1 // SPDX-License-Identifier: GPL-2.0
2 // Copyright (C) 2022-2023 Microchip Technology Inc.
3 // PCI1xxxx OTP/EEPROM driver
5 #include <linux/auxiliary_bus.h>
6 #include <linux/device.h>
7 #include <linux/iopoll.h>
8 #include <linux/module.h>
9 #include <linux/nvmem-provider.h>
11 #include "mchp_pci1xxxx_gp.h"
13 #define AUX_DRIVER_NAME "PCI1xxxxOTPE2P"
14 #define EEPROM_NAME "pci1xxxx_eeprom"
15 #define OTP_NAME "pci1xxxx_otp"
17 #define PERI_PF3_SYSTEM_REG_ADDR_BASE 0x2000
18 #define PERI_PF3_SYSTEM_REG_LENGTH 0x4000
20 #define EEPROM_SIZE_BYTES 8192
21 #define OTP_SIZE_BYTES 8192
23 #define CONFIG_REG_ADDR_BASE 0
24 #define EEPROM_REG_ADDR_BASE 0x0E00
25 #define OTP_REG_ADDR_BASE 0x1000
27 #define MMAP_OTP_OFFSET(x) (OTP_REG_ADDR_BASE + (x))
28 #define MMAP_EEPROM_OFFSET(x) (EEPROM_REG_ADDR_BASE + (x))
29 #define MMAP_CFG_OFFSET(x) (CONFIG_REG_ADDR_BASE + (x))
31 #define EEPROM_CMD_REG 0x00
32 #define EEPROM_DATA_REG 0x04
34 #define EEPROM_CMD_EPC_WRITE (BIT(29) | BIT(28))
35 #define EEPROM_CMD_EPC_TIMEOUT_BIT BIT(17)
36 #define EEPROM_CMD_EPC_BUSY_BIT BIT(31)
38 #define STATUS_READ_DELAY_US 1
39 #define STATUS_READ_TIMEOUT_US 20000
41 #define OTP_ADDR_HIGH_OFFSET 0x04
42 #define OTP_ADDR_LOW_OFFSET 0x08
43 #define OTP_PRGM_DATA_OFFSET 0x10
44 #define OTP_PRGM_MODE_OFFSET 0x14
45 #define OTP_RD_DATA_OFFSET 0x18
46 #define OTP_FUNC_CMD_OFFSET 0x20
47 #define OTP_CMD_GO_OFFSET 0x28
48 #define OTP_PASS_FAIL_OFFSET 0x2C
49 #define OTP_STATUS_OFFSET 0x30
51 #define OTP_FUNC_RD_BIT BIT(0)
52 #define OTP_FUNC_PGM_BIT BIT(1)
53 #define OTP_CMD_GO_BIT BIT(0)
54 #define OTP_STATUS_BUSY_BIT BIT(0)
55 #define OTP_PGM_MODE_BYTE_BIT BIT(0)
56 #define OTP_FAIL_BIT BIT(0)
58 #define OTP_PWR_DN_BIT BIT(0)
59 #define OTP_PWR_DN_OFFSET 0x00
61 #define CFG_SYS_LOCK_OFFSET 0xA0
62 #define CFG_SYS_LOCK_PF3 BIT(5)
64 #define BYTE_LOW (GENMASK(7, 0))
65 #define BYTE_HIGH (GENMASK(12, 8))
67 struct pci1xxxx_otp_eeprom_device {
68 struct auxiliary_device *pdev;
69 void __iomem *reg_base;
70 struct nvmem_config nvmem_config_eeprom;
71 struct nvmem_device *nvmem_eeprom;
72 struct nvmem_config nvmem_config_otp;
73 struct nvmem_device *nvmem_otp;
76 static int set_sys_lock(struct pci1xxxx_otp_eeprom_device *priv)
78 void __iomem *sys_lock = priv->reg_base +
79 MMAP_CFG_OFFSET(CFG_SYS_LOCK_OFFSET);
82 writel(CFG_SYS_LOCK_PF3, sys_lock);
83 data = readl(sys_lock);
84 if (data != CFG_SYS_LOCK_PF3)
90 static void release_sys_lock(struct pci1xxxx_otp_eeprom_device *priv)
92 void __iomem *sys_lock = priv->reg_base +
93 MMAP_CFG_OFFSET(CFG_SYS_LOCK_OFFSET);
97 static bool is_eeprom_responsive(struct pci1xxxx_otp_eeprom_device *priv)
99 void __iomem *rb = priv->reg_base;
103 writel(EEPROM_CMD_EPC_TIMEOUT_BIT,
104 rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
105 writel(EEPROM_CMD_EPC_BUSY_BIT,
106 rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
108 /* Wait for the EPC_BUSY bit to get cleared or timeout bit to get set*/
