1*54fd6939SJiyong Park /*
2*54fd6939SJiyong Park * Copyright 2021 NXP
3*54fd6939SJiyong Park *
4*54fd6939SJiyong Park * SPDX-License-Identifier: BSD-3-Clause
5*54fd6939SJiyong Park *
6*54fd6939SJiyong Park */
7*54fd6939SJiyong Park
8*54fd6939SJiyong Park #include <stdbool.h>
9*54fd6939SJiyong Park #include <stdint.h>
10*54fd6939SJiyong Park #include <stdio.h>
11*54fd6939SJiyong Park #include <stdlib.h>
12*54fd6939SJiyong Park #include <string.h>
13*54fd6939SJiyong Park
14*54fd6939SJiyong Park #include <caam.h>
15*54fd6939SJiyong Park #include <common/debug.h>
16*54fd6939SJiyong Park #include <dcfg.h>
17*54fd6939SJiyong Park #include <drivers/delay_timer.h>
18*54fd6939SJiyong Park #include <fuse_prov.h>
19*54fd6939SJiyong Park #include <sfp.h>
20*54fd6939SJiyong Park #include <sfp_error_codes.h>
21*54fd6939SJiyong Park
22*54fd6939SJiyong Park
write_a_fuse(uint32_t * fuse_addr,uint32_t * fuse_hdr_val,uint32_t mask)23*54fd6939SJiyong Park static int write_a_fuse(uint32_t *fuse_addr, uint32_t *fuse_hdr_val,
24*54fd6939SJiyong Park uint32_t mask)
25*54fd6939SJiyong Park {
26*54fd6939SJiyong Park uint32_t last_stored_val = sfp_read32(fuse_addr);
27*54fd6939SJiyong Park
28*54fd6939SJiyong Park /* Check if fuse already blown or not */
29*54fd6939SJiyong Park if ((last_stored_val & mask) == mask) {
30*54fd6939SJiyong Park return ERROR_ALREADY_BLOWN;
31*54fd6939SJiyong Park }
32*54fd6939SJiyong Park
33*54fd6939SJiyong Park /* Write fuse in mirror registers */
34*54fd6939SJiyong Park sfp_write32(fuse_addr, last_stored_val | (*fuse_hdr_val & mask));
35*54fd6939SJiyong Park
36*54fd6939SJiyong Park /* Read back to check if write success */
37*54fd6939SJiyong Park if (sfp_read32(fuse_addr) != (last_stored_val | (*fuse_hdr_val & mask))) {
38*54fd6939SJiyong Park return ERROR_WRITE;
39*54fd6939SJiyong Park }
40*54fd6939SJiyong Park
41*54fd6939SJiyong Park return 0;
42*54fd6939SJiyong Park }
43*54fd6939SJiyong Park
write_fuses(uint32_t * fuse_addr,uint32_t * fuse_hdr_val,uint8_t len)44*54fd6939SJiyong Park static int write_fuses(uint32_t *fuse_addr, uint32_t *fuse_hdr_val, uint8_t len)
45*54fd6939SJiyong Park {
46*54fd6939SJiyong Park int i;
47*54fd6939SJiyong Park
48*54fd6939SJiyong Park /* Check if fuse already blown or not */
49*54fd6939SJiyong Park for (i = 0; i < len; i++) {
50*54fd6939SJiyong Park if (sfp_read32(&fuse_addr[i]) != 0) {
51*54fd6939SJiyong Park return ERROR_ALREADY_BLOWN;
52*54fd6939SJiyong Park }
53*54fd6939SJiyong Park }
54*54fd6939SJiyong Park
55*54fd6939SJiyong Park /* Write fuse in mirror registers */
56*54fd6939SJiyong Park for (i = 0; i < len; i++) {
57*54fd6939SJiyong Park sfp_write32(&fuse_addr[i], fuse_hdr_val[i]);
58*54fd6939SJiyong Park }
59*54fd6939SJiyong Park
60*54fd6939SJiyong Park /* Read back to check if write success */
61*54fd6939SJiyong Park for (i = 0; i < len; i++) {
62*54fd6939SJiyong Park if (sfp_read32(&fuse_addr[i]) != fuse_hdr_val[i]) {
63*54fd6939SJiyong Park return ERROR_WRITE;
64*54fd6939SJiyong Park }
65*54fd6939SJiyong Park }
66*54fd6939SJiyong Park
67*54fd6939SJiyong Park return 0;
68*54fd6939SJiyong Park }
69*54fd6939SJiyong Park
70*54fd6939SJiyong Park /*
71*54fd6939SJiyong Park * This function program Super Root Key Hash (SRKH) in fuse
72*54fd6939SJiyong Park * registers.
