blob: c3c517a9ccd99422d5b5eb0cf5d5ce31a0f4cdd6 [file] [log] [blame]
/*
* Copyright (c) 2023-2024, Advanced Micro Devices, Inc. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <errno.h>
#include <inttypes.h>
#include <drivers/scmi-msg.h>
#include <drivers/scmi.h>
#include <lib/utils_def.h>
#include <platform_def.h>
#include <scmi.h>
#include "plat_private.h"
#define HIGH (1)
#define LOW (0)
struct scmi_clk {
unsigned long clock_id;
unsigned long rate;
const char *name;
bool enabled;
};
#define CLOCK_CELL(_scmi_id, _id, _name, _init_enabled, _rate) \
[_scmi_id] = { \
.clock_id = (_id), \
.name = (_name), \
.enabled = (_init_enabled), \
.rate = (_rate), \
}
static struct scmi_clk scmi0_clock[] = {
CLOCK_CELL(CLK_GEM0_0, CLK_GEM0_0, "gem0_pclk", true, 100000000),
CLOCK_CELL(CLK_GEM0_1, CLK_GEM0_1, "gem0_hclk", true, 100000000),
CLOCK_CELL(CLK_GEM0_2, CLK_GEM0_2, "gem0_tx_clk", true, 125000000),
CLOCK_CELL(CLK_GEM0_3, CLK_GEM0_3, "gem0_rx_clk", true, 100000000),
CLOCK_CELL(CLK_GEM0_4, CLK_GEM0_4, "gem0_tsu_clk", true, 100000000),
CLOCK_CELL(CLK_GEM1_0, CLK_GEM1_0, "gem1_pclk", true, 100000000),
CLOCK_CELL(CLK_GEM1_1, CLK_GEM1_1, "gem1_hclk", true, 100000000),
CLOCK_CELL(CLK_GEM1_2, CLK_GEM1_2, "gem1_tx_clk", true, 125000000),
CLOCK_CELL(CLK_GEM1_3, CLK_GEM1_3, "gem1_rx_clk", true, 100000000),
CLOCK_CELL(CLK_GEM1_4, CLK_GEM1_4, "gem1_tsu_clk", true, 100000000),
CLOCK_CELL(CLK_SERIAL0_0, CLK_SERIAL0_0, "uart0_uartclk", true, 100000000),
CLOCK_CELL(CLK_SERIAL0_1, CLK_SERIAL0_1, "uart0_apb_pclk", true, 100000000),
CLOCK_CELL(CLK_SERIAL1_0, CLK_SERIAL1_0, "uart1_uartclk", true, 100000000),
CLOCK_CELL(CLK_SERIAL1_1, CLK_SERIAL1_1, "uart1_apb_pclk", true, 100000000),
CLOCK_CELL(CLK_UFS0_0, CLK_UFS0_0, "ufs_core_clk", true, 100000000),
CLOCK_CELL(CLK_UFS0_1, CLK_UFS0_1, "ufs_phy_clk", true, 100000000),
CLOCK_CELL(CLK_UFS0_2, CLK_UFS0_2, "ufs_ref_pclk", true, 100000000),
CLOCK_CELL(CLK_USB0_0, CLK_USB0_0, "usb0_bus_clk", true, 100000000),
CLOCK_CELL(CLK_USB0_1, CLK_USB0_1, "usb0_ref_clk", true, 100000000),
CLOCK_CELL(CLK_USB0_2, CLK_USB0_2, "usb0_dwc_clk", true, 100000000),
CLOCK_CELL(CLK_USB1_0, CLK_USB1_0, "usb1_bus_clk", true, 100000000),
CLOCK_CELL(CLK_USB1_1, CLK_USB1_1, "usb1_ref_clk", true, 100000000),
CLOCK_CELL(CLK_USB1_2, CLK_USB1_2, "usb1_dwc_clk", true, 100000000),
CLOCK_CELL(CLK_MMC0_0, CLK_MMC0_0, "mmc0_xin_clk", true, 100000000),
CLOCK_CELL(CLK_MMC0_1, CLK_MMC0_1, "mmc0_ahb_clk", true, 100000000),
CLOCK_CELL(CLK_MMC0_2, CLK_MMC0_2, "mmc0_gate_clk", true, 100000000),
CLOCK_CELL(CLK_MMC1_0, CLK_MMC1_0, "mmc1_xin_clk", true, 100000000),
CLOCK_CELL(CLK_MMC1_1, CLK_MMC1_1, "mmc1_ahb_clk", true, 100000000),
