github
/
arm-trusted-firmware
mirror of https://github.com/ARM-software/arm-trusted-firmware.git
1
0
Fork 0
Code Issues Projects Releases Wiki Activity
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
15252 Commits
5 Branches
114 Tags
55 MiB
 
 
 
 
 
Tree: 241ec3a5af
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from '241ec3a5af'
${ noResults }
arm-trusted-firmware/drivers/arm/ethosn/ethosn_smc.c

597 lines
16 KiB
Raw Blame History

/*
* Copyright (c) 2021-2023, Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stdint.h>
#include <stdbool.h>
#include <common/debug.h>
#include <common/runtime_svc.h>
#include <drivers/arm/ethosn.h>
#include <drivers/delay_timer.h>
#include <lib/mmio.h>
#include <lib/utils_def.h>
#include <plat/arm/common/fconf_ethosn_getter.h>
#include <platform_def.h>
#if ETHOSN_NPU_TZMP1
#include "ethosn_big_fw.h"
#endif /* ETHOSN_NPU_TZMP1 */
/*
* Number of Arm(R) Ethos(TM)-N NPU (NPU) devices available
*/
#define ETHOSN_NUM_DEVICES \
FCONF_GET_PROPERTY(hw_config, ethosn_config, num_devices)
#define ETHOSN_GET_DEVICE(dev_idx) \
FCONF_GET_PROPERTY(hw_config, ethosn_device, dev_idx)
/* NPU core sec registry address */
#define ETHOSN_CORE_SEC_REG(core_addr, reg_offset) \
(core_addr + reg_offset)
#define ETHOSN_FW_VA_BASE 0x20000000UL
#define ETHOSN_WORKING_DATA_VA_BASE 0x40000000UL
#define ETHOSN_COMMAND_STREAM_VA_BASE 0x60000000UL
/* Reset timeout in us */
#define ETHOSN_RESET_TIMEOUT_US U(10 * 1000 * 1000)
#define ETHOSN_RESET_WAIT_US U(1)
#define ETHOSN_AUX_FEAT_LEVEL_IRQ U(0x1)
#define ETHOSN_AUX_FEAT_STASHING U(0x2)
#define SEC_AUXCTLR_REG U(0x0024)
#define SEC_AUXCTLR_VAL U(0x000ce080)
#define SEC_AUXCTLR_LEVEL_IRQ_VAL U(0x04)
#define SEC_AUXCTLR_STASHING_VAL U(0xA5000000)
#define SEC_DEL_REG U(0x0004)
#if ETHOSN_NPU_TZMP1
#define SEC_DEL_VAL U(0x808)
#else
#define SEC_DEL_VAL U(0x80C)
#endif /* ETHOSN_NPU_TZMP1 */
#define SEC_DEL_EXCC_MASK U(0x20)
#define SEC_SECCTLR_REG U(0x0010)
/* Set bit[10] = 1 to workaround erratum 2838783 */
#define SEC_SECCTLR_VAL U(0x403)
#define SEC_DEL_ADDR_EXT_REG U(0x201C)
#define SEC_DEL_ADDR_EXT_VAL U(0x1)
#define SEC_SYSCTRL0_REG U(0x0018)
#define SEC_SYSCTRL0_CPU_WAIT U(1)
#define SEC_SYSCTRL0_SLEEPING U(1U << 4)
#define SEC_SYSCTRL0_INITVTOR_MASK U(0x1FFFFF80)
#define SEC_SYSCTRL0_SOFT_RESET U(1U << 29)
#define SEC_SYSCTRL0_HARD_RESET U(1U << 31)
#define SEC_SYSCTRL1_REG U(0x001C)
#define SEC_SYSCTRL1_VAL U(0xe0180110)
#define SEC_NSAID_REG_BASE U(0x3004)
#define SEC_NSAID_OFFSET U(0x1000)
#define SEC_MMUSID_REG_BASE U(0x3008)
#define SEC_MMUSID_OFFSET U(0x1000)
#define SEC_ADDR_EXT_REG_BASE U(0x3018)