73*54fd6939SJiyong Park */
prog_srkh(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)74*54fd6939SJiyong Park static int prog_srkh(struct fuse_hdr_t *fuse_hdr,
75*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
76*54fd6939SJiyong Park {
77*54fd6939SJiyong Park int ret = 0;
78*54fd6939SJiyong Park
79*54fd6939SJiyong Park ret = write_fuses(sfp_ccsr_regs->srk_hash, fuse_hdr->srkh, 8);
80*54fd6939SJiyong Park
81*54fd6939SJiyong Park if (ret != 0) {
82*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
83*54fd6939SJiyong Park ERROR_SRKH_ALREADY_BLOWN : ERROR_SRKH_WRITE;
84*54fd6939SJiyong Park }
85*54fd6939SJiyong Park
86*54fd6939SJiyong Park return ret;
87*54fd6939SJiyong Park }
88*54fd6939SJiyong Park
89*54fd6939SJiyong Park /* This function program OEMUID[0-4] in fuse registers. */
prog_oemuid(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)90*54fd6939SJiyong Park static int prog_oemuid(struct fuse_hdr_t *fuse_hdr,
91*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
92*54fd6939SJiyong Park {
93*54fd6939SJiyong Park int i, ret = 0;
94*54fd6939SJiyong Park
95*54fd6939SJiyong Park for (i = 0; i < 5; i++) {
96*54fd6939SJiyong Park /* Check OEMUIDx to be blown or not */
97*54fd6939SJiyong Park if (((fuse_hdr->flags >> (FLAG_OUID0_SHIFT + i)) & 0x1) != 0) {
98*54fd6939SJiyong Park /* Check if OEMUID[i] already blown or not */
99*54fd6939SJiyong Park ret = write_fuses(&sfp_ccsr_regs->oem_uid[i],
100*54fd6939SJiyong Park &fuse_hdr->oem_uid[i], 1);
101*54fd6939SJiyong Park
102*54fd6939SJiyong Park if (ret != 0) {
103*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
104*54fd6939SJiyong Park ERROR_OEMUID_ALREADY_BLOWN
105*54fd6939SJiyong Park : ERROR_OEMUID_WRITE;
106*54fd6939SJiyong Park }
107*54fd6939SJiyong Park }
108*54fd6939SJiyong Park }
109*54fd6939SJiyong Park return ret;
110*54fd6939SJiyong Park }
111*54fd6939SJiyong Park
112*54fd6939SJiyong Park /* This function program DCV[0-1], DRV[0-1] in fuse registers. */
prog_debug(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)113*54fd6939SJiyong Park static int prog_debug(struct fuse_hdr_t *fuse_hdr,
114*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
115*54fd6939SJiyong Park {
116*54fd6939SJiyong Park int ret;
117*54fd6939SJiyong Park
118*54fd6939SJiyong Park /* Check DCV to be blown or not */
119*54fd6939SJiyong Park if (((fuse_hdr->flags >> (FLAG_DCV0_SHIFT)) & 0x3) != 0) {
120*54fd6939SJiyong Park /* Check if DCV[i] already blown or not */
121*54fd6939SJiyong Park ret = write_fuses(sfp_ccsr_regs->dcv, fuse_hdr->dcv, 2);
122*54fd6939SJiyong Park
123*54fd6939SJiyong Park if (ret != 0) {
124*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
125*54fd6939SJiyong Park ERROR_DCV_ALREADY_BLOWN
126*54fd6939SJiyong Park : ERROR_DCV_WRITE;
