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|
/*
* GV11B fifo
*
* Copyright (c) 2015-2017, NVIDIA CORPORATION. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*/
#include <linux/delay.h>
#include <linux/types.h>
#include "nvgpu/semaphore.h"
#include <nvgpu/timers.h>
#include "gk20a/gk20a.h"
#include "gp10b/fifo_gp10b.h"
#include <nvgpu/hw/gv11b/hw_pbdma_gv11b.h>
#include <nvgpu/hw/gv11b/hw_fifo_gv11b.h>
#include <nvgpu/hw/gv11b/hw_ram_gv11b.h>
#include <nvgpu/hw/gv11b/hw_ccsr_gv11b.h>
#include <nvgpu/hw/gv11b/hw_usermode_gv11b.h>
#include <nvgpu/hw/gv11b/hw_top_gv11b.h>
#include <nvgpu/hw/gv11b/hw_gmmu_gv11b.h>
#include "fifo_gv11b.h"
#include "subctx_gv11b.h"
#include "gr_gv11b.h"
#define CHANNEL_INFO_VEID0 0
#define PBDMA_SUBDEVICE_ID 1
static void gv11b_get_tsg_runlist_entry(struct tsg_gk20a *tsg, u32 *runlist)
{
u32 runlist_entry_0 = ram_rl_entry_type_tsg_v();
if (tsg->timeslice_timeout)
runlist_entry_0 |=
ram_rl_entry_tsg_timeslice_scale_f(tsg->timeslice_scale) |
ram_rl_entry_tsg_timeslice_timeout_f(tsg->timeslice_timeout);
else
runlist_entry_0 |=
ram_rl_entry_tsg_timeslice_scale_f(
ram_rl_entry_tsg_timeslice_scale_3_v()) |
ram_rl_entry_tsg_timeslice_timeout_f(
ram_rl_entry_tsg_timeslice_timeout_128_v());
runlist[0] = runlist_entry_0;
runlist[1] = ram_rl_entry_tsg_length_f(tsg->num_active_channels);
runlist[2] = ram_rl_entry_tsg_tsgid_f(tsg->tsgid);
runlist[3] = 0;
gk20a_dbg_info("gv11b tsg runlist [0] %x [1] %x [2] %x [3] %x\n",
runlist[0], runlist[1], runlist[2], runlist[3]);
}
static void gv11b_get_ch_runlist_entry(struct channel_gk20a *c, u32 *runlist)
{
struct gk20a *g = c->g;
u32 addr_lo, addr_hi;
u32 runlist_entry;
/* Time being use 0 pbdma sequencer */
runlist_entry = ram_rl_entry_type_channel_v() |
ram_rl_entry_chan_runqueue_selector_f(0) |
ram_rl_entry_chan_userd_target_f(
ram_rl_entry_chan_userd_target_sys_mem_ncoh_v()) |
ram_rl_entry_chan_inst_target_f(
ram_rl_entry_chan_userd_target_sys_mem_ncoh_v());
addr_lo = u64_lo32(c->userd_iova) >>
ram_rl_entry_chan_userd_ptr_align_shift_v();
addr_hi = u64_hi32(c->userd_iova);
runlist[0] = runlist_entry | ram_rl_entry_chan_userd_ptr_lo_f(addr_lo);
runlist[1] = ram_rl_entry_chan_userd_ptr_hi_f(addr_hi);
addr_lo = u64_lo32(gk20a_mm_inst_block_addr(g, &c->inst_block)) >>
ram_rl_entry_chan_inst_ptr_align_shift_v();
addr_hi = u64_hi32(gk20a_mm_inst_block_addr(g, &c->inst_block));
runlist[2] = ram_rl_entry_chan_inst_ptr_lo_f(addr_lo) |
ram_rl_entry_chid_f(c->hw_chid);
runlist[3] = ram_rl_entry_chan_inst_ptr_hi_f(addr_hi);
gk20a_dbg_info("gv11b channel runlist [0] %x [1] %x [2] %x [3] %x\n",
runlist[0], runlist[1], runlist[2], runlist[3]);
}
static void gv11b_userd_writeback_config(struct gk20a *g)
{
gk20a_writel(g, fifo_userd_writeback_r(), fifo_userd_writeback_timer_f(
fifo_userd_writeback_timer_100us_v()));
}
