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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (C) 2020-2023 Intel Corporation
*/
#include <linux/firmware.h>
#include <linux/highmem.h>
#include <linux/moduleparam.h>
#include <linux/pci.h>
#include "vpu_boot_api.h"
#include "ivpu_drv.h"
#include "ivpu_fw.h"
#include "ivpu_fw_log.h"
#include "ivpu_gem.h"
#include "ivpu_hw.h"
#include "ivpu_ipc.h"
#include "ivpu_pm.h"
#define FW_GLOBAL_MEM_START (2ull * SZ_1G)
#define FW_GLOBAL_MEM_END (3ull * SZ_1G)
#define FW_SHARED_MEM_SIZE SZ_256M /* Must be aligned to FW_SHARED_MEM_ALIGNMENT */
#define FW_SHARED_MEM_ALIGNMENT SZ_128K /* VPU MTRR limitation */
#define FW_RUNTIME_MAX_SIZE SZ_512M
#define FW_SHAVE_NN_MAX_SIZE SZ_2M
#define FW_RUNTIME_MIN_ADDR (FW_GLOBAL_MEM_START)
#define FW_RUNTIME_MAX_ADDR (FW_GLOBAL_MEM_END - FW_SHARED_MEM_SIZE)
#define FW_VERSION_HEADER_SIZE SZ_4K
#define FW_FILE_IMAGE_OFFSET (VPU_FW_HEADER_SIZE + FW_VERSION_HEADER_SIZE)
#define WATCHDOG_MSS_REDIRECT 32
#define WATCHDOG_NCE_REDIRECT 33
#define ADDR_TO_L2_CACHE_CFG(addr) ((addr) >> 31)
#define IVPU_FW_CHECK_API(vdev, fw_hdr, name, min_major) \
ivpu_fw_check_api(vdev, fw_hdr, #name, \
VPU_##name##_API_VER_INDEX, \
VPU_##name##_API_VER_MAJOR, \
VPU_##name##_API_VER_MINOR, min_major)
static char *ivpu_firmware;
module_param_named_unsafe(firmware, ivpu_firmware, charp, 0644);
MODULE_PARM_DESC(firmware, "VPU firmware binary in /lib/firmware/..");
static int ivpu_fw_request(struct ivpu_device *vdev)
{
static const char * const fw_names[] = {
"mtl_vpu.bin",
"intel/vpu/mtl_vpu_v0.0.bin"
};
int ret = -ENOENT;
int i;
if (ivpu_firmware) {
ret = request_firmware(&vdev->fw->file, ivpu_firmware, vdev->drm.dev);
if (!ret)
vdev->fw->name = ivpu_firmware;
return ret;
}
for (i = 0; i < ARRAY_SIZE(fw_names); i++) {
ret = firmware_request_nowarn(&vdev->fw->file, fw_names[i], vdev->drm.dev);
if (!ret) {
vdev->fw->name = fw_names[i];
return 0;
}
}
ivpu_err(vdev, "Failed to request firmware: %d\n", ret);
return ret;
}
static int
ivpu_fw_check_api(struct ivpu_device *vdev, const struct vpu_firmware_header *fw_hdr,
const char *str, int index, u16 expected_major, u16 expected_minor,
u16 min_major)
{
u16 major = (u16)(fw_hdr->api_version[index] >> 16);
u16 minor = (u16)(fw_hdr->api_version[index]);
if (major < min_major) {
ivpu_err(vdev, "Incompatible FW %s API version: %d.%d, required %d.0 or later\n",
str, major, minor, min_major);
return -EINVAL;
}
if (major != expected_major) {
ivpu_warn(vdev, "Major FW %s API version different: %d.%d (expected %d.%d)\n",
str, major, minor, expected_major, expected_minor);
}
ivpu_dbg(vdev, FW_BOOT, "FW %s API version: %d.%d (expected %d.%d)\n",
str, major, minor, expected_major, expected_minor);
return 0;
}
static int ivpu_fw_parse(struct ivpu_device *vdev)
{
struct ivpu_fw_info *fw = vdev->fw;
const struct vpu_firmware_header *fw_hdr = (const void *)fw->file->data;
u64 runtime_addr, image_load_addr, runtime_size, image_size;
if (fw->file->size <= FW_FILE_IMAGE_OFFSET) {
ivpu_err(vdev, "Firmware file is too small: %zu\n", fw->file->size);
return -EINVAL;
}
if (fw_hdr->header_version != VPU_FW_HEADER_VERSION) {
ivpu_err(vdev, "Invalid firmware header version: %u\n", fw_hdr->header_version);
