00001092 }
Stefan Reinauera9424d52008-06-27 16:28:34 +00001093
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001094 if (datalength > maxlength) {
1095 msg_perr("%s: Internal command size error for "
1096 "opcode 0x%02x, got datalength=%i, want <=%i\n",
1097 __func__, op.opcode, datalength, maxlength);
1098 return SPI_INVALID_LENGTH;
1099 }
1100
Stefan Taunera8d838d2011-11-06 23:51:09 +00001101 switch (ich_generation) {
1102 case CHIPSET_ICH7:
Stefan Tauner92d6a862013-10-25 00:33:37 +00001103 case CHIPSET_TUNNEL_CREEK:
1104 case CHIPSET_CENTERTON:
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001105 return ich7_run_opcode(op, offset, datalength, data, maxlength);
Stefan Taunera8d838d2011-11-06 23:51:09 +00001106 case CHIPSET_ICH8:
1107 default: /* Future version might behave the same */
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001108 return ich9_run_opcode(op, offset, datalength, data);
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001109 }
Stefan Reinauera9424d52008-06-27 16:28:34 +00001110}
1111
Edward O'Callaghan5eca4272020-04-12 17:27:53 +10001112static int ich_spi_send_command(const struct flashctx *flash, unsigned int writecnt,
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001113 unsigned int readcnt,
1114 const unsigned char *writearr,
1115 unsigned char *readarr)
Dominik Geyerb46acba2008-05-16 12:55:55 +00001116{
Carl-Daniel Hailfinger142e30f2009-07-14 10:26:56 +00001117 int result;
Dominik Geyerb46acba2008-05-16 12:55:55 +00001118 int opcode_index = -1;
1119 const unsigned char cmd = *writearr;
1120 OPCODE *opcode;
1121 uint32_t addr = 0;
1122 uint8_t *data;
1123 int count;
1124
Dominik Geyerb46acba2008-05-16 12:55:55 +00001125 /* find cmd in opcodes-table */
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001126 opcode_index = find_opcode(curopcodes, cmd);
Dominik Geyerb46acba2008-05-16 12:55:55 +00001127 if (opcode_index == -1) {
Helge Wagner738e2522010-10-05 22:06:05 +00001128 if (!ichspi_lock)
1129 opcode_index = reprogram_opcode_on_the_fly(cmd, writecnt, readcnt);
Stefan Taunerdc704ed2012-05-06 15:11:26 +00001130 if (opcode_index == SPI_INVALID_LENGTH) {
1131 msg_pdbg("OPCODE 0x%02x has unsupported length, will not execute.\n", cmd);
1132 return SPI_INVALID_LENGTH;
1133 } else if (opcode_index == -1) {
Stefan Tauner355cbfd2011-05-28 02:37:14 +00001134 msg_pdbg("Invalid OPCODE 0x%02x, will not execute.\n",
1135 cmd);
Helge Wagner738e2522010-10-05 22:06:05 +00001136 return SPI_INVALID_OPCODE;
1137 }
Dominik Geyerb46acba2008-05-16 12:55:55 +00001138 }
1139
1140 opcode = &(curopcodes->opcode[opcode_index]);
1141
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001142 /* The following valid writecnt/readcnt combinations exist:
1143 * writecnt = 4, readcnt >= 0
1144 * writecnt = 1, readcnt >= 0
1145 * writecnt >= 4, readcnt = 0
1146 * writecnt >= 1, readcnt = 0
1147 * writecnt >= 1 is guaranteed for all commands.
1148 */
1149 if ((opcode->spi_type == SPI_OPCODE_TYPE_READ_WITH_ADDRESS) &&
1150 (writecnt != 4)) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001151 msg_perr("%s: Internal command size error for opcode "
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001152 "0x%02x, got writecnt=%i, want =4\n", __func__, cmd,
1153 writecnt);
1154 return SPI_INVALID_LENGTH;
1155 }
1156 if ((opcode->spi_type == SPI_OPCODE_TYPE_READ_NO_ADDRESS) &&
1157 (writecnt != 1)) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001158 msg_perr("%s: Internal command size error for opcode "
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001159 "0x%02x, got writecnt=%i, want =1\n", __func__, cmd,
1160 writecnt);
1161 return SPI_INVALID_LENGTH;
1162 }
1163 if ((opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) &&
1164 (writecnt < 4)) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001165 msg_perr("%s: Internal command size error for opcode "
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001166 "0x%02x, got writecnt=%i, want >=4\n", __func__, cmd,
1167 writecnt);
1168 return SPI_INVALID_LENGTH;
1169 }
1170 if (((opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) ||
1171 (opcode->spi_type == SPI_OPCODE_TYPE_WRITE_NO_ADDRESS)) &&
1172 (readcnt)) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001173 msg_perr("%s: Internal command size error for opcode "
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001174 "0x%02x, got readcnt=%i, want =0\n", __func__, cmd,
1175 readcnt);
1176 return SPI_INVALID_LENGTH;
1177 }
1178
Stefan Taunerb2d5f6a2011-06-11 19:44:31 +00001179 /* Translate read/write array/count.
1180 * The maximum data length is identical for the maximum read length and
1181 * for the maximum write length excluding opcode and address. Opcode and
1182 * address are stored in separate registers, not in the data registers
1183 * and are thus not counted towards data length. The only exception
1184 * applies if the opcode definition (un)intentionally classifies said
1185 * opcode incorrectly as non-address opcode or vice versa. */
Dominik Geyerb46acba2008-05-16 12:55:55 +00001186 if (opcode->spi_type == SPI_OPCODE_TYPE_WRITE_NO_ADDRESS) {
Stefan Reinauer325b5d42008-06-27 15:18:20 +00001187 data = (uint8_t *) (writearr + 1);
1188 count = writecnt - 1;
1189 } else if (opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) {
1190 data = (uint8_t *) (writearr + 4);
1191 count = writecnt - 4;
1192 } else {
1193 data = (uint8_t *) readarr;
Dominik Geyerb46acba2008-05-16 12:55:55 +00001194 count = readcnt;
1195 }
Stefan Reinauer325b5d42008-06-27 15:18:20 +00001196
Nico Hubered098d62017-04-21 23:47:08 +02001197 /* if opcode-type requires an address */
1198 if (cmd == JEDEC_REMS || cmd == JEDEC_RES) {
1199 addr = ichspi_bbar;
1200 } else if (opcode->spi_type == SPI_OPCODE_TYPE_READ_WITH_ADDRESS ||
1201 opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) {
1202 /* BBAR may cut part of the chip off at the lower end. */
1203 const uint32_t valid_base = ichspi_bbar & ((flash->chip->total_size * 1024) - 1);
1204 const uint32_t addr_offset = ichspi_bbar - valid_base;
1205 /* Highest address we can program is (2^24 - 1). */
1206 const uint32_t valid_end = (1 << 24) - addr_offset;
1207
1208 addr = writearr[1] << 16 | writearr[2] << 8 | writearr[3];
1209 const uint32_t addr_end = addr + count;
1210
1211 if (addr < valid_base ||
1212 addr_end < addr || /* integer overflow check */
1213 addr_end > valid_end) {
1214 msg_perr("%s: Addressed region 0x%06x-0x%06x not in allowed range 0x%06x-0x%06x\n",
1215 __func__, addr, addr_end - 1, valid_base, valid_end - 1);
1216 return SPI_INVALID_ADDRESS;
1217 }
1218 addr += addr_offset;
1219 }
1220
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001221 result = run_opcode(flash, *opcode, addr, count, data);
Carl-Daniel Hailfinger142e30f2009-07-14 10:26:56 +00001222 if (result) {
Stefan Tauner8ed29342011-04-29 23:53:09 +00001223 msg_pdbg("Running OPCODE 0x%02x failed ", opcode->opcode);
1224 if ((opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) ||
1225 (opcode->spi_type == SPI_OPCODE_TYPE_READ_WITH_ADDRESS)) {
1226 msg_pdbg("at address 0x%06x ", addr);
1227 }
1228 msg_pdbg("(payload length was %d).\n", count);
1229
1230 /* Print out the data array if it contains data to write.
