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943eb77b201fe42c2894e4fb4737338c87c57d2e
linux-nvgpu/drivers/gpu/nvgpu/hal/pmu/pmu_ga10b.c
Divya 943eb77b20 gpu: nvgpu: add pmu HALs 
Add following PMU Hals:

- get_pmu_msgq_head
- set_pmu_msgq_head
- set_pmu_new_instblk

JIRA NVGPU-9758

Change-Id: Iba1e37a299309e0e31970a8fbdf248d662bd759b
Signed-off-by: Divya <dsinghatwari@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/c/linux-nvgpu/+/2906872
Reviewed-by: svcacv <svcacv@nvidia.com>
Reviewed-by: svc-mobile-coverity <svc-mobile-coverity@nvidia.com>
Reviewed-by: svc-mobile-misra <svc-mobile-misra@nvidia.com>
Reviewed-by: svc-mobile-cert <svc-mobile-cert@nvidia.com>
Reviewed-by: Rajesh Devaraj <rdevaraj@nvidia.com>
Reviewed-by: Mahantesh Kumbar <mkumbar@nvidia.com>
GVS: Gerrit_Virtual_Submit <buildbot_gerritrpt@nvidia.com>
2023-06-08 10:49:35 -07:00

518 lines
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/*
* Copyright (c) 2020-2023, NVIDIA CORPORATION. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include <nvgpu/pmu.h>
#include <nvgpu/falcon.h>
#include <nvgpu/gk20a.h>
#include <nvgpu/firmware.h>
#include <nvgpu/mm.h>
#include <nvgpu/io.h>
#include <nvgpu/soc.h>
#include <nvgpu/cic_mon.h>
#include "pmu_gk20a.h"
#include "pmu_gv11b.h"
#include "pmu_ga10b.h"
#include <nvgpu/hw/ga10b/hw_pwr_ga10b.h>
bool ga10b_is_pmu_supported(struct gk20a *g)
{
(void)g;
#ifdef CONFIG_NVGPU_LS_PMU
if (nvgpu_platform_is_silicon(g)) {
return true;
} else {
/* Pre-Si platforms */
if (nvgpu_is_enabled(g, NVGPU_SEC_PRIVSECURITY)) {
/* Security is enabled - PMU is supported. */
return true;
} else {
/* NS PMU is not supported */
return false;
}
}
#else
/* set to false to disable LS PMU ucode support */
return false;
#endif
}
u32 ga10b_pmu_falcon2_base_addr(void)
{
return pwr_falcon2_pwr_base_r();
}
u32 ga10b_pmu_get_irqmask(struct gk20a *g)
{
u32 mask = 0U;
if (nvgpu_is_enabled(g, NVGPU_PMU_NEXT_CORE_ENABLED)) {
nvgpu_pmu_dbg(g, "RISCV core INTR");
mask = nvgpu_readl(g, pwr_riscv_irqmask_r());
mask &= nvgpu_readl(g, pwr_riscv_irqdest_r());
} else {
nvgpu_pmu_dbg(g, "Falcon core INTR");
mask = nvgpu_readl(g, pwr_falcon_irqmask_r());
mask &= nvgpu_readl(g, pwr_falcon_irqdest_r());
}
return mask;
}
#ifdef CONFIG_NVGPU_LS_PMU
static int ga10b_pmu_ns_falcon_bootstrap(struct gk20a *g, struct nvgpu_pmu *pmu,
u32 args_offset)
{
struct mm_gk20a *mm = &g->mm;
struct nvgpu_firmware *fw = NULL;
struct pmu_ucode_desc_v1 *desc = NULL;
u32 addr_code_lo, addr_data_lo, addr_load_lo;
u32 addr_code_hi, addr_data_hi;
u32 blocks, i;
u32 inst_block_ptr;
int err;
nvgpu_log_fn(g, " ");
fw = nvgpu_pmu_fw_desc_desc(g, pmu);
desc = (struct pmu_ucode_desc_v1 *)(void *)fw->data;
nvgpu_writel(g, pwr_falcon_itfen_r(),
nvgpu_readl(g, pwr_falcon_itfen_r()) |
pwr_falcon_itfen_ctxen_enable_f());
inst_block_ptr = nvgpu_inst_block_ptr(g, &mm->pmu.inst_block);
g->ops.pmu.set_pmu_new_instblk(g,
pwr_pmu_new_instblk_ptr_f(inst_block_ptr) |
pwr_pmu_new_instblk_valid_f(1) |
(nvgpu_is_enabled(g, NVGPU_USE_COHERENT_SYSMEM) ?