static int channel_gv11b_setup_ramfc(struct channel_gk20a *c,
u64 gpfifo_base, u32 gpfifo_entries, u32 flags)
{
struct gk20a *g = c->g;
struct mem_desc *mem = &c->inst_block;
u32 data;
gk20a_dbg_fn("");
gk20a_memset(g, mem, 0, 0, ram_fc_size_val_v());
gk20a_mem_wr32(g, mem, ram_fc_gp_base_w(),
pbdma_gp_base_offset_f(
u64_lo32(gpfifo_base >> pbdma_gp_base_rsvd_s())));
gk20a_mem_wr32(g, mem, ram_fc_gp_base_hi_w(),
pbdma_gp_base_hi_offset_f(u64_hi32(gpfifo_base)) |
pbdma_gp_base_hi_limit2_f(ilog2(gpfifo_entries)));
gk20a_mem_wr32(g, mem, ram_fc_signature_w(),
c->g->ops.fifo.get_pbdma_signature(c->g));
gk20a_mem_wr32(g, mem, ram_fc_pb_header_w(),
pbdma_pb_header_priv_user_f() |
pbdma_pb_header_method_zero_f() |
pbdma_pb_header_subchannel_zero_f() |
pbdma_pb_header_level_main_f() |
pbdma_pb_header_first_true_f() |
pbdma_pb_header_type_inc_f());
gk20a_mem_wr32(g, mem, ram_fc_subdevice_w(),
pbdma_subdevice_id_f(PBDMA_SUBDEVICE_ID) |
pbdma_subdevice_status_active_f() |
pbdma_subdevice_channel_dma_enable_f());
gk20a_mem_wr32(g, mem, ram_fc_target_w(),
pbdma_target_eng_ctx_valid_true_f() |
pbdma_target_ce_ctx_valid_true_f() |
pbdma_target_engine_sw_f());
gk20a_mem_wr32(g, mem, ram_fc_acquire_w(),
channel_gk20a_pbdma_acquire_val(c));
gk20a_mem_wr32(g, mem, ram_fc_runlist_timeslice_w(),
pbdma_runlist_timeslice_timeout_128_f() |
pbdma_runlist_timeslice_timescale_3_f() |
pbdma_runlist_timeslice_enable_true_f());
gk20a_mem_wr32(g, mem, ram_fc_chid_w(), ram_fc_chid_id_f(c->hw_chid));
/* Until full subcontext is supported, always use VEID0 */
gk20a_mem_wr32(g, mem, ram_fc_set_channel_info_w(),
pbdma_set_channel_info_scg_type_graphics_compute0_f() |
pbdma_set_channel_info_veid_f(CHANNEL_INFO_VEID0));
if (c->is_privileged_channel) {
/* Set privilege level for channel */
gk20a_mem_wr32(g, mem, ram_fc_config_w(),
pbdma_config_auth_level_privileged_f());
gk20a_channel_setup_ramfc_for_privileged_channel(c);
}
/* Enable userd writeback */
data = gk20a_mem_rd32(g, mem, ram_fc_config_w());
data = data | pbdma_config_userd_writeback_enable_f();
gk20a_mem_wr32(g, mem, ram_fc_config_w(),data);
gv11b_userd_writeback_config(g);
return channel_gp10b_commit_userd(c);
}
static void gv11b_ring_channel_doorbell(struct channel_gk20a *c)
{
gk20a_dbg_info("channel ring door bell %d\n", c->hw_chid);
gk20a_writel(c->g, usermode_notify_channel_pending_r(),
usermode_notify_channel_pending_id_f(c->hw_chid));
}
static u32 gv11b_userd_gp_get(struct gk20a *g, struct channel_gk20a *c)
{
struct mem_desc *userd_mem = &g->fifo.userd;
u32 offset = c->hw_chid * (g->fifo.userd_entry_size / sizeof(u32));
return gk20a_mem_rd32(g, userd_mem,
offset + ram_userd_gp_get_w());
}
static void gv11b_userd_gp_put(struct gk20a *g, struct channel_gk20a *c)
{
struct mem_desc *userd_mem = &g->fifo.userd;
u32 offset = c->hw_chid * (g->fifo.userd_entry_size / sizeof(u32));