CLOCK_CELL(CLK_MMC1_2, CLK_MMC1_2, "mmc1_gate_clk", true, 100000000),
CLOCK_CELL(CLK_TTC0_0, CLK_TTC0_0, "ttc0_clk", true, 100000000),
CLOCK_CELL(CLK_TTC1_0, CLK_TTC1_0, "ttc1_clk", true, 100000000),
CLOCK_CELL(CLK_TTC2_0, CLK_TTC2_0, "ttc2_clk", true, 100000000),
CLOCK_CELL(CLK_TTC3_0, CLK_TTC3_0, "ttc3_clk", true, 100000000),
CLOCK_CELL(CLK_TTC4_0, CLK_TTC4_0, "ttc4_clk", true, 100000000),
CLOCK_CELL(CLK_TTC5_0, CLK_TTC5_0, "ttc5_clk", true, 100000000),
CLOCK_CELL(CLK_TTC6_0, CLK_TTC6_0, "ttc6_clk", true, 100000000),
CLOCK_CELL(CLK_TTC7_0, CLK_TTC7_0, "ttc7_clk", true, 100000000),
CLOCK_CELL(CLK_I2C0_0, CLK_I2C0_0, "i2c0_clk", true, 100000000),
CLOCK_CELL(CLK_I2C1_0, CLK_I2C1_0, "i2c1_clk", true, 100000000),
CLOCK_CELL(CLK_I2C2_0, CLK_I2C2_0, "i2c2_clk", true, 100000000),
CLOCK_CELL(CLK_I2C3_0, CLK_I2C3_0, "i2c3_clk", true, 100000000),
CLOCK_CELL(CLK_I2C4_0, CLK_I2C4_0, "i2c4_clk", true, 100000000),
CLOCK_CELL(CLK_I2C5_0, CLK_I2C5_0, "i2c5_clk", true, 100000000),
CLOCK_CELL(CLK_I2C6_0, CLK_I2C6_0, "i2c6_clk", true, 100000000),
CLOCK_CELL(CLK_I2C7_0, CLK_I2C7_0, "i2c7_clk", true, 100000000),
CLOCK_CELL(CLK_OSPI0_0, CLK_OSPI0_0, "ospi0_clk", true, 100000000),
CLOCK_CELL(CLK_QSPI0_0, CLK_QSPI0_0, "qpsi0_ref_clk", true, 100000000),
CLOCK_CELL(CLK_QSPI0_1, CLK_QSPI0_1, "qspi0_pclk", true, 100000000),
CLOCK_CELL(CLK_WWDT0_0, CLK_WWDT0_0, "wwdt0_clk", true, 100000000),
CLOCK_CELL(CLK_WWDT1_0, CLK_WWDT1_0, "wwdt1_clk", true, 100000000),
CLOCK_CELL(CLK_WWDT2_0, CLK_WWDT2_0, "wwdt2_clk", true, 100000000),
CLOCK_CELL(CLK_WWDT3_0, CLK_WWDT3_0, "wwdt3_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA0_0, CLK_ADMA0_0, "adma0_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA0_1, CLK_ADMA0_1, "adma0_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA1_0, CLK_ADMA1_0, "adma1_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA1_1, CLK_ADMA1_1, "adma1_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA2_0, CLK_ADMA2_0, "adma2_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA2_1, CLK_ADMA2_1, "adma2_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA3_0, CLK_ADMA3_0, "adma3_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA3_1, CLK_ADMA3_1, "adma3_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA4_0, CLK_ADMA4_0, "adma4_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA4_1, CLK_ADMA4_1, "adma4_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA5_0, CLK_ADMA5_0, "adma5_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA5_1, CLK_ADMA5_1, "adma5_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA6_0, CLK_ADMA6_0, "adma6_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA6_1, CLK_ADMA6_1, "adma6_apb_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA7_0, CLK_ADMA7_0, "adma7_main_clk", true, 100000000),