127*54fd6939SJiyong Park }
128*54fd6939SJiyong Park }
129*54fd6939SJiyong Park
130*54fd6939SJiyong Park /* Check DRV to be blown or not */
131*54fd6939SJiyong Park if ((((fuse_hdr->flags >> (FLAG_DRV0_SHIFT)) & 0x3)) != 0) {
132*54fd6939SJiyong Park /* Check if DRV[i] already blown or not */
133*54fd6939SJiyong Park ret = write_fuses(sfp_ccsr_regs->drv, fuse_hdr->drv, 2);
134*54fd6939SJiyong Park
135*54fd6939SJiyong Park if (ret != 0) {
136*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
137*54fd6939SJiyong Park ERROR_DRV_ALREADY_BLOWN
138*54fd6939SJiyong Park : ERROR_DRV_WRITE;
139*54fd6939SJiyong Park } else {
140*54fd6939SJiyong Park /* Check for DRV hamming error */
141*54fd6939SJiyong Park if (sfp_read32((void *)(get_sfp_addr()
142*54fd6939SJiyong Park + SFP_SVHESR_OFFSET))
143*54fd6939SJiyong Park & SFP_SVHESR_DRV_MASK) {
144*54fd6939SJiyong Park return ERROR_DRV_HAMMING_ERROR;
145*54fd6939SJiyong Park }
146*54fd6939SJiyong Park }
147*54fd6939SJiyong Park }
148*54fd6939SJiyong Park
149*54fd6939SJiyong Park return 0;
150*54fd6939SJiyong Park }
151*54fd6939SJiyong Park
152*54fd6939SJiyong Park /*
153*54fd6939SJiyong Park * Turn a 256-bit random value (32 bytes) into an OTPMK code word
154*54fd6939SJiyong Park * modifying the input data array in place
155*54fd6939SJiyong Park */
otpmk_make_code_word_256(uint8_t * otpmk,bool minimal_flag)156*54fd6939SJiyong Park static void otpmk_make_code_word_256(uint8_t *otpmk, bool minimal_flag)
157*54fd6939SJiyong Park {
158*54fd6939SJiyong Park int i;
159*54fd6939SJiyong Park uint8_t parity_bit;
160*54fd6939SJiyong Park uint8_t code_bit;
161*54fd6939SJiyong Park
162*54fd6939SJiyong Park if (minimal_flag == true) {
163*54fd6939SJiyong Park /*
164*54fd6939SJiyong Park * Force bits 252, 253, 254 and 255 to 1
165*54fd6939SJiyong Park * This is because these fuses may have already been blown
166*54fd6939SJiyong Park * and the OTPMK cannot force them back to 0
167*54fd6939SJiyong Park */
168*54fd6939SJiyong Park otpmk[252/8] |= (1 << (252%8));
169*54fd6939SJiyong Park otpmk[253/8] |= (1 << (253%8));
170*54fd6939SJiyong Park otpmk[254/8] |= (1 << (254%8));
171*54fd6939SJiyong Park otpmk[255/8] |= (1 << (255%8));
172*54fd6939SJiyong Park }
173*54fd6939SJiyong Park
174*54fd6939SJiyong Park /* Generate the hamming code for the code word */
175*54fd6939SJiyong Park parity_bit = 0;
176*54fd6939SJiyong Park code_bit = 0;
177*54fd6939SJiyong Park for (i = 0; i < 256; i += 1) {
178*54fd6939SJiyong Park if ((otpmk[i/8] & (1 << (i%8))) != 0) {
179*54fd6939SJiyong Park parity_bit ^= 1;
180*54fd6939SJiyong Park code_bit ^= i;
181*54fd6939SJiyong Park }
182*54fd6939SJiyong Park }
183*54fd6939SJiyong Park
184*54fd6939SJiyong Park /* Inverting otpmk[code_bit] will cause the otpmk
