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review.coreboot.org / coreboot / 9631016660423d0585a1 / . / src / include / reg_script.h
blob: 691c82cc2c86b3be4976e6967f0e9709c96ac8be [file] [log] [blame]
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]1/*
2 * This file is part of the coreboot project.
3 *
4 * Copyright 2013 Google Inc.
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; version 2 of the License.
9 *
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]14 */
15
16#ifndef REG_SCRIPT_H
17#define REG_SCRIPT_H
18
19#include <stdint.h>
20#include <arch/io.h>
21#include <device/device.h>
22#include <device/resource.h>
23
24/*
25 * The reg script library is a way to provide data-driven I/O accesses for
26 * initializing devices. It currently supports PCI, legacy I/O,
27 * memory-mapped I/O, and IOSF accesses.
28 *
29 * In order to simplify things for the developer the following features
30 * are employed:
31 * - Chaining of tables that allow runtime tables to chain to compile-time
32 * tables.
33 * - Notion of current device (device_t) being worked on. This allows for
34 * PCI config, io, and mmio on a particular device's resources.
35 *
36 * Note that when using REG_SCRIPT_COMMAND_NEXT there is an implicit push
37 * and pop of the context. A chained reg_script inherits the previous
38 * context (such as current device), but it does not impact the previous
39 * context in any way.
40 */
41
42enum {
43 REG_SCRIPT_COMMAND_READ,
44 REG_SCRIPT_COMMAND_WRITE,
45 REG_SCRIPT_COMMAND_RMW,
46 REG_SCRIPT_COMMAND_POLL,
47 REG_SCRIPT_COMMAND_SET_DEV,
48 REG_SCRIPT_COMMAND_NEXT,
49 REG_SCRIPT_COMMAND_END,
50};
51
52enum {
53 REG_SCRIPT_TYPE_PCI,
54 REG_SCRIPT_TYPE_IO,
55 REG_SCRIPT_TYPE_MMIO,
56 REG_SCRIPT_TYPE_RES,
57 REG_SCRIPT_TYPE_IOSF,
Duncan Lauriefd461e32013-11-08 23:00:24 -0800[diff] [blame]58 REG_SCRIPT_TYPE_MSR,
Lee Leahy9f5a5c52014-08-29 13:38:59 -0700[diff] [blame]59
60 /* Insert other platform independent values above this comment */
61
62 REG_SCRIPT_TYPE_PLATFORM_BASE = 0x10000
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]63};
64
65enum {
66 REG_SCRIPT_SIZE_8,
67 REG_SCRIPT_SIZE_16,
68 REG_SCRIPT_SIZE_32,
Duncan Lauriefd461e32013-11-08 23:00:24 -0800[diff] [blame]69 REG_SCRIPT_SIZE_64,
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]70};
71
72struct reg_script {
73 uint32_t command;
74 uint32_t type;
75 uint32_t size;
76 uint32_t reg;
Duncan Lauriefd461e32013-11-08 23:00:24 -0800[diff] [blame]77 uint64_t mask;
78 uint64_t value;
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]79 uint32_t timeout;
80 union {
81 uint32_t id;
82 const struct reg_script *next;
83 device_t dev;
84 unsigned int res_index;
85 };
86};
87
Lee Leahy9f5a5c52014-08-29 13:38:59 -0700[diff] [blame]88struct reg_script_context {