1231 * Errors are detected before the received data is read back into
1232 * the array so it won't make sense to print it then. */
1233 if ((opcode->spi_type == SPI_OPCODE_TYPE_WRITE_WITH_ADDRESS) ||
1234 (opcode->spi_type == SPI_OPCODE_TYPE_WRITE_NO_ADDRESS)) {
1235 int i;
1236 msg_pspew("The data was:\n");
Stefan Taunerf382e352011-11-08 11:55:24 +00001237 for (i = 0; i < count; i++){
Stefan Tauner8ed29342011-04-29 23:53:09 +00001238 msg_pspew("%3d: 0x%02x\n", i, data[i]);
1239 }
1240 }
Dominik Geyerb46acba2008-05-16 12:55:55 +00001241 }
1242
Carl-Daniel Hailfinger142e30f2009-07-14 10:26:56 +00001243 return result;
Dominik Geyerb46acba2008-05-16 12:55:55 +00001244}
Carl-Daniel Hailfinger02487aa2009-07-22 15:36:50 +00001245
Stefan Tauner50e7c602011-11-08 10:55:54 +00001246static struct hwseq_data {
1247 uint32_t size_comp0;
1248 uint32_t size_comp1;
Nico Huberd54e4f42017-03-23 23:45:47 +01001249 uint32_t addr_mask;
1250 bool only_4k;
1251 uint32_t hsfc_fcycle;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001252} hwseq_data;
1253
Nico Huberd54e4f42017-03-23 23:45:47 +01001254/* Sets FLA in FADDR to (addr & hwseq_data.addr_mask) without touching other bits. */
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001255static void ich_hwseq_set_addr(uint32_t addr)
1256{
Nico Huberd54e4f42017-03-23 23:45:47 +01001257 uint32_t addr_old = REGREAD32(ICH9_REG_FADDR) & ~hwseq_data.addr_mask;
1258 REGWRITE32(ICH9_REG_FADDR, (addr & hwseq_data.addr_mask) | addr_old);
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001259}
1260
1261/* Sets FADDR.FLA to 'addr' and returns the erase block size in bytes
1262 * of the block containing this address. May return nonsense if the address is
1263 * not valid. The erase block size for a specific address depends on the flash
1264 * partition layout as specified by FPB and the partition properties as defined
1265 * by UVSCC and LVSCC respectively. An alternative to implement this method
1266 * would be by querying FPB and the respective VSCC register directly.
1267 */
1268static uint32_t ich_hwseq_get_erase_block_size(unsigned int addr)
1269{
Elyes HAOUAS29e46d02019-06-09 17:38:25 +02001270 uint8_t enc_berase;
1271 static const uint32_t dec_berase[4] = {
1272 256,
1273 4 * 1024,
1274 8 * 1024,
1275 64 * 1024
1276 };
1277
Nico Huberd54e4f42017-03-23 23:45:47 +01001278 if (hwseq_data.only_4k) {
1279 return 4 * 1024;
Nico Huberd54e4f42017-03-23 23:45:47 +01001280 }
Elyes HAOUAS29e46d02019-06-09 17:38:25 +02001281
1282 ich_hwseq_set_addr(addr);
1283 enc_berase = (REGREAD16(ICH9_REG_HSFS) & HSFS_BERASE) >> HSFS_BERASE_OFF;
1284 return dec_berase[enc_berase];
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001285}
1286
1287/* Polls for Cycle Done Status, Flash Cycle Error or timeout in 8 us intervals.
1288 Resets all error flags in HSFS.
1289 Returns 0 if the cycle completes successfully without errors within
1290 timeout us, 1 on errors. */
Subrata Banik7cb43952022-03-16 20:40:42 +05301291static int ich_hwseq_wait_for_cycle_complete(unsigned int len)
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001292{
Subrata Banik7cb43952022-03-16 20:40:42 +05301293 /*
1294 * The SPI bus may be busy due to performing operations from other masters, hence
1295 * introduce the long timeout of 30s to cover the worst case scenarios as well.
1296 */
1297 unsigned int timeout_us = 30 * 1000 * 1000;
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001298 uint16_t hsfs;
1299 uint32_t addr;
1300
Subrata Banik7cb43952022-03-16 20:40:42 +05301301 timeout_us /= 8; /* scale timeout duration to counter */
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001302 while ((((hsfs = REGREAD16(ICH9_REG_HSFS)) &
1303 (HSFS_FDONE | HSFS_FCERR)) == 0) &&
Subrata Banik7cb43952022-03-16 20:40:42 +05301304 --timeout_us) {
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001305 programmer_delay(8);
1306 }
1307 REGWRITE16(ICH9_REG_HSFS, REGREAD16(ICH9_REG_HSFS));
Subrata Banik7cb43952022-03-16 20:40:42 +05301308 if (!timeout_us) {
Nico Huberd54e4f42017-03-23 23:45:47 +01001309 addr = REGREAD32(ICH9_REG_FADDR) & hwseq_data.addr_mask;
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001310 msg_perr("Timeout error between offset 0x%08x and "
Stefan Tauner50e7c602011-11-08 10:55:54 +00001311 "0x%08x (= 0x%08x + %d)!\n",
1312 addr, addr + len - 1, addr, len - 1);
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001313 prettyprint_ich9_reg_hsfs(hsfs);
1314 prettyprint_ich9_reg_hsfc(REGREAD16(ICH9_REG_HSFC));
1315 return 1;
1316 }
1317
1318 if (hsfs & HSFS_FCERR) {
Nico Huberd54e4f42017-03-23 23:45:47 +01001319 addr = REGREAD32(ICH9_REG_FADDR) & hwseq_data.addr_mask;
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001320 msg_perr("Transaction error between offset 0x%08x and "
Stefan Tauner50e7c602011-11-08 10:55:54 +00001321 "0x%08x (= 0x%08x + %d)!\n",
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001322 addr, addr + len - 1, addr, len - 1);
1323 prettyprint_ich9_reg_hsfs(hsfs);
1324 prettyprint_ich9_reg_hsfc(REGREAD16(ICH9_REG_HSFC));
1325 return 1;
1326 }
1327 return 0;
1328}
Stefan Tauner50e7c602011-11-08 10:55:54 +00001329
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001330static int ich_hwseq_probe(struct flashctx *flash)
Stefan Tauner50e7c602011-11-08 10:55:54 +00001331{
1332 uint32_t total_size, boundary;
1333 uint32_t erase_size_low, size_low, erase_size_high, size_high;
1334 struct block_eraser *eraser;
1335
1336 total_size = hwseq_data.size_comp0 + hwseq_data.size_comp1;
Stefan Tauner5c316f92015-02-08 21:57:52 +00001337 msg_cdbg("Hardware sequencing reports %d attached SPI flash chip",
Stefan Tauner50e7c602011-11-08 10:55:54 +00001338 (hwseq_data.size_comp1 != 0) ? 2 : 1);
1339 if (hwseq_data.size_comp1 != 0)
1340 msg_cdbg("s with a combined");
1341 else
1342 msg_cdbg(" with a");
1343 msg_cdbg(" density of %d kB.\n", total_size / 1024);
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001344 flash->chip->total_size = total_size / 1024;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001345
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001346 eraser = &(flash->chip->block_erasers[0]);
Nico Huberd54e4f42017-03-23 23:45:47 +01001347 if (!hwseq_data.only_4k)
1348 boundary = (REGREAD32(ICH9_REG_FPB) & FPB_FPBA) << 12;
1349 else
1350 boundary = 0;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001351 size_high = total_size - boundary;
1352 erase_size_high = ich_hwseq_get_erase_block_size(boundary);
1353
1354 if (boundary == 0) {
Stefan Tauner5c316f92015-02-08 21:57:52 +00001355 msg_cdbg2("There is only one partition containing the whole "
Stefan Tauner50e7c602011-11-08 10:55:54 +00001356 "address space (0x%06x - 0x%06x).\n", 0, size_high-1);
1357 eraser->eraseblocks[0].size = erase_size_high;
1358 eraser->eraseblocks[0].count = size_high / erase_size_high;
Stefan Tauner5c316f92015-02-08 21:57:52 +00001359 msg_cdbg2("There are %d erase blocks with %d B each.\n",
Stefan Tauner50e7c602011-11-08 10:55:54 +00001360 size_high / erase_size_high, erase_size_high);
1361 } else {
Stefan Tauner5c316f92015-02-08 21:57:52 +00001362 msg_cdbg2("The flash address space (0x%06x - 0x%06x) is divided "
Stefan Tauner50e7c602011-11-08 10:55:54 +00001363 "at address 0x%06x in two partitions.\n",
Stefan Taunerdbac46c2013-08-13 22:10:41 +00001364 0, total_size-1, boundary);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001365 size_low = total_size - size_high;
1366 erase_size_low = ich_hwseq_get_erase_block_size(0);
1367
1368 eraser->eraseblocks[0].size = erase_size_low;
1369 eraser->eraseblocks[0].count = size_low / erase_size_low;
1370 msg_cdbg("The first partition ranges from 0x%06x to 0x%06x.\n",
1371 0, size_low-1);
1372 msg_cdbg("In that range are %d erase blocks with %d B each.\n",
1373 size_low / erase_size_low, erase_size_low);
1374
1375 eraser->eraseblocks[1].size = erase_size_high;
1376 eraser->eraseblocks[1].count = size_high / erase_size_high;
1377 msg_cdbg("The second partition ranges from 0x%06x to 0x%06x.\n",