185*54fd6939SJiyong Park * to become a valid code word (except for overall parity)
186*54fd6939SJiyong Park */
187*54fd6939SJiyong Park if (code_bit < 252) {
188*54fd6939SJiyong Park otpmk[code_bit/8] ^= (1 << (code_bit % 8));
189*54fd6939SJiyong Park parity_bit ^= 1; // account for flipping a bit changing parity
190*54fd6939SJiyong Park } else {
191*54fd6939SJiyong Park /* Invert two bits: (code_bit - 4) and 4
192*54fd6939SJiyong Park * Because we invert two bits, no need to touch the parity bit
193*54fd6939SJiyong Park */
194*54fd6939SJiyong Park otpmk[(code_bit - 4)/8] ^= (1 << ((code_bit - 4) % 8));
195*54fd6939SJiyong Park otpmk[4/8] ^= (1 << (4 % 8));
196*54fd6939SJiyong Park }
197*54fd6939SJiyong Park
198*54fd6939SJiyong Park /* Finally, adjust the overall parity of the otpmk
199*54fd6939SJiyong Park * otpmk bit 0
200*54fd6939SJiyong Park */
201*54fd6939SJiyong Park otpmk[0] ^= parity_bit;
202*54fd6939SJiyong Park }
203*54fd6939SJiyong Park
204*54fd6939SJiyong Park /* This function program One Time Programmable Master Key (OTPMK)
205*54fd6939SJiyong Park * in fuse registers.
206*54fd6939SJiyong Park */
prog_otpmk(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)207*54fd6939SJiyong Park static int prog_otpmk(struct fuse_hdr_t *fuse_hdr,
208*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
209*54fd6939SJiyong Park {
210*54fd6939SJiyong Park int ret = 0;
211*54fd6939SJiyong Park uint32_t otpmk_flags;
212*54fd6939SJiyong Park uint32_t otpmk_random[8] __aligned(CACHE_WRITEBACK_GRANULE);
213*54fd6939SJiyong Park
214*54fd6939SJiyong Park otpmk_flags = (fuse_hdr->flags >> (FLAG_OTPMK_SHIFT)) & FLAG_OTPMK_MASK;
215*54fd6939SJiyong Park
216*54fd6939SJiyong Park switch (otpmk_flags) {
217*54fd6939SJiyong Park case PROG_OTPMK_MIN:
218*54fd6939SJiyong Park memset(fuse_hdr->otpmk, 0, sizeof(fuse_hdr->otpmk));
219*54fd6939SJiyong Park
220*54fd6939SJiyong Park /* Minimal OTPMK value (252-255 bits set to 1) */
221*54fd6939SJiyong Park fuse_hdr->otpmk[0] |= OTPMK_MIM_BITS_MASK;
222*54fd6939SJiyong Park break;
223*54fd6939SJiyong Park
224*54fd6939SJiyong Park case PROG_OTPMK_RANDOM:
225*54fd6939SJiyong Park if (is_sec_enabled() == false) {
226*54fd6939SJiyong Park ret = ERROR_OTPMK_SEC_DISABLED;
227*54fd6939SJiyong Park goto out;
228*54fd6939SJiyong Park }
229*54fd6939SJiyong Park
230*54fd6939SJiyong Park /* Generate Random number using CAAM for OTPMK */
231*54fd6939SJiyong Park memset(otpmk_random, 0, sizeof(otpmk_random));
232*54fd6939SJiyong Park if (get_rand_bytes_hw((uint8_t *)otpmk_random,
233*54fd6939SJiyong Park sizeof(otpmk_random)) != 0) {
234*54fd6939SJiyong Park ret = ERROR_OTPMK_SEC_ERROR;
235*54fd6939SJiyong Park goto out;
236*54fd6939SJiyong Park }
237*54fd6939SJiyong Park
238*54fd6939SJiyong Park /* Run hamming over random no. to make OTPMK */