89 device_t dev;
90 struct resource *res;
91 const struct reg_script *step;
92};
93
94#ifndef __PRE_RAM__
95struct reg_script_bus_entry {
96 int type;
97 uint64_t (*reg_script_read)(struct reg_script_context *ctx);
98 void (*reg_script_write)(struct reg_script_context *ctx);
99};
100
101/* Get the address and length of the platform bus table */
102const struct reg_script_bus_entry *platform_bus_table(size_t *table_entries);
103
104#endif /* __PRE_RAM */
105
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]106/* Internal helper Macros. */
107
108#define _REG_SCRIPT_ENCODE_RAW(cmd_, type_, size_, reg_, \
109 mask_, value_, timeout_, id_) \
110 { .command = cmd_, \
111 .type = type_, \
112 .size = size_, \
113 .reg = reg_, \
114 .mask = mask_, \
115 .value = value_, \
116 .timeout = timeout_, \
117 .id = id_, \
118 }
119
120#define _REG_SCRIPT_ENCODE_RES(cmd_, type_, res_index_, size_, reg_, \
121 mask_, value_, timeout_) \
122 { .command = cmd_, \
123 .type = type_, \
124 .size = size_, \
125 .reg = reg_, \
126 .mask = mask_, \
127 .value = value_, \
128 .timeout = timeout_, \
129 .res_index = res_index_, \
130 }
131
132/*
133 * PCI
134 */
135
136#define REG_SCRIPT_PCI(cmd_, bits_, reg_, mask_, value_, timeout_) \
137 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_##cmd_, \
138 REG_SCRIPT_TYPE_PCI, \
139 REG_SCRIPT_SIZE_##bits_, \
140 reg_, mask_, value_, timeout_, 0)
141#define REG_PCI_READ8(reg_) \
142 REG_SCRIPT_PCI(READ, 8, reg_, 0, 0, 0)
143#define REG_PCI_READ16(reg_) \
144 REG_SCRIPT_PCI(READ, 16, reg_, 0, 0, 0)
145#define REG_PCI_READ32(reg_) \
146 REG_SCRIPT_PCI(READ, 32, reg_, 0, 0, 0)
147#define REG_PCI_WRITE8(reg_, value_) \
148 REG_SCRIPT_PCI(WRITE, 8, reg_, 0, value_, 0)
149#define REG_PCI_WRITE16(reg_, value_) \
150 REG_SCRIPT_PCI(WRITE, 16, reg_, 0, value_, 0)
151#define REG_PCI_WRITE32(reg_, value_) \
152 REG_SCRIPT_PCI(WRITE, 32, reg_, 0, value_, 0)
153#define REG_PCI_RMW8(reg_, mask_, value_) \
154 REG_SCRIPT_PCI(RMW, 8, reg_, mask_, value_, 0)
155#define REG_PCI_RMW16(reg_, mask_, value_) \
156 REG_SCRIPT_PCI(RMW, 16, reg_, mask_, value_, 0)
157#define REG_PCI_RMW32(reg_, mask_, value_) \
158 REG_SCRIPT_PCI(RMW, 32, reg_, mask_, value_, 0)
159#define REG_PCI_OR8(reg_, value_) \
160 REG_SCRIPT_PCI(RMW, 8, reg_, 0xff, value_, 0)
161#define REG_PCI_OR16(reg_, value_) \
162 REG_SCRIPT_PCI(RMW, 16, reg_, 0xffff, value_, 0)
163#define REG_PCI_OR32(reg_, value_) \
164 REG_SCRIPT_PCI(RMW, 32, reg_, 0xffffffff, value_, 0)
165#define REG_PCI_POLL8(reg_, mask_, value_, timeout_) \
166 REG_SCRIPT_PCI(POLL, 8, reg_, mask_, value_, timeout_)
167#define REG_PCI_POLL16(reg_, mask_, value_, timeout_) \
168 REG_SCRIPT_PCI(POLL, 16, reg_, mask_, value_, timeout_)
169#define REG_PCI_POLL32(reg_, mask_, value_, timeout_) \