Stefan Taunerdbac46c2013-08-13 22:10:41 +00001378 boundary, total_size-1);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001379 msg_cdbg("In that range are %d erase blocks with %d B each.\n",
1380 size_high / erase_size_high, erase_size_high);
1381 }
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001382 flash->chip->tested = TEST_OK_PREW;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001383 return 1;
1384}
1385
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001386static int ich_hwseq_block_erase(struct flashctx *flash, unsigned int addr,
1387 unsigned int len)
Stefan Tauner50e7c602011-11-08 10:55:54 +00001388{
1389 uint32_t erase_block;
1390 uint16_t hsfc;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001391
1392 erase_block = ich_hwseq_get_erase_block_size(addr);
1393 if (len != erase_block) {
1394 msg_cerr("Erase block size for address 0x%06x is %d B, "
1395 "but requested erase block size is %d B. "
1396 "Not erasing anything.\n", addr, erase_block, len);
1397 return -1;
1398 }
1399
1400 /* Although the hardware supports this (it would erase the whole block
1401 * containing the address) we play safe here. */
1402 if (addr % erase_block != 0) {
1403 msg_cerr("Erase address 0x%06x is not aligned to the erase "
1404 "block boundary (any multiple of %d). "
1405 "Not erasing anything.\n", addr, erase_block);
1406 return -1;
1407 }
1408
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001409 if (addr + len > flash->chip->total_size * 1024) {
Stefan Tauner50e7c602011-11-08 10:55:54 +00001410 msg_perr("Request to erase some inaccessible memory address(es)"
1411 " (addr=0x%x, len=%d). "
1412 "Not erasing anything.\n", addr, len);
1413 return -1;
1414 }
1415
1416 msg_pdbg("Erasing %d bytes starting at 0x%06x.\n", len, addr);
Stefan Tauner7608d362014-08-05 23:28:47 +00001417 ich_hwseq_set_addr(addr);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001418
1419 /* make sure FDONE, FCERR, AEL are cleared by writing 1 to them */
1420 REGWRITE16(ICH9_REG_HSFS, REGREAD16(ICH9_REG_HSFS));
1421
1422 hsfc = REGREAD16(ICH9_REG_HSFC);
Nico Huberd54e4f42017-03-23 23:45:47 +01001423 hsfc &= ~hwseq_data.hsfc_fcycle; /* clear operation */
Stefan Tauner50e7c602011-11-08 10:55:54 +00001424 hsfc |= (0x3 << HSFC_FCYCLE_OFF); /* set erase operation */
1425 hsfc |= HSFC_FGO; /* start */
1426 msg_pdbg("HSFC used for block erasing: ");
1427 prettyprint_ich9_reg_hsfc(hsfc);
1428 REGWRITE16(ICH9_REG_HSFC, hsfc);
1429
Subrata Banik7cb43952022-03-16 20:40:42 +05301430 if (ich_hwseq_wait_for_cycle_complete(len))
Stefan Tauner50e7c602011-11-08 10:55:54 +00001431 return -1;
1432 return 0;
1433}
1434
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001435static int ich_hwseq_read(struct flashctx *flash, uint8_t *buf,
1436 unsigned int addr, unsigned int len)
Stefan Tauner50e7c602011-11-08 10:55:54 +00001437{
1438 uint16_t hsfc;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001439 uint8_t block_len;
1440
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001441 if (addr + len > flash->chip->total_size * 1024) {
Stefan Tauner50e7c602011-11-08 10:55:54 +00001442 msg_perr("Request to read from an inaccessible memory address "
1443 "(addr=0x%x, len=%d).\n", addr, len);
1444 return -1;
1445 }
1446
1447 msg_pdbg("Reading %d bytes starting at 0x%06x.\n", len, addr);
1448 /* clear FDONE, FCERR, AEL by writing 1 to them (if they are set) */
1449 REGWRITE16(ICH9_REG_HSFS, REGREAD16(ICH9_REG_HSFS));
1450
1451 while (len > 0) {
Stefan Tauner7608d362014-08-05 23:28:47 +00001452 /* Obey programmer limit... */
Nico Huber9a11cbf2023-01-13 01:19:07 +01001453 block_len = min(len, flash->mst.opaque->max_data_read);
Stefan Tauner7608d362014-08-05 23:28:47 +00001454 /* as well as flash chip page borders as demanded in the Intel datasheets. */
1455 block_len = min(block_len, 256 - (addr & 0xFF));
1456
Stefan Tauner50e7c602011-11-08 10:55:54 +00001457 ich_hwseq_set_addr(addr);
1458 hsfc = REGREAD16(ICH9_REG_HSFC);
Nico Huberd54e4f42017-03-23 23:45:47 +01001459 hsfc &= ~hwseq_data.hsfc_fcycle; /* set read operation */
Stefan Tauner50e7c602011-11-08 10:55:54 +00001460 hsfc &= ~HSFC_FDBC; /* clear byte count */
1461 /* set byte count */
1462 hsfc |= (((block_len - 1) << HSFC_FDBC_OFF) & HSFC_FDBC);
1463 hsfc |= HSFC_FGO; /* start */
1464 REGWRITE16(ICH9_REG_HSFC, hsfc);
1465
Subrata Banik7cb43952022-03-16 20:40:42 +05301466 if (ich_hwseq_wait_for_cycle_complete(block_len))
Stefan Tauner50e7c602011-11-08 10:55:54 +00001467 return 1;
1468 ich_read_data(buf, block_len, ICH9_REG_FDATA0);
Richard Hughes842d6782021-01-15 09:48:12 +00001469 flashprog_progress_add(flash, block_len);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001470 addr += block_len;
1471 buf += block_len;
1472 len -= block_len;
1473 }
1474 return 0;
1475}
1476
Mark Marshallf20b7be2014-05-09 21:16:21 +00001477static int ich_hwseq_write(struct flashctx *flash, const uint8_t *buf, unsigned int addr, unsigned int len)
Stefan Tauner50e7c602011-11-08 10:55:54 +00001478{
1479 uint16_t hsfc;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001480 uint8_t block_len;
1481
Carl-Daniel Hailfinger5a7cb842012-08-25 01:17:58 +00001482 if (addr + len > flash->chip->total_size * 1024) {
Stefan Tauner50e7c602011-11-08 10:55:54 +00001483 msg_perr("Request to write to an inaccessible memory address "
1484 "(addr=0x%x, len=%d).\n", addr, len);
1485 return -1;
1486 }
1487
1488 msg_pdbg("Writing %d bytes starting at 0x%06x.\n", len, addr);
1489 /* clear FDONE, FCERR, AEL by writing 1 to them (if they are set) */
1490 REGWRITE16(ICH9_REG_HSFS, REGREAD16(ICH9_REG_HSFS));
1491
1492 while (len > 0) {
1493 ich_hwseq_set_addr(addr);
Stefan Tauner7608d362014-08-05 23:28:47 +00001494 /* Obey programmer limit... */
Nico Huber9a11cbf2023-01-13 01:19:07 +01001495 block_len = min(len, flash->mst.opaque->max_data_write);
Stefan Tauner7608d362014-08-05 23:28:47 +00001496 /* as well as flash chip page borders as demanded in the Intel datasheets. */
1497 block_len = min(block_len, 256 - (addr & 0xFF));
Stefan Tauner50e7c602011-11-08 10:55:54 +00001498 ich_fill_data(buf, block_len, ICH9_REG_FDATA0);
1499 hsfc = REGREAD16(ICH9_REG_HSFC);
Nico Huberd54e4f42017-03-23 23:45:47 +01001500 hsfc &= ~hwseq_data.hsfc_fcycle; /* clear operation */
Stefan Tauner50e7c602011-11-08 10:55:54 +00001501 hsfc |= (0x2 << HSFC_FCYCLE_OFF); /* set write operation */
1502 hsfc &= ~HSFC_FDBC; /* clear byte count */
1503 /* set byte count */
1504 hsfc |= (((block_len - 1) << HSFC_FDBC_OFF) & HSFC_FDBC);
1505 hsfc |= HSFC_FGO; /* start */
1506 REGWRITE16(ICH9_REG_HSFC, hsfc);
1507
Subrata Banik7cb43952022-03-16 20:40:42 +05301508 if (ich_hwseq_wait_for_cycle_complete(block_len))
Stefan Tauner50e7c602011-11-08 10:55:54 +00001509 return -1;
Richard Hughes842d6782021-01-15 09:48:12 +00001510 flashprog_progress_add(flash, block_len);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001511 addr += block_len;
1512 buf += block_len;
1513 len -= block_len;
1514 }
1515 return 0;
1516}
Stefan Taunerd0c5dc22011-10-20 12:57:14 +00001517
Edward O'Callaghan5eca4272020-04-12 17:27:53 +10001518static int ich_spi_send_multicommand(const struct flashctx *flash,
Carl-Daniel Hailfinger8a3c60c2011-12-18 15:01:24 +00001519 struct spi_command *cmds)
Carl-Daniel Hailfinger02487aa2009-07-22 15:36:50 +00001520{
1521 int ret = 0;
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001522 int i;
Carl-Daniel Hailfinger26f7e642009-09-18 15:50:56 +00001523 int oppos, preoppos;
Nico Huberd5185632024-01-05 18:44:41 +01001524 for (; !spi_is_empty(cmds) && !ret; cmds++) {
1525 if (!spi_is_empty(cmds + 1)) {
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001526 /* Next command is valid. */
Carl-Daniel Hailfinger26f7e642009-09-18 15:50:56 +00001527 preoppos = find_preop(curopcodes, cmds->writearr[0]);
1528 oppos = find_opcode(curopcodes, (cmds + 1)->writearr[0]);
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001529 if ((oppos == -1) && (preoppos != -1)) {
1530 /* Current command is listed as preopcode in
1531 * ICH struct OPCODES, but next command is not
1532 * listed as opcode in that struct.
