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review.mlplatform.org / ml / ethos-u / ethos-u-core-driver / bcb5aaa99756f1b5c1295b079ebdd60996bc75a5 / . / src / ethosu_device.c
blob: 935ec9e4900399d423a6690890b0be3687d4bb36 [file] [log] [blame]
/*
* Copyright (c) 2019-2020 Arm Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the License); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an AS IS BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ethosu_device.h"
#include "ethosu_common.h"
#include <assert.h>
#include <stdio.h>
#define MASK_0_31_BITS 0xFFFFFFFF
#define MASK_32_47_BITS 0xFFFF00000000
#define BASEP_OFFSET 4
#define REG_OFFSET 4
#define BYTES_1KB 1024
#if defined(ARM_NPU_STUB)
static uint32_t stream_length = 0;
#endif
enum ethosu_error_codes ethosu_dev_init(void)
{
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_id(struct ethosu_id *id)
{
struct id_r _id;
#if !defined(ARM_NPU_STUB)
_id.word = read_reg(NPU_REG_ID);
#else
_id.word = 0;
_id.arch_patch_rev = NNX_ARCH_VERSION_PATCH;
_id.arch_minor_rev = NNX_ARCH_VERSION_MINOR;
_id.arch_major_rev = NNX_ARCH_VERSION_MAJOR;
#endif
id->version_status = _id.version_status;
id->version_minor = _id.version_minor;
id->version_major = _id.version_major;
id->product_major = _id.product_major;
id->arch_patch_rev = _id.arch_patch_rev;
id->arch_minor_rev = _id.arch_minor_rev;
id->arch_major_rev = _id.arch_major_rev;
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_config(struct ethosu_config *config)
{
struct config_r cfg = {.word = 0};
#if !defined(ARM_NPU_STUB)
cfg.word = read_reg(NPU_REG_CONFIG);
#endif
config->macs_per_cc = cfg.macs_per_cc;
config->cmd_stream_version = cfg.cmd_stream_version;
config->shram_size = cfg.shram_size;
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_run_command_stream(const uint8_t *cmd_stream_ptr,
uint32_t cms_length,
const uint64_t *base_addr,
int num_base_addr)
{
#if !defined(ARM_NPU_STUB)
uint32_t qbase0;
uint32_t qbase1;
uint32_t qsize;
uint32_t *reg_basep;
int num_base_reg;
ASSERT(num_base_addr <= ETHOSU_DRIVER_BASEP_INDEXES);
qbase0 = ((uint64_t)cmd_stream_ptr) & MASK_0_31_BITS;
qbase1 = (((uint64_t)cmd_stream_ptr) & MASK_32_47_BITS) >> 32;
qsize = cms_length;
num_base_reg = num_base_addr * 2;
reg_basep = (uint32_t *)base_addr;
for (int i = 0; i < num_base_reg; i++)
{
write_reg(NPU_REG_BASEP0 + (i * BASEP_OFFSET), reg_basep[i]);
}
write_reg(NPU_REG_QBASE0, qbase0);
write_reg(NPU_REG_QBASE1, qbase1);
write_reg(NPU_REG_QSIZE, qsize);
write_reg(NPU_REG_CMD, 1);
#else
// NPU stubbed
stream_length = cms_length;
UNUSED(cmd_stream_ptr);
UNUSED(base_addr);
ASSERT(num_base_addr < ETHOSU_DRIVER_BASEP_INDEXES);
#if defined(NDEBUG)
UNUSED(num_base_addr);
#endif
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_is_irq_raised(uint8_t *irq_raised)
{
#if !defined(ARM_NPU_STUB)
struct status_r status;
status.word = read_reg(NPU_REG_STATUS);
if (status.irq_raised == 1)
{
*irq_raised = 1;
}
else
{
*irq_raised = 0;
}
#else
*irq_raised = 1;
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_clear_irq_status(void)
{
#if !defined(ARM_NPU_STUB)
write_reg(NPU_REG_CMD, 2);
#else
#endif
return ETHOSU_SUCCESS;
}
// TODO Understand settings of privilege/sequrity level and update API.