239*54fd6939SJiyong Park otpmk_make_code_word_256((uint8_t *)otpmk_random, false);
240*54fd6939SJiyong Park
241*54fd6939SJiyong Park /* Swap OTPMK */
242*54fd6939SJiyong Park fuse_hdr->otpmk[0] = otpmk_random[7];
243*54fd6939SJiyong Park fuse_hdr->otpmk[1] = otpmk_random[6];
244*54fd6939SJiyong Park fuse_hdr->otpmk[2] = otpmk_random[5];
245*54fd6939SJiyong Park fuse_hdr->otpmk[3] = otpmk_random[4];
246*54fd6939SJiyong Park fuse_hdr->otpmk[4] = otpmk_random[3];
247*54fd6939SJiyong Park fuse_hdr->otpmk[5] = otpmk_random[2];
248*54fd6939SJiyong Park fuse_hdr->otpmk[6] = otpmk_random[1];
249*54fd6939SJiyong Park fuse_hdr->otpmk[7] = otpmk_random[0];
250*54fd6939SJiyong Park break;
251*54fd6939SJiyong Park
252*54fd6939SJiyong Park case PROG_OTPMK_USER:
253*54fd6939SJiyong Park break;
254*54fd6939SJiyong Park
255*54fd6939SJiyong Park case PROG_OTPMK_RANDOM_MIN:
256*54fd6939SJiyong Park /* Here assumption is that user is aware of minimal OTPMK
257*54fd6939SJiyong Park * already blown.
258*54fd6939SJiyong Park */
259*54fd6939SJiyong Park
260*54fd6939SJiyong Park /* Generate Random number using CAAM for OTPMK */
261*54fd6939SJiyong Park if (is_sec_enabled() == false) {
262*54fd6939SJiyong Park ret = ERROR_OTPMK_SEC_DISABLED;
263*54fd6939SJiyong Park goto out;
264*54fd6939SJiyong Park }
265*54fd6939SJiyong Park
266*54fd6939SJiyong Park memset(otpmk_random, 0, sizeof(otpmk_random));
267*54fd6939SJiyong Park if (get_rand_bytes_hw((uint8_t *)otpmk_random,
268*54fd6939SJiyong Park sizeof(otpmk_random)) != 0) {
269*54fd6939SJiyong Park ret = ERROR_OTPMK_SEC_ERROR;
270*54fd6939SJiyong Park goto out;
271*54fd6939SJiyong Park }
272*54fd6939SJiyong Park
273*54fd6939SJiyong Park /* Run hamming over random no. to make OTPMK */
274*54fd6939SJiyong Park otpmk_make_code_word_256((uint8_t *)otpmk_random, true);
275*54fd6939SJiyong Park
276*54fd6939SJiyong Park /* Swap OTPMK */
277*54fd6939SJiyong Park fuse_hdr->otpmk[0] = otpmk_random[7];
278*54fd6939SJiyong Park fuse_hdr->otpmk[1] = otpmk_random[6];
279*54fd6939SJiyong Park fuse_hdr->otpmk[2] = otpmk_random[5];
280*54fd6939SJiyong Park fuse_hdr->otpmk[3] = otpmk_random[4];
281*54fd6939SJiyong Park fuse_hdr->otpmk[4] = otpmk_random[3];
282*54fd6939SJiyong Park fuse_hdr->otpmk[5] = otpmk_random[2];
283*54fd6939SJiyong Park fuse_hdr->otpmk[6] = otpmk_random[1];
284*54fd6939SJiyong Park fuse_hdr->otpmk[7] = otpmk_random[0];
285*54fd6939SJiyong Park break;
286*54fd6939SJiyong Park
287*54fd6939SJiyong Park case PROG_OTPMK_USER_MIN:
288*54fd6939SJiyong Park /*
289*54fd6939SJiyong Park * Here assumption is that user is aware of minimal OTPMK
290*54fd6939SJiyong Park * already blown. Check if minimal bits are set in user
291*54fd6939SJiyong Park * supplied OTPMK.