#define SEC_ADDR_EXT_OFFSET U(0x1000)
#define SEC_ADDR_EXT_SHIFT U(0x14)
#define SEC_ADDR_EXT_MASK U(0x1FFFFE00)
#define SEC_ATTR_CTLR_REG_BASE U(0x3010)
#define SEC_ATTR_CTLR_OFFSET U(0x1000)
#define SEC_ATTR_CTLR_NUM U(9)
#define SEC_ATTR_CTLR_VAL U(0x1)
#define SEC_NPU_ID_REG U(0xF000)
#define SEC_NPU_ID_ARCH_VER_SHIFT U(0X10)
#define FIRMWARE_STREAM_INDEX U(0x0)
#define WORKING_STREAM_INDEX U(0x1)
#define PLE_STREAM_INDEX U(0x4)
#define INPUT_STREAM_INDEX U(0x6)
#define INTERMEDIATE_STREAM_INDEX U(0x7)
#define OUTPUT_STREAM_INDEX U(0x8)
#define TO_EXTEND_ADDR(addr) \
((addr >> SEC_ADDR_EXT_SHIFT) & SEC_ADDR_EXT_MASK)
#if ETHOSN_NPU_TZMP1
CASSERT(ETHOSN_NPU_FW_IMAGE_BASE > 0U, assert_ethosn_invalid_fw_image_base);
static const struct ethosn_big_fw *big_fw;
#define FW_INITVTOR_ADDR(big_fw) \
((ETHOSN_FW_VA_BASE + big_fw->vector_table_offset) & \
SEC_SYSCTRL0_INITVTOR_MASK)
#define SYSCTRL0_INITVTOR_ADDR(value) \
(value & SEC_SYSCTRL0_INITVTOR_MASK)
#endif /* ETHOSN_NPU_TZMP1 */
static bool ethosn_get_device_and_core(uintptr_t core_addr,
const struct ethosn_device_t **dev_match,
const struct ethosn_core_t **core_match)
{
uint32_t dev_idx;
uint32_t core_idx;
for (dev_idx = 0U; dev_idx < ETHOSN_NUM_DEVICES; ++dev_idx) {
const struct ethosn_device_t *dev = ETHOSN_GET_DEVICE(dev_idx);
for (core_idx = 0U; core_idx < dev->num_cores; ++core_idx) {
const struct ethosn_core_t *core = &(dev->cores[core_idx]);
if (core->addr == core_addr) {
*dev_match = dev;
*core_match = core;
return true;
}
}
}
WARN("ETHOSN: Unknown core address given to SMC call.\n");
return false;
}
#if ETHOSN_NPU_TZMP1
static uint32_t ethosn_core_read_arch_version(uintptr_t core_addr)
{
uint32_t npu_id = mmio_read_32(ETHOSN_CORE_SEC_REG(core_addr,
SEC_NPU_ID_REG));
return (npu_id >> SEC_NPU_ID_ARCH_VER_SHIFT);
}
static void ethosn_configure_stream_nsaid(const struct ethosn_core_t *core,
bool is_protected)
{
size_t i;
uint32_t streams[9] = {[0 ... 8] = ETHOSN_NPU_NS_RO_DATA_NSAID};
streams[FIRMWARE_STREAM_INDEX] = ETHOSN_NPU_PROT_FW_NSAID;
streams[PLE_STREAM_INDEX] = ETHOSN_NPU_PROT_FW_NSAID;
streams[WORKING_STREAM_INDEX] = ETHOSN_NPU_NS_RW_DATA_NSAID;
if (is_protected) {
streams[INPUT_STREAM_INDEX] = ETHOSN_NPU_PROT_RO_DATA_NSAID;
streams[INTERMEDIATE_STREAM_INDEX] =
ETHOSN_NPU_PROT_RW_DATA_NSAID;
streams[OUTPUT_STREAM_INDEX] = ETHOSN_NPU_PROT_RW_DATA_NSAID;
} else {
streams[INPUT_STREAM_INDEX] = ETHOSN_NPU_NS_RO_DATA_NSAID;
streams[INTERMEDIATE_STREAM_INDEX] =
ETHOSN_NPU_NS_RW_DATA_NSAID;
streams[OUTPUT_STREAM_INDEX] = ETHOSN_NPU_NS_RW_DATA_NSAID;
}
for (i = 0U; i < ARRAY_SIZE(streams); ++i) {