pwr_pmu_new_instblk_target_sys_coh_f() :
pwr_pmu_new_instblk_target_sys_ncoh_f()));
nvgpu_writel(g, pwr_falcon_dmemc_r(0),
pwr_falcon_dmemc_offs_f(0) |
pwr_falcon_dmemc_blk_f(0) |
pwr_falcon_dmemc_aincw_f(1));
addr_code_lo = u64_lo32(right_shift_8bits((pmu->fw->ucode.gpu_va +
desc->app_start_offset +
desc->app_resident_code_offset)));
addr_code_hi = u64_hi32(right_shift_8bits((pmu->fw->ucode.gpu_va +
desc->app_start_offset +
desc->app_resident_code_offset)));
addr_data_lo = u64_lo32(right_shift_8bits((pmu->fw->ucode.gpu_va +
desc->app_start_offset +
desc->app_resident_data_offset)));
addr_data_hi = u64_hi32(right_shift_8bits((pmu->fw->ucode.gpu_va +
desc->app_start_offset +
desc->app_resident_data_offset)));
addr_load_lo = u64_lo32(right_shift_8bits((pmu->fw->ucode.gpu_va +
desc->bootloader_start_offset)));
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), GK20A_PMU_DMAIDX_UCODE);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), left_shift_8bits(addr_code_lo));
nvgpu_writel(g, pwr_falcon_dmemd_r(0), addr_code_hi);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), desc->app_resident_code_offset);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), desc->app_resident_code_size);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_0);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), desc->app_imem_entry);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), left_shift_8bits(addr_data_lo));
nvgpu_writel(g, pwr_falcon_dmemd_r(0), addr_data_hi);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), desc->app_resident_data_size);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), DMEM_DATA_1);
nvgpu_writel(g, pwr_falcon_dmemd_r(0), args_offset);
g->ops.pmu.write_dmatrfbase(g,
addr_load_lo -
(right_shift_8bits(desc->bootloader_imem_offset)));
blocks = right_shift_8bits(((desc->bootloader_size + U8_MAX) & ~(u32)U8_MAX));
for (i = DMA_OFFSET_START; i < blocks; i++) {
nvgpu_writel(g, pwr_falcon_dmatrfmoffs_r(),
desc->bootloader_imem_offset + left_shift_8bits(i));
nvgpu_writel(g, pwr_falcon_dmatrffboffs_r(),
desc->bootloader_imem_offset + left_shift_8bits(i));
nvgpu_writel(g, pwr_falcon_dmatrfcmd_r(),
pwr_falcon_dmatrfcmd_imem_f(1) |
pwr_falcon_dmatrfcmd_write_f(0) |
pwr_falcon_dmatrfcmd_size_f(6) |
pwr_falcon_dmatrfcmd_ctxdma_f(GK20A_PMU_DMAIDX_UCODE));
}
err = nvgpu_falcon_bootstrap(pmu->flcn, desc->bootloader_entry_point);
nvgpu_writel(g, pwr_falcon_os_r(), desc->app_version);
return err;
}
u32 ga10b_pmu_get_inst_block_config(struct gk20a *g)
{
struct mm_gk20a *mm = &g->mm;
u32 inst_block_ptr = 0;
inst_block_ptr = nvgpu_inst_block_ptr(g, &mm->pmu.inst_block);
return (pwr_pmu_new_instblk_ptr_f(inst_block_ptr) |
pwr_pmu_new_instblk_valid_f(1) |
(nvgpu_is_enabled(g, NVGPU_USE_COHERENT_SYSMEM) ?