gk20a_mem_wr32(g, userd_mem, offset + ram_userd_gp_put_w(),
c->gpfifo.put);
/* commit everything to cpu */
smp_mb();
gv11b_ring_channel_doorbell(c);
}
static void channel_gv11b_unbind(struct channel_gk20a *ch)
{
gk20a_dbg_fn("");
channel_gk20a_unbind(ch);
}
static u32 gv11b_fifo_get_num_fifos(struct gk20a *g)
{
return ccsr_channel__size_1_v();
}
static bool gv11b_is_fault_engine_subid_gpc(struct gk20a *g, u32 engine_subid)
{
return (engine_subid == gmmu_fault_client_type_gpc_v());
}
static void gv11b_dump_channel_status_ramfc(struct gk20a *g,
struct gk20a_debug_output *o,
u32 hw_chid,
struct ch_state *ch_state)
{
u32 channel = gk20a_readl(g, ccsr_channel_r(hw_chid));
u32 status = ccsr_channel_status_v(channel);
u32 *inst_mem;
struct channel_gk20a *c = g->fifo.channel + hw_chid;
struct nvgpu_semaphore_int *hw_sema = NULL;
if (c->hw_sema)
hw_sema = c->hw_sema;
if (!ch_state)
return;
inst_mem = &ch_state->inst_block[0];
gk20a_debug_output(o, "%d-%s, pid %d, refs: %d: ", hw_chid,
dev_name(g->dev),
ch_state->pid,
ch_state->refs);
gk20a_debug_output(o, "channel status: %s in use %s %s\n",
ccsr_channel_enable_v(channel) ? "" : "not",
gk20a_decode_ccsr_chan_status(status),
ccsr_channel_busy_v(channel) ? "busy" : "not busy");
gk20a_debug_output(o, "RAMFC : TOP: %016llx PUT: %016llx GET: %016llx "
"FETCH: %016llx\nHEADER: %08x COUNT: %08x\n"
"SEMAPHORE: addr hi: %08x addr lo: %08x\n"
"payload %08x execute %08x\n",
(u64)inst_mem[ram_fc_pb_top_level_get_w()] +
((u64)inst_mem[ram_fc_pb_top_level_get_hi_w()] << 32ULL),
(u64)inst_mem[ram_fc_pb_put_w()] +
((u64)inst_mem[ram_fc_pb_put_hi_w()] << 32ULL),
(u64)inst_mem[ram_fc_pb_get_w()] +
((u64)inst_mem[ram_fc_pb_get_hi_w()] << 32ULL),
(u64)inst_mem[ram_fc_pb_fetch_w()] +
((u64)inst_mem[ram_fc_pb_fetch_hi_w()] << 32ULL),
inst_mem[ram_fc_pb_header_w()],
inst_mem[ram_fc_pb_count_w()],
inst_mem[ram_fc_sem_addr_hi_w()],
inst_mem[ram_fc_sem_addr_lo_w()],
inst_mem[ram_fc_sem_payload_lo_w()],
inst_mem[ram_fc_sem_execute_w()]);
if (hw_sema)
gk20a_debug_output(o, "SEMA STATE: value: 0x%08x "
"next_val: 0x%08x addr: 0x%010llx\n",
readl(hw_sema->value),
atomic_read(&hw_sema->next_value),
nvgpu_hw_sema_addr(hw_sema));
gk20a_debug_output(o, "\n");
}
static void gv11b_dump_eng_status(struct gk20a *g,
struct gk20a_debug_output *o)
{
u32 i, host_num_engines;
host_num_engines = nvgpu_get_litter_value(g, GPU_LIT_HOST_NUM_ENGINES);
for (i = 0; i < host_num_engines; i++) {
u32 status = gk20a_readl(g, fifo_engine_status_r(i));
u32 ctx_status = fifo_engine_status_ctx_status_v(status);
gk20a_debug_output(o, "%s eng %d: ", dev_name(g->dev), i);
gk20a_debug_output(o,
"id: %d (%s), next_id: %d (%s), ctx status: %s ",
fifo_engine_status_id_v(status),
fifo_engine_status_id_type_v(status) ?
"tsg" : "channel",
fifo_engine_status_next_id_v(status),
fifo_engine_status_next_id_type_v(status) ?