170 REG_SCRIPT_PCI(POLL, 32, reg_, mask_, value_, timeout_)
171
172/*
173 * Legacy IO
174 */
175
176#define REG_SCRIPT_IO(cmd_, bits_, reg_, mask_, value_, timeout_) \
177 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_##cmd_, \
178 REG_SCRIPT_TYPE_IO, \
179 REG_SCRIPT_SIZE_##bits_, \
180 reg_, mask_, value_, timeout_, 0)
181#define REG_IO_READ8(reg_) \
182 REG_SCRIPT_IO(READ, 8, reg_, 0, 0, 0)
183#define REG_IO_READ16(reg_) \
184 REG_SCRIPT_IO(READ, 16, reg_, 0, 0, 0)
185#define REG_IO_READ32(reg_) \
186 REG_SCRIPT_IO(READ, 32, reg_, 0, 0, 0)
187#define REG_IO_WRITE8(reg_, value_) \
188 REG_SCRIPT_IO(WRITE, 8, reg_, 0, value_, 0)
189#define REG_IO_WRITE16(reg_, value_) \
190 REG_SCRIPT_IO(WRITE, 16, reg_, 0, value_, 0)
191#define REG_IO_WRITE32(reg_, value_) \
192 REG_SCRIPT_IO(WRITE, 32, reg_, 0, value_, 0)
193#define REG_IO_RMW8(reg_, mask_, value_) \
194 REG_SCRIPT_IO(RMW, 8, reg_, mask_, value_, 0)
195#define REG_IO_RMW16(reg_, mask_, value_) \
196 REG_SCRIPT_IO(RMW, 16, reg_, mask_, value_, 0)
197#define REG_IO_RMW32(reg_, mask_, value_) \
198 REG_SCRIPT_IO(RMW, 32, reg_, mask_, value_, 0)
199#define REG_IO_OR8(reg_, value_) \
Duncan Laurie21fd2f42014-04-22 11:14:12 -0700[diff] [blame]200 REG_IO_RMW8(reg_, 0xff, value_)
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]201#define REG_IO_OR16(reg_, value_) \
Duncan Laurie21fd2f42014-04-22 11:14:12 -0700[diff] [blame]202 REG_IO_RMW16(reg_, 0xffff, value_)
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]203#define REG_IO_OR32(reg_, value_) \
Duncan Laurie21fd2f42014-04-22 11:14:12 -0700[diff] [blame]204 REG_IO_RMW32(reg_, 0xffffffff, value_)
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]205#define REG_IO_POLL8(reg_, mask_, value_, timeout_) \
206 REG_SCRIPT_IO(POLL, 8, reg_, mask_, value_, timeout_)
207#define REG_IO_POLL16(reg_, mask_, value_, timeout_) \
208 REG_SCRIPT_IO(POLL, 16, reg_, mask_, value_, timeout_)
209#define REG_IO_POLL32(reg_, mask_, value_, timeout_) \
210 REG_SCRIPT_IO(POLL, 32, reg_, mask_, value_, timeout_)
211
212/*
213 * Memory Mapped IO
214 */
215
216#define REG_SCRIPT_MMIO(cmd_, bits_, reg_, mask_, value_, timeout_) \
217 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_##cmd_, \
218 REG_SCRIPT_TYPE_MMIO, \
219 REG_SCRIPT_SIZE_##bits_, \
220 reg_, mask_, value_, timeout_, 0)
221#define REG_MMIO_READ8(reg_) \
222 REG_SCRIPT_MMIO(READ, 8, reg_, 0, 0, 0)
223#define REG_MMIO_READ16(reg_) \
224 REG_SCRIPT_MMIO(READ, 16, reg_, 0, 0, 0)
225#define REG_MMIO_READ32(reg_) \
226 REG_SCRIPT_MMIO(READ, 32, reg_, 0, 0, 0)
227#define REG_MMIO_WRITE8(reg_, value_) \
228 REG_SCRIPT_MMIO(WRITE, 8, reg_, 0, value_, 0)
229#define REG_MMIO_WRITE16(reg_, value_) \
230 REG_SCRIPT_MMIO(WRITE, 16, reg_, 0, value_, 0)
231#define REG_MMIO_WRITE32(reg_, value_) \