292*54fd6939SJiyong Park */
293*54fd6939SJiyong Park if ((fuse_hdr->otpmk[0] & OTPMK_MIM_BITS_MASK) !=
294*54fd6939SJiyong Park OTPMK_MIM_BITS_MASK) {
295*54fd6939SJiyong Park ret = ERROR_OTPMK_USER_MIN;
296*54fd6939SJiyong Park goto out;
297*54fd6939SJiyong Park }
298*54fd6939SJiyong Park break;
299*54fd6939SJiyong Park
300*54fd6939SJiyong Park default:
301*54fd6939SJiyong Park ret = 0;
302*54fd6939SJiyong Park goto out;
303*54fd6939SJiyong Park }
304*54fd6939SJiyong Park
305*54fd6939SJiyong Park ret = write_fuses(sfp_ccsr_regs->otpmk, fuse_hdr->otpmk, 8);
306*54fd6939SJiyong Park
307*54fd6939SJiyong Park if (ret != 0) {
308*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
309*54fd6939SJiyong Park ERROR_OTPMK_ALREADY_BLOWN
310*54fd6939SJiyong Park : ERROR_OTPMK_WRITE;
311*54fd6939SJiyong Park } else {
312*54fd6939SJiyong Park /* Check for DRV hamming error */
313*54fd6939SJiyong Park if ((sfp_read32((void *)(get_sfp_addr() + SFP_SVHESR_OFFSET))
314*54fd6939SJiyong Park & SFP_SVHESR_OTPMK_MASK) != 0) {
315*54fd6939SJiyong Park ret = ERROR_OTPMK_HAMMING_ERROR;
316*54fd6939SJiyong Park }
317*54fd6939SJiyong Park }
318*54fd6939SJiyong Park
319*54fd6939SJiyong Park out:
320*54fd6939SJiyong Park return ret;
321*54fd6939SJiyong Park }
322*54fd6939SJiyong Park
323*54fd6939SJiyong Park /* This function program OSPR1 in fuse registers.
324*54fd6939SJiyong Park */
prog_ospr1(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)325*54fd6939SJiyong Park static int prog_ospr1(struct fuse_hdr_t *fuse_hdr,
326*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
327*54fd6939SJiyong Park {
328*54fd6939SJiyong Park int ret;
329*54fd6939SJiyong Park uint32_t mask = 0;
330*54fd6939SJiyong Park
331*54fd6939SJiyong Park #ifdef NXP_SFP_VER_3_4
332*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_MC_SHIFT) & 0x1) != 0) {
333*54fd6939SJiyong Park mask = OSPR1_MC_MASK;
334*54fd6939SJiyong Park }
335*54fd6939SJiyong Park #endif
336*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_DBG_LVL_SHIFT) & 0x1) != 0) {
337*54fd6939SJiyong Park mask = mask | OSPR1_DBG_LVL_MASK;
338*54fd6939SJiyong Park }
339*54fd6939SJiyong Park
340*54fd6939SJiyong Park ret = write_a_fuse(&sfp_ccsr_regs->ospr1, &fuse_hdr->ospr1, mask);
341*54fd6939SJiyong Park
342*54fd6939SJiyong Park if (ret != 0) {
343*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
344*54fd6939SJiyong Park ERROR_OSPR1_ALREADY_BLOWN
345*54fd6939SJiyong Park : ERROR_OSPR1_WRITE;
346*54fd6939SJiyong Park }
347*54fd6939SJiyong Park
348*54fd6939SJiyong Park return ret;
349*54fd6939SJiyong Park }
350*54fd6939SJiyong Park
351*54fd6939SJiyong Park /* This function program SYSCFG in fuse registers.