CLOCK_CELL(CLK_ADMA7_1, CLK_ADMA7_1, "adma7_apb_clk", true, 100000000),
CLOCK_CELL(CLK_CAN0_0, CLK_CAN0_0, "can0_can_clk", true, 100000000),
CLOCK_CELL(CLK_CAN0_1, CLK_CAN0_1, "can0_axi_clk", true, 100000000),
CLOCK_CELL(CLK_CAN1_0, CLK_CAN1_0, "can1_can_clk", true, 100000000),
CLOCK_CELL(CLK_CAN1_1, CLK_CAN1_1, "can1_axi_clk", true, 100000000),
CLOCK_CELL(CLK_CAN2_0, CLK_CAN2_0, "can2_can_clk", true, 100000000),
CLOCK_CELL(CLK_CAN2_1, CLK_CAN2_1, "can2_axi_clk", true, 100000000),
CLOCK_CELL(CLK_CAN3_0, CLK_CAN3_0, "can3_can_clk", true, 100000000),
CLOCK_CELL(CLK_CAN3_1, CLK_CAN3_1, "can3_axi_clk", true, 100000000),
CLOCK_CELL(CLK_PS_GPIO_0, CLK_PS_GPIO_0, "ps_gpio_clk", true, 100000000),
CLOCK_CELL(CLK_PMC_GPIO_0, CLK_PMC_GPIO_0, "pmc_gpio_clk", true, 100000000),
CLOCK_CELL(CLK_SPI0_0, CLK_SPI0_0, "spi0_ref_clk", true, 100000000),
CLOCK_CELL(CLK_SPI0_1, CLK_SPI0_1, "spi0_pclk", true, 100000000),
CLOCK_CELL(CLK_SPI1_0, CLK_SPI1_0, "spi1_ref_clk", true, 100000000),
CLOCK_CELL(CLK_SPI1_1, CLK_SPI1_1, "spi1_pclk", true, 100000000),
CLOCK_CELL(CLK_I3C0_0, CLK_I3C0_0, "i3c0_clk", true, 100000000),
CLOCK_CELL(CLK_I3C1_0, CLK_I3C1_0, "i3c1_clk", true, 100000000),
CLOCK_CELL(CLK_I3C2_0, CLK_I3C2_0, "i3c2_clk", true, 100000000),
CLOCK_CELL(CLK_I3C3_0, CLK_I3C3_0, "i3c3_clk", true, 100000000),
CLOCK_CELL(CLK_I3C4_0, CLK_I3C4_0, "i3c4_clk", true, 100000000),
CLOCK_CELL(CLK_I3C5_0, CLK_I3C5_0, "i3c5_clk", true, 100000000),
CLOCK_CELL(CLK_I3C6_0, CLK_I3C6_0, "i3c6_clk", true, 100000000),
CLOCK_CELL(CLK_I3C7_0, CLK_I3C7_0, "i3c7_clk", true, 100000000),
};
/*
* struct scmi_reset - Data for the exposed reset controller
* @reset_id: Reset identifier in RCC reset driver
* @name: Reset string ID exposed to agent
*/
struct scmi_reset {
unsigned long reset_id;
const char *name;
};
#define RESET_CELL(_scmi_id, _id, _name) \
[_scmi_id] = { \
.reset_id = (_id), \
.name = (_name), \
}
static struct scmi_reset scmi0_reset[] = {
RESET_CELL(RESET_GEM0_0, RESET_GEM0_0, "gem0"),
RESET_CELL(RESET_GEM1_0, RESET_GEM1_0, "gem1"),
RESET_CELL(RESET_SERIAL0_0, RESET_SERIAL0_0, "serial0"),
RESET_CELL(RESET_SERIAL1_0, RESET_SERIAL1_0, "serial1"),
RESET_CELL(RESET_UFS0_0, RESET_UFS0_0, "ufs0"),
RESET_CELL(RESET_I2C0_0, RESET_I2C0_0, "i2c0"),
RESET_CELL(RESET_I2C1_0, RESET_I2C1_0, "i2c1"),
RESET_CELL(RESET_I2C2_0, RESET_I2C2_0, "i2c2"),
RESET_CELL(RESET_I2C3_0, RESET_I2C3_0, "i2c3"),
RESET_CELL(RESET_I2C4_0, RESET_I2C4_0, "i2c4"),
RESET_CELL(RESET_I2C5_0, RESET_I2C5_0, "i2c5"),
RESET_CELL(RESET_I2C6_0, RESET_I2C6_0, "i2c6"),
RESET_CELL(RESET_I2C7_0, RESET_I2C7_0, "i2c7"),
RESET_CELL(RESET_I2C8_0, RESET_I2C8_0, "i2c8"),