232 REG_SCRIPT_MMIO(WRITE, 32, reg_, 0, value_, 0)
233#define REG_MMIO_RMW8(reg_, mask_, value_) \
234 REG_SCRIPT_MMIO(RMW, 8, reg_, mask_, value_, 0)
235#define REG_MMIO_RMW16(reg_, mask_, value_) \
236 REG_SCRIPT_MMIO(RMW, 16, reg_, mask_, value_, 0)
237#define REG_MMIO_RMW32(reg_, mask_, value_) \
238 REG_SCRIPT_MMIO(RMW, 32, reg_, mask_, value_, 0)
239#define REG_MMIO_OR8(reg_, value_) \
240 REG_MMIO_RMW8(reg_, 0xff, value_)
241#define REG_MMIO_OR16(reg_, value_) \
242 REG_MMIO_RMW16(reg_, 0xffff, value_)
243#define REG_MMIO_OR32(reg_, value_) \
244 REG_MMIO_RMW32(reg_, 0xffffffff, value_)
245#define REG_MMIO_POLL8(reg_, mask_, value_, timeout_) \
246 REG_SCRIPT_MMIO(POLL, 8, reg_, mask_, value_, timeout_)
247#define REG_MMIO_POLL16(reg_, mask_, value_, timeout_) \
248 REG_SCRIPT_MMIO(POLL, 16, reg_, mask_, value_, timeout_)
249#define REG_MMIO_POLL32(reg_, mask_, value_, timeout_) \
250 REG_SCRIPT_MMIO(POLL, 32, reg_, mask_, value_, timeout_)
251
252/*
253 * Access through a device's resource such as a Base Address Register (BAR)
254 */
255
256#define REG_SCRIPT_RES(cmd_, bits_, bar_, reg_, mask_, value_, timeout_) \
257 _REG_SCRIPT_ENCODE_RES(REG_SCRIPT_COMMAND_##cmd_, \
258 REG_SCRIPT_TYPE_RES, bar_, \
259 REG_SCRIPT_SIZE_##bits_, \
260 reg_, mask_, value_, timeout_)
261#define REG_RES_READ8(bar_, reg_) \
262 REG_SCRIPT_RES(READ, 8, bar_, reg_, 0, 0, 0)
263#define REG_RES_READ16(bar_, reg_) \
264 REG_SCRIPT_RES(READ, 16, bar_, reg_, 0, 0, 0)
265#define REG_RES_READ32(bar_, reg_) \
266 REG_SCRIPT_RES(READ, 32, bar_, reg_, 0, 0, 0)
267#define REG_RES_WRITE8(bar_, reg_, value_) \
268 REG_SCRIPT_RES(WRITE, 8, bar_, reg_, 0, value_, 0)
269#define REG_RES_WRITE16(bar_, reg_, value_) \
270 REG_SCRIPT_RES(WRITE, 16, bar_, reg_, 0, value_, 0)
271#define REG_RES_WRITE32(bar_, reg_, value_) \
272 REG_SCRIPT_RES(WRITE, 32, bar_, reg_, 0, value_, 0)
273#define REG_RES_RMW8(bar_, reg_, mask_, value_) \
274 REG_SCRIPT_RES(RMW, 8, bar_, reg_, mask_, value_, 0)
275#define REG_RES_RMW16(bar_, reg_, mask_, value_) \
276 REG_SCRIPT_RES(RMW, 16, bar_, reg_, mask_, value_, 0)
277#define REG_RES_RMW32(bar_, reg_, mask_, value_) \
278 REG_SCRIPT_RES(RMW, 32, bar_, reg_, mask_, value_, 0)
279#define REG_RES_OR8(bar_, reg_, value_) \
280 REG_RES_RMW8(bar_, reg_, 0xff, value_)
281#define REG_RES_OR16(bar_, reg_, value_) \
282 REG_RES_RMW16(bar_, reg_, 0xffff, value_)
283#define REG_RES_OR32(bar_, reg_, value_) \
284 REG_RES_RMW32(bar_, reg_, 0xffffffff, value_)
285#define REG_RES_POLL8(bar_, reg_, mask_, value_, timeout_) \
286 REG_SCRIPT_RES(POLL, 8, bar_, reg_, mask_, value_, timeout_)
287#define REG_RES_POLL16(bar_, reg_, mask_, value_, timeout_) \
288 REG_SCRIPT_RES(POLL, 16, bar_, reg_, mask_, value_, timeout_)
289#define REG_RES_POLL32(bar_, reg_, mask_, value_, timeout_) \