return -EINVAL;
}
runtime_addr = fw_hdr->boot_params_load_address;
runtime_size = fw_hdr->runtime_size;
image_load_addr = fw_hdr->image_load_address;
image_size = fw_hdr->image_size;
if (runtime_addr < FW_RUNTIME_MIN_ADDR || runtime_addr > FW_RUNTIME_MAX_ADDR) {
ivpu_err(vdev, "Invalid firmware runtime address: 0x%llx\n", runtime_addr);
return -EINVAL;
}
if (runtime_size < fw->file->size || runtime_size > FW_RUNTIME_MAX_SIZE) {
ivpu_err(vdev, "Invalid firmware runtime size: %llu\n", runtime_size);
return -EINVAL;
}
if (FW_FILE_IMAGE_OFFSET + image_size > fw->file->size) {
ivpu_err(vdev, "Invalid image size: %llu\n", image_size);
return -EINVAL;
}
if (image_load_addr < runtime_addr ||
image_load_addr + image_size > runtime_addr + runtime_size) {
ivpu_err(vdev, "Invalid firmware load address size: 0x%llx and size %llu\n",
image_load_addr, image_size);
return -EINVAL;
}
if (fw_hdr->shave_nn_fw_size > FW_SHAVE_NN_MAX_SIZE) {
ivpu_err(vdev, "SHAVE NN firmware is too big: %u\n", fw_hdr->shave_nn_fw_size);
return -EINVAL;
}
if (fw_hdr->entry_point < image_load_addr ||
fw_hdr->entry_point >= image_load_addr + image_size) {
ivpu_err(vdev, "Invalid entry point: 0x%llx\n", fw_hdr->entry_point);
return -EINVAL;
}
ivpu_dbg(vdev, FW_BOOT, "Header version: 0x%x, format 0x%x\n",
fw_hdr->header_version, fw_hdr->image_format);
ivpu_info(vdev, "Firmware: %s, version: %s", fw->name,
(const char *)fw_hdr + VPU_FW_HEADER_SIZE);
if (IVPU_FW_CHECK_API(vdev, fw_hdr, BOOT, 3))
return -EINVAL;
if (IVPU_FW_CHECK_API(vdev, fw_hdr, JSM, 3))
return -EINVAL;
fw->runtime_addr = runtime_addr;
fw->runtime_size = runtime_size;
fw->image_load_offset = image_load_addr - runtime_addr;
fw->image_size = image_size;
fw->shave_nn_size = PAGE_ALIGN(fw_hdr->shave_nn_fw_size);
fw->cold_boot_entry_point = fw_hdr->entry_point;
fw->entry_point = fw->cold_boot_entry_point;
fw->trace_level = min_t(u32, ivpu_log_level, IVPU_FW_LOG_FATAL);
fw->trace_destination_mask = VPU_TRACE_DESTINATION_VERBOSE_TRACING;
fw->trace_hw_component_mask = -1;
ivpu_dbg(vdev, FW_BOOT, "Size: file %lu image %u runtime %u shavenn %u\n",
fw->file->size, fw->image_size, fw->runtime_size, fw->shave_nn_size);
ivpu_dbg(vdev, FW_BOOT, "Address: runtime 0x%llx, load 0x%llx, entry point 0x%llx\n",
fw->runtime_addr, image_load_addr, fw->entry_point);
return 0;
}
static void ivpu_fw_release(struct ivpu_device *vdev)
{
release_firmware(vdev->fw->file);
}
static int ivpu_fw_update_global_range(struct ivpu_device *vdev)
{
struct ivpu_fw_info *fw = vdev->fw;
u64 start = ALIGN(fw->runtime_addr + fw->runtime_size, FW_SHARED_MEM_ALIGNMENT);
u64 size = FW_SHARED_MEM_SIZE;
if (start + size > FW_GLOBAL_MEM_END) {
ivpu_err(vdev, "No space for shared region, start %lld, size %lld\n", start, size);
return -EINVAL;
}
ivpu_hw_init_range(&vdev->hw->ranges.global_low, start, size);
return 0;
}
static int ivpu_fw_mem_init(struct ivpu_device *vdev)
{
struct ivpu_fw_info *fw = vdev->fw;
int log_verb_size;
int ret;
ret = ivpu_fw_update_global_range(vdev);
if (ret)
return ret;
fw->mem = ivpu_bo_alloc_internal(vdev, fw->runtime_addr, fw->runtime_size, DRM_IVPU_BO_WC);
if (!fw->mem) {
ivpu_err(vdev, "Failed to allocate firmware runtime memory\n");
return -ENOMEM;
}
