1*3979c6d9SPankaj Gupta /* 2*3979c6d9SPankaj Gupta * Copyright 2021 NXP 3*3979c6d9SPankaj Gupta * 4*3979c6d9SPankaj Gupta * SPDX-License-Identifier: BSD-3-Clause 5*3979c6d9SPankaj Gupta * 6*3979c6d9SPankaj Gupta */ 7*3979c6d9SPankaj Gupta 8*3979c6d9SPankaj Gupta #include <stdbool.h> 9*3979c6d9SPankaj Gupta #include <stdint.h> 10*3979c6d9SPankaj Gupta #include <stdio.h> 11*3979c6d9SPankaj Gupta #include <stdlib.h> 12*3979c6d9SPankaj Gupta #include <string.h> 13*3979c6d9SPankaj Gupta 14*3979c6d9SPankaj Gupta #include <caam.h> 15*3979c6d9SPankaj Gupta #include <common/debug.h> 16*3979c6d9SPankaj Gupta #include <dcfg.h> 17*3979c6d9SPankaj Gupta #include <drivers/delay_timer.h> 18*3979c6d9SPankaj Gupta #include <fuse_prov.h> 19*3979c6d9SPankaj Gupta #include <sfp.h> 20*3979c6d9SPankaj Gupta #include <sfp_error_codes.h> 21*3979c6d9SPankaj Gupta 22*3979c6d9SPankaj Gupta 23*3979c6d9SPankaj Gupta static int write_a_fuse(uint32_t *fuse_addr, uint32_t *fuse_hdr_val, 24*3979c6d9SPankaj Gupta uint32_t mask) 25*3979c6d9SPankaj Gupta { 26*3979c6d9SPankaj Gupta uint32_t last_stored_val = sfp_read32(fuse_addr); 27*3979c6d9SPankaj Gupta 28*3979c6d9SPankaj Gupta /* Check if fuse already blown or not */ 29*3979c6d9SPankaj Gupta if ((last_stored_val & mask) == mask) { 30*3979c6d9SPankaj Gupta return ERROR_ALREADY_BLOWN; 31*3979c6d9SPankaj Gupta } 32*3979c6d9SPankaj Gupta 33*3979c6d9SPankaj Gupta /* Write fuse in mirror registers */ 34*3979c6d9SPankaj Gupta sfp_write32(fuse_addr, last_stored_val | (*fuse_hdr_val & mask)); 35*3979c6d9SPankaj Gupta 36*3979c6d9SPankaj Gupta /* Read back to check if write success */ 37*3979c6d9SPankaj Gupta if (sfp_read32(fuse_addr) != (last_stored_val | (*fuse_hdr_val & mask))) { 38*3979c6d9SPankaj Gupta return ERROR_WRITE; 39*3979c6d9SPankaj Gupta } 40*3979c6d9SPankaj Gupta 41*3979c6d9SPankaj Gupta return 0; 42*3979c6d9SPankaj Gupta } 43*3979c6d9SPankaj Gupta 44*3979c6d9SPankaj Gupta static int write_fuses(uint32_t *fuse_addr, uint32_t *fuse_hdr_val, uint8_t len) 45*3979c6d9SPankaj Gupta { 46*3979c6d9SPankaj Gupta int i; 47*3979c6d9SPankaj Gupta 48*3979c6d9SPankaj Gupta /* Check if fuse already blown or not */ 49*3979c6d9SPankaj Gupta for (i = 0; i < len; i++) { 50*3979c6d9SPankaj Gupta if (sfp_read32(&fuse_addr[i]) != 0) { 51*3979c6d9SPankaj Gupta return ERROR_ALREADY_BLOWN; 52*3979c6d9SPankaj Gupta } 53*3979c6d9SPankaj Gupta } 54*3979c6d9SPankaj Gupta 55*3979c6d9SPankaj Gupta /* Write fuse in mirror registers */ 56*3979c6d9SPankaj Gupta for (i = 0; i < len; i++) { 57*3979c6d9SPankaj Gupta sfp_write32(&fuse_addr[i], fuse_hdr_val[i]); 58*3979c6d9SPankaj Gupta } 59*3979c6d9SPankaj Gupta 60*3979c6d9SPankaj Gupta /* Read back to check if write success */ 61*3979c6d9SPankaj Gupta for (i = 0; i < len; i++) { 