1533 * Check for command sanity, then
1534 * try to reprogram the ICH opcode list.
1535 */
1536 if (find_preop(curopcodes,
1537 (cmds + 1)->writearr[0]) != -1) {
Sean Nelson316a29f2010-05-07 20:09:04 +00001538 msg_perr("%s: Two subsequent "
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001539 "preopcodes 0x%02x and 0x%02x, "
1540 "ignoring the first.\n",
1541 __func__, cmds->writearr[0],
1542 (cmds + 1)->writearr[0]);
1543 continue;
1544 }
1545 /* If the chipset is locked down, we'll fail
1546 * during execution of the next command anyway.
1547 * No need to bother with fixups.
1548 */
1549 if (!ichspi_lock) {
Nico Huberd5185632024-01-05 18:44:41 +01001550 oppos = reprogram_opcode_on_the_fly((cmds + 1)->writearr[0],
1551 spi_write_len(cmds + 1), spi_read_len(cmds + 1));
Helge Wagner738e2522010-10-05 22:06:05 +00001552 if (oppos == -1)
1553 continue;
1554 curopcodes->opcode[oppos].atomic = preoppos + 1;
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001555 continue;
1556 }
1557 }
1558 if ((oppos != -1) && (preoppos != -1)) {
1559 /* Current command is listed as preopcode in
1560 * ICH struct OPCODES and next command is listed
1561 * as opcode in that struct. Match them up.
1562 */
1563 curopcodes->opcode[oppos].atomic = preoppos + 1;
Carl-Daniel Hailfinger26f7e642009-09-18 15:50:56 +00001564 continue;
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001565 }
1566 /* If none of the above if-statements about oppos or
1567 * preoppos matched, this is a normal opcode.
1568 */
1569 }
Nico Huberd5185632024-01-05 18:44:41 +01001570 ret = ich_spi_send_command(flash, spi_write_len(cmds), spi_read_len(cmds),
Carl-Daniel Hailfinger26f7e642009-09-18 15:50:56 +00001571 cmds->writearr, cmds->readarr);
Carl-Daniel Hailfingerf15e1ab2010-02-11 11:28:37 +00001572 /* Reset the type of all opcodes to non-atomic. */
1573 for (i = 0; i < 8; i++)
1574 curopcodes->opcode[i].atomic = 0;
Carl-Daniel Hailfinger02487aa2009-07-22 15:36:50 +00001575 }
1576 return ret;
1577}
Carl-Daniel Hailfingercceafa22010-05-26 01:45:41 +00001578
Nikolai Artemieve7a41e32022-11-28 17:40:56 +11001579static bool ich_spi_probe_opcode(const struct flashctx *flash, uint8_t opcode)
Aarya Chaumal0cea7532022-07-04 18:21:50 +05301580{
Nico Huber3824c8d2024-05-26 16:59:22 +02001581 return !ichspi_lock || find_opcode(curopcodes, opcode) >= 0;
Aarya Chaumal0cea7532022-07-04 18:21:50 +05301582}
1583
Michael Karchera4448d92010-07-22 18:04:15 +00001584#define ICH_BMWAG(x) ((x >> 24) & 0xff)
1585#define ICH_BMRAG(x) ((x >> 16) & 0xff)
1586#define ICH_BRWA(x) ((x >> 8) & 0xff)
1587#define ICH_BRRA(x) ((x >> 0) & 0xff)
1588
Nico Huber7590d1a2016-05-03 13:38:28 +02001589static const enum ich_access_protection access_perms_to_protection[] = {
1590 LOCKED, WRITE_PROT, READ_PROT, NO_PROT
1591};
1592static const char *const access_names[] = {
1593 "locked", "read-only", "write-only", "read-write"
1594};
1595
Nico Huber519be662018-12-23 20:03:35 +01001596static enum ich_access_protection ich9_handle_frap(uint32_t frap, unsigned int i)
Michael Karchera4448d92010-07-22 18:04:15 +00001597{
Nico Huberaa91d5c2017-08-19 17:04:21 +02001598 const int rwperms_unknown = ARRAY_SIZE(access_names);
Nico Huber2a5dfaf2019-07-04 16:01:51 +02001599 static const char *const region_names[] = {
Michael Karchera4448d92010-07-22 18:04:15 +00001600 "Flash Descriptor", "BIOS", "Management Engine",
Nico Huberd2d39932019-01-18 16:49:37 +01001601 "Gigabit Ethernet", "Platform Data", "Device Expansion",
Nico Huber2a5dfaf2019-07-04 16:01:51 +02001602 "BIOS2", "unknown", "EC/BMC",
Michael Karchera4448d92010-07-22 18:04:15 +00001603 };
Nico Huberd54e4f42017-03-23 23:45:47 +01001604 const char *const region_name = i < ARRAY_SIZE(region_names) ? region_names[i] : "unknown";
1605
Michael Karchera4448d92010-07-22 18:04:15 +00001606 uint32_t base, limit;
Nico Huberaa91d5c2017-08-19 17:04:21 +02001607 int rwperms;
Nico Huberd2d39932019-01-18 16:49:37 +01001608 const int offset = i < 12
1609 ? ICH9_REG_FREG0 + i * 4
1610 : APL_REG_FREG12 + (i - 12) * 4;
Michael Karchera4448d92010-07-22 18:04:15 +00001611 uint32_t freg = mmio_readl(ich_spibar + offset);
1612
Nico Huberaa91d5c2017-08-19 17:04:21 +02001613 if (i < 8) {
1614 rwperms = (((ICH_BRWA(frap) >> i) & 1) << 1) |
1615 (((ICH_BRRA(frap) >> i) & 1) << 0);
1616 } else {
1617 /* Datasheets don't define any access bits for regions > 7. We
1618 can't rely on the actual descriptor settings either as there
1619 are several overrides for them (those by other masters are
1620 not even readable by us, *shrug*). */
1621 rwperms = rwperms_unknown;
1622 }
1623
Michael Karchera4448d92010-07-22 18:04:15 +00001624 base = ICH_FREG_BASE(freg);
1625 limit = ICH_FREG_LIMIT(freg);
Stefan Taunere3adea02012-08-27 15:12:36 +00001626 if (base > limit || (freg == 0 && i > 0)) {
Michael Karchera4448d92010-07-22 18:04:15 +00001627 /* this FREG is disabled */
Nico Huber519be662018-12-23 20:03:35 +01001628 msg_pdbg2("0x%02X: 0x%08x FREG%u: %s region is unused.\n",
Nico Huberd54e4f42017-03-23 23:45:47 +01001629 offset, freg, i, region_name);
Nico Huber7590d1a2016-05-03 13:38:28 +02001630 return NO_PROT;
Stefan Tauner5210e722012-02-16 01:13:00 +00001631 }
1632 msg_pdbg("0x%02X: 0x%08x ", offset, freg);
1633 if (rwperms == 0x3) {
Nico Huber519be662018-12-23 20:03:35 +01001634 msg_pdbg("FREG%u: %s region (0x%08x-0x%08x) is %s.\n", i,
Nico Huber0bb3f712017-03-29 16:44:33 +02001635 region_name, base, limit, access_names[rwperms]);
Nico Huber7590d1a2016-05-03 13:38:28 +02001636 return NO_PROT;
Michael Karchera4448d92010-07-22 18:04:15 +00001637 }
Nico Huberaa91d5c2017-08-19 17:04:21 +02001638 if (rwperms == rwperms_unknown) {
Nico Huber519be662018-12-23 20:03:35 +01001639 msg_pdbg("FREG%u: %s region (0x%08x-0x%08x) has unknown permissions.\n",
Nico Huberaa91d5c2017-08-19 17:04:21 +02001640 i, region_name, base, limit);
Nico Huber7590d1a2016-05-03 13:38:28 +02001641 return NO_PROT;
Nico Huberaa91d5c2017-08-19 17:04:21 +02001642 }
Michael Karchera4448d92010-07-22 18:04:15 +00001643
Nico Huber519be662018-12-23 20:03:35 +01001644 msg_pinfo("FREG%u: %s region (0x%08x-0x%08x) is %s.\n", i,
Nico Huber0bb3f712017-03-29 16:44:33 +02001645 region_name, base, limit, access_names[rwperms]);
Nico Huber7590d1a2016-05-03 13:38:28 +02001646 return access_perms_to_protection[rwperms];
Michael Karchera4448d92010-07-22 18:04:15 +00001647}
1648
Stefan Taunerbf69aaa2011-09-17 21:21:48 +00001649 /* In contrast to FRAP and the master section of the descriptor the bits
1650 * in the PR registers have an inverted meaning. The bits in FRAP
1651 * indicate read and write access _grant_. Here they indicate read
1652 * and write _protection_ respectively. If both bits are 0 the address
1653 * bits are ignored.
