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arm-trusted-firmware/drivers/brcm/sotp.c

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/*
* Copyright (c) 2016-2020, Broadcom
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <string.h>
#include <common/debug.h>
#include <lib/mmio.h>
#include <sotp.h>
#include <platform_def.h>
#include <platform_sotp.h>
#ifdef USE_SOFT_SOTP
extern uint64_t soft_sotp[];
#endif
#define SOTP_PROG_CONTROL (SOTP_REGS_OTP_BASE + 0x0000)
#define SOTP_PROG_CONTROL__OTP_CPU_MODE_EN 15
#define SOTP_PROG_CONTROL__OTP_DISABLE_ECC 9
#define SOTP_PROG_CONTROL__OTP_ECC_WREN 8
#define SOTP_WRDATA_0 (SOTP_REGS_OTP_BASE + 0x0004)
#define SOTP_WRDATA_1 (SOTP_REGS_OTP_BASE + 0x0008)
#define SOTP_ADDR (SOTP_REGS_OTP_BASE + 0x000c)
#define SOTP_ADDR__OTP_ROW_ADDR_R 6
#define SOTP_ADDR_MASK 0x3FF
#define SOTP_CTRL_0 (SOTP_REGS_OTP_BASE + 0x0010)
#define SOTP_CTRL_0__START 0
#define SOTP_CTRL_0__OTP_CMD 1
#define SOTP_STATUS_0 (SOTP_REGS_OTP_BASE + 0x0018)
#define SOTP_STATUS__FDONE 3
#define SOTP_STATUS_1 (SOTP_REGS_OTP_BASE + 0x001c)
#define SOTP_STATUS_1__CMD_DONE 1
#define SOTP_STATUS_1__ECC_DET 17
#define SOTP_RDDATA_0 (SOTP_REGS_OTP_BASE + 0x0020)
#define SOTP_RDDATA_1 (SOTP_REGS_OTP_BASE + 0x0024)
#define SOTP_READ 0
#define SOTP_PROG_WORD 10
#define SOTP_STATUS__PROGOK 2
#define SOTP_PROG_ENABLE 2
#define SOTP_ROW_DATA_MASK 0xffffffff
#define SOTP_ECC_ERR_BITS_MASK 0x1ff00000000
#define SOTP_CHIP_CTRL_SW_OVERRIDE_CHIP_STATES 4
#define SOTP_CHIP_CTRL_SW_MANU_PROG 5
#define SOTP_CHIP_CTRL_SW_CID_PROG 6
#define SOTP_CHIP_CTRL_SW_AB_DEVICE 8
#define SOTP_CHIP_CTRL_SW_AB_DEV_MODE 9
#define CHIP_STATE_UNPROGRAMMED 0x1
#define CHIP_STATE_UNASSIGNED 0x2
uint64_t sotp_mem_read(uint32_t offset, uint32_t sotp_add_ecc)
{
#ifdef USE_SOFT_SOTP
(void)sotp_add_ecc;
return soft_sotp[offset];
#else
uint64_t read_data = 0;
uint64_t read_data1 = 0;
uint64_t read_data2 = 0;
/* Check for FDONE status */
while ((mmio_read_32(SOTP_STATUS_0) & BIT(SOTP_STATUS__FDONE)) !=
BIT(SOTP_STATUS__FDONE))
;
/* Enable OTP access by CPU */
mmio_setbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_CPU_MODE_EN));
if (sotp_add_ecc == 1) {
mmio_clrbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_DISABLE_ECC));
}
if (sotp_add_ecc == 0) {
mmio_setbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_DISABLE_ECC));
}
mmio_write_32(SOTP_ADDR,
((offset & SOTP_ADDR_MASK) << SOTP_ADDR__OTP_ROW_ADDR_R));
mmio_write_32(SOTP_CTRL_0, (SOTP_READ << SOTP_CTRL_0__OTP_CMD));
/* Start bit to tell SOTP to send command to the OTP controller */
mmio_setbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
/* Wait for SOTP command done to be set */
while ((mmio_read_32(SOTP_STATUS_1) & BIT(SOTP_STATUS_1__CMD_DONE)) !=
BIT(SOTP_STATUS_1__CMD_DONE))
;
/* Clr Start bit after command done */
mmio_clrbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