62*3979c6d9SPankaj Gupta if (sfp_read32(&fuse_addr[i]) != fuse_hdr_val[i]) { 63*3979c6d9SPankaj Gupta return ERROR_WRITE; 64*3979c6d9SPankaj Gupta } 65*3979c6d9SPankaj Gupta } 66*3979c6d9SPankaj Gupta 67*3979c6d9SPankaj Gupta return 0; 68*3979c6d9SPankaj Gupta } 69*3979c6d9SPankaj Gupta 70*3979c6d9SPankaj Gupta /* 71*3979c6d9SPankaj Gupta * This function program Super Root Key Hash (SRKH) in fuse 72*3979c6d9SPankaj Gupta * registers. 73*3979c6d9SPankaj Gupta */ 74*3979c6d9SPankaj Gupta static int prog_srkh(struct fuse_hdr_t *fuse_hdr, 75*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 76*3979c6d9SPankaj Gupta { 77*3979c6d9SPankaj Gupta int ret = 0; 78*3979c6d9SPankaj Gupta 79*3979c6d9SPankaj Gupta ret = write_fuses(sfp_ccsr_regs->srk_hash, fuse_hdr->srkh, 8); 80*3979c6d9SPankaj Gupta 81*3979c6d9SPankaj Gupta if (ret != 0) { 82*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 83*3979c6d9SPankaj Gupta ERROR_SRKH_ALREADY_BLOWN : ERROR_SRKH_WRITE; 84*3979c6d9SPankaj Gupta } 85*3979c6d9SPankaj Gupta 86*3979c6d9SPankaj Gupta return ret; 87*3979c6d9SPankaj Gupta } 88*3979c6d9SPankaj Gupta 89*3979c6d9SPankaj Gupta /* This function program OEMUID[0-4] in fuse registers. */ 90*3979c6d9SPankaj Gupta static int prog_oemuid(struct fuse_hdr_t *fuse_hdr, 91*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 92*3979c6d9SPankaj Gupta { 93*3979c6d9SPankaj Gupta int i, ret = 0; 94*3979c6d9SPankaj Gupta 95*3979c6d9SPankaj Gupta for (i = 0; i < 5; i++) { 96*3979c6d9SPankaj Gupta /* Check OEMUIDx to be blown or not */ 97*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> (FLAG_OUID0_SHIFT + i)) & 0x1) != 0) { 98*3979c6d9SPankaj Gupta /* Check if OEMUID[i] already blown or not */ 99*3979c6d9SPankaj Gupta ret = write_fuses(&sfp_ccsr_regs->oem_uid[i], 100*3979c6d9SPankaj Gupta &fuse_hdr->oem_uid[i], 1); 101*3979c6d9SPankaj Gupta 102*3979c6d9SPankaj Gupta if (ret != 0) { 103*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 104*3979c6d9SPankaj Gupta ERROR_OEMUID_ALREADY_BLOWN 105*3979c6d9SPankaj Gupta : ERROR_OEMUID_WRITE; 106*3979c6d9SPankaj Gupta } 107*3979c6d9SPankaj Gupta } 108*3979c6d9SPankaj Gupta } 109*3979c6d9SPankaj Gupta return ret; 110*3979c6d9SPankaj Gupta } 111*3979c6d9SPankaj Gupta 112*3979c6d9SPankaj Gupta /* This function program DCV[0-1], DRV[0-1] in fuse registers. */ 113*3979c6d9SPankaj Gupta static int prog_debug(struct fuse_hdr_t *fuse_hdr, 114*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 115*3979c6d9SPankaj Gupta { 116*3979c6d9SPankaj Gupta int ret; 117*3979c6d9SPankaj Gupta 118*3979c6d9SPankaj Gupta /* Check DCV to be blown or not */ 119*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> (FLAG_DCV0_SHIFT)) & 0x3) != 0) { 120*3979c6d9SPankaj Gupta /* Check if DCV[i] already blown or not */ 