1654 */
1655#define ICH_PR_PERMS(pr) (((~((pr) >> PR_RP_OFF) & 1) << 0) | \
1656 ((~((pr) >> PR_WP_OFF) & 1) << 1))
1657
Nico Huber519be662018-12-23 20:03:35 +01001658static enum ich_access_protection ich9_handle_pr(const size_t reg_pr0, unsigned int i)
Stefan Taunerbf69aaa2011-09-17 21:21:48 +00001659{
Nico Huberd54e4f42017-03-23 23:45:47 +01001660 uint8_t off = reg_pr0 + (i * 4);
Stefan Taunerbf69aaa2011-09-17 21:21:48 +00001661 uint32_t pr = mmio_readl(ich_spibar + off);
Stefan Tauner5210e722012-02-16 01:13:00 +00001662 unsigned int rwperms = ICH_PR_PERMS(pr);
Stefan Taunerbf69aaa2011-09-17 21:21:48 +00001663
Nico Huberd54e4f42017-03-23 23:45:47 +01001664 /* From 5 on we have GPR registers and start from 0 again. */
1665 const char *const prefix = i >= 5 ? "G" : "";
1666 if (i >= 5)
1667 i -= 5;
1668
Stefan Tauner5210e722012-02-16 01:13:00 +00001669 if (rwperms == 0x3) {
Nico Huberd54e4f42017-03-23 23:45:47 +01001670 msg_pdbg2("0x%02X: 0x%08x (%sPR%u is unused)\n", off, pr, prefix, i);
Nico Huber7590d1a2016-05-03 13:38:28 +02001671 return NO_PROT;
Stefan Tauner5210e722012-02-16 01:13:00 +00001672 }
1673
1674 msg_pdbg("0x%02X: 0x%08x ", off, pr);
Nico Huberd54e4f42017-03-23 23:45:47 +01001675 msg_pwarn("%sPR%u: Warning: 0x%08x-0x%08x is %s.\n", prefix, i, ICH_FREG_BASE(pr),
Nico Huber0bb3f712017-03-29 16:44:33 +02001676 ICH_FREG_LIMIT(pr), access_names[rwperms]);
Nico Huber7590d1a2016-05-03 13:38:28 +02001677 return access_perms_to_protection[rwperms];
Stefan Taunerbf69aaa2011-09-17 21:21:48 +00001678}
1679
Stefan Tauner75da80c2011-09-17 22:21:55 +00001680/* Set/Clear the read and write protection enable bits of PR register @i
1681 * according to @read_prot and @write_prot. */
Nico Huberd54e4f42017-03-23 23:45:47 +01001682static void ich9_set_pr(const size_t reg_pr0, int i, int read_prot, int write_prot)
Stefan Tauner75da80c2011-09-17 22:21:55 +00001683{
Nico Huberd54e4f42017-03-23 23:45:47 +01001684 void *addr = ich_spibar + reg_pr0 + (i * 4);
Stefan Tauner75da80c2011-09-17 22:21:55 +00001685 uint32_t old = mmio_readl(addr);
1686 uint32_t new;
1687
1688 msg_gspew("PR%u is 0x%08x", i, old);
1689 new = old & ~((1 << PR_RP_OFF) | (1 << PR_WP_OFF));
1690 if (read_prot)
1691 new |= (1 << PR_RP_OFF);
1692 if (write_prot)
1693 new |= (1 << PR_WP_OFF);
1694 if (old == new) {
1695 msg_gspew(" already.\n");
1696 return;
1697 }
1698 msg_gspew(", trying to set it to 0x%08x ", new);
1699 rmmio_writel(new, addr);
1700 msg_gspew("resulted in 0x%08x.\n", mmio_readl(addr));
1701}
1702
Carl-Daniel Hailfingera5bcbce2014-07-19 22:03:29 +00001703static const struct spi_master spi_master_ich7 = {
Thomas Heijligen43040f22022-06-23 14:38:35 +02001704 .max_data_read = 64,
1705 .max_data_write = 64,
1706 .command = ich_spi_send_command,
1707 .multicommand = ich_spi_send_multicommand,
1708 .read = default_spi_read,
1709 .write_256 = default_spi_write_256,
Aarya Chaumal0cea7532022-07-04 18:21:50 +05301710 .probe_opcode = ich_spi_probe_opcode,
Michael Karcherb9dbe482011-05-11 17:07:07 +00001711};
1712
Nico Hubera1f64762024-07-14 20:23:28 +02001713int ich7_init_spi(void *spibar, enum ich_chipset ich_gen)
1714{
1715 unsigned int i;
1716
1717 ich_generation = ich_gen;
1718 ich_spibar = spibar;
1719
1720 msg_pdbg("0x00: 0x%04x (SPIS)\n", mmio_readw(ich_spibar + 0));
1721 msg_pdbg("0x02: 0x%04x (SPIC)\n", mmio_readw(ich_spibar + 2));
1722 msg_pdbg("0x04: 0x%08x (SPIA)\n", mmio_readl(ich_spibar + 4));
1723
1724 ichspi_bbar = mmio_readl(ich_spibar + 0x50);
1725 msg_pdbg("0x50: 0x%08x (BBAR)\n", ichspi_bbar);
1726 msg_pdbg("0x54: 0x%04x (PREOP)\n", mmio_readw(ich_spibar + 0x54));
1727 msg_pdbg("0x56: 0x%04x (OPTYPE)\n", mmio_readw(ich_spibar + 0x56));
1728 msg_pdbg("0x58: 0x%08x (OPMENU)\n", mmio_readl(ich_spibar + 0x58));
1729 msg_pdbg("0x5c: 0x%08x (OPMENU+4)\n", mmio_readl(ich_spibar + 0x5c));
1730
1731 for (i = 0; i < 3; i++) {
1732 const int offs = 0x60 + (i * 4);
1733 msg_pdbg("0x%02x: 0x%08x (PBR%u)\n", offs,
1734 mmio_readl(ich_spibar + offs), i);
1735 }
1736
1737 if (mmio_readw(ich_spibar) & (1 << 15)) {
1738 msg_pwarn("WARNING: SPI Configuration Lockdown activated.\n");
1739 ichspi_lock = true;
1740 }
1741
1742 ich_init_opcodes();
1743 ich_set_bbar(0);
1744
1745 return register_spi_master(&spi_master_ich7, 0, NULL);
1746}
1747
Carl-Daniel Hailfingera5bcbce2014-07-19 22:03:29 +00001748static const struct spi_master spi_master_ich9 = {
Thomas Heijligen43040f22022-06-23 14:38:35 +02001749 .max_data_read = 64,
1750 .max_data_write = 64,
1751 .command = ich_spi_send_command,
1752 .multicommand = ich_spi_send_multicommand,
1753 .read = default_spi_read,
1754 .write_256 = default_spi_write_256,
Aarya Chaumal0cea7532022-07-04 18:21:50 +05301755 .probe_opcode = ich_spi_probe_opcode,
Michael Karcherb9dbe482011-05-11 17:07:07 +00001756};
1757
Carl-Daniel Hailfingera5bcbce2014-07-19 22:03:29 +00001758static const struct opaque_master opaque_master_ich_hwseq = {
Thomas Heijligen43040f22022-06-23 14:38:35 +02001759 .max_data_read = 64,
1760 .max_data_write = 64,
1761 .probe = ich_hwseq_probe,
1762 .read = ich_hwseq_read,
1763 .write = ich_hwseq_write,
1764 .erase = ich_hwseq_block_erase,
Stefan Tauner50e7c602011-11-08 10:55:54 +00001765};
1766
Nico Hubera1f64762024-07-14 20:23:28 +02001767int ich9_init_spi(void *spibar, enum ich_chipset ich_gen)
Michael Karchera4448d92010-07-22 18:04:15 +00001768{
Nico Huber519be662018-12-23 20:03:35 +01001769 unsigned int i;
Stefan Tauner92d6a862013-10-25 00:33:37 +00001770 uint16_t tmp2;