109 ret = read_poll_timeout(readl, regval, !(regval & EEPROM_CMD_EPC_BUSY_BIT),
110 STATUS_READ_DELAY_US, STATUS_READ_TIMEOUT_US,
111 true, rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
113 /* Return failure if either of software or hardware timeouts happen */
114 if (ret < 0 || (!ret && (regval & EEPROM_CMD_EPC_TIMEOUT_BIT)))
120 static int pci1xxxx_eeprom_read(void *priv_t, unsigned int off,
121 void *buf_t, size_t count)
123 struct pci1xxxx_otp_eeprom_device *priv = priv_t;
124 void __iomem *rb = priv->reg_base;
130 if (off >= priv->nvmem_config_eeprom.size)
133 if ((off + count) > priv->nvmem_config_eeprom.size)
134 count = priv->nvmem_config_eeprom.size - off;
136 ret = set_sys_lock(priv);
140 for (byte = 0; byte < count; byte++) {
141 writel(EEPROM_CMD_EPC_BUSY_BIT | (off + byte), rb +
142 MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
144 ret = read_poll_timeout(readl, regval,
145 !(regval & EEPROM_CMD_EPC_BUSY_BIT),
146 STATUS_READ_DELAY_US,
147 STATUS_READ_TIMEOUT_US, true,
148 rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
149 if (ret < 0 || (!ret && (regval & EEPROM_CMD_EPC_TIMEOUT_BIT))) {
154 buf[byte] = readl(rb + MMAP_EEPROM_OFFSET(EEPROM_DATA_REG));
158 release_sys_lock(priv);
162 static int pci1xxxx_eeprom_write(void *priv_t, unsigned int off,
163 void *value_t, size_t count)
165 struct pci1xxxx_otp_eeprom_device *priv = priv_t;
166 void __iomem *rb = priv->reg_base;
167 char *value = value_t;
172 if (off >= priv->nvmem_config_eeprom.size)
175 if ((off + count) > priv->nvmem_config_eeprom.size)
176 count = priv->nvmem_config_eeprom.size - off;
178 ret = set_sys_lock(priv);
182 for (byte = 0; byte < count; byte++) {
183 writel(*(value + byte), rb + MMAP_EEPROM_OFFSET(EEPROM_DATA_REG));
184 regval = EEPROM_CMD_EPC_TIMEOUT_BIT | EEPROM_CMD_EPC_WRITE |
186 writel(regval, rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
187 writel(EEPROM_CMD_EPC_BUSY_BIT | regval,
188 rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
190 ret = read_poll_timeout(readl, regval,
191 !(regval & EEPROM_CMD_EPC_BUSY_BIT),
192 STATUS_READ_DELAY_US,
193 STATUS_READ_TIMEOUT_US, true,
194 rb + MMAP_EEPROM_OFFSET(EEPROM_CMD_REG));
195 if (ret < 0 || (!ret && (regval & EEPROM_CMD_EPC_TIMEOUT_BIT))) {
202 release_sys_lock(priv);
206 static void otp_device_set_address(struct pci1xxxx_otp_eeprom_device *priv,
211 lo = address & BYTE_LOW;
212 hi = (address & BYTE_HIGH) >> 8;
213 writew(lo, priv->reg_base + MMAP_OTP_OFFSET(OTP_ADDR_LOW_OFFSET));
214 writew(hi, priv->reg_base + MMAP_OTP_OFFSET(OTP_ADDR_HIGH_OFFSET));
217 static int pci1xxxx_otp_read(void *priv_t, unsigned int off,
218 void *buf_t, size_t count)
220 struct pci1xxxx_otp_eeprom_device *priv = priv_t;
221 void __iomem *rb = priv->reg_base;
228 if (off >= priv->nvmem_config_otp.size)
231 if ((off + count) > priv->nvmem_config_otp.size)
232 count = priv->nvmem_config_otp.size - off;