const uintptr_t reg_addr = SEC_NSAID_REG_BASE +
(SEC_NSAID_OFFSET * i);
mmio_write_32(ETHOSN_CORE_SEC_REG(core->addr, reg_addr),
streams[i]);
}
}
static void ethosn_configure_vector_table(uintptr_t core_addr)
{
mmio_setbits_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_SYSCTRL0_REG),
FW_INITVTOR_ADDR(big_fw));
}
#endif /* ETHOSN_NPU_TZMP1 */
static void ethosn_configure_events(uintptr_t core_addr)
{
mmio_write_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_SYSCTRL1_REG), SEC_SYSCTRL1_VAL);
}
static bool ethosn_configure_aux_features(const struct ethosn_device_t *device,
uintptr_t core_addr,
uint32_t features)
{
uint32_t val = SEC_AUXCTLR_VAL;
if (features & ETHOSN_AUX_FEAT_LEVEL_IRQ) {
val |= SEC_AUXCTLR_LEVEL_IRQ_VAL;
}
if (features & ETHOSN_AUX_FEAT_STASHING) {
/* Stashing can't be used with reserved memory */
if (device->has_reserved_memory) {
return false;
}
val |= SEC_AUXCTLR_STASHING_VAL;
}
mmio_setbits_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_AUXCTLR_REG), val);
return true;
}
static void ethosn_configure_smmu_streams(const struct ethosn_device_t *device,
const struct ethosn_core_t *core,
uint32_t asset_alloc_idx)
{
const struct ethosn_main_allocator_t *main_alloc =
&(core->main_allocator);
const struct ethosn_asset_allocator_t *asset_alloc =
&(device->asset_allocators[asset_alloc_idx]);
const uint32_t streams[9] = {
main_alloc->firmware.stream_id,
main_alloc->working_data.stream_id,
asset_alloc->command_stream.stream_id,
0U, /* Not used*/
main_alloc->firmware.stream_id,
asset_alloc->weight_data.stream_id,
asset_alloc->buffer_data.stream_id,
asset_alloc->intermediate_data.stream_id,
asset_alloc->buffer_data.stream_id
};
size_t i;
for (i = 0U; i < ARRAY_SIZE(streams); ++i) {
const uintptr_t reg_addr = SEC_MMUSID_REG_BASE +
(SEC_MMUSID_OFFSET * i);
mmio_write_32(ETHOSN_CORE_SEC_REG(core->addr, reg_addr),
streams[i]);
}
}
static void ethosn_configure_stream_addr_extends(const struct ethosn_device_t *device,
uintptr_t core_addr)
{
uint32_t addr_extends[3] = { 0 };
size_t i;
if (device->has_reserved_memory) {
const uint32_t addr = TO_EXTEND_ADDR(device->reserved_memory_addr);
addr_extends[0] = addr;
addr_extends[1] = addr;
addr_extends[2] = addr;
} else {
addr_extends[0] = TO_EXTEND_ADDR(ETHOSN_FW_VA_BASE);
addr_extends[1] = TO_EXTEND_ADDR(ETHOSN_WORKING_DATA_VA_BASE);
addr_extends[2] = TO_EXTEND_ADDR(ETHOSN_COMMAND_STREAM_VA_BASE);
}
for (i = 0U; i < ARRAY_SIZE(addr_extends); ++i) {
const uintptr_t reg_addr = SEC_ADDR_EXT_REG_BASE +
(SEC_ADDR_EXT_OFFSET * i);
mmio_write_32(ETHOSN_CORE_SEC_REG(core_addr, reg_addr),
addr_extends[i]);
}
}