pwr_pmu_new_instblk_target_sys_coh_f() :
pwr_pmu_new_instblk_target_sys_ncoh_f()));
}
static int ga10b_pmu_ns_nvriscv_bootstrap(struct gk20a *g, struct nvgpu_pmu *pmu,
u32 args_offset)
{
struct falcon_next_core_ucode_desc *desc;
struct pmu_rtos_fw *rtos_fw = g->pmu->fw;
u64 fmc_code_addr = 0;
u64 fmc_data_addr = 0;
u64 manifest_addr = 0;
(void)args_offset;
desc = (struct falcon_next_core_ucode_desc *)(void *)
rtos_fw->fw_desc->data;
fmc_code_addr = right_shift_8bits((nvgpu_mem_get_addr(g,
&pmu->fw->ucode) + desc->monitor_code_offset));
fmc_data_addr = right_shift_8bits((nvgpu_mem_get_addr(g,
&pmu->fw->ucode) + desc->monitor_data_offset));
manifest_addr = right_shift_8bits((nvgpu_mem_get_addr(g,
&pmu->fw->ucode) + desc->manifest_offset));
g->ops.falcon.brom_config(pmu->flcn, fmc_code_addr, fmc_data_addr,
manifest_addr);
g->ops.falcon.bootstrap(pmu->flcn, 0U);
return 0;
}
int ga10b_pmu_ns_bootstrap(struct gk20a *g, struct nvgpu_pmu *pmu,
u32 args_offset)
{
int err = 0;
if (nvgpu_is_enabled(g, NVGPU_PMU_NEXT_CORE_ENABLED)) {
err = ga10b_pmu_ns_nvriscv_bootstrap(g, pmu, args_offset);
} else {
err = ga10b_pmu_ns_falcon_bootstrap(g, pmu, args_offset);
}
return err;
}
#endif /* CONFIG_NVGPU_LS_PMU */
void ga10b_pmu_dump_elpg_stats(struct nvgpu_pmu *pmu)
{
struct gk20a *g = pmu->g;
nvgpu_pmu_dbg(g, "pwr_pmu_idle_mask_supp_r(3): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_mask_supp_r(3)));
nvgpu_pmu_dbg(g, "pwr_pmu_idle_mask_1_supp_r(3): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_mask_1_supp_r(3)));
nvgpu_pmu_dbg(g, "pwr_pmu_idle_ctrl_supp_r(3): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_ctrl_supp_r(3)));
nvgpu_pmu_dbg(g, "pwr_pmu_pg_idle_cnt_r(0): 0x%08x",
nvgpu_readl(g, pwr_pmu_pg_idle_cnt_r(0)));
nvgpu_pmu_dbg(g, "pwr_pmu_pg_intren_r(0): 0x%08x",
nvgpu_readl(g, pwr_pmu_pg_intren_r(0)));
nvgpu_pmu_dbg(g, "pwr_pmu_idle_count_r(3): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_count_r(3)));
nvgpu_pmu_dbg(g, "pwr_pmu_idle_count_r(4): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_count_r(4)));
nvgpu_pmu_dbg(g, "pwr_pmu_idle_count_r(7): 0x%08x",
nvgpu_readl(g, pwr_pmu_idle_count_r(7)));
}
void ga10b_pmu_init_perfmon_counter(struct gk20a *g)
{
u32 data;
/* use counter #3 for GR && CE2 busy cycles */
nvgpu_writel(g, pwr_pmu_idle_mask_r(IDLE_COUNTER_3),
pwr_pmu_idle_mask_gr_enabled_f() |
pwr_pmu_idle_mask_ce_2_enabled_f());
/* disable idle filtering for counters 3 and 6 */
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_3));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_busy_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_3), data);
/* use counter #6 for total cycles */
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_6));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_always_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_6), data);
/*
* We don't want to disturb counters #3 and #6, which are used by
* perfmon, so we add wiring also to counters #1 and #2 for
* exposing raw counter readings.
