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linux-nvgpu/drivers/gpu/nvgpu/common/mc/mc_tu104.c
Seshendra Gadagottu 9346b104d4 gpu: nvgpu: ltc: create sub-unit for ltc intr 
Created sub-unit for ltc interrupt handling.
Following 2-hals are moved from ltc to ltc intr unit:
void (*isr)(struct gk20a *g, u32 ltc);
void (*en_illegal_compstat)(struct gk20a *g, bool enable)

Added new hal in ltc intr sub-unit for configuring ltc interrupts:
void (*configure)(struct gk20a *g);

Moved ltc interrupt related code from ltc to ltc intr unit.
Chip ltc.intr hals are populated with updated function names
created in ltc intr unit.

Converted all "unsigned int" usage to "u32" in ltc and ltc intr units
to match with hardware 32 bit register read/write.

JIRA NVGPU-3042
JIRA NVGPU-2044

Change-Id: I8684dfcc8ae343e4588b93f2b0ccde0e227635df
Signed-off-by: Seshendra Gadagottu <sgadagottu@nvidia.com>
Reviewed-on: https://git-master.nvidia.com/r/2081140
Reviewed-by: mobile promotions <svcmobile_promotions@nvidia.com>
Tested-by: mobile promotions <svcmobile_promotions@nvidia.com>
2019-03-27 10:26:02 -07:00