121*3979c6d9SPankaj Gupta ret = write_fuses(sfp_ccsr_regs->dcv, fuse_hdr->dcv, 2); 122*3979c6d9SPankaj Gupta 123*3979c6d9SPankaj Gupta if (ret != 0) { 124*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 125*3979c6d9SPankaj Gupta ERROR_DCV_ALREADY_BLOWN 126*3979c6d9SPankaj Gupta : ERROR_DCV_WRITE; 127*3979c6d9SPankaj Gupta } 128*3979c6d9SPankaj Gupta } 129*3979c6d9SPankaj Gupta 130*3979c6d9SPankaj Gupta /* Check DRV to be blown or not */ 131*3979c6d9SPankaj Gupta if ((((fuse_hdr->flags >> (FLAG_DRV0_SHIFT)) & 0x3)) != 0) { 132*3979c6d9SPankaj Gupta /* Check if DRV[i] already blown or not */ 133*3979c6d9SPankaj Gupta ret = write_fuses(sfp_ccsr_regs->drv, fuse_hdr->drv, 2); 134*3979c6d9SPankaj Gupta 135*3979c6d9SPankaj Gupta if (ret != 0) { 136*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 137*3979c6d9SPankaj Gupta ERROR_DRV_ALREADY_BLOWN 138*3979c6d9SPankaj Gupta : ERROR_DRV_WRITE; 139*3979c6d9SPankaj Gupta } else { 140*3979c6d9SPankaj Gupta /* Check for DRV hamming error */ 141*3979c6d9SPankaj Gupta if (sfp_read32((void *)(get_sfp_addr() 142*3979c6d9SPankaj Gupta + SFP_SVHESR_OFFSET)) 143*3979c6d9SPankaj Gupta & SFP_SVHESR_DRV_MASK) { 144*3979c6d9SPankaj Gupta return ERROR_DRV_HAMMING_ERROR; 145*3979c6d9SPankaj Gupta } 146*3979c6d9SPankaj Gupta } 147*3979c6d9SPankaj Gupta } 148*3979c6d9SPankaj Gupta 149*3979c6d9SPankaj Gupta return 0; 150*3979c6d9SPankaj Gupta } 151*3979c6d9SPankaj Gupta 152*3979c6d9SPankaj Gupta /* 153*3979c6d9SPankaj Gupta * Turn a 256-bit random value (32 bytes) into an OTPMK code word 154*3979c6d9SPankaj Gupta * modifying the input data array in place 155*3979c6d9SPankaj Gupta */ 156*3979c6d9SPankaj Gupta static void otpmk_make_code_word_256(uint8_t *otpmk, bool minimal_flag) 157*3979c6d9SPankaj Gupta { 158*3979c6d9SPankaj Gupta int i; 159*3979c6d9SPankaj Gupta uint8_t parity_bit; 160*3979c6d9SPankaj Gupta uint8_t code_bit; 161*3979c6d9SPankaj Gupta 162*3979c6d9SPankaj Gupta if (minimal_flag == true) { 163*3979c6d9SPankaj Gupta /* 164*3979c6d9SPankaj Gupta * Force bits 252, 253, 254 and 255 to 1 165*3979c6d9SPankaj Gupta * This is because these fuses may have already been blown 166*3979c6d9SPankaj Gupta * and the OTPMK cannot force them back to 0 167*3979c6d9SPankaj Gupta */ 168*3979c6d9SPankaj Gupta otpmk[252/8] |= (1 << (252%8)); 169*3979c6d9SPankaj Gupta otpmk[253/8] |= (1 << (253%8)); 170*3979c6d9SPankaj Gupta otpmk[254/8] |= (1 << (254%8)); 171*3979c6d9SPankaj Gupta otpmk[255/8] |= (1 << (255%8)); 172*3979c6d9SPankaj Gupta } 173*3979c6d9SPankaj Gupta 174*3979c6d9SPankaj Gupta /* Generate the hamming code for the code word */ 175*3979c6d9SPankaj Gupta parity_bit = 0; 176*3979c6d9SPankaj Gupta code_bit = 0; 177*3979c6d9SPankaj Gupta for (i = 0; i < 256; i += 1) { 178*3979c6d9SPankaj Gupta if ((otpmk[i/8] & (1 << (i%8))) != 0) { 179*3979c6d9SPankaj Gupta parity_bit ^= 1; 180*3979c6d9SPankaj Gupta code_bit ^= i; 181*3979c6d9SPankaj Gupta } 182*3979c6d9SPankaj Gupta } 183*3979c6d9SPankaj Gupta 184*3979c6d9SPankaj Gupta /* Inverting otpmk[code_bit] will cause the otpmk 185*3979c6d9SPankaj Gupta * to become a valid code word (except for overall parity) 186*3979c6d9SPankaj Gupta */ 187*3979c6d9SPankaj Gupta if (code_bit < 252) { 188*3979c6d9SPankaj Gupta otpmk[code_bit/8] ^= (1 << (code_bit % 8)); 189*3979c6d9SPankaj Gupta parity_bit ^= 1; // account for flipping a bit changing parity 190*3979c6d9SPankaj Gupta } else { 191*3979c6d9SPankaj Gupta /* Invert two bits: (code_bit - 4) and 4 192*3979c6d9SPankaj Gupta * Because we invert two bits, no need to touch the parity bit 193*3979c6d9SPankaj Gupta */ 194*3979c6d9SPankaj Gupta otpmk[(code_bit - 4)/8] ^= (1 << ((code_bit - 4) % 8)); 195*3979c6d9SPankaj Gupta otpmk[4/8] ^= (1 << (4 % 8)); 196*3979c6d9SPankaj Gupta } 197*3979c6d9SPankaj Gupta 198*3979c6d9SPankaj Gupta /* Finally, adjust the overall parity of the otpmk 199*3979c6d9SPankaj Gupta * otpmk bit 0 200*3979c6d9SPankaj Gupta */ 201*3979c6d9SPankaj Gupta otpmk[0] ^= parity_bit; 202*3979c6d9SPankaj Gupta } 203*3979c6d9SPankaj Gupta 204*3979c6d9SPankaj Gupta /* This function program One Time Programmable Master Key (OTPMK) 205*3979c6d9SPankaj Gupta * in fuse registers. 206*3979c6d9SPankaj Gupta */ 207*3979c6d9SPankaj Gupta static int prog_otpmk(struct fuse_hdr_t *fuse_hdr, 208*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 209*3979c6d9SPankaj Gupta { 210*3979c6d9SPankaj Gupta int ret = 0; 211*3979c6d9SPankaj Gupta uint32_t otpmk_flags; 212*3979c6d9SPankaj Gupta uint32_t otpmk_random[8] __aligned(CACHE_WRITEBACK_GRANULE); 213*3979c6d9SPankaj Gupta 214*3979c6d9SPankaj Gupta otpmk_flags = (fuse_hdr->flags >> (FLAG_OTPMK_SHIFT)) & FLAG_OTPMK_MASK; 215*3979c6d9SPankaj Gupta 216*3979c6d9SPankaj Gupta switch (otpmk_flags) { 217*3979c6d9SPankaj Gupta case PROG_OTPMK_MIN: 218*3979c6d9SPankaj Gupta memset(fuse_hdr->otpmk, 0, sizeof(fuse_hdr->otpmk)); 219*3979c6d9SPankaj Gupta 220*3979c6d9SPankaj Gupta /* Minimal OTPMK value (252-255 bits set to 1) */ 221*3979c6d9SPankaj Gupta fuse_hdr->otpmk[0] |= OTPMK_MIM_BITS_MASK; 222*3979c6d9SPankaj Gupta break; 223*3979c6d9SPankaj Gupta 224*3979c6d9SPankaj Gupta case PROG_OTPMK_RANDOM: 225*3979c6d9SPankaj Gupta if (is_sec_enabled() == false) { 226*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_SEC_DISABLED; 227*3979c6d9SPankaj Gupta goto out; 228*3979c6d9SPankaj Gupta } 229*3979c6d9SPankaj Gupta 230*3979c6d9SPankaj Gupta /* Generate Random number using CAAM for OTPMK */ 231*3979c6d9SPankaj Gupta memset(otpmk_random, 0, sizeof(otpmk_random)); 232*3979c6d9SPankaj Gupta if (get_rand_bytes_hw((uint8_t *)otpmk_random, 233*3979c6d9SPankaj Gupta sizeof(otpmk_random)) != 0) { 234*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_SEC_ERROR; 235*3979c6d9SPankaj Gupta goto out; 236*3979c6d9SPankaj Gupta } 237*3979c6d9SPankaj Gupta 238*3979c6d9SPankaj Gupta /* Run hamming over random no. to make OTPMK */ 239*3979c6d9SPankaj Gupta otpmk_make_code_word_256((uint8_t *)otpmk_random, false); 240*3979c6d9SPankaj Gupta 241*3979c6d9SPankaj Gupta /* Swap OTPMK */ 242*3979c6d9SPankaj Gupta fuse_hdr->otpmk[0] = otpmk_random[7]; 243*3979c6d9SPankaj Gupta fuse_hdr->otpmk[1] = otpmk_random[6]; 244*3979c6d9SPankaj Gupta fuse_hdr->otpmk[2] = otpmk_random[5]; 245*3979c6d9SPankaj Gupta fuse_hdr->otpmk[3] = otpmk_random[4]; 246*3979c6d9SPankaj Gupta fuse_hdr->otpmk[4] = otpmk_random[3]; 247*3979c6d9SPankaj Gupta fuse_hdr->otpmk[5] = otpmk_random[2]; 248*3979c6d9SPankaj Gupta fuse_hdr->otpmk[6] = otpmk_random[1]; 249*3979c6d9SPankaj Gupta fuse_hdr->otpmk[7] = otpmk_random[0]; 250*3979c6d9SPankaj Gupta break; 251*3979c6d9SPankaj Gupta 252*3979c6d9SPankaj Gupta case PROG_OTPMK_USER: 253*3979c6d9SPankaj Gupta break; 254*3979c6d9SPankaj Gupta 255*3979c6d9SPankaj Gupta case PROG_OTPMK_RANDOM_MIN: 256*3979c6d9SPankaj Gupta /* Here assumption is that user is aware of minimal OTPMK 257*3979c6d9SPankaj Gupta * already blown. 258*3979c6d9SPankaj Gupta */ 259*3979c6d9SPankaj Gupta 260*3979c6d9SPankaj Gupta /* Generate Random number using CAAM for OTPMK */ 261*3979c6d9SPankaj Gupta if (is_sec_enabled() == false) { 262*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_SEC_DISABLED; 263*3979c6d9SPankaj Gupta goto out; 264*3979c6d9SPankaj Gupta } 265*3979c6d9SPankaj Gupta 266*3979c6d9SPankaj Gupta memset(otpmk_random, 0, sizeof(otpmk_random)); 267*3979c6d9SPankaj Gupta if (get_rand_bytes_hw((uint8_t *)otpmk_random, 268*3979c6d9SPankaj Gupta sizeof(otpmk_random)) != 0) { 269*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_SEC_ERROR; 270*3979c6d9SPankaj Gupta goto out; 271*3979c6d9SPankaj Gupta } 272*3979c6d9SPankaj Gupta 273*3979c6d9SPankaj Gupta /* Run hamming over random no. to make OTPMK */ 274*3979c6d9SPankaj Gupta otpmk_make_code_word_256((uint8_t *)otpmk_random, true); 275*3979c6d9SPankaj Gupta 276*3979c6d9SPankaj Gupta /* Swap OTPMK */ 277*3979c6d9SPankaj Gupta fuse_hdr->otpmk[0] = otpmk_random[7]; 278*3979c6d9SPankaj Gupta fuse_hdr->otpmk[1] = otpmk_random[6]; 279*3979c6d9SPankaj Gupta fuse_hdr->otpmk[2] = otpmk_random[5]; 280*3979c6d9SPankaj Gupta fuse_hdr->otpmk[3] = otpmk_random[4]; 281*3979c6d9SPankaj Gupta fuse_hdr->otpmk[4] = otpmk_random[3]; 282*3979c6d9SPankaj Gupta fuse_hdr->otpmk[5] = otpmk_random[2]; 283*3979c6d9SPankaj Gupta fuse_hdr->otpmk[6] = otpmk_random[1]; 284*3979c6d9SPankaj Gupta fuse_hdr->otpmk[7] = otpmk_random[0]; 285*3979c6d9SPankaj Gupta break; 286*3979c6d9SPankaj Gupta 287*3979c6d9SPankaj Gupta case PROG_OTPMK_USER_MIN: 288*3979c6d9SPankaj Gupta /* 289*3979c6d9SPankaj Gupta * Here assumption is that user is aware of minimal OTPMK 290*3979c6d9SPankaj Gupta * already blown. Check if minimal bits are set in user 291*3979c6d9SPankaj Gupta * supplied OTPMK. 