*/
nvgpu_writel(g, pwr_pmu_idle_mask_r(IDLE_COUNTER_1),
pwr_pmu_idle_mask_gr_enabled_f() |
pwr_pmu_idle_mask_ce_2_enabled_f());
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_1));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_busy_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_1), data);
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_2));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_always_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_2), data);
/*
* use counters 4 and 0 for perfmon to log busy cycles and total
* cycles counter #0 overflow sets pmu idle intr status bit
*/
nvgpu_writel(g, pwr_pmu_idle_intr_r(),
pwr_pmu_idle_intr_en_f(0));
nvgpu_writel(g, pwr_pmu_idle_threshold_r(IDLE_COUNTER_0),
pwr_pmu_idle_threshold_value_f(PMU_IDLE_THRESHOLD_V));
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_0));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_always_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_0), data);
nvgpu_writel(g, pwr_pmu_idle_mask_r(IDLE_COUNTER_4),
pwr_pmu_idle_mask_gr_enabled_f() |
pwr_pmu_idle_mask_ce_2_enabled_f());
data = nvgpu_readl(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_4));
data = set_field(data, pwr_pmu_idle_ctrl_value_m() |
pwr_pmu_idle_ctrl_filter_m(),
pwr_pmu_idle_ctrl_value_busy_f() |
pwr_pmu_idle_ctrl_filter_disabled_f());
nvgpu_writel(g, pwr_pmu_idle_ctrl_r(IDLE_COUNTER_4), data);
nvgpu_writel(g, pwr_pmu_idle_count_r(IDLE_COUNTER_0),
pwr_pmu_idle_count_reset_f(1));
nvgpu_writel(g, pwr_pmu_idle_count_r(IDLE_COUNTER_4),
pwr_pmu_idle_count_reset_f(1));
nvgpu_writel(g, pwr_pmu_idle_intr_status_r(),
pwr_pmu_idle_intr_status_intr_f(1));
}
u32 ga10b_pmu_read_idle_counter(struct gk20a *g, u32 counter_id)
{
return pwr_pmu_idle_count_value_v(
nvgpu_readl(g, pwr_pmu_idle_count_r(counter_id)));
}
void ga10b_pmu_reset_idle_counter(struct gk20a *g, u32 counter_id)
{
nvgpu_writel(g, pwr_pmu_idle_count_r(counter_id),
pwr_pmu_idle_count_reset_f(1));
}
bool ga10b_pmu_is_debug_mode_en(struct gk20a *g)
{
u32 ctl_stat = nvgpu_readl(g, pwr_falcon_hwcfg2_r());
if (pwr_falcon_hwcfg2_dbgmode_v(ctl_stat) ==
pwr_falcon_hwcfg2_dbgmode_enable_v()) {
nvgpu_pmu_dbg(g, "DEBUG MODE");
return true;
} else {
nvgpu_pmu_dbg(g, "PROD MODE");
return false;
}
}
void ga10b_pmu_handle_swgen1_irq(struct gk20a *g, u32 intr)
{
#ifdef CONFIG_NVGPU_FALCON_DEBUG
struct nvgpu_pmu *pmu = g->pmu;
int err = 0;
if ((intr & pwr_falcon_irqstat_swgen1_true_f()) != 0U) {
err = nvgpu_falcon_dbg_buf_display(pmu->flcn);
if (err != 0) {
nvgpu_err(g, "nvgpu_falcon_dbg_buf_display failed err=%d",
err);
}
}
#endif
(void)g;
(void)intr;
}
/*
* GA10B PMU IRQ registers are not accessible when NVRISCV PRIV
* lockdown is engaged, so need to skip accessing IRQ registers.
