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arm-trusted-firmware/plat/imx/common/imx_sip_handler.c
Chris Kay 758ccb802d build: remove MAKE_BUILD_STRINGS function 
This function causes the build message to be generated and compiled in
two different ways, with one way done inside `build_macros.mk` and the
other done inside `windows.mk`, mostly because it's done by generating
the C file on the command line.

We can instead replace this whole build message generation sequence with
a simple standard C compilation command and a normal C file.

Change-Id: I8bc136380c9585ddeec9a11154ee39ef70526f81
Signed-off-by: Chris Kay <chris.kay@arm.com>
2024-04-29 12:47:01 +00:00

348 lines
7.3 KiB
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/*
* Copyright 2019 NXP
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <stdlib.h>
#include <stdint.h>
#include <services/std_svc.h>
#include <string.h>
#include <common/build_message.h>
#include <common/debug.h>
#include <common/runtime_svc.h>
#include <platform_def.h>
#include <imx_sip_svc.h>
#include <lib/el3_runtime/context_mgmt.h>
#include <lib/mmio.h>
#include <sci/sci.h>
#if defined(PLAT_imx8mn) || defined(PLAT_imx8mp)
/*
* Defined in
* table 11. ROM event log buffer address location
* AN12853 "i.MX ROMs Log Events"
*/
#define ROM_LOG_BUFFER_ADDR 0x9E0
#endif
#if defined(PLAT_imx8qm) || defined(PLAT_imx8qx)
#ifdef PLAT_imx8qm
static const int ap_cluster_index[PLATFORM_CLUSTER_COUNT] = {
SC_R_A53, SC_R_A72,
};
#endif
static int imx_srtc_set_time(uint32_t year_mon,
unsigned long day_hour,
unsigned long min_sec)
{
return sc_timer_set_rtc_time(ipc_handle,
year_mon >> 16, year_mon & 0xffff,
day_hour >> 16, day_hour & 0xffff,
min_sec >> 16, min_sec & 0xffff);
}
int imx_srtc_handler(uint32_t smc_fid,
void *handle,
u_register_t x1,
u_register_t x2,
u_register_t x3,
u_register_t x4)
{
int ret;
switch (x1) {
case IMX_SIP_SRTC_SET_TIME:
ret = imx_srtc_set_time(x2, x3, x4);
break;
default:
ret = SMC_UNK;
}
SMC_RET1(handle, ret);
}
static void imx_cpufreq_set_target(uint32_t cluster_id, unsigned long freq)
{
sc_pm_clock_rate_t rate = (sc_pm_clock_rate_t)freq;
#ifdef PLAT_imx8qm
sc_pm_set_clock_rate(ipc_handle, ap_cluster_index[cluster_id], SC_PM_CLK_CPU, &rate);
#endif
#ifdef PLAT_imx8qx
sc_pm_set_clock_rate(ipc_handle, SC_R_A35, SC_PM_CLK_CPU, &rate);
#endif
}
int imx_cpufreq_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3)
{
switch (x1) {
case IMX_SIP_SET_CPUFREQ:
imx_cpufreq_set_target(x2, x3);
break;
default:
return SMC_UNK;
}
return 0;
}
static bool wakeup_src_irqsteer;
bool imx_is_wakeup_src_irqsteer(void)
{
return wakeup_src_irqsteer;
}
int imx_wakeup_src_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3)
{
switch (x1) {
case IMX_SIP_WAKEUP_SRC_IRQSTEER:
wakeup_src_irqsteer = true;
break;
case IMX_SIP_WAKEUP_SRC_SCU:
wakeup_src_irqsteer = false;
break;
default:
return SMC_UNK;
}
return SMC_OK;
}
int imx_otp_handler(uint32_t smc_fid,
void *handle,
u_register_t x1,
u_register_t x2)
{
int ret;
uint32_t fuse;
switch (smc_fid) {
case IMX_SIP_OTP_READ:
ret = sc_misc_otp_fuse_read(ipc_handle, x1, &fuse);
SMC_RET2(handle, ret, fuse);
break;
case IMX_SIP_OTP_WRITE:
ret = sc_misc_otp_fuse_write(ipc_handle, x1, x2);
SMC_RET1(handle, ret);
break;
default:
ret = SMC_UNK;
SMC_RET1(handle, ret);
break;
}
return ret;
}
int imx_misc_set_temp_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
u_register_t x4)
{
return sc_misc_set_temp(ipc_handle, x1, x2, x3, x4);
}
#endif /* defined(PLAT_imx8qm) || defined(PLAT_imx8qx) */
#if defined(PLAT_imx8mm) || defined(PLAT_imx8mq)
int imx_src_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
void *handle)
{
uint32_t val;
switch (x1) {
case IMX_SIP_SRC_SET_SECONDARY_BOOT:
if (x2 != 0U) {
mmio_setbits_32(IMX_SRC_BASE + SRC_GPR10_OFFSET,