fw->mem_log_crit = ivpu_bo_alloc_internal(vdev, 0, IVPU_FW_CRITICAL_BUFFER_SIZE,
DRM_IVPU_BO_CACHED);
if (!fw->mem_log_crit) {
ivpu_err(vdev, "Failed to allocate critical log buffer\n");
ret = -ENOMEM;
goto err_free_fw_mem;
}
if (ivpu_log_level <= IVPU_FW_LOG_INFO)
log_verb_size = IVPU_FW_VERBOSE_BUFFER_LARGE_SIZE;
else
log_verb_size = IVPU_FW_VERBOSE_BUFFER_SMALL_SIZE;
fw->mem_log_verb = ivpu_bo_alloc_internal(vdev, 0, log_verb_size, DRM_IVPU_BO_CACHED);
if (!fw->mem_log_verb) {
ivpu_err(vdev, "Failed to allocate verbose log buffer\n");
ret = -ENOMEM;
goto err_free_log_crit;
}
if (fw->shave_nn_size) {
fw->mem_shave_nn = ivpu_bo_alloc_internal(vdev, vdev->hw->ranges.global_high.start,
fw->shave_nn_size, DRM_IVPU_BO_UNCACHED);
if (!fw->mem_shave_nn) {
ivpu_err(vdev, "Failed to allocate shavenn buffer\n");
ret = -ENOMEM;
goto err_free_log_verb;
}
}
return 0;
err_free_log_verb:
ivpu_bo_free_internal(fw->mem_log_verb);
err_free_log_crit:
ivpu_bo_free_internal(fw->mem_log_crit);
err_free_fw_mem:
ivpu_bo_free_internal(fw->mem);
return ret;
}
static void ivpu_fw_mem_fini(struct ivpu_device *vdev)
{
struct ivpu_fw_info *fw = vdev->fw;
if (fw->mem_shave_nn) {
ivpu_bo_free_internal(fw->mem_shave_nn);
fw->mem_shave_nn = NULL;
}
ivpu_bo_free_internal(fw->mem_log_verb);
ivpu_bo_free_internal(fw->mem_log_crit);
ivpu_bo_free_internal(fw->mem);
fw->mem_log_verb = NULL;
fw->mem_log_crit = NULL;
fw->mem = NULL;
}
int ivpu_fw_init(struct ivpu_device *vdev)
{
int ret;
ret = ivpu_fw_request(vdev);
if (ret)
return ret;
ret = ivpu_fw_parse(vdev);
if (ret)
goto err_fw_release;
ret = ivpu_fw_mem_init(vdev);
if (ret)
goto err_fw_release;
return 0;
err_fw_release:
ivpu_fw_release(vdev);
return ret;
}
void ivpu_fw_fini(struct ivpu_device *vdev)
{
ivpu_fw_mem_fini(vdev);
ivpu_fw_release(vdev);
}
int ivpu_fw_load(struct ivpu_device *vdev)
{
struct ivpu_fw_info *fw = vdev->fw;
u64 image_end_offset = fw->image_load_offset + fw->image_size;
memset(fw->mem->kvaddr, 0, fw->image_load_offset);
memcpy(fw->mem->kvaddr + fw->image_load_offset,
fw->file->data + FW_FILE_IMAGE_OFFSET, fw->image_size);
if (IVPU_WA(clear_runtime_mem)) {
u8 *start = fw->mem->kvaddr + image_end_offset;
u64 size = fw->mem->base.size - image_end_offset;
memset(start, 0, size);
}
wmb(); /* Flush WC buffers after writing fw->mem */
return 0;
}
static void ivpu_fw_boot_params_print(struct ivpu_device *vdev, struct vpu_boot_params *boot_params)
{
ivpu_dbg(vdev, FW_BOOT, "boot_params.magic = 0x%x\n",
boot_params->magic);
ivpu_dbg(vdev, FW_BOOT, "boot_params.vpu_id = 0x%x\n",
boot_params->vpu_id);
ivpu_dbg(vdev, FW_BOOT, "boot_params.vpu_count = 0x%x\n",
boot_params->vpu_count);
ivpu_dbg(vdev, FW_BOOT, "boot_params.frequency = %u\n",
boot_params->frequency);
ivpu_dbg(vdev, FW_BOOT, "boot_params.perf_clk_frequency = %u\n",
boot_params->perf_clk_frequency);
ivpu_dbg(vdev, FW_BOOT, "boot_params.ipc_header_area_start = 0x%llx\n",
boot_params->ipc_header_area_start);
ivpu_dbg(vdev, FW_BOOT, "boot_params.ipc_header_area_size = 0x%x\n",
boot_params->ipc_header_area_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.shared_region_base = 0x%llx\n",
boot_params->shared_region_base);
ivpu_dbg(vdev, FW_BOOT, "boot_params.shared_region_size = 0x%x\n",