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/*
* Copyright (c) 2018-2019, 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/types.h>
#include <nvgpu/io.h>
#include <nvgpu/utils.h>
#include <nvgpu/mc.h>
#include <nvgpu/ltc.h>
#include <nvgpu/gk20a.h>
#include <nvgpu/engines.h>
#include "common/mc/mc_gp10b.h"
#include "mc_tu104.h"
#include "tu104/func_tu104.h"
#include "nvgpu/hw/tu104/hw_mc_tu104.h"
#include "nvgpu/hw/tu104/hw_func_tu104.h"
#include "nvgpu/hw/tu104/hw_ctrl_tu104.h"
/* helper to set leaf_reg_bit in LEAF_EN_SET(leaf_reg_index) register */
void intr_tu104_leaf_en_set(struct gk20a *g, u32 leaf_reg_index,
u32 leaf_reg_bit)
{
u32 val;
val = nvgpu_func_readl(g,
func_priv_cpu_intr_leaf_en_set_r(leaf_reg_index));
val |= BIT(leaf_reg_bit);
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_en_set_r(leaf_reg_index),
val);
}
/* helper to set leaf_reg_bit in LEAF_EN_CLEAR(leaf_reg_index) register */
void intr_tu104_leaf_en_clear(struct gk20a *g, u32 leaf_reg_index,
u32 leaf_reg_bit)
{
u32 val;
val = nvgpu_func_readl(g,
func_priv_cpu_intr_leaf_en_clear_r(leaf_reg_index));
val |= BIT(leaf_reg_bit);
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_en_clear_r(leaf_reg_index),
val);
}
/* helper to set leaf_reg_bit in LEAF(leaf_reg_index) register */
static void intr_tu104_leaf_clear(struct gk20a *g, u32 leaf_reg_index,
u32 leaf_reg_bit)
{
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_r(leaf_reg_index),
BIT(leaf_reg_bit));
}
/* helper to set top_reg_bit in TOP_EN_SET(top_reg_index) register */
void intr_tu104_top_en_set(struct gk20a *g, u32 top_reg_index,
u32 top_reg_bit)
{
u32 val;
val = nvgpu_func_readl(g,
func_priv_cpu_intr_top_en_set_r(top_reg_index));
val |= BIT(top_reg_bit);
nvgpu_func_writel(g,
func_priv_cpu_intr_top_en_set_r(top_reg_index),
val);
}
/* helper to enable interrupt vector in both LEAF and TOP registers */
void intr_tu104_vector_en_set(struct gk20a *g, u32 intr_vector)
{
intr_tu104_leaf_en_set(g,
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_REG(intr_vector),
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_BIT(intr_vector));
intr_tu104_top_en_set(g,
NV_CPU_INTR_SUBTREE_TO_TOP_IDX(
NV_CPU_INTR_GPU_VECTOR_TO_SUBTREE(intr_vector)),
(NV_CPU_INTR_SUBTREE_TO_TOP_BIT(
NV_CPU_INTR_GPU_VECTOR_TO_SUBTREE(intr_vector))));
}
/* helper to disable interrupt vector in LEAF register */
void intr_tu104_vector_en_clear(struct gk20a *g, u32 intr_vector)
{
intr_tu104_leaf_en_clear(g,
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_REG(intr_vector),
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_BIT(intr_vector));
}
/* helper to clear an interrupt vector in LEAF register */
void intr_tu104_intr_clear_leaf_vector(struct gk20a *g, u32 intr_vector)
{
intr_tu104_leaf_clear(g,
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_REG(intr_vector),
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_BIT(intr_vector));
}
/* helper to check if interrupt is pending for interrupt vector */
bool intr_tu104_vector_intr_pending(struct gk20a *g, u32 intr_vector)
{
u32 leaf_val;
leaf_val = nvgpu_func_readl(g,
func_priv_cpu_intr_leaf_r(
NV_CPU_INTR_GPU_VECTOR_TO_LEAF_REG(intr_vector)));
return leaf_val &
BIT32(NV_CPU_INTR_GPU_VECTOR_TO_LEAF_BIT(intr_vector));
}
static void intr_tu104_stall_enable(struct gk20a *g)
{
u32 eng_intr_mask = nvgpu_engine_interrupt_mask(g);
nvgpu_writel(g, mc_intr_en_clear_r(NVGPU_MC_INTR_STALLING),
0xffffffffU);
g->mc_intr_mask_restore[NVGPU_MC_INTR_STALLING] =
mc_intr_pfifo_pending_f() |
mc_intr_priv_ring_pending_f() |
mc_intr_pbus_pending_f() |
mc_intr_ltc_pending_f() |
mc_intr_nvlink_pending_f() |
mc_intr_pfb_pending_f() |
eng_intr_mask;
nvgpu_writel(g, mc_intr_en_set_r(NVGPU_MC_INTR_STALLING),
g->mc_intr_mask_restore[NVGPU_MC_INTR_STALLING]);
}
static void intr_tu104_nonstall_enable(struct gk20a *g)
{
u32 i;
u32 nonstall_intr_base = 0;
u64 nonstall_intr_mask = 0;
u32 active_engine_id, intr_mask;
/* Keep NV_PMC_INTR(1) disabled */
nvgpu_writel(g, mc_intr_en_clear_r(NVGPU_MC_INTR_NONSTALLING),
0xffffffffU);
/*
* Enable nonstall interrupts in TOP
* Enable all engine specific non-stall interrupts in LEAF
*
* We need to read and add
* ctrl_legacy_engine_nonstall_intr_base_vectorid_r()
* to get correct interrupt id in NV_CTRL tree
*/
nonstall_intr_base = nvgpu_readl(g,
ctrl_legacy_engine_nonstall_intr_base_vectorid_r());
for (i = 0; i < g->fifo.num_engines; i++) {
active_engine_id = g->fifo.active_engines_list[i];
intr_mask = g->fifo.engine_info[active_engine_id].intr_mask;
nonstall_intr_mask |= U64(intr_mask) << U64(nonstall_intr_base);
}
nvgpu_func_writel(g,
func_priv_cpu_intr_top_en_set_r(
NV_CPU_INTR_SUBTREE_TO_TOP_IDX(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
BIT32(NV_CPU_INTR_SUBTREE_TO_TOP_BIT(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_en_set_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG0(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
u64_lo32(nonstall_intr_mask));
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_en_set_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG1(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
u64_hi32(nonstall_intr_mask));
}
void intr_tu104_mask(struct gk20a *g)