static void ethosn_configure_stream_attr_ctlr(uintptr_t core_addr)
{
size_t i;
for (i = 0U; i < SEC_ATTR_CTLR_NUM; ++i) {
const uintptr_t reg_addr = SEC_ATTR_CTLR_REG_BASE +
(SEC_ATTR_CTLR_OFFSET * i);
mmio_write_32(ETHOSN_CORE_SEC_REG(core_addr, reg_addr),
SEC_ATTR_CTLR_VAL);
}
}
static void ethosn_delegate_to_ns(uintptr_t core_addr)
{
mmio_setbits_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_SECCTLR_REG),
SEC_SECCTLR_VAL);
mmio_setbits_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_DEL_REG),
SEC_DEL_VAL);
mmio_setbits_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_DEL_ADDR_EXT_REG),
SEC_DEL_ADDR_EXT_VAL);
}
static int ethosn_is_sec(uintptr_t core_addr)
{
if ((mmio_read_32(ETHOSN_CORE_SEC_REG(core_addr, SEC_DEL_REG))
& SEC_DEL_EXCC_MASK) != 0U) {
return 0;
}
return 1;
}
static int ethosn_core_is_sleeping(uintptr_t core_addr)
{
const uintptr_t sysctrl0_reg =
ETHOSN_CORE_SEC_REG(core_addr, SEC_SYSCTRL0_REG);
const uint32_t sleeping_mask = SEC_SYSCTRL0_SLEEPING;
return ((mmio_read_32(sysctrl0_reg) & sleeping_mask) == sleeping_mask);
}
static bool ethosn_core_reset(uintptr_t core_addr, bool hard_reset)
{
unsigned int timeout;
const uintptr_t sysctrl0_reg =
ETHOSN_CORE_SEC_REG(core_addr, SEC_SYSCTRL0_REG);
const uint32_t reset_val = hard_reset ? SEC_SYSCTRL0_HARD_RESET :
SEC_SYSCTRL0_SOFT_RESET;
mmio_write_32(sysctrl0_reg, reset_val);
/* Wait for reset to complete */
for (timeout = 0U; timeout < ETHOSN_RESET_TIMEOUT_US;
timeout += ETHOSN_RESET_WAIT_US) {
if ((mmio_read_32(sysctrl0_reg) & reset_val) == 0U) {
break;
}
udelay(ETHOSN_RESET_WAIT_US);
}
return timeout < ETHOSN_RESET_TIMEOUT_US;
}
static int ethosn_core_boot_fw(uintptr_t core_addr)
{
#if ETHOSN_NPU_TZMP1
const uintptr_t sysctrl0_reg = ETHOSN_CORE_SEC_REG(core_addr, SEC_SYSCTRL0_REG);
const uint32_t sysctrl0_val = mmio_read_32(sysctrl0_reg);
const bool waiting = (sysctrl0_val & SEC_SYSCTRL0_CPU_WAIT);
if (!waiting) {
WARN("ETHOSN: Firmware is already running.\n");
return ETHOSN_INVALID_STATE;
}
if (SYSCTRL0_INITVTOR_ADDR(sysctrl0_val) != FW_INITVTOR_ADDR(big_fw)) {
WARN("ETHOSN: Unknown vector table won't boot firmware.\n");
return ETHOSN_INVALID_CONFIGURATION;
}
mmio_clrbits_32(sysctrl0_reg, SEC_SYSCTRL0_CPU_WAIT);
return ETHOSN_SUCCESS;
#else
return ETHOSN_NOT_SUPPORTED;
#endif /* ETHOSN_NPU_TZMP1 */
}
static int ethosn_core_full_reset(const struct ethosn_device_t *device,
const struct ethosn_core_t *core,
bool hard_reset,
u_register_t asset_alloc_idx,
u_register_t is_protected,
u_register_t aux_features)
{
if (!device->has_reserved_memory &&
asset_alloc_idx >= device->num_allocators) {