boot_params->shared_region_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.ipc_payload_area_start = 0x%llx\n",
boot_params->ipc_payload_area_start);
ivpu_dbg(vdev, FW_BOOT, "boot_params.ipc_payload_area_size = 0x%x\n",
boot_params->ipc_payload_area_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.global_aliased_pio_base = 0x%llx\n",
boot_params->global_aliased_pio_base);
ivpu_dbg(vdev, FW_BOOT, "boot_params.global_aliased_pio_size = 0x%x\n",
boot_params->global_aliased_pio_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.autoconfig = 0x%x\n",
boot_params->autoconfig);
ivpu_dbg(vdev, FW_BOOT, "boot_params.cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].use = 0x%x\n",
boot_params->cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].use);
ivpu_dbg(vdev, FW_BOOT, "boot_params.cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].cfg = 0x%x\n",
boot_params->cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].cfg);
ivpu_dbg(vdev, FW_BOOT, "boot_params.global_memory_allocator_base = 0x%llx\n",
boot_params->global_memory_allocator_base);
ivpu_dbg(vdev, FW_BOOT, "boot_params.global_memory_allocator_size = 0x%x\n",
boot_params->global_memory_allocator_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.shave_nn_fw_base = 0x%llx\n",
boot_params->shave_nn_fw_base);
ivpu_dbg(vdev, FW_BOOT, "boot_params.watchdog_irq_mss = 0x%x\n",
boot_params->watchdog_irq_mss);
ivpu_dbg(vdev, FW_BOOT, "boot_params.watchdog_irq_nce = 0x%x\n",
boot_params->watchdog_irq_nce);
ivpu_dbg(vdev, FW_BOOT, "boot_params.host_to_vpu_irq = 0x%x\n",
boot_params->host_to_vpu_irq);
ivpu_dbg(vdev, FW_BOOT, "boot_params.job_done_irq = 0x%x\n",
boot_params->job_done_irq);
ivpu_dbg(vdev, FW_BOOT, "boot_params.host_version_id = 0x%x\n",
boot_params->host_version_id);
ivpu_dbg(vdev, FW_BOOT, "boot_params.si_stepping = 0x%x\n",
boot_params->si_stepping);
ivpu_dbg(vdev, FW_BOOT, "boot_params.device_id = 0x%llx\n",
boot_params->device_id);
ivpu_dbg(vdev, FW_BOOT, "boot_params.feature_exclusion = 0x%llx\n",
boot_params->feature_exclusion);
ivpu_dbg(vdev, FW_BOOT, "boot_params.sku = 0x%llx\n",
boot_params->sku);
ivpu_dbg(vdev, FW_BOOT, "boot_params.min_freq_pll_ratio = 0x%x\n",
boot_params->min_freq_pll_ratio);
ivpu_dbg(vdev, FW_BOOT, "boot_params.pn_freq_pll_ratio = 0x%x\n",
boot_params->pn_freq_pll_ratio);
ivpu_dbg(vdev, FW_BOOT, "boot_params.max_freq_pll_ratio = 0x%x\n",
boot_params->max_freq_pll_ratio);
ivpu_dbg(vdev, FW_BOOT, "boot_params.default_trace_level = 0x%x\n",
boot_params->default_trace_level);
ivpu_dbg(vdev, FW_BOOT, "boot_params.tracing_buff_message_format_mask = 0x%llx\n",
boot_params->tracing_buff_message_format_mask);
ivpu_dbg(vdev, FW_BOOT, "boot_params.trace_destination_mask = 0x%x\n",
boot_params->trace_destination_mask);
ivpu_dbg(vdev, FW_BOOT, "boot_params.trace_hw_component_mask = 0x%llx\n",
boot_params->trace_hw_component_mask);
ivpu_dbg(vdev, FW_BOOT, "boot_params.boot_type = 0x%x\n",
boot_params->boot_type);
ivpu_dbg(vdev, FW_BOOT, "boot_params.punit_telemetry_sram_base = 0x%llx\n",
boot_params->punit_telemetry_sram_base);
ivpu_dbg(vdev, FW_BOOT, "boot_params.punit_telemetry_sram_size = 0x%llx\n",
boot_params->punit_telemetry_sram_size);
ivpu_dbg(vdev, FW_BOOT, "boot_params.vpu_telemetry_enable = 0x%x\n",