234 ret = set_sys_lock(priv);
238 for (byte = 0; byte < count; byte++) {
239 otp_device_set_address(priv, (u16)(off + byte));
240 data = readl(rb + MMAP_OTP_OFFSET(OTP_FUNC_CMD_OFFSET));
241 writel(data | OTP_FUNC_RD_BIT,
242 rb + MMAP_OTP_OFFSET(OTP_FUNC_CMD_OFFSET));
243 data = readl(rb + MMAP_OTP_OFFSET(OTP_CMD_GO_OFFSET));
244 writel(data | OTP_CMD_GO_BIT,
245 rb + MMAP_OTP_OFFSET(OTP_CMD_GO_OFFSET));
247 ret = read_poll_timeout(readl, regval,
248 !(regval & OTP_STATUS_BUSY_BIT),
249 STATUS_READ_DELAY_US,
250 STATUS_READ_TIMEOUT_US, true,
251 rb + MMAP_OTP_OFFSET(OTP_STATUS_OFFSET));
253 data = readl(rb + MMAP_OTP_OFFSET(OTP_PASS_FAIL_OFFSET));
254 if (ret < 0 || data & OTP_FAIL_BIT) {
259 buf[byte] = readl(rb + MMAP_OTP_OFFSET(OTP_RD_DATA_OFFSET));
263 release_sys_lock(priv);
267 static int pci1xxxx_otp_write(void *priv_t, unsigned int off,
268 void *value_t, size_t count)
270 struct pci1xxxx_otp_eeprom_device *priv = priv_t;
271 void __iomem *rb = priv->reg_base;
272 char *value = value_t;
278 if (off >= priv->nvmem_config_otp.size)
281 if ((off + count) > priv->nvmem_config_otp.size)
282 count = priv->nvmem_config_otp.size - off;
284 ret = set_sys_lock(priv);
288 for (byte = 0; byte < count; byte++) {
289 otp_device_set_address(priv, (u16)(off + byte));
292 * Set OTP_PGM_MODE_BYTE command bit in OTP_PRGM_MODE register
293 * to enable Byte programming
295 data = readl(rb + MMAP_OTP_OFFSET(OTP_PRGM_MODE_OFFSET));
296 writel(data | OTP_PGM_MODE_BYTE_BIT,
297 rb + MMAP_OTP_OFFSET(OTP_PRGM_MODE_OFFSET));
298 writel(*(value + byte), rb + MMAP_OTP_OFFSET(OTP_PRGM_DATA_OFFSET));
299 data = readl(rb + MMAP_OTP_OFFSET(OTP_FUNC_CMD_OFFSET));
300 writel(data | OTP_FUNC_PGM_BIT,
301 rb + MMAP_OTP_OFFSET(OTP_FUNC_CMD_OFFSET));
302 data = readl(rb + MMAP_OTP_OFFSET(OTP_CMD_GO_OFFSET));
303 writel(data | OTP_CMD_GO_BIT,
304 rb + MMAP_OTP_OFFSET(OTP_CMD_GO_OFFSET));
306 ret = read_poll_timeout(readl, regval,
307 !(regval & OTP_STATUS_BUSY_BIT),
308 STATUS_READ_DELAY_US,
309 STATUS_READ_TIMEOUT_US, true,
310 rb + MMAP_OTP_OFFSET(OTP_STATUS_OFFSET));
312 data = readl(rb + MMAP_OTP_OFFSET(OTP_PASS_FAIL_OFFSET));
313 if (ret < 0 || data & OTP_FAIL_BIT) {
320 release_sys_lock(priv);
324 static int pci1xxxx_otp_eeprom_probe(struct auxiliary_device *aux_dev,
325 const struct auxiliary_device_id *id)
327 struct auxiliary_device_wrapper *aux_dev_wrapper;
328 struct pci1xxxx_otp_eeprom_device *priv;
329 struct gp_aux_data_type *pdata;
333 aux_dev_wrapper = container_of(aux_dev, struct auxiliary_device_wrapper,
335 pdata = &aux_dev_wrapper->gp_aux_data;
339 priv = devm_kzalloc(&aux_dev->dev, sizeof(*priv), GFP_KERNEL);
343 priv->pdev = aux_dev;
345 if (!devm_request_mem_region(&aux_dev->dev, pdata->region_start +
346 PERI_PF3_SYSTEM_REG_ADDR_BASE,
347 PERI_PF3_SYSTEM_REG_LENGTH,
351 priv->reg_base = devm_ioremap(&aux_dev->dev, pdata->region_start +
352 PERI_PF3_SYSTEM_REG_ADDR_BASE,