290 REG_SCRIPT_RES(POLL, 32, bar_, reg_, mask_, value_, timeout_)
291
Lee Leahy9f5a5c52014-08-29 13:38:59 -0700[diff] [blame]292
293#if CONFIG_SOC_INTEL_BAYTRAIL
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]294/*
295 * IO Sideband Function
296 */
297
298#define REG_SCRIPT_IOSF(cmd_, unit_, reg_, mask_, value_, timeout_) \
299 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_##cmd_, \
300 REG_SCRIPT_TYPE_IOSF, \
301 REG_SCRIPT_SIZE_32, \
302 reg_, mask_, value_, timeout_, unit_)
303#define REG_IOSF_READ(unit_, reg_) \
304 REG_SCRIPT_IOSF(READ, unit_, reg_, 0, 0, 0)
305#define REG_IOSF_WRITE(unit_, reg_, value_) \
306 REG_SCRIPT_IOSF(WRITE, unit_, reg_, 0, value_, 0)
307#define REG_IOSF_RMW(unit_, reg_, mask_, value_) \
308 REG_SCRIPT_IOSF(RMW, unit_, reg_, mask_, value_, 0)
309#define REG_IOSF_OR(unit_, reg_, value_) \
310 REG_IOSF_RMW(unit_, reg_, 0xffffffff, value_)
311#define REG_IOSF_POLL(unit_, reg_, mask_, value_, timeout_) \
312 REG_SCRIPT_IOSF(POLL, unit_, reg_, mask_, value_, timeout_)
Lee Leahy9f5a5c52014-08-29 13:38:59 -0700[diff] [blame]313#endif /* CONFIG_SOC_INTEL_BAYTRAIL */
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]314
315/*
Duncan Lauriefd461e32013-11-08 23:00:24 -0800[diff] [blame]316 * CPU Model Specific Register
317 */
318
319#define REG_SCRIPT_MSR(cmd_, reg_, mask_, value_, timeout_) \
320 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_##cmd_, \
321 REG_SCRIPT_TYPE_MSR, \
322 REG_SCRIPT_SIZE_64, \
323 reg_, mask_, value_, timeout_, 0)
324#define REG_MSR_READ(reg_) \
325 REG_SCRIPT_MSR(READ, reg_, 0, 0, 0)
326#define REG_MSR_WRITE(reg_, value_) \
327 REG_SCRIPT_MSR(WRITE, reg_, 0, value_, 0)
328#define REG_MSR_RMW(reg_, mask_, value_) \
329 REG_SCRIPT_MSR(RMW, reg_, mask_, value_, 0)
330#define REG_MSR_OR(reg_, value_) \
331 REG_MSR_RMW(reg_, -1ULL, value_)
332#define REG_MSR_POLL(reg_, mask_, value_, timeout_) \
333 REG_SCRIPT_MSR(POLL, reg_, mask_, value_, timeout_)
334
335/*
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]336 * Chain to another table.
337 */
338#define REG_SCRIPT_NEXT(next_) \
339 { .command = REG_SCRIPT_COMMAND_NEXT, \
340 .next = next_, \
341 }
342
343/*
344 * Set current device
345 */
346#define REG_SCRIPT_SET_DEV(dev_) \
347 { .command = REG_SCRIPT_COMMAND_SET_DEV, \
348 .dev = dev_, \
349 }
350
351/*
352 * Last script entry. All tables need to end with REG_SCRIPT_END.
353 */
354#define REG_SCRIPT_END \
355 _REG_SCRIPT_ENCODE_RAW(REG_SCRIPT_COMMAND_END, 0, 0, 0, 0, 0, 0, 0)
356
357void reg_script_run(const struct reg_script *script);
Aaron Durbind86f0b72013-12-10 17:09:40 -0800[diff] [blame]358void reg_script_run_on_dev(device_t dev, const struct reg_script *step);
Duncan Laurie72748002013-10-31 08:26:23 -0700[diff] [blame]359
360#endif /* REG_SCRIPT_H */