enum ethosu_error_codes ethosu_soft_reset(void)
{
enum ethosu_error_codes return_code = ETHOSU_SUCCESS;
#if !defined(ARM_NPU_STUB)
struct reset_r reset;
struct prot_r prot;
reset.word = 0;
reset.pending_CPL = PRIVILEGE_LEVEL_USER; // TODO, how to get the host priviledge level
reset.pending_CSL = SECURITY_LEVEL_NON_SECURE; // TODO, how to get Security level
prot.word = read_reg(NPU_REG_PROT);
if (prot.active_CPL < reset.pending_CPL && prot.active_CSL > reset.pending_CSL)
{
// Register access not permitted
return ETHOSU_GENERIC_FAILURE;
}
// Reset and set security level
write_reg(NPU_REG_RESET, reset.word);
return_code = ethosu_wait_for_reset();
#endif
return return_code;
}
enum ethosu_error_codes ethosu_wait_for_reset(void)
{
#if !defined(ARM_NPU_STUB)
struct status_r status;
// Wait until reset status indicates that reset has been completed
for (int i = 0; i < 100000; i++)
{
status.word = read_reg(NPU_REG_STATUS);
if (0 == status.reset_status)
{
break;
}
}
if (1 == status.reset_status)
{
return ETHOSU_GENERIC_FAILURE;
}
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_read_apb_reg(uint32_t start_address, uint16_t num_reg, uint32_t *reg)
{
#if !defined(ARM_NPU_STUB)
uint32_t address = start_address;
ASSERT((start_address + num_reg) < NPU_IDS_REGISTERS_SIZE);
for (int i = 0; i < num_reg; i++)
{
reg[i] = read_reg(address);
address += REG_OFFSET;
}
#else
// NPU stubbed
UNUSED(start_address);
UNUSED(num_reg);
UNUSED(reg);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_qconfig(enum ethosu_memory_type memory_type)
{
if (memory_type > ETHOSU_AXI1_OUTSTANDING_COUNTER3)
{
return ETHOSU_INVALID_PARAM;
}
#if !defined(ARM_NPU_STUB)
write_reg(NPU_REG_QCONFIG, memory_type);
#else
// NPU stubbed
UNUSED(memory_type);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_regioncfg(uint8_t region, enum ethosu_memory_type memory_type)
{
if (region > 7)
{
return ETHOSU_INVALID_PARAM;
}
#if !defined(ARM_NPU_STUB)
struct regioncfg_r regioncfg;
regioncfg.word = read_reg(NPU_REG_REGIONCFG);
regioncfg.word &= ~(0x3 << (2 * region));
regioncfg.word |= (memory_type & 0x3) << (2 * region);
write_reg(NPU_REG_REGIONCFG, regioncfg.word);
#else
// NPU stubbed
UNUSED(region);
UNUSED(memory_type);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_axi_limit0(enum ethosu_axi_limit_beats max_beats,
enum ethosu_axi_limit_mem_type memtype,
uint8_t max_reads,
uint8_t max_writes)
{
#if !defined(ARM_NPU_STUB)
struct axi_limit0_r axi_limit0;
axi_limit0.max_beats = max_beats;
axi_limit0.memtype = memtype;
axi_limit0.max_outstanding_read_m1 = max_reads - 1;
axi_limit0.max_outstanding_write_m1 = max_writes - 1;
write_reg(NPU_REG_AXI_LIMIT0, axi_limit0.word);
#else
// NPU stubbed
UNUSED(max_beats);
UNUSED(memtype);
UNUSED(max_reads);
UNUSED(max_writes);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_axi_limit1(enum ethosu_axi_limit_beats max_beats,
enum ethosu_axi_limit_mem_type memtype,
uint8_t max_reads,
uint8_t max_writes)
{
#if !defined(ARM_NPU_STUB)
struct axi_limit1_r axi_limit1;
axi_limit1.max_beats = max_beats;
axi_limit1.memtype = memtype;
axi_limit1.max_outstanding_read_m1 = max_reads - 1;
axi_limit1.max_outstanding_write_m1 = max_writes - 1;
write_reg(NPU_REG_AXI_LIMIT1, axi_limit1.word);