*/
#ifdef CONFIG_NVGPU_LS_PMU
bool ga10b_pmu_is_interrupted(struct nvgpu_pmu *pmu)
{
struct gk20a *g = pmu->g;
/*
* Fix "GPU has disappeared from bus" failure.
* Function could be called from main GPU thread or
* pg task thread and PMU unit may have exited in
* nvgpu_pmu_destroy() as part of power off sequence
* and the registers may have been unmapped.
* So skip the NVRSICV priv lock down register read
* which can trigger the error:
* "GPU has disappeared from bus".
*/
if (nvgpu_pmu_get_fw_state(g, pmu) != PMU_FW_STATE_OFF) {
if (!g->ops.falcon.is_priv_lockdown(pmu->flcn)) {
return gk20a_pmu_is_interrupted(pmu);
}
}
return false;
}
#endif
/*
*
* Interrupts required for LS-PMU are configured by LS-PMU ucode as part of
* LS-PMU init code, so just enable/disable PMU interrupt from MC.
*
*/
void ga10b_pmu_enable_irq(struct nvgpu_pmu *pmu, bool enable)
{
struct gk20a *g = pmu->g;
nvgpu_log_fn(g, " ");
nvgpu_cic_mon_intr_stall_unit_config(g,
NVGPU_CIC_INTR_UNIT_PMU,
enable);
}
static int ga10b_pmu_handle_ecc(struct gk20a *g)
{
int ret = 0;
u32 ecc_status = 0;
ecc_status = g->ops.pmu.get_ecc_status(g);
if ((ecc_status &
pwr_pmu_falcon_ecc_status_uncorrected_err_imem_m()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_IMEM_ECC_UNCORRECTED);
nvgpu_err(g, "imem ecc error uncorrected ");
ret = -EFAULT;
}
if ((ecc_status &
pwr_pmu_falcon_ecc_status_uncorrected_err_dmem_m()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_DMEM_ECC_UNCORRECTED);
nvgpu_err(g, "dmem ecc error uncorrected");
ret = -EFAULT;
}
if ((ecc_status &
pwr_pmu_falcon_ecc_status_uncorrected_err_dcls_m()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_DCLS_UNCORRECTED);
nvgpu_err(g, "dcls ecc error uncorrected");
ret = -EFAULT;
}
if ((ecc_status &
pwr_pmu_falcon_ecc_status_uncorrected_err_reg_m()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_REG_ECC_UNCORRECTED);
nvgpu_err(g, "reg ecc error uncorrected");
ret = -EFAULT;
}
if ((ecc_status &
pwr_pmu_falcon_ecc_status_uncorrected_err_mpu_ram_m()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_MPU_ECC_UNCORRECTED);
nvgpu_err(g, "mpu ecc error uncorrected");
ret = -EFAULT;
}
if (ret != 0) {
nvgpu_err(g, "ecc_addr(0x%x)",
g->ops.pmu.get_ecc_address(g));
}
return ret;
}
void ga10b_pmu_handle_ext_irq(struct gk20a *g, u32 intr0)
{
/* handle the ECC interrupt */
if ((intr0 & pwr_falcon_irqstat_ext_ecc_parity_true_f()) != 0U) {
ga10b_pmu_handle_ecc(g);
}
/* handle the MEMERR interrupt */
if ((intr0 & pwr_falcon_irqstat_memerr_true_f()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_ACCESS_TIMEOUT_UNCORRECTED);
nvgpu_err(g, "memerr/access timeout error uncorrected");
}
/* handle the IOPMP interrupt */
if ((intr0 & pwr_falcon_irqstat_iopmp_true_f()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_ILLEGAL_ACCESS_UNCORRECTED);
nvgpu_err(g, "iopmp/illegal access error uncorrected");
}
/* handle the WDT interrupt */
if ((intr0 & pwr_falcon_irqstat_wdt_true_f()) != 0U) {
nvgpu_report_err_to_sdl(g, NVGPU_ERR_MODULE_PMU,
GPU_PMU_WDT_UNCORRECTED);
nvgpu_err(g, "wdt error uncorrected");
}
}
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