292*3979c6d9SPankaj Gupta */ 293*3979c6d9SPankaj Gupta if ((fuse_hdr->otpmk[0] & OTPMK_MIM_BITS_MASK) != 294*3979c6d9SPankaj Gupta OTPMK_MIM_BITS_MASK) { 295*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_USER_MIN; 296*3979c6d9SPankaj Gupta goto out; 297*3979c6d9SPankaj Gupta } 298*3979c6d9SPankaj Gupta break; 299*3979c6d9SPankaj Gupta 300*3979c6d9SPankaj Gupta default: 301*3979c6d9SPankaj Gupta ret = 0; 302*3979c6d9SPankaj Gupta goto out; 303*3979c6d9SPankaj Gupta } 304*3979c6d9SPankaj Gupta 305*3979c6d9SPankaj Gupta ret = write_fuses(sfp_ccsr_regs->otpmk, fuse_hdr->otpmk, 8); 306*3979c6d9SPankaj Gupta 307*3979c6d9SPankaj Gupta if (ret != 0) { 308*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 309*3979c6d9SPankaj Gupta ERROR_OTPMK_ALREADY_BLOWN 310*3979c6d9SPankaj Gupta : ERROR_OTPMK_WRITE; 311*3979c6d9SPankaj Gupta } else { 312*3979c6d9SPankaj Gupta /* Check for DRV hamming error */ 313*3979c6d9SPankaj Gupta if ((sfp_read32((void *)(get_sfp_addr() + SFP_SVHESR_OFFSET)) 314*3979c6d9SPankaj Gupta & SFP_SVHESR_OTPMK_MASK) != 0) { 315*3979c6d9SPankaj Gupta ret = ERROR_OTPMK_HAMMING_ERROR; 316*3979c6d9SPankaj Gupta } 317*3979c6d9SPankaj Gupta } 318*3979c6d9SPankaj Gupta 319*3979c6d9SPankaj Gupta out: 320*3979c6d9SPankaj Gupta return ret; 321*3979c6d9SPankaj Gupta } 322*3979c6d9SPankaj Gupta 323*3979c6d9SPankaj Gupta /* This function program OSPR1 in fuse registers. 324*3979c6d9SPankaj Gupta */ 325*3979c6d9SPankaj Gupta static int prog_ospr1(struct fuse_hdr_t *fuse_hdr, 326*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 327*3979c6d9SPankaj Gupta { 328*3979c6d9SPankaj Gupta int ret; 329*3979c6d9SPankaj Gupta uint32_t mask; 330*3979c6d9SPankaj Gupta 331*3979c6d9SPankaj Gupta #ifdef NXP_SFP_VER_3_4 332*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_MC_SHIFT) & 0x1) != 0) { 333*3979c6d9SPankaj Gupta mask = OSPR1_MC_MASK; 334*3979c6d9SPankaj Gupta } 335*3979c6d9SPankaj Gupta #endif 336*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_DBG_LVL_SHIFT) & 0x1) != 0) { 337*3979c6d9SPankaj Gupta mask = mask | OSPR1_DBG_LVL_MASK; 338*3979c6d9SPankaj Gupta } 339*3979c6d9SPankaj Gupta 340*3979c6d9SPankaj Gupta ret = write_a_fuse(&sfp_ccsr_regs->ospr1, &fuse_hdr->ospr1, mask); 341*3979c6d9SPankaj Gupta 342*3979c6d9SPankaj Gupta if (ret != 0) { 343*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 344*3979c6d9SPankaj Gupta ERROR_OSPR1_ALREADY_BLOWN 345*3979c6d9SPankaj Gupta : ERROR_OSPR1_WRITE; 346*3979c6d9SPankaj Gupta } 347*3979c6d9SPankaj Gupta 348*3979c6d9SPankaj Gupta return ret; 349*3979c6d9SPankaj Gupta } 350*3979c6d9SPankaj Gupta 351*3979c6d9SPankaj Gupta /* This function program SYSCFG in fuse registers. 