RESET_CELL(RESET_OSPI0_0, RESET_OSPI0_0, "ospi"),
RESET_CELL(RESET_USB0_0, RESET_USB0_0, "usb0_0"),
RESET_CELL(RESET_USB0_1, RESET_USB0_1, "usb0_1"),
RESET_CELL(RESET_USB0_2, RESET_USB0_2, "usb0_2"),
RESET_CELL(RESET_USB1_0, RESET_USB1_0, "usb1_0"),
RESET_CELL(RESET_USB1_1, RESET_USB1_1, "usb1_1"),
RESET_CELL(RESET_USB1_2, RESET_USB1_2, "usb1_2"),
RESET_CELL(RESET_MMC0_0, RESET_MMC0_0, "mmc0"),
RESET_CELL(RESET_MMC1_0, RESET_MMC1_0, "mmc1"),
RESET_CELL(RESET_SPI0_0, RESET_SPI0_0, "spi0"),
RESET_CELL(RESET_SPI1_0, RESET_SPI1_0, "spi1"),
RESET_CELL(RESET_QSPI0_0, RESET_QSPI0_0, "qspi"),
RESET_CELL(RESET_I3C0_0, RESET_I3C0_0, "i3c0"),
RESET_CELL(RESET_I3C1_0, RESET_I3C1_0, "i3c1"),
RESET_CELL(RESET_I3C2_0, RESET_I3C2_0, "i3c2"),
RESET_CELL(RESET_I3C3_0, RESET_I3C3_0, "i3c3"),
RESET_CELL(RESET_I3C4_0, RESET_I3C4_0, "i3c4"),
RESET_CELL(RESET_I3C5_0, RESET_I3C5_0, "i3c5"),
RESET_CELL(RESET_I3C6_0, RESET_I3C6_0, "i3c6"),
RESET_CELL(RESET_I3C7_0, RESET_I3C7_0, "i3c7"),
RESET_CELL(RESET_I3C8_0, RESET_I3C8_0, "i3c8"),
};
struct scmi_resources {
struct scmi_clk *clock;
size_t clock_count;
struct scmi_reset *reset;
size_t reset_count;
};
static const struct scmi_resources resources[] = {
[0] = {
.clock = scmi0_clock,
.clock_count = ARRAY_SIZE(scmi0_clock),
.reset = scmi0_reset,
.reset_count = ARRAY_SIZE(scmi0_reset),
},
};
static const struct scmi_resources *find_resource(unsigned int agent_id)
{
assert(agent_id < ARRAY_SIZE(resources));
return &resources[agent_id];
}
static struct scmi_clk *clk_find(unsigned int agent_id, unsigned int scmi_id)
{
const struct scmi_resources *resource = find_resource(agent_id);
size_t n = 0U;
struct scmi_clk *ret = NULL;
if (resource != NULL) {
for (n = 0U; n < resource->clock_count; n++) {
if (n == scmi_id) {
ret = &resource->clock[n];
break;
}
}
}
return ret;
}
size_t plat_scmi_clock_count(unsigned int agent_id)
{
const struct scmi_resources *resource = find_resource(agent_id);
size_t ret;
if (resource == NULL) {
ret = 0U;
} else {
VERBOSE("SCMI: CLK: %d clocks\n", (unsigned int)resource->clock_count);
ret = resource->clock_count;
}
return ret;
}
const char *plat_scmi_clock_get_name(unsigned int agent_id, unsigned int scmi_id)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
const char *ret;
if (clock == NULL) {
ret = NULL;
} else {
VERBOSE("SCMI: CLK: id: %d, get_name: %s\n", scmi_id, clock->name);
ret = clock->name;
}
return ret;
};
/* Called by Linux */
int32_t plat_scmi_clock_rates_array(unsigned int agent_id, unsigned int scmi_id,
unsigned long *array, size_t *nb_elts,
uint32_t start_idx)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
if (clock == NULL) {
return SCMI_NOT_FOUND;
}
if (start_idx > 0) {