Michael Karchera4448d92010-07-22 18:04:15 +00001771 uint32_t tmp;
Stefan Tauner50e7c602011-11-08 10:55:54 +00001772 char *arg;
Stefan Tauner5210e722012-02-16 01:13:00 +00001773 int ich_spi_rw_restricted = 0;
Felix Singer8cfc7372022-08-19 03:10:29 +02001774 bool desc_valid = false;
Angel Pons7e134562021-06-07 13:29:13 +02001775 struct ich_descriptors desc = { 0 };
Stefan Tauner50e7c602011-11-08 10:55:54 +00001776 enum ich_spi_mode {
1777 ich_auto,
1778 ich_hwseq,
1779 ich_swseq
1780 } ich_spi_mode = ich_auto;
Nico Huberd54e4f42017-03-23 23:45:47 +01001781 size_t num_freg, num_pr, reg_pr0;
Michael Karchera4448d92010-07-22 18:04:15 +00001782
Stefan Taunera8d838d2011-11-06 23:51:09 +00001783 ich_generation = ich_gen;
Stefan Tauner92d6a862013-10-25 00:33:37 +00001784 ich_spibar = spibar;
Michael Karchera4448d92010-07-22 18:04:15 +00001785
Nico Huberd54e4f42017-03-23 23:45:47 +01001786 /* Moving registers / bits */
Nico Huberd2d39932019-01-18 16:49:37 +01001787 switch (ich_generation) {
1788 case CHIPSET_100_SERIES_SUNRISE_POINT:
1789 case CHIPSET_C620_SERIES_LEWISBURG:
Nico Huber2a5dfaf2019-07-04 16:01:51 +02001790 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +02001791 case CHIPSET_500_SERIES_TIGER_POINT:
Nico Huberd2d39932019-01-18 16:49:37 +01001792 case CHIPSET_APOLLO_LAKE:
Angel Pons4db0fdf2020-07-10 17:04:10 +02001793 case CHIPSET_GEMINI_LAKE:
Werner Zehe57d4e42022-01-03 09:44:29 +01001794 case CHIPSET_ELKHART_LAKE:
David Hendricksa5216362017-08-08 20:02:22 -07001795 num_pr = 6; /* Includes GPR0 */
1796 reg_pr0 = PCH100_REG_FPR0;
1797 swseq_data.reg_ssfsc = PCH100_REG_SSFSC;
1798 swseq_data.reg_preop = PCH100_REG_PREOP;
1799 swseq_data.reg_optype = PCH100_REG_OPTYPE;
1800 swseq_data.reg_opmenu = PCH100_REG_OPMENU;
1801 hwseq_data.addr_mask = PCH100_FADDR_FLA;
1802 hwseq_data.only_4k = true;
1803 hwseq_data.hsfc_fcycle = PCH100_HSFC_FCYCLE;
Nico Huberd2d39932019-01-18 16:49:37 +01001804 break;
1805 default:
Nico Huberd54e4f42017-03-23 23:45:47 +01001806 num_pr = 5;
1807 reg_pr0 = ICH9_REG_PR0;
1808 swseq_data.reg_ssfsc = ICH9_REG_SSFS;
1809 swseq_data.reg_preop = ICH9_REG_PREOP;
1810 swseq_data.reg_optype = ICH9_REG_OPTYPE;
1811 swseq_data.reg_opmenu = ICH9_REG_OPMENU;
1812 hwseq_data.addr_mask = ICH9_FADDR_FLA;
1813 hwseq_data.only_4k = false;
1814 hwseq_data.hsfc_fcycle = HSFC_FCYCLE;
Nico Huberd2d39932019-01-18 16:49:37 +01001815 break;
1816 }
1817 switch (ich_generation) {
1818 case CHIPSET_100_SERIES_SUNRISE_POINT:
1819 num_freg = 10;
1820 break;
1821 case CHIPSET_C620_SERIES_LEWISBURG:
1822 num_freg = 12; /* 12 MMIO regs, but 16 regions in FD spec */
1823 break;
Nico Huber2a5dfaf2019-07-04 16:01:51 +02001824 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +02001825 case CHIPSET_500_SERIES_TIGER_POINT:
Nico Huberd2d39932019-01-18 16:49:37 +01001826 case CHIPSET_APOLLO_LAKE:
Angel Pons4db0fdf2020-07-10 17:04:10 +02001827 case CHIPSET_GEMINI_LAKE:
Werner Zehe57d4e42022-01-03 09:44:29 +01001828 case CHIPSET_ELKHART_LAKE:
Nico Huberd2d39932019-01-18 16:49:37 +01001829 num_freg = 16;
1830 break;
1831 default:
1832 num_freg = 5;
1833 break;
Nico Huberd54e4f42017-03-23 23:45:47 +01001834 }
1835
Nico Hubera1f64762024-07-14 20:23:28 +02001836 arg = extract_programmer_param("ich_spi_mode");
1837 if (arg && !strcmp(arg, "hwseq")) {
1838 ich_spi_mode = ich_hwseq;
1839 msg_pspew("user selected hwseq\n");
1840 } else if (arg && !strcmp(arg, "swseq")) {
1841 ich_spi_mode = ich_swseq;
1842 msg_pspew("user selected swseq\n");
1843 } else if (arg && !strcmp(arg, "auto")) {
1844 msg_pspew("user selected auto\n");
1845 ich_spi_mode = ich_auto;
1846 } else if (arg && !strlen(arg)) {
1847 msg_perr("Missing argument for ich_spi_mode.\n");
Stefan Tauner50e7c602011-11-08 10:55:54 +00001848 free(arg);
Nico Hubera1f64762024-07-14 20:23:28 +02001849 return ERROR_FATAL;
1850 } else if (arg) {
1851 msg_perr("Unknown argument for ich_spi_mode: %s\n",
1852 arg);
1853 free(arg);
1854 return ERROR_FATAL;
1855 }
1856 free(arg);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001857
Nico Hubera1f64762024-07-14 20:23:28 +02001858 tmp2 = mmio_readw(ich_spibar + ICH9_REG_HSFS);
1859 msg_pdbg("0x04: 0x%04x (HSFS)\n", tmp2);
1860 prettyprint_ich9_reg_hsfs(tmp2);
1861 if (tmp2 & HSFS_FLOCKDN) {
1862 msg_pinfo("SPI Configuration is locked down.\n");
1863 ichspi_lock = true;
1864 }
1865 if (tmp2 & HSFS_FDV)
1866 desc_valid = true;
1867 if (!(tmp2 & HSFS_FDOPSS) && desc_valid)
1868 msg_pinfo("The Flash Descriptor Override Strap-Pin is set. Restrictions implied by\n"
1869 "the Master Section of the flash descriptor are NOT in effect. Please note\n"
1870 "that Protected Range (PR) restrictions still apply.\n");
1871 ich_init_opcodes();
Stefan Tauner55206942011-06-11 09:53:22 +00001872
Nico Hubera1f64762024-07-14 20:23:28 +02001873 if (desc_valid) {
1874 tmp2 = mmio_readw(ich_spibar + ICH9_REG_HSFC);
1875 msg_pdbg("0x06: 0x%04x (HSFC)\n", tmp2);
1876 prettyprint_ich9_reg_hsfc(tmp2);
1877 }
Michael Karchera4448d92010-07-22 18:04:15 +00001878
Nico Hubera1f64762024-07-14 20:23:28 +02001879 tmp = mmio_readl(ich_spibar + ICH9_REG_FADDR);
1880 msg_pdbg2("0x08: 0x%08x (FADDR)\n", tmp);
Michael Karchera4448d92010-07-22 18:04:15 +00001881
Nico Hubera1f64762024-07-14 20:23:28 +02001882 switch (ich_gen) {
1883 case CHIPSET_100_SERIES_SUNRISE_POINT:
1884 case CHIPSET_C620_SERIES_LEWISBURG:
1885 case CHIPSET_300_SERIES_CANNON_POINT:
1886 case CHIPSET_500_SERIES_TIGER_POINT:
1887 case CHIPSET_APOLLO_LAKE:
1888 case CHIPSET_GEMINI_LAKE:
1889 case CHIPSET_ELKHART_LAKE:
1890 tmp = mmio_readl(ich_spibar + PCH100_REG_DLOCK);
1891 msg_pdbg("0x0c: 0x%08x (DLOCK)\n", tmp);
1892 prettyprint_pch100_reg_dlock(tmp);
1893 break;
1894 default:
1895 break;
1896 }
1897
1898 if (desc_valid) {
1899 tmp = mmio_readl(ich_spibar + ICH9_REG_FRAP);
1900 msg_pdbg("0x50: 0x%08x (FRAP)\n", tmp);
1901 msg_pdbg("BMWAG 0x%02x, ", ICH_BMWAG(tmp));
1902 msg_pdbg("BMRAG 0x%02x, ", ICH_BMRAG(tmp));
1903 msg_pdbg("BRWA 0x%02x, ", ICH_BRWA(tmp));
1904 msg_pdbg("BRRA 0x%02x\n", ICH_BRRA(tmp));
1905
1906 /* Handle FREGx and FRAP registers */
1907 for (i = 0; i < num_freg; i++)
1908 ich_spi_rw_restricted |= ich9_handle_frap(tmp, i);
1909 if (ich_spi_rw_restricted)
1910 msg_pinfo("Not all flash regions are freely accessible by flashprog. This is "
1911 "most likely\ndue to an active ME. Please see "
1912 "https://flashprog.org/ME for details.\n");
1913 }
1914
1915 /* Handle PR registers */
1916 for (i = 0; i < num_pr; i++) {
1917 /* if not locked down try to disable PR locks first */
1918 if (!ichspi_lock)
1919 ich9_set_pr(reg_pr0, i, 0, 0);
1920 ich_spi_rw_restricted |= ich9_handle_pr(reg_pr0, i);
1921 }
1922
1923 switch (ich_spi_rw_restricted) {
1924 case WRITE_PROT:
1925 msg_pwarn("At least some flash regions are write protected. For write operations,\n"
1926 "you should use a flash layout and include only writable regions. See\n"
1927 "manpage for more details.\n");
1928 break;
1929 case READ_PROT:
1930 case LOCKED:
1931 msg_pwarn("At least some flash regions are read protected. You have to use a flash\n"
1932 "layout and include only accessible regions. For write operations, you'll\n"
1933 "additionally need the --noverify-all switch. See manpage for more details.\n"
1934 );
1935 break;
1936 }
1937
1938 tmp = mmio_readl(ich_spibar + swseq_data.reg_ssfsc);
1939 msg_pdbg("0x%zx: 0x%02x (SSFS)\n", swseq_data.reg_ssfsc, tmp & 0xff);
1940 prettyprint_ich9_reg_ssfs(tmp);
1941 if (tmp & SSFS_FCERR) {
1942 msg_pdbg("Clearing SSFS.FCERR\n");
1943 mmio_writeb(SSFS_FCERR, ich_spibar + swseq_data.reg_ssfsc);
1944 }
1945 msg_pdbg("0x%zx: 0x%06x (SSFC)\n", swseq_data.reg_ssfsc + 1, tmp >> 8);
1946 prettyprint_ich9_reg_ssfc(tmp);
1947
1948 msg_pdbg("0x%zx: 0x%04x (PREOP)\n",
1949 swseq_data.reg_preop, mmio_readw(ich_spibar + swseq_data.reg_preop));
1950 msg_pdbg("0x%zx: 0x%04x (OPTYPE)\n",
1951 swseq_data.reg_optype, mmio_readw(ich_spibar + swseq_data.reg_optype));
1952 msg_pdbg("0x%zx: 0x%08x (OPMENU)\n",
1953 swseq_data.reg_opmenu, mmio_readl(ich_spibar + swseq_data.reg_opmenu));
1954 msg_pdbg("0x%zx: 0x%08x (OPMENU+4)\n",
1955 swseq_data.reg_opmenu + 4, mmio_readl(ich_spibar + swseq_data.reg_opmenu + 4));
1956
1957 if (desc_valid) {
Nico Huberd2d39932019-01-18 16:49:37 +01001958 switch (ich_gen) {
Nico Hubera1f64762024-07-14 20:23:28 +02001959 case CHIPSET_ICH8:
Nico Huberd2d39932019-01-18 16:49:37 +01001960 case CHIPSET_100_SERIES_SUNRISE_POINT:
1961 case CHIPSET_C620_SERIES_LEWISBURG:
Nico Huber2a5dfaf2019-07-04 16:01:51 +02001962 case CHIPSET_300_SERIES_CANNON_POINT:
Michał Żygowski5c9f5422021-06-16 15:13:54 +02001963 case CHIPSET_500_SERIES_TIGER_POINT:
Nico Huberd2d39932019-01-18 16:49:37 +01001964 case CHIPSET_APOLLO_LAKE:
Angel Pons4db0fdf2020-07-10 17:04:10 +02001965 case CHIPSET_GEMINI_LAKE:
Werner Zehe57d4e42022-01-03 09:44:29 +01001966 case CHIPSET_ELKHART_LAKE:
Nico Hubera1f64762024-07-14 20:23:28 +02001967 case CHIPSET_BAYTRAIL:
Nico Huberd2d39932019-01-18 16:49:37 +01001968 break;
1969 default:
Nico Hubera1f64762024-07-14 20:23:28 +02001970 ichspi_bbar = mmio_readl(ich_spibar + ICH9_REG_BBAR);
1971 msg_pdbg("0x%x: 0x%08x (BBAR)\n", ICH9_REG_BBAR, ichspi_bbar);
1972 ich_set_bbar(0);
Nico Huberd2d39932019-01-18 16:49:37 +01001973 break;
Nico Huberd54e4f42017-03-23 23:45:47 +01001974 }
1975
Nico Hubera1f64762024-07-14 20:23:28 +02001976 if (ich_gen == CHIPSET_ICH8) {
1977 tmp = mmio_readl(ich_spibar + ICH8_REG_VSCC);
1978 msg_pdbg("0x%x: 0x%08x (VSCC)\n", ICH8_REG_VSCC, tmp);
1979 msg_pdbg("VSCC: ");
1980 prettyprint_ich_reg_vscc(tmp, FLASHPROG_MSG_DEBUG, true);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001981 } else {
Nico Hubera1f64762024-07-14 20:23:28 +02001982 tmp = mmio_readl(ich_spibar + ICH9_REG_LVSCC);
1983 msg_pdbg("0x%x: 0x%08x (LVSCC)\n", ICH9_REG_LVSCC, tmp);
1984 msg_pdbg("LVSCC: ");
1985 prettyprint_ich_reg_vscc(tmp, FLASHPROG_MSG_DEBUG, true);
1986
1987 tmp = mmio_readl(ich_spibar + ICH9_REG_UVSCC);
1988 msg_pdbg("0x%x: 0x%08x (UVSCC)\n", ICH9_REG_UVSCC, tmp);
1989 msg_pdbg("UVSCC: ");
1990 prettyprint_ich_reg_vscc(tmp, FLASHPROG_MSG_DEBUG, false);
Stefan Tauner50e7c602011-11-08 10:55:54 +00001991 }
Nico Hubera1f64762024-07-14 20:23:28 +02001992
1993 switch (ich_gen) {
1994 case CHIPSET_ICH8:
1995 case CHIPSET_100_SERIES_SUNRISE_POINT:
1996 case CHIPSET_C620_SERIES_LEWISBURG:
1997 case CHIPSET_300_SERIES_CANNON_POINT:
1998 case CHIPSET_500_SERIES_TIGER_POINT:
1999 case CHIPSET_APOLLO_LAKE:
2000 case CHIPSET_GEMINI_LAKE:
2001 case CHIPSET_ELKHART_LAKE:
2002 break;
2003 default:
2004 tmp = mmio_readl(ich_spibar + ICH9_REG_FPB);
2005 msg_pdbg("0x%x: 0x%08x (FPB)\n", ICH9_REG_FPB, tmp);
2006 break;
2007 }
2008
2009 if (read_ich_descriptors_via_fdo(ich_gen, ich_spibar, &desc) == ICH_RET_OK)
2010 prettyprint_ich_descriptors(ich_gen, &desc);
2011
2012 /* If the descriptor is valid and indicates multiple
2013 * flash devices we need to use hwseq to be able to
2014 * access the second flash device.