SRC_GPR10_PERSIST_SECONDARY_BOOT);
} else {
mmio_clrbits_32(IMX_SRC_BASE + SRC_GPR10_OFFSET,
SRC_GPR10_PERSIST_SECONDARY_BOOT);
}
break;
case IMX_SIP_SRC_IS_SECONDARY_BOOT:
val = mmio_read_32(IMX_SRC_BASE + SRC_GPR10_OFFSET);
return !!(val & SRC_GPR10_PERSIST_SECONDARY_BOOT);
default:
return SMC_UNK;
};
return 0;
}
#endif /* defined(PLAT_imx8mm) || defined(PLAT_imx8mq) */
#if defined(PLAT_imx8mn) || defined(PLAT_imx8mp)
static bool is_secondary_boot(void)
{
uint32_t *rom_log_addr = (uint32_t *)ROM_LOG_BUFFER_ADDR;
bool is_secondary = false;
uint32_t *rom_log;
uint8_t event_id;
/* If the ROM event log pointer is not valid. */
if (*rom_log_addr < 0x900000 || *rom_log_addr >= 0xB00000 ||
*rom_log_addr & 0x3) {
return false;
}
/* Parse the ROM event ID version 2 log */
rom_log = (uint32_t *)(uintptr_t)(*rom_log_addr);
for (size_t i = 0; i < 128; i++) {
event_id = rom_log[i] >> 24;
switch (event_id) {
case 0x00: /* End of list */
return is_secondary;
/* Log entries with 1 parameter, skip 1 */
case 0x80: /* Perform the device initialization */
case 0x81: /* The boot device initialization completes */
case 0x82: /* Execute boot device driver pre-config */
case 0x8F: /* The boot device initialization fails */
case 0x90: /* Start to read data from boot device */
case 0x91: /* Reading data from boot device completes */
case 0x9F: /* Reading data from boot device fails */
i += 1;
continue;
/* Log entries with 2 parameters, skip 2 */
case 0xA0: /* Image authentication result */
case 0xC0: /* Jump to the boot image soon */
i += 2;
continue;
/* Booted the primary boot image */
case 0x50:
is_secondary = false;
continue;
/* Booted the secondary boot image */
case 0x51:
is_secondary = true;
continue;
}
}
return is_secondary;
}
int imx_src_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
void *handle)
{
switch (x1) {
case IMX_SIP_SRC_SET_SECONDARY_BOOT:
/* we do support that on these SoCs */
break;
case IMX_SIP_SRC_IS_SECONDARY_BOOT:
return is_secondary_boot();
default:
return SMC_UNK;
};
return 0;
}
#endif /* defined(PLAT_imx8mn) || defined(PLAT_imx8mp) */
static uint64_t imx_get_commit_hash(u_register_t x2,
u_register_t x3,
u_register_t x4)
{
/* Parse the version_string */
char *parse = (char *)build_version_string;
uint64_t hash = 0;
do {
parse = strchr(parse, '-');
if (parse) {
parse += 1;
if (*(parse) == 'g') {
/* Default is 7 hexadecimal digits */
memcpy((void *)&hash, (void *)(parse + 1), 7);
break;
}
}
} while (parse != NULL);
return hash;
}
uint64_t imx_buildinfo_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
u_register_t x4)
{
uint64_t ret;
switch (x1) {
case IMX_SIP_BUILDINFO_GET_COMMITHASH:
ret = imx_get_commit_hash(x2, x3, x4);
break;
default:
return SMC_UNK;
}
return ret;
}
int imx_kernel_entry_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
u_register_t x4)
{
static entry_point_info_t bl33_image_ep_info;
entry_point_info_t *next_image_info;
unsigned int mode;
if (x1 < (PLAT_NS_IMAGE_OFFSET & 0xF0000000))
return SMC_UNK;
mode = MODE32_svc;
next_image_info = &bl33_image_ep_info;
next_image_info->pc = x1;
next_image_info->spsr = SPSR_MODE32(mode, SPSR_T_ARM, SPSR_E_LITTLE,
(DAIF_FIQ_BIT | DAIF_IRQ_BIT | DAIF_ABT_BIT));
next_image_info->args.arg0 = 0;
next_image_info->args.arg1 = 0;
next_image_info->args.arg2 = x3;
SET_SECURITY_STATE(next_image_info->h.attr, NON_SECURE);
cm_init_my_context(next_image_info);
cm_prepare_el3_exit(NON_SECURE);
return 0;
}
#if defined(PLAT_imx8ulp)
int imx_hifi_xrdc(uint32_t smc_fid)
{
mmio_setbits_32(IMX_SIM2_BASE + 0x8, BIT_32(19) | BIT_32(17) | BIT_32(18));
mmio_clrbits_32(IMX_SIM2_BASE + 0x8, BIT_32(16));
extern int xrdc_apply_hifi_config(void);
xrdc_apply_hifi_config();
return 0;
}
#endif
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