return SCMI_OUT_OF_RANGE;
}
if (array == NULL) {
*nb_elts = 1U;
} else if (*nb_elts == 1U) {
*array = clock->rate;
VERBOSE("SCMI: CLK: id: %d, clk_name: %s, get_rate %lu\n",
scmi_id, clock->name, *array);
} else {
return SCMI_GENERIC_ERROR;
}
return SCMI_SUCCESS;
}
unsigned long plat_scmi_clock_get_rate(unsigned int agent_id, unsigned int scmi_id)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
unsigned long ret;
if ((clock == NULL)) {
ret = SCMI_NOT_FOUND;
} else {
VERBOSE("SCMI: CLK: id: %d, get_rate: %lu\n", scmi_id, clock->rate);
ret = clock->rate;
}
return ret;
}
int32_t plat_scmi_clock_set_rate(unsigned int agent_id, unsigned int scmi_id,
unsigned long rate)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
unsigned long ret = UL(SCMI_SUCCESS);
if ((clock == NULL)) {
ret = SCMI_NOT_FOUND;
} else {
VERBOSE("SCMI: CLK: id: %d, set_rate: %lu\n", scmi_id, rate);
clock->rate = rate;
}
return ret;
}
int32_t plat_scmi_clock_get_state(unsigned int agent_id, unsigned int scmi_id)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
int32_t ret;
if ((clock == NULL)) {
ret = SCMI_NOT_FOUND;
} else {
VERBOSE("SCMI: CLK: id: %d, get_state: %d\n", scmi_id, clock->enabled);
if (clock->enabled) {
ret = HIGH;
} else {
ret = LOW;
}
}
return ret;
}
int32_t plat_scmi_clock_set_state(unsigned int agent_id, unsigned int scmi_id,
bool enable_not_disable)
{
struct scmi_clk *clock = clk_find(agent_id, scmi_id);
int32_t ret;
if (clock == NULL) {
ret = SCMI_NOT_FOUND;
} else {
if (enable_not_disable) {
if (!clock->enabled) {
VERBOSE("SCMI: clock: %u enable\n", scmi_id);
clock->enabled = true;
}
} else {
if (clock->enabled) {
VERBOSE("SCMI: clock: %u disable\n", scmi_id);
clock->enabled = false;
}
}
VERBOSE("SCMI: CLK: id: %d, set_state: %d\n", scmi_id, clock->enabled);
ret = SCMI_SUCCESS;
}
return ret;
}
/*
* Platform SCMI reset domains
*/
static struct scmi_reset *find_reset(unsigned int agent_id,
unsigned int scmi_id)
{
const struct scmi_resources *resource = find_resource(agent_id);
size_t n;
if (resource != NULL) {
for (n = 0U; n < resource->reset_count; n++) {
if (n == scmi_id) {
return &resource->reset[n];
}
}
}
return NULL;
}
const char *plat_scmi_rstd_get_name(unsigned int agent_id, unsigned int scmi_id)
{
const struct scmi_reset *reset = find_reset(agent_id, scmi_id);
if (reset == NULL) {
return NULL;
}
return reset->name;
}
size_t plat_scmi_rstd_count(unsigned int agent_id)
{
const struct scmi_resources *resource = find_resource(agent_id);
if (resource == NULL) {
return 0U;
}
return resource->reset_count;
}
int32_t plat_scmi_rstd_autonomous(unsigned int agent_id, unsigned int scmi_id,
uint32_t state)
{
const struct scmi_reset *reset = find_reset(agent_id, scmi_id);