boot_params->vpu_telemetry_enable);
}
void ivpu_fw_boot_params_setup(struct ivpu_device *vdev, struct vpu_boot_params *boot_params)
{
struct ivpu_bo *ipc_mem_rx = vdev->ipc->mem_rx;
/* In case of warm boot we only have to reset the entrypoint addr */
if (!ivpu_fw_is_cold_boot(vdev)) {
boot_params->save_restore_ret_address = 0;
vdev->pm->is_warmboot = true;
return;
}
vdev->pm->is_warmboot = false;
boot_params->magic = VPU_BOOT_PARAMS_MAGIC;
boot_params->vpu_id = to_pci_dev(vdev->drm.dev)->bus->number;
boot_params->frequency = ivpu_hw_reg_pll_freq_get(vdev);
/*
* Uncached region of VPU address space, covers IPC buffers, job queues
* and log buffers, programmable to L2$ Uncached by VPU MTRR
*/
boot_params->shared_region_base = vdev->hw->ranges.global_low.start;
boot_params->shared_region_size = vdev->hw->ranges.global_low.end -
vdev->hw->ranges.global_low.start;
boot_params->ipc_header_area_start = ipc_mem_rx->vpu_addr;
boot_params->ipc_header_area_size = ipc_mem_rx->base.size / 2;
boot_params->ipc_payload_area_start = ipc_mem_rx->vpu_addr + ipc_mem_rx->base.size / 2;
boot_params->ipc_payload_area_size = ipc_mem_rx->base.size / 2;
boot_params->global_aliased_pio_base =
vdev->hw->ranges.global_aliased_pio.start;
boot_params->global_aliased_pio_size =
ivpu_hw_range_size(&vdev->hw->ranges.global_aliased_pio);
/* Allow configuration for L2C_PAGE_TABLE with boot param value */
boot_params->autoconfig = 1;
/* Enable L2 cache for first 2GB of high memory */
boot_params->cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].use = 1;
boot_params->cache_defaults[VPU_BOOT_L2_CACHE_CFG_NN].cfg =
ADDR_TO_L2_CACHE_CFG(vdev->hw->ranges.global_high.start);
if (vdev->fw->mem_shave_nn)
boot_params->shave_nn_fw_base = vdev->fw->mem_shave_nn->vpu_addr;
boot_params->watchdog_irq_mss = WATCHDOG_MSS_REDIRECT;
boot_params->watchdog_irq_nce = WATCHDOG_NCE_REDIRECT;
boot_params->si_stepping = ivpu_revision(vdev);
boot_params->device_id = ivpu_device_id(vdev);
boot_params->feature_exclusion = vdev->hw->tile_fuse;
boot_params->sku = vdev->hw->sku;
boot_params->min_freq_pll_ratio = vdev->hw->pll.min_ratio;
boot_params->pn_freq_pll_ratio = vdev->hw->pll.pn_ratio;
boot_params->max_freq_pll_ratio = vdev->hw->pll.max_ratio;
boot_params->default_trace_level = vdev->fw->trace_level;
boot_params->tracing_buff_message_format_mask = BIT(VPU_TRACING_FORMAT_STRING);
boot_params->trace_destination_mask = vdev->fw->trace_destination_mask;
boot_params->trace_hw_component_mask = vdev->fw->trace_hw_component_mask;
boot_params->crit_tracing_buff_addr = vdev->fw->mem_log_crit->vpu_addr;
boot_params->crit_tracing_buff_size = vdev->fw->mem_log_crit->base.size;
boot_params->verbose_tracing_buff_addr = vdev->fw->mem_log_verb->vpu_addr;
boot_params->verbose_tracing_buff_size = vdev->fw->mem_log_verb->base.size;
boot_params->punit_telemetry_sram_base = ivpu_hw_reg_telemetry_offset_get(vdev);
boot_params->punit_telemetry_sram_size = ivpu_hw_reg_telemetry_size_get(vdev);
boot_params->vpu_telemetry_enable = ivpu_hw_reg_telemetry_enable_get(vdev);
wmb(); /* Flush WC buffers after writing bootparams */
ivpu_fw_boot_params_print(vdev, boot_params);
}
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