{
u32 size, reg, i;
nvgpu_writel(g, mc_intr_en_clear_r(NVGPU_MC_INTR_STALLING),
0xffffffffU);
nvgpu_writel(g, mc_intr_en_clear_r(NVGPU_MC_INTR_NONSTALLING),
0xffffffffU);
size = func_priv_cpu_intr_top_en_clear__size_1_v();
for (i = 0; i < size; i++) {
reg = func_priv_cpu_intr_top_en_clear_r(i);
nvgpu_func_writel(g, reg, 0xffffffffU);
}
}
/* Enable all required interrupts */
void intr_tu104_enable(struct gk20a *g)
{
intr_tu104_stall_enable(g);
intr_tu104_nonstall_enable(g);
}
/* Return non-zero if nonstall interrupts are pending */
u32 intr_tu104_nonstall(struct gk20a *g)
{
u32 nonstall_intr_status;
u32 nonstall_intr_set_mask;
nonstall_intr_status =
nvgpu_func_readl(g, func_priv_cpu_intr_top_r(
NV_CPU_INTR_SUBTREE_TO_TOP_IDX(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
nonstall_intr_set_mask = BIT32(
NV_CPU_INTR_SUBTREE_TO_TOP_BIT(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE));
return nonstall_intr_status & nonstall_intr_set_mask;
}
/* pause all nonstall interrupts */
void intr_tu104_nonstall_pause(struct gk20a *g)
{
nvgpu_func_writel(g,
func_priv_cpu_intr_top_en_clear_r(
NV_CPU_INTR_SUBTREE_TO_TOP_IDX(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
BIT32(NV_CPU_INTR_SUBTREE_TO_TOP_BIT(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
}
/* resume all nonstall interrupts */
void intr_tu104_nonstall_resume(struct gk20a *g)
{
nvgpu_func_writel(g,
func_priv_cpu_intr_top_en_set_r(
NV_CPU_INTR_SUBTREE_TO_TOP_IDX(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
BIT32(NV_CPU_INTR_SUBTREE_TO_TOP_BIT(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
}
/* Handle and clear all nonstall interrupts */
u32 intr_tu104_isr_nonstall(struct gk20a *g)
{
u32 i;
u32 nonstall_intr_base = 0;
u64 nonstall_intr_mask = 0;
u32 nonstall_intr_mask_lo, nonstall_intr_mask_hi;
u32 intr_leaf_reg0, intr_leaf_reg1;
u32 active_engine_id, intr_mask;
u32 ops = 0;
intr_leaf_reg0 = nvgpu_func_readl(g,
func_priv_cpu_intr_leaf_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG0(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
intr_leaf_reg1 = nvgpu_func_readl(g,
func_priv_cpu_intr_leaf_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG1(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)));
nonstall_intr_base = nvgpu_readl(g,
ctrl_legacy_engine_nonstall_intr_base_vectorid_r());
for (i = 0; i < g->fifo.num_engines; i++) {
active_engine_id = g->fifo.active_engines_list[i];
intr_mask = g->fifo.engine_info[active_engine_id].intr_mask;
nonstall_intr_mask = U64(intr_mask) << U64(nonstall_intr_base);
nonstall_intr_mask_lo = u64_lo32(nonstall_intr_mask);
nonstall_intr_mask_hi = u64_hi32(nonstall_intr_mask);
if ((nonstall_intr_mask_lo & intr_leaf_reg0) != 0U ||
(nonstall_intr_mask_hi & intr_leaf_reg1) != 0U) {
nvgpu_log(g, gpu_dbg_intr, "nonstall intr from engine %d",
active_engine_id);
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG0(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
nonstall_intr_mask_lo);
nvgpu_func_writel(g,
func_priv_cpu_intr_leaf_r(
NV_CPU_INTR_SUBTREE_TO_LEAF_REG1(
NV_CPU_INTR_TOP_NONSTALL_SUBTREE)),
nonstall_intr_mask_hi);
ops |= (GK20A_NONSTALL_OPS_WAKEUP_SEMAPHORE |
GK20A_NONSTALL_OPS_POST_EVENTS);
}
}
return ops;
}
/* Return non-zero if stall interrupts are pending */
u32 intr_tu104_stall(struct gk20a *g)
{
u32 mc_intr_0;
mc_intr_0 = mc_gp10b_intr_stall(g);
if (mc_intr_0 != 0U) {
return mc_intr_0;
}
if (g->ops.mc.is_intr_hub_pending != NULL) {
return g->ops.mc.is_intr_hub_pending(g, 0);
}
return 0;
}
/* Return true if HUB interrupt is pending */
bool intr_tu104_is_intr_hub_pending(struct gk20a *g, u32 mc_intr_0)
{
return g->ops.mm.mmu_fault_pending(g);
}
/* pause all stall interrupts */
void intr_tu104_stall_pause(struct gk20a *g)
{
mc_gp10b_intr_stall_pause(g);
g->ops.fb.disable_hub_intr(g);
}
/* resume all stall interrupts */
void intr_tu104_stall_resume(struct gk20a *g)
{
mc_gp10b_intr_stall_resume(g);
g->ops.fb.enable_hub_intr(g);
}
#define MAX_INTR_TOP_REGS (2U)
void intr_tu104_log_pending_intrs(struct gk20a *g)
{
bool pending;
u32 intr, i;
intr = intr_tu104_nonstall(g);
if (intr != 0U) {
nvgpu_info(g, "Pending nonstall intr=0x%08x", intr);
}
intr = mc_gp10b_intr_stall(g);
if (intr != 0U) {
nvgpu_info(g, "Pending stall intr=0x%08x", intr);
}
if (g->ops.mc.is_intr_hub_pending != NULL) {
pending = g->ops.mc.is_intr_hub_pending(g, 0);
if (pending) {
nvgpu_info(g, "Pending hub intr");
}
}
for (i = 0; i < MAX_INTR_TOP_REGS; i++) {
intr = nvgpu_func_readl(g,
func_priv_cpu_intr_top_r(i));
if (intr == 0U) {
continue;
}
nvgpu_info(g, "Pending TOP%d intr=0x%08x", i, intr);
}
}
void mc_tu104_fbpa_isr(struct gk20a *g)
{
u32 intr_fbpa, fbpas;
u32 i, num_fbpas;
intr_fbpa = gk20a_readl(g, mc_intr_fbpa_r());
fbpas = mc_intr_fbpa_part_mask_v(intr_fbpa);
num_fbpas = nvgpu_get_litter_value(g, GPU_LIT_NUM_FBPAS);
for (i = 0u; i < num_fbpas; i++) {
if ((fbpas & BIT32(i)) == 0U) {
continue;
}
g->ops.fb.handle_fbpa_intr(g, i);
}
}
void mc_tu104_ltc_isr(struct gk20a *g)
{
u32 ltc;
/* Go through all the LTCs explicitly */
for (ltc = 0; ltc < nvgpu_ltc_get_ltc_count(g); ltc++) {
g->ops.ltc.intr.isr(g, ltc);
}
}
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