353 PERI_PF3_SYSTEM_REG_LENGTH);
357 ret = set_sys_lock(priv);
361 /* Set OTP_PWR_DN to 0 to make OTP Operational */
362 data = readl(priv->reg_base + MMAP_OTP_OFFSET(OTP_PWR_DN_OFFSET));
363 writel(data & ~OTP_PWR_DN_BIT,
364 priv->reg_base + MMAP_OTP_OFFSET(OTP_PWR_DN_OFFSET));
366 dev_set_drvdata(&aux_dev->dev, priv);
368 if (is_eeprom_responsive(priv)) {
369 priv->nvmem_config_eeprom.type = NVMEM_TYPE_EEPROM;
370 priv->nvmem_config_eeprom.name = EEPROM_NAME;
371 priv->nvmem_config_eeprom.dev = &aux_dev->dev;
372 priv->nvmem_config_eeprom.owner = THIS_MODULE;
373 priv->nvmem_config_eeprom.reg_read = pci1xxxx_eeprom_read;
374 priv->nvmem_config_eeprom.reg_write = pci1xxxx_eeprom_write;
375 priv->nvmem_config_eeprom.priv = priv;
376 priv->nvmem_config_eeprom.stride = 1;
377 priv->nvmem_config_eeprom.word_size = 1;
378 priv->nvmem_config_eeprom.size = EEPROM_SIZE_BYTES;
380 priv->nvmem_eeprom = devm_nvmem_register(&aux_dev->dev,
381 &priv->nvmem_config_eeprom);
382 if (IS_ERR(priv->nvmem_eeprom))
383 return PTR_ERR(priv->nvmem_eeprom);
386 release_sys_lock(priv);
388 priv->nvmem_config_otp.type = NVMEM_TYPE_OTP;
389 priv->nvmem_config_otp.name = OTP_NAME;
390 priv->nvmem_config_otp.dev = &aux_dev->dev;
391 priv->nvmem_config_otp.owner = THIS_MODULE;
392 priv->nvmem_config_otp.reg_read = pci1xxxx_otp_read;
393 priv->nvmem_config_otp.reg_write = pci1xxxx_otp_write;
394 priv->nvmem_config_otp.priv = priv;
395 priv->nvmem_config_otp.stride = 1;
396 priv->nvmem_config_otp.word_size = 1;
397 priv->nvmem_config_otp.size = OTP_SIZE_BYTES;
399 priv->nvmem_otp = devm_nvmem_register(&aux_dev->dev,
400 &priv->nvmem_config_otp);
401 if (IS_ERR(priv->nvmem_otp))
402 return PTR_ERR(priv->nvmem_otp);
407 static void pci1xxxx_otp_eeprom_remove(struct auxiliary_device *aux_dev)
409 struct pci1xxxx_otp_eeprom_device *priv;
410 void __iomem *sys_lock;
412 priv = dev_get_drvdata(&aux_dev->dev);
413 sys_lock = priv->reg_base + MMAP_CFG_OFFSET(CFG_SYS_LOCK_OFFSET);
414 writel(CFG_SYS_LOCK_PF3, sys_lock);
417 writel(OTP_PWR_DN_BIT,
418 priv->reg_base + MMAP_OTP_OFFSET(OTP_PWR_DN_OFFSET));
423 static const struct auxiliary_device_id pci1xxxx_otp_eeprom_auxiliary_id_table[] = {
424 {.name = "mchp_pci1xxxx_gp.gp_otp_e2p"},
427 MODULE_DEVICE_TABLE(auxiliary, pci1xxxx_otp_eeprom_auxiliary_id_table);
429 static struct auxiliary_driver pci1xxxx_otp_eeprom_driver = {
431 .name = AUX_DRIVER_NAME,
433 .probe = pci1xxxx_otp_eeprom_probe,
434 .remove = pci1xxxx_otp_eeprom_remove,
435 .id_table = pci1xxxx_otp_eeprom_auxiliary_id_table
437 module_auxiliary_driver(pci1xxxx_otp_eeprom_driver);
439 MODULE_LICENSE("GPL");
440 MODULE_AUTHOR("Kumaravel Thiagarajan <kumaravel.thiagarajan@microchip.com>");
441 MODULE_AUTHOR("Tharun Kumar P <tharunkumar.pasumarthi@microchip.com>");
442 MODULE_AUTHOR("Vaibhaav Ram T.L <vaibhaavram.tl@microchip.com>");
443 MODULE_DESCRIPTION("Microchip Technology Inc. PCI1xxxx OTP EEPROM Programmer");