352*54fd6939SJiyong Park */
prog_syscfg(struct fuse_hdr_t * fuse_hdr,struct sfp_ccsr_regs_t * sfp_ccsr_regs)353*54fd6939SJiyong Park static int prog_syscfg(struct fuse_hdr_t *fuse_hdr,
354*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs)
355*54fd6939SJiyong Park {
356*54fd6939SJiyong Park int ret;
357*54fd6939SJiyong Park
358*54fd6939SJiyong Park /* Check if SYSCFG already blown or not */
359*54fd6939SJiyong Park ret = write_a_fuse(&sfp_ccsr_regs->ospr, &fuse_hdr->sc, OSPR0_SC_MASK);
360*54fd6939SJiyong Park
361*54fd6939SJiyong Park if (ret != 0) {
362*54fd6939SJiyong Park ret = (ret == ERROR_ALREADY_BLOWN) ?
363*54fd6939SJiyong Park ERROR_SC_ALREADY_BLOWN
364*54fd6939SJiyong Park : ERROR_SC_WRITE;
365*54fd6939SJiyong Park }
366*54fd6939SJiyong Park
367*54fd6939SJiyong Park return ret;
368*54fd6939SJiyong Park }
369*54fd6939SJiyong Park
370*54fd6939SJiyong Park /* This function does fuse provisioning.
371*54fd6939SJiyong Park */
provision_fuses(unsigned long long fuse_scr_addr,bool en_povdd_status)372*54fd6939SJiyong Park int provision_fuses(unsigned long long fuse_scr_addr,
373*54fd6939SJiyong Park bool en_povdd_status)
374*54fd6939SJiyong Park {
375*54fd6939SJiyong Park struct fuse_hdr_t *fuse_hdr = NULL;
376*54fd6939SJiyong Park struct sfp_ccsr_regs_t *sfp_ccsr_regs = (void *)(get_sfp_addr()
377*54fd6939SJiyong Park + SFP_FUSE_REGS_OFFSET);
378*54fd6939SJiyong Park int ret = 0;
379*54fd6939SJiyong Park
380*54fd6939SJiyong Park fuse_hdr = (struct fuse_hdr_t *)fuse_scr_addr;
381*54fd6939SJiyong Park
382*54fd6939SJiyong Park /*
383*54fd6939SJiyong Park * Check for Write Protect (WP) fuse. If blown then do
384*54fd6939SJiyong Park * no fuse provisioning.
385*54fd6939SJiyong Park */
386*54fd6939SJiyong Park if ((sfp_read32(&sfp_ccsr_regs->ospr) & 0x1) != 0) {
387*54fd6939SJiyong Park goto out;
388*54fd6939SJiyong Park }
389*54fd6939SJiyong Park
390*54fd6939SJiyong Park /* Check if SRKH to be blown or not */
391*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_SRKH_SHIFT) & 0x1) != 0) {
392*54fd6939SJiyong Park INFO("Fuse: Program SRKH\n");
393*54fd6939SJiyong Park ret = prog_srkh(fuse_hdr, sfp_ccsr_regs);
394*54fd6939SJiyong Park if (ret != 0) {
395*54fd6939SJiyong Park error_handler(ret);
396*54fd6939SJiyong Park goto out;
397*54fd6939SJiyong Park }
398*54fd6939SJiyong Park }
399*54fd6939SJiyong Park
400*54fd6939SJiyong Park /* Check if OEMUID to be blown or not */
401*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_OUID0_SHIFT) & FLAG_OUID_MASK) != 0) {
402*54fd6939SJiyong Park INFO("Fuse: Program OEMUIDs\n");
403*54fd6939SJiyong Park ret = prog_oemuid(fuse_hdr, sfp_ccsr_regs);