if ((offset > SOTP_DEVICE_SECURE_CFG3_ROW) &&
(mmio_read_32(SOTP_STATUS_1) & BIT(SOTP_STATUS_1__ECC_DET))) {
ERROR("SOTP ECC ERROR Detected row offset %d\n", offset);
read_data = SOTP_ECC_ERR_DETECT;
} else {
read_data1 = (uint64_t)mmio_read_32(SOTP_RDDATA_0);
read_data1 = read_data1 & 0xFFFFFFFF;
read_data2 = (uint64_t)mmio_read_32(SOTP_RDDATA_1);
read_data2 = (read_data2 & 0x1ff) << 32;
read_data = read_data1 | read_data2;
}
/* Command done is cleared */
mmio_setbits_32(SOTP_STATUS_1, BIT(SOTP_STATUS_1__CMD_DONE));
/* disable OTP access by CPU */
mmio_clrbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_CPU_MODE_EN));
return read_data;
#endif
}
void sotp_mem_write(uint32_t addr, uint32_t sotp_add_ecc, uint64_t wdata)
{
#ifdef USE_SOFT_SOTP
(void)sotp_add_ecc;
soft_sotp[addr] = wdata;
#else
uint32_t loop;
uint8_t prog_array[4] = { 0x0F, 0x04, 0x08, 0x0D };
uint32_t chip_state_default =
(CHIP_STATE_UNASSIGNED|CHIP_STATE_UNPROGRAMMED);
uint32_t chip_state = mmio_read_32(SOTP_REGS_SOTP_CHIP_STATES);
uint32_t chip_ctrl_default = 0;
/*
* The override settings is required to allow the customer to program
* the application specific keys into SOTP, before the conversion to
* one of the AB modes.
* At the end of write operation, the chip ctrl settings will restored
* to the state prior to write call
*/
if (chip_state & chip_state_default) {
uint32_t chip_ctrl;
chip_ctrl_default = mmio_read_32(SOTP_CHIP_CTRL);
INFO("SOTP: enable special prog mode\n");
chip_ctrl = BIT(SOTP_CHIP_CTRL_SW_OVERRIDE_CHIP_STATES) |
BIT(SOTP_CHIP_CTRL_SW_MANU_PROG) |
BIT(SOTP_CHIP_CTRL_SW_CID_PROG) |
BIT(SOTP_CHIP_CTRL_SW_AB_DEVICE);
mmio_write_32(SOTP_CHIP_CTRL, chip_ctrl);
}
/* Check for FDONE status */
while ((mmio_read_32(SOTP_STATUS_0) & BIT(SOTP_STATUS__FDONE)) !=
BIT(SOTP_STATUS__FDONE))
;
/* Enable OTP acces by CPU */
mmio_setbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_CPU_MODE_EN));
if (addr > SOTP_DEVICE_SECURE_CFG3_ROW) {
if (sotp_add_ecc == 0) {
mmio_clrbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_ECC_WREN));
}
if (sotp_add_ecc == 1) {
mmio_setbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_ECC_WREN));
}
} else {
mmio_clrbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_ECC_WREN));
}
mmio_write_32(SOTP_CTRL_0, (SOTP_PROG_ENABLE << 1));
/*
* In order to avoid unintentional writes / programming of the OTP
* array, the OTP Controller must be put into programming mode before
* it will accept program commands. This is done by writing 0xF, 0x4,
* 0x8, 0xD with program commands prior to starting the actual
* programming sequence
*/
for (loop = 0; loop < 4; loop++) {
mmio_write_32(SOTP_WRDATA_0, prog_array[loop]);
/*
* Start bit to tell SOTP to send command to the OTP controller
*/
mmio_setbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
/* Wait for SOTP command done to <-- be set */