#else
// NPU stubbed
UNUSED(max_beats);
UNUSED(memtype);
UNUSED(max_reads);
UNUSED(max_writes);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_axi_limit2(enum ethosu_axi_limit_beats max_beats,
enum ethosu_axi_limit_mem_type memtype,
uint8_t max_reads,
uint8_t max_writes)
{
#if !defined(ARM_NPU_STUB)
struct axi_limit2_r axi_limit2;
axi_limit2.max_beats = max_beats;
axi_limit2.memtype = memtype;
axi_limit2.max_outstanding_read_m1 = max_reads - 1;
axi_limit2.max_outstanding_write_m1 = max_writes - 1;
write_reg(NPU_REG_AXI_LIMIT2, axi_limit2.word);
#else
// NPU stubbed
UNUSED(max_beats);
UNUSED(memtype);
UNUSED(max_reads);
UNUSED(max_writes);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_axi_limit3(enum ethosu_axi_limit_beats max_beats,
enum ethosu_axi_limit_mem_type memtype,
uint8_t max_reads,
uint8_t max_writes)
{
#if !defined(ARM_NPU_STUB)
struct axi_limit3_r axi_limit3;
axi_limit3.max_beats = max_beats;
axi_limit3.memtype = memtype;
axi_limit3.max_outstanding_read_m1 = max_reads - 1;
axi_limit3.max_outstanding_write_m1 = max_writes - 1;
write_reg(NPU_REG_AXI_LIMIT3, axi_limit3.word);
#else
// NPU stubbed
UNUSED(max_beats);
UNUSED(memtype);
UNUSED(max_reads);
UNUSED(max_writes);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_revision(uint32_t *revision)
{
#if !defined(ARM_NPU_STUB)
*revision = read_reg(NPU_REG_REVISION);
#else
*revision = 0xDEADC0DE;
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_qread(uint32_t *qread)
{
#if !defined(ARM_NPU_STUB)
*qread = read_reg(NPU_REG_QREAD);
#else
*qread = stream_length;
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_status_mask(uint16_t *status_mask)
{
#if !defined(ARM_NPU_STUB)
struct status_r status;
status.word = read_reg(NPU_REG_STATUS);
*status_mask = status.word & 0xFFFF;
#else
*status_mask = 0x0000;
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_irq_history_mask(uint16_t *irq_history_mask)
{
#if !defined(ARM_NPU_STUB)
struct status_r status;
status.word = read_reg(NPU_REG_STATUS);
*irq_history_mask = status.irq_history_mask;
#else
*irq_history_mask = 0xffff;
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_clear_irq_history_mask(uint16_t irq_history_clear_mask)
{
#if !defined(ARM_NPU_STUB)
write_reg(NPU_REG_CMD, (uint32_t)irq_history_clear_mask << 16);
#else
UNUSED(irq_history_clear_mask);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_command_run(void)
{
#if !defined(ARM_NPU_STUB)
write_reg(NPU_REG_CMD, 1);
#else
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_get_shram_data(int section, uint32_t *shram_p)
{
#if !defined(ARM_NPU_STUB)
int i = 0;
uint32_t address = NPU_REG_SHARED_BUFFER0;
write_reg(NPU_REG_DEBUG, section * BYTES_1KB);
while (address <= NPU_REG_SHARED_BUFFER255)
{
shram_p[i] = read_reg(address);
address += REG_OFFSET;
i++;
}
#else
// NPU stubbed
UNUSED(section);
UNUSED(shram_p);
#endif
return ETHOSU_SUCCESS;
}
enum ethosu_error_codes ethosu_set_clock_and_power(enum ethosu_clock_q_request clock_q,
enum ethosu_power_q_request power_q)
{
#if !defined(ARM_NPU_STUB)
struct cmd_r cmd;
cmd.word = 0;
cmd.clock_q_enable = clock_q;
cmd.power_q_enable = power_q;
write_reg(NPU_REG_CMD, cmd.word);
#else
UNUSED(clock_q);
UNUSED(power_q);
#endif
return ETHOSU_SUCCESS;
}