2015 */
2016 if (ich_spi_mode == ich_auto && desc.content.NC != 0) {
2017 msg_pinfo("Enabling hardware sequencing due to "
2018 "multiple flash chips detected.\n");
2019 ich_spi_mode = ich_hwseq;
2020 }
2021 }
2022
2023 if (ich_spi_mode == ich_auto && ichspi_lock &&
2024 ich_missing_opcodes()) {
2025 msg_pinfo("Enabling hardware sequencing because "
2026 "some important opcode is locked.\n");
2027 ich_spi_mode = ich_hwseq;
2028 }
2029
2030 if (ich_spi_mode == ich_auto &&
2031 (ich_gen == CHIPSET_100_SERIES_SUNRISE_POINT ||
2032 ich_gen == CHIPSET_300_SERIES_CANNON_POINT ||
2033 ich_gen == CHIPSET_500_SERIES_TIGER_POINT)) {
2034 msg_pdbg("Enabling hardware sequencing by default for 100+ series PCH.\n");
2035 ich_spi_mode = ich_hwseq;
2036 }
2037
2038 if (ich_spi_mode == ich_auto &&
2039 (ich_gen == CHIPSET_APOLLO_LAKE ||
2040 ich_gen == CHIPSET_GEMINI_LAKE ||
2041 ich_gen == CHIPSET_ELKHART_LAKE)) {
2042 msg_pdbg("Enabling hardware sequencing by default for Apollo/Gemini/Elkhart Lake.\n");
2043 ich_spi_mode = ich_hwseq;
2044 }
2045
2046 if (ich_spi_mode == ich_hwseq) {
2047 if (!desc_valid) {
2048 msg_perr("Hardware sequencing was requested "
2049 "but the flash descriptor is not "
2050 "valid. Aborting.\n");
2051 return ERROR_FATAL;
2052 }
2053
2054 int tmpi = getFCBA_component_density(ich_generation, &desc, 0);
2055 if (tmpi < 0) {
2056 msg_perr("Could not determine density of flash component %d.\n", 0);
2057 return ERROR_FATAL;
2058 }
2059 hwseq_data.size_comp0 = tmpi;
2060
2061 tmpi = getFCBA_component_density(ich_generation, &desc, 1);
2062 if (tmpi < 0) {
2063 msg_perr("Could not determine density of flash component %d.\n", 1);
2064 return ERROR_FATAL;
2065 }
2066 hwseq_data.size_comp1 = tmpi;
2067
2068 register_opaque_master(&opaque_master_ich_hwseq, NULL);
2069 } else {
2070 register_spi_master(&spi_master_ich9, 0, NULL);
Michael Karchera4448d92010-07-22 18:04:15 +00002071 }
2072
Michael Karchera4448d92010-07-22 18:04:15 +00002073 return 0;
2074}
2075
Carl-Daniel Hailfingera5bcbce2014-07-19 22:03:29 +00002076static const struct spi_master spi_master_via = {
Thomas Heijligen43040f22022-06-23 14:38:35 +02002077 .max_data_read = 16,
2078 .max_data_write = 16,
2079 .command = ich_spi_send_command,
2080 .multicommand = ich_spi_send_multicommand,
2081 .read = default_spi_read,
2082 .write_256 = default_spi_write_256,
Aarya Chaumal0cea7532022-07-04 18:21:50 +05302083 .probe_opcode = ich_spi_probe_opcode,
Michael Karcherb9dbe482011-05-11 17:07:07 +00002084};
2085
Nico Huber560111e2017-04-26 12:27:17 +02002086int via_init_spi(uint32_t mmio_base)
Michael Karchera4448d92010-07-22 18:04:15 +00002087{
Carl-Daniel Hailfinger841d6312010-11-24 23:37:22 +00002088 int i;
Michael Karchera4448d92010-07-22 18:04:15 +00002089
Stefan Tauner7fb5aa02013-08-14 15:48:44 +00002090 ich_spibar = rphysmap("VIA SPI MMIO registers", mmio_base, 0x70);
2091 if (ich_spibar == ERROR_PTR)
2092 return ERROR_FATAL;
Helge Wagnerdd73d832012-08-24 23:03:46 +00002093 /* Do we really need no write enable? Like the LPC one at D17F0 0x40 */
Michael Karchera4448d92010-07-22 18:04:15 +00002094
Michael Karchera4448d92010-07-22 18:04:15 +00002095 /* Not sure if it speaks all these bus protocols. */
Nico Huber2e50cdc2018-09-23 20:20:26 +02002096 internal_buses_supported &= BUS_LPC | BUS_FWH;
Stefan Taunera8d838d2011-11-06 23:51:09 +00002097 ich_generation = CHIPSET_ICH7;
Nico Huber89569d62023-01-12 23:31:40 +01002098 register_spi_master(&spi_master_via, 0, NULL);
Carl-Daniel Hailfinger841d6312010-11-24 23:37:22 +00002099
2100 msg_pdbg("0x00: 0x%04x (SPIS)\n", mmio_readw(ich_spibar + 0));
2101 msg_pdbg("0x02: 0x%04x (SPIC)\n", mmio_readw(ich_spibar + 2));
2102 msg_pdbg("0x04: 0x%08x (SPIA)\n", mmio_readl(ich_spibar + 4));
2103 for (i = 0; i < 2; i++) {
2104 int offs;
2105 offs = 8 + (i * 8);
2106 msg_pdbg("0x%02x: 0x%08x (SPID%d)\n", offs,
2107 mmio_readl(ich_spibar + offs), i);
2108 msg_pdbg("0x%02x: 0x%08x (SPID%d+4)\n", offs + 4,
2109 mmio_readl(ich_spibar + offs + 4), i);
2110 }
2111 ichspi_bbar = mmio_readl(ich_spibar + 0x50);
2112 msg_pdbg("0x50: 0x%08x (BBAR)\n", ichspi_bbar);
2113 msg_pdbg("0x54: 0x%04x (PREOP)\n", mmio_readw(ich_spibar + 0x54));
2114 msg_pdbg("0x56: 0x%04x (OPTYPE)\n", mmio_readw(ich_spibar + 0x56));
2115 msg_pdbg("0x58: 0x%08x (OPMENU)\n", mmio_readl(ich_spibar + 0x58));
2116 msg_pdbg("0x5c: 0x%08x (OPMENU+4)\n", mmio_readl(ich_spibar + 0x5c));
2117 for (i = 0; i < 3; i++) {
2118 int offs;
2119 offs = 0x60 + (i * 4);
2120 msg_pdbg("0x%02x: 0x%08x (PBR%d)\n", offs,
2121 mmio_readl(ich_spibar + offs), i);
2122 }
2123 msg_pdbg("0x6c: 0x%04x (CLOCK/DEBUG)\n",
2124 mmio_readw(ich_spibar + 0x6c));
2125 if (mmio_readw(ich_spibar) & (1 << 15)) {
Stefan Taunerc6fa32d2013-01-04 22:54:07 +00002126 msg_pwarn("Warning: SPI Configuration Lockdown activated.\n");
Felix Singer8cfc7372022-08-19 03:10:29 +02002127 ichspi_lock = true;
Carl-Daniel Hailfinger841d6312010-11-24 23:37:22 +00002128 }
2129
Stefan Taunera8d838d2011-11-06 23:51:09 +00002130 ich_set_bbar(0);
Michael Karchera4448d92010-07-22 18:04:15 +00002131 ich_init_opcodes();
2132
2133 return 0;
2134}