while ((mmio_read_32(SOTP_STATUS_1) &
BIT(SOTP_STATUS_1__CMD_DONE)) !=
BIT(SOTP_STATUS_1__CMD_DONE))
;
/* Command done is cleared w1c */
mmio_setbits_32(SOTP_STATUS_1, BIT(SOTP_STATUS_1__CMD_DONE));
/* Clr Start bit after command done */
mmio_clrbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
}
/* Check for PROGOK */
while ((mmio_read_32(SOTP_STATUS_0) & 0x4) != BIT(SOTP_STATUS__PROGOK))
;
/* Set 10 bit row address */
mmio_write_32(SOTP_ADDR,
((addr & SOTP_ADDR_MASK) << SOTP_ADDR__OTP_ROW_ADDR_R));
/* Set SOTP Row data */
mmio_write_32(SOTP_WRDATA_0, (wdata & SOTP_ROW_DATA_MASK));
/* Set SOTP ECC and error bits */
mmio_write_32(SOTP_WRDATA_1, ((wdata & SOTP_ECC_ERR_BITS_MASK) >> 32));
/* Set prog_word command */
mmio_write_32(SOTP_CTRL_0, (SOTP_PROG_WORD << 1));
/* Start bit to tell SOTP to send command to the OTP controller */
mmio_setbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
/* Wait for SOTP command done to be set */
while ((mmio_read_32(SOTP_STATUS_1) & BIT(SOTP_STATUS_1__CMD_DONE)) !=
BIT(SOTP_STATUS_1__CMD_DONE))
;
/* Command done is cleared w1c */
mmio_setbits_32(SOTP_STATUS_1, BIT(SOTP_STATUS_1__CMD_DONE));
/* disable OTP acces by CPU */
mmio_clrbits_32(SOTP_PROG_CONTROL,
BIT(SOTP_PROG_CONTROL__OTP_CPU_MODE_EN));
/* Clr Start bit after command done */
mmio_clrbits_32(SOTP_CTRL_0, BIT(SOTP_CTRL_0__START));
if (chip_state & chip_state_default)
mmio_write_32(SOTP_CHIP_CTRL, chip_ctrl_default);
#endif
}
int sotp_read_key(uint8_t *key, size_t keysize, int start_row, int end_row)
{
int row;
uint32_t status = 0;
uint32_t status2 = 0xFFFFFFFF;
uint64_t row_data;
uint32_t data;
uint32_t *temp_key = (uint32_t *)key;
row = start_row;
while ((keysize > 0) && (row <= end_row)) {
row_data = sotp_mem_read(row, SOTP_ROW_ECC);
if (!(row_data & (SOTP_ECC_ERR_DETECT | SOTP_FAIL_BITS))) {
memcpy(temp_key++, &row_data, sizeof(uint32_t));
keysize -= sizeof(uint32_t);
data = (uint32_t)(row_data & SOTP_ROW_DATA_MASK);
status |= data;
status2 &= data;
}
row++;
}
if ((status2 == 0xFFFFFFFF) || (status == 0) || (row > end_row))
return -1;
return 0;
}
int sotp_key_erased(void)
{
uint64_t row_data;
int status = 0;
row_data = sotp_mem_read(SOTP_DEVICE_SECURE_CFG0_ROW, 0);
if (row_data & SOTP_DEVICE_SECURE_CFG0_OTP_ERASED_MASK)
status = 1;
else if (mmio_read_32(SOTP_REGS_SOTP_CHIP_STATES) &
SOTP_REGS_SOTP_CHIP_STATES_OTP_ERASED_MASK)
status = 1;
return status;
}
/*
* This function optimise the SOTP redundancy
* by considering the 00- zero and 01,10,11 - one
*/
uint32_t sotp_redundancy_reduction(uint32_t sotp_row_data)
{
uint32_t opt_data;
uint32_t opt_loop;
uint32_t temp_data;
opt_data = 0;
for (opt_loop = 0; opt_loop < 16; opt_loop = opt_loop + 1) {
temp_data = ((sotp_row_data >> (opt_loop * 2)) & 0x3);
if (temp_data != 0x0)
opt_data = (opt_data | (1 << opt_loop));
}
return opt_data;
}