404*54fd6939SJiyong Park if (ret != 0) {
405*54fd6939SJiyong Park error_handler(ret);
406*54fd6939SJiyong Park goto out;
407*54fd6939SJiyong Park }
408*54fd6939SJiyong Park }
409*54fd6939SJiyong Park
410*54fd6939SJiyong Park /* Check if Debug values to be blown or not */
411*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_DCV0_SHIFT) & FLAG_DEBUG_MASK) != 0) {
412*54fd6939SJiyong Park INFO("Fuse: Program Debug values\n");
413*54fd6939SJiyong Park ret = prog_debug(fuse_hdr, sfp_ccsr_regs);
414*54fd6939SJiyong Park if (ret != 0) {
415*54fd6939SJiyong Park error_handler(ret);
416*54fd6939SJiyong Park goto out;
417*54fd6939SJiyong Park }
418*54fd6939SJiyong Park }
419*54fd6939SJiyong Park
420*54fd6939SJiyong Park /* Check if OTPMK values to be blown or not */
421*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_OTPMK_SHIFT) & PROG_NO_OTPMK) !=
422*54fd6939SJiyong Park PROG_NO_OTPMK) {
423*54fd6939SJiyong Park INFO("Fuse: Program OTPMK\n");
424*54fd6939SJiyong Park ret = prog_otpmk(fuse_hdr, sfp_ccsr_regs);
425*54fd6939SJiyong Park if (ret != 0) {
426*54fd6939SJiyong Park error_handler(ret);
427*54fd6939SJiyong Park goto out;
428*54fd6939SJiyong Park }
429*54fd6939SJiyong Park }
430*54fd6939SJiyong Park
431*54fd6939SJiyong Park
432*54fd6939SJiyong Park /* Check if MC or DBG LVL to be blown or not */
433*54fd6939SJiyong Park if ((((fuse_hdr->flags >> FLAG_MC_SHIFT) & 0x1) != 0) ||
434*54fd6939SJiyong Park (((fuse_hdr->flags >> FLAG_DBG_LVL_SHIFT) & 0x1) != 0)) {
435*54fd6939SJiyong Park INFO("Fuse: Program OSPR1\n");
436*54fd6939SJiyong Park ret = prog_ospr1(fuse_hdr, sfp_ccsr_regs);
437*54fd6939SJiyong Park if (ret != 0) {
438*54fd6939SJiyong Park error_handler(ret);
439*54fd6939SJiyong Park goto out;
440*54fd6939SJiyong Park }
441*54fd6939SJiyong Park }
442*54fd6939SJiyong Park
443*54fd6939SJiyong Park /* Check if SYSCFG to be blown or not */
444*54fd6939SJiyong Park if (((fuse_hdr->flags >> FLAG_SYSCFG_SHIFT) & 0x1) != 0) {
445*54fd6939SJiyong Park INFO("Fuse: Program SYSCFG\n");
446*54fd6939SJiyong Park ret = prog_syscfg(fuse_hdr, sfp_ccsr_regs);
447*54fd6939SJiyong Park if (ret != 0) {
448*54fd6939SJiyong Park error_handler(ret);
449*54fd6939SJiyong Park goto out;
450*54fd6939SJiyong Park }
451*54fd6939SJiyong Park }
452*54fd6939SJiyong Park
453*54fd6939SJiyong Park if (en_povdd_status) {
454*54fd6939SJiyong Park ret = sfp_program_fuses();
455*54fd6939SJiyong Park if (ret != 0) {
456*54fd6939SJiyong Park error_handler(ret);
457*54fd6939SJiyong Park goto out;
458*54fd6939SJiyong Park }
459*54fd6939SJiyong Park }
460*54fd6939SJiyong Park out:
461*54fd6939SJiyong Park return ret;
462*54fd6939SJiyong Park }
463