WARN("ETHOSN: Unknown asset allocator index given to SMC call.\n");
return ETHOSN_UNKNOWN_ALLOCATOR_IDX;
}
if (!ethosn_core_reset(core->addr, hard_reset)) {
return ETHOSN_FAILURE;
}
if (!ethosn_configure_aux_features(device, core->addr, aux_features)) {
return ETHOSN_INVALID_CONFIGURATION;
}
ethosn_configure_events(core->addr);
if (!device->has_reserved_memory) {
ethosn_configure_smmu_streams(device, core, asset_alloc_idx);
#if ETHOSN_NPU_TZMP1
ethosn_configure_stream_nsaid(core, is_protected);
#endif /* ETHOSN_NPU_TZMP1 */
}
ethosn_configure_stream_addr_extends(device, core->addr);
ethosn_configure_stream_attr_ctlr(core->addr);
#if ETHOSN_NPU_TZMP1
ethosn_configure_vector_table(core->addr);
#endif /* ETHOSN_NPU_TZMP1 */
ethosn_delegate_to_ns(core->addr);
return ETHOSN_SUCCESS;
}
static uintptr_t ethosn_smc_core_reset_handler(const struct ethosn_device_t *device,
const struct ethosn_core_t *core,
bool hard_reset,
u_register_t asset_alloc_idx,
u_register_t reset_type,
u_register_t is_protected,
u_register_t aux_features,
void *handle)
{
int ret;
switch (reset_type) {
case ETHOSN_RESET_TYPE_FULL:
ret = ethosn_core_full_reset(device, core, hard_reset,
asset_alloc_idx, is_protected,
aux_features);
break;
case ETHOSN_RESET_TYPE_HALT:
ret = ethosn_core_reset(core->addr, hard_reset) ? ETHOSN_SUCCESS : ETHOSN_FAILURE;
break;
default:
WARN("ETHOSN: Invalid reset type given to SMC call.\n");
ret = ETHOSN_INVALID_PARAMETER;
break;
}
SMC_RET1(handle, ret);
}
static uintptr_t ethosn_smc_core_handler(uint32_t fid,
u_register_t core_addr,
u_register_t asset_alloc_idx,
u_register_t reset_type,
u_register_t is_protected,
u_register_t aux_features,
void *handle)
{
bool hard_reset = false;
const struct ethosn_device_t *device = NULL;
const struct ethosn_core_t *core = NULL;
if (!ethosn_get_device_and_core(core_addr, &device, &core)) {
SMC_RET1(handle, ETHOSN_UNKNOWN_CORE_ADDRESS);
}
switch (fid) {
case ETHOSN_FNUM_IS_SEC:
SMC_RET1(handle, ethosn_is_sec(core->addr));
case ETHOSN_FNUM_IS_SLEEPING:
SMC_RET1(handle, ethosn_core_is_sleeping(core->addr));
case ETHOSN_FNUM_HARD_RESET:
hard_reset = true;
/* Fallthrough */
case ETHOSN_FNUM_SOFT_RESET:
return ethosn_smc_core_reset_handler(device, core,
hard_reset,
asset_alloc_idx,
reset_type,
is_protected,
aux_features,
handle);
case ETHOSN_FNUM_BOOT_FW:
SMC_RET1(handle, ethosn_core_boot_fw(core->addr));
default:
WARN("ETHOSN: Unimplemented SMC call: 0x%x\n", fid);
SMC_RET1(handle, SMC_UNK);
}
}
static uintptr_t ethosn_smc_fw_prop_handler(u_register_t fw_property,
void *handle)
{
#if ETHOSN_NPU_TZMP1
switch (fw_property) {
case ETHOSN_FW_PROP_VERSION:
SMC_RET4(handle, ETHOSN_SUCCESS,
big_fw->fw_ver_major,
big_fw->fw_ver_minor,
big_fw->fw_ver_patch);
case ETHOSN_FW_PROP_MEM_INFO:
SMC_RET3(handle, ETHOSN_SUCCESS,
((void *)big_fw) + big_fw->offset,
big_fw->size);
case ETHOSN_FW_PROP_OFFSETS:
SMC_RET3(handle, ETHOSN_SUCCESS,
big_fw->ple_offset,
big_fw->unpriv_stack_offset);
case ETHOSN_FW_PROP_VA_MAP:
SMC_RET4(handle, ETHOSN_SUCCESS,
ETHOSN_FW_VA_BASE,
ETHOSN_WORKING_DATA_VA_BASE,
ETHOSN_COMMAND_STREAM_VA_BASE);
default:
WARN("ETHOSN: Unknown firmware property\n");
SMC_RET1(handle, ETHOSN_INVALID_PARAMETER);
}
#else
SMC_RET1(handle, ETHOSN_NOT_SUPPORTED);
#endif /* ETHOSN_NPU_TZMP1 */
}
uintptr_t ethosn_smc_handler(uint32_t smc_fid,
u_register_t x1,
u_register_t x2,
u_register_t x3,
u_register_t x4,
void *cookie,
void *handle,
u_register_t flags)
{
const uint32_t fid = smc_fid & FUNCID_NUM_MASK;
/* Only SiP fast calls are expected */
if ((GET_SMC_TYPE(smc_fid) != SMC_TYPE_FAST) ||
(GET_SMC_OEN(smc_fid) != OEN_SIP_START)) {
SMC_RET1(handle, SMC_UNK);
}
/* Truncate parameters to 32-bits for SMC32 */
if (GET_SMC_CC(smc_fid) == SMC_32) {
x1 &= 0xFFFFFFFF;
x2 &= 0xFFFFFFFF;
x3 &= 0xFFFFFFFF;
x4 &= 0xFFFFFFFF;
}
if (!is_ethosn_fid(smc_fid) || (fid > ETHOSN_FNUM_BOOT_FW)) {
WARN("ETHOSN: Unknown SMC call: 0x%x\n", smc_fid);
SMC_RET1(handle, SMC_UNK);
}
switch (fid) {
case ETHOSN_FNUM_VERSION:
SMC_RET2(handle, ETHOSN_VERSION_MAJOR, ETHOSN_VERSION_MINOR);
case ETHOSN_FNUM_GET_FW_PROP:
return ethosn_smc_fw_prop_handler(x1, handle);
}
return ethosn_smc_core_handler(fid, x1, x2, x3, x4,
SMC_GET_GP(handle, CTX_GPREG_X5),
handle);
}
int ethosn_smc_setup(void)
{
#if ETHOSN_NPU_TZMP1
struct ethosn_device_t *dev;
uint32_t arch_ver;
#endif /* ETHOSN_NPU_TZMP1 */
if (ETHOSN_NUM_DEVICES == 0U) {
ERROR("ETHOSN: No NPU found\n");
return ETHOSN_FAILURE;
}
#if ETHOSN_NPU_TZMP1
/* Only one NPU core is supported in the TZMP1 setup */
if ((ETHOSN_NUM_DEVICES != 1U) ||
(ETHOSN_GET_DEVICE(0U)->num_cores != 1U)) {
ERROR("ETHOSN: TZMP1 doesn't support multiple NPU cores\n");
return ETHOSN_FAILURE;
}
dev = ETHOSN_GET_DEVICE(0U);
if (dev->has_reserved_memory) {
ERROR("ETHOSN: TZMP1 doesn't support using reserved memory\n");
return ETHOSN_FAILURE;
}
arch_ver = ethosn_core_read_arch_version(dev->cores[0U].addr);
big_fw = (struct ethosn_big_fw *)ETHOSN_NPU_FW_IMAGE_BASE;
if (!ethosn_big_fw_verify_header(big_fw, arch_ver)) {
return ETHOSN_FAILURE;
}
NOTICE("ETHOSN: TZMP1 setup succeeded with firmware version %u.%u.%u\n",
big_fw->fw_ver_major, big_fw->fw_ver_minor,
big_fw->fw_ver_patch);
#else
NOTICE("ETHOSN: Setup succeeded\n");
#endif /* ETHOSN_NPU_TZMP1 */
return 0;
}