352*3979c6d9SPankaj Gupta */ 353*3979c6d9SPankaj Gupta static int prog_syscfg(struct fuse_hdr_t *fuse_hdr, 354*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs) 355*3979c6d9SPankaj Gupta { 356*3979c6d9SPankaj Gupta int ret; 357*3979c6d9SPankaj Gupta 358*3979c6d9SPankaj Gupta /* Check if SYSCFG already blown or not */ 359*3979c6d9SPankaj Gupta ret = write_a_fuse(&sfp_ccsr_regs->ospr, &fuse_hdr->sc, OSPR0_SC_MASK); 360*3979c6d9SPankaj Gupta 361*3979c6d9SPankaj Gupta if (ret != 0) { 362*3979c6d9SPankaj Gupta ret = (ret == ERROR_ALREADY_BLOWN) ? 363*3979c6d9SPankaj Gupta ERROR_SC_ALREADY_BLOWN 364*3979c6d9SPankaj Gupta : ERROR_SC_WRITE; 365*3979c6d9SPankaj Gupta } 366*3979c6d9SPankaj Gupta 367*3979c6d9SPankaj Gupta return ret; 368*3979c6d9SPankaj Gupta } 369*3979c6d9SPankaj Gupta 370*3979c6d9SPankaj Gupta /* This function does fuse provisioning. 371*3979c6d9SPankaj Gupta */ 372*3979c6d9SPankaj Gupta int provision_fuses(unsigned long long fuse_scr_addr, 373*3979c6d9SPankaj Gupta bool en_povdd_status) 374*3979c6d9SPankaj Gupta { 375*3979c6d9SPankaj Gupta struct fuse_hdr_t *fuse_hdr = NULL; 376*3979c6d9SPankaj Gupta struct sfp_ccsr_regs_t *sfp_ccsr_regs = (void *)(get_sfp_addr() 377*3979c6d9SPankaj Gupta + SFP_FUSE_REGS_OFFSET); 378*3979c6d9SPankaj Gupta int ret = 0; 379*3979c6d9SPankaj Gupta 380*3979c6d9SPankaj Gupta fuse_hdr = (struct fuse_hdr_t *)fuse_scr_addr; 381*3979c6d9SPankaj Gupta 382*3979c6d9SPankaj Gupta /* 383*3979c6d9SPankaj Gupta * Check for Write Protect (WP) fuse. If blown then do 384*3979c6d9SPankaj Gupta * no fuse provisioning. 385*3979c6d9SPankaj Gupta */ 386*3979c6d9SPankaj Gupta if ((sfp_read32(&sfp_ccsr_regs->ospr) & 0x1) != 0) { 387*3979c6d9SPankaj Gupta goto out; 388*3979c6d9SPankaj Gupta } 389*3979c6d9SPankaj Gupta 390*3979c6d9SPankaj Gupta /* Check if SRKH to be blown or not */ 391*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_SRKH_SHIFT) & 0x1) != 0) { 392*3979c6d9SPankaj Gupta INFO("Fuse: Program SRKH\n"); 393*3979c6d9SPankaj Gupta ret = prog_srkh(fuse_hdr, sfp_ccsr_regs); 394*3979c6d9SPankaj Gupta if (ret != 0) { 395*3979c6d9SPankaj Gupta error_handler(ret); 396*3979c6d9SPankaj Gupta goto out; 397*3979c6d9SPankaj Gupta } 398*3979c6d9SPankaj Gupta } 399*3979c6d9SPankaj Gupta 400*3979c6d9SPankaj Gupta /* Check if OEMUID to be blown or not */ 401*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_OUID0_SHIFT) & FLAG_OUID_MASK) != 0) { 402*3979c6d9SPankaj Gupta INFO("Fuse: Program OEMUIDs\n"); 403*3979c6d9SPankaj