if (reset == NULL) {
return SCMI_NOT_FOUND;
}
/* Supports only reset with context loss */
if (state != 0U) {
return SCMI_NOT_SUPPORTED;
}
NOTICE("SCMI reset on ID %lu/%s\n",
reset->reset_id, plat_scmi_rstd_get_name(agent_id, scmi_id));
return SCMI_SUCCESS;
}
int32_t plat_scmi_rstd_set_state(unsigned int agent_id, unsigned int scmi_id,
bool assert_not_deassert)
{
const struct scmi_reset *reset = find_reset(agent_id, scmi_id);
if (reset == NULL) {
return SCMI_NOT_FOUND;
}
if (assert_not_deassert) {
NOTICE("SCMI reset %lu/%s set\n",
reset->reset_id, plat_scmi_rstd_get_name(agent_id, scmi_id));
} else {
NOTICE("SCMI reset %lu/%s release\n",
reset->reset_id, plat_scmi_rstd_get_name(agent_id, scmi_id));
}
return SCMI_SUCCESS;
}
/* Currently only one channel is supported. Expectation is that channel 0 is used by NS SW */
static struct scmi_msg_channel scmi_channel[] = {
[0] = {
.shm_addr = SMT_BUFFER_BASE,
.shm_size = SMT_BUF_SLOT_SIZE,
},
};
struct scmi_msg_channel *plat_scmi_get_channel(unsigned int agent_id)
{
assert(agent_id < ARRAY_SIZE(scmi_channel));
VERBOSE("%d: SCMI asking for channel\n", agent_id);
/* Just in case that code is reused */
return &scmi_channel[agent_id];
}
/* Base protocol implementations */
const char *plat_scmi_vendor_name(void)
{
return SCMI_VENDOR;
}
const char *plat_scmi_sub_vendor_name(void)
{
return SCMI_PRODUCT;
}
/* Currently supporting Clocks and Reset Domains */
static const uint8_t plat_protocol_list[] = {
SCMI_PROTOCOL_ID_BASE,
SCMI_PROTOCOL_ID_CLOCK,
SCMI_PROTOCOL_ID_RESET_DOMAIN,
/*
*SCMI_PROTOCOL_ID_POWER_DOMAIN,
*SCMI_PROTOCOL_ID_SENSOR,
*/
0U /* Null termination */
};
size_t plat_scmi_protocol_count(void)
{
const size_t count = ARRAY_SIZE(plat_protocol_list) - 1U;
VERBOSE("SCMI: Protocol count: %d\n", (int32_t)count);
return count;
}
const uint8_t *plat_scmi_protocol_list(unsigned int agent_id __unused)
{
return plat_protocol_list;
}
void init_scmi_server(void)
{
size_t i;
int32_t ret;
for (i = 0U; i < ARRAY_SIZE(scmi_channel); i++)
scmi_smt_init_agent_channel(&scmi_channel[i]);
INFO("SCMI: Server initialized\n");
if (platform_id == QEMU) {
/* default setting is for QEMU */
} else if (platform_id == SPP) {
for (i = 0U; i < ARRAY_SIZE(scmi0_clock); i++) {
/* Keep i2c on 100MHz to calculate rates properly */
if (i >= CLK_I2C0_0 && i <= CLK_I2C7_0)
continue;
/*
* SPP supports multiple versions.
* The cpu_clock value is set to corresponding SPP
* version in early platform setup, resuse the same
* value here.
*/
ret = plat_scmi_clock_set_rate(0, i, cpu_clock);
if (ret < 0) {
NOTICE("Failed to set clock rate for SPP scmi_id=%ld\n", i);
}
}
} else {
/* Making MISRA C 2012 15.7 compliant */
}
}