Gupta ret = prog_oemuid(fuse_hdr, sfp_ccsr_regs); 404*3979c6d9SPankaj Gupta if (ret != 0) { 405*3979c6d9SPankaj Gupta error_handler(ret); 406*3979c6d9SPankaj Gupta goto out; 407*3979c6d9SPankaj Gupta } 408*3979c6d9SPankaj Gupta } 409*3979c6d9SPankaj Gupta 410*3979c6d9SPankaj Gupta /* Check if Debug values to be blown or not */ 411*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_DCV0_SHIFT) & FLAG_DEBUG_MASK) != 0) { 412*3979c6d9SPankaj Gupta INFO("Fuse: Program Debug values\n"); 413*3979c6d9SPankaj Gupta ret = prog_debug(fuse_hdr, sfp_ccsr_regs); 414*3979c6d9SPankaj Gupta if (ret != 0) { 415*3979c6d9SPankaj Gupta error_handler(ret); 416*3979c6d9SPankaj Gupta goto out; 417*3979c6d9SPankaj Gupta } 418*3979c6d9SPankaj Gupta } 419*3979c6d9SPankaj Gupta 420*3979c6d9SPankaj Gupta /* Check if OTPMK values to be blown or not */ 421*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_OTPMK_SHIFT) & PROG_NO_OTPMK) != 422*3979c6d9SPankaj Gupta PROG_NO_OTPMK) { 423*3979c6d9SPankaj Gupta INFO("Fuse: Program OTPMK\n"); 424*3979c6d9SPankaj Gupta ret = prog_otpmk(fuse_hdr, sfp_ccsr_regs); 425*3979c6d9SPankaj Gupta if (ret != 0) { 426*3979c6d9SPankaj Gupta error_handler(ret); 427*3979c6d9SPankaj Gupta goto out; 428*3979c6d9SPankaj Gupta } 429*3979c6d9SPankaj Gupta } 430*3979c6d9SPankaj Gupta 431*3979c6d9SPankaj Gupta 432*3979c6d9SPankaj Gupta /* Check if MC or DBG LVL to be blown or not */ 433*3979c6d9SPankaj Gupta if ((((fuse_hdr->flags >> FLAG_MC_SHIFT) & 0x1) != 0) || 434*3979c6d9SPankaj Gupta (((fuse_hdr->flags >> FLAG_DBG_LVL_SHIFT) & 0x1) != 0)) { 435*3979c6d9SPankaj Gupta INFO("Fuse: Program OSPR1\n"); 436*3979c6d9SPankaj Gupta ret = prog_ospr1(fuse_hdr, sfp_ccsr_regs); 437*3979c6d9SPankaj Gupta if (ret != 0) { 438*3979c6d9SPankaj Gupta error_handler(ret); 439*3979c6d9SPankaj Gupta goto out; 440*3979c6d9SPankaj Gupta } 441*3979c6d9SPankaj Gupta } 442*3979c6d9SPankaj Gupta 443*3979c6d9SPankaj Gupta /* Check if SYSCFG to be blown or not */ 444*3979c6d9SPankaj Gupta if (((fuse_hdr->flags >> FLAG_SYSCFG_SHIFT) & 0x1) != 0) { 445*3979c6d9SPankaj Gupta INFO("Fuse: Program SYSCFG\n"); 446*3979c6d9SPankaj Gupta ret = prog_syscfg(fuse_hdr, sfp_ccsr_regs); 447*3979c6d9SPankaj Gupta if (ret != 0) { 448*3979c6d9SPankaj Gupta error_handler(ret); 449*3979c6d9SPankaj Gupta goto out; 450*3979c6d9SPankaj Gupta } 451*3979c6d9SPankaj Gupta } 452*3979c6d9SPankaj Gupta 453*3979c6d9SPankaj Gupta if (en_povdd_status) { 454*3979c6d9SPankaj Gupta ret = sfp_program_fuses(); 455*3979c6d9SPankaj Gupta if (ret != 0) { 456*3979c6d9SPankaj Gupta error_handler(ret); 457*3979c6d9SPankaj Gupta goto out; 458*3979c6d9SPankaj Gupta } 459*3979c6d9SPankaj Gupta } 460*3979c6d9SPankaj Gupta out: 461*3979c6d9SPankaj Gupta return ret; 462*3979c6d9SPankaj Gupta } 463