"tsg" : "channel",
gk20a_decode_pbdma_chan_eng_ctx_status(ctx_status));
if (fifo_engine_status_eng_reload_v(status))
gk20a_debug_output(o, "ctx_reload ");
if (fifo_engine_status_faulted_v(status))
gk20a_debug_output(o, "faulted ");
if (fifo_engine_status_engine_v(status))
gk20a_debug_output(o, "busy ");
gk20a_debug_output(o, "\n");
}
gk20a_debug_output(o, "\n");
}
static u32 gv11b_fifo_intr_0_error_mask(struct gk20a *g)
{
u32 intr_0_error_mask =
fifo_intr_0_bind_error_pending_f() |
fifo_intr_0_sched_error_pending_f() |
fifo_intr_0_chsw_error_pending_f() |
fifo_intr_0_fb_flush_timeout_pending_f() |
fifo_intr_0_lb_error_pending_f();
return intr_0_error_mask;
}
static int gv11b_fifo_poll_pbdma_chan_status(struct gk20a *g, u32 id,
u32 pbdma_id, unsigned int timeout_rc_type)
{
struct nvgpu_timeout timeout;
unsigned long delay = GR_IDLE_CHECK_DEFAULT;
u32 pbdma_stat;
u32 chan_stat;
int ret = -EBUSY;
/*
* If the PBDMA has a stalling interrupt and receives a NACK, the PBDMA
* won't save out until the STALLING interrupt is cleared. Note that
* the stalling interrupt need not be directly addressed, as simply
* clearing of the interrupt bit will be sufficient to allow the PBDMA
* to save out. If the stalling interrupt was due to a SW method or
* another deterministic failure, the PBDMA will assert it when the
* channel is reloaded/resumed. Note that the fault will still be
* reported to SW.
*/
if (timeout_rc_type == PREEMPT_TIMEOUT_NORC) {
/* called from recovery */
u32 pbdma_intr_0, pbdma_intr_1;
pbdma_intr_0 = gk20a_readl(g, pbdma_intr_0_r(pbdma_id));
pbdma_intr_1 = gk20a_readl(g, pbdma_intr_1_r(pbdma_id));
if (pbdma_intr_0)
gk20a_writel(g, pbdma_intr_0_r(pbdma_id), pbdma_intr_0);
if (pbdma_intr_1)
gk20a_writel(g, pbdma_intr_1_r(pbdma_id), pbdma_intr_1);
}
/* Verify that ch/tsg is no longer on the pbdma */
do {
pbdma_stat = gk20a_readl(g, fifo_pbdma_status_r(pbdma_id));
chan_stat = fifo_pbdma_status_chan_status_v(pbdma_stat);
gk20a_dbg_info("wait preempt pbdma");
if (chan_stat ==
fifo_pbdma_status_chan_status_valid_v() ||
chan_stat ==
fifo_pbdma_status_chan_status_chsw_save_v()) {
if (id != fifo_pbdma_status_id_v(pbdma_stat)) {
ret = 0;
break;
}
} else if (chan_stat ==
fifo_pbdma_status_chan_status_chsw_load_v()) {
if (id != fifo_pbdma_status_next_id_v(pbdma_stat)) {
ret = 0;
break;
}
} else if (chan_stat ==
fifo_pbdma_status_chan_status_chsw_switch_v()) {
if ((id != fifo_pbdma_status_next_id_v(pbdma_stat)) &&
(id != fifo_pbdma_status_id_v(pbdma_stat))) {
ret = 0;
break;
}
} else {
/* pbdma status is invalid i.e. it is not loaded */
ret = 0;
break;
}
usleep_range(delay, delay * 2);
delay = min_t(unsigned long,
delay << 1, GR_IDLE_CHECK_MAX);
} while (!nvgpu_timeout_expired_msg(&timeout,
"preempt timeout pbdma"));
return ret;
}
static int gv11b_fifo_poll_eng_ctx_status(struct gk20a *g, u32 id,
u32 engine_idx, u32 *reset_eng_bitmask,
unsigned int timeout_rc_type)
{
struct nvgpu_timeout timeout;
unsigned long delay = GR_IDLE_CHECK_DEFAULT;
u32 eng_stat;
u32 ctx_stat;
int ret = -EBUSY;
/* Check if ch/tsg has saved off the engine or if ctxsw is hung */
do {
eng_stat = gk20a_readl(g, fifo_engine_status_r(engine_idx));
ctx_stat = fifo_engine_status_ctx_status_v(eng_stat);
if (ctx_stat ==
fifo_engine_status_ctx_status_ctxsw_switch_v()) {
gk20a_dbg_info("engine save hasn't started yet");
} else if (ctx_stat ==
fifo_engine_status_ctx_status_valid_v() ||
ctx_stat ==
fifo_engine_status_ctx_status_ctxsw_save_v()) {
if (timeout_rc_type == PREEMPT_TIMEOUT_NORC) {
/* called from recovery, eng seems to be hung */
if (id == fifo_engine_status_id_v(eng_stat)) {
*reset_eng_bitmask |= BIT(engine_idx);
ret = 0;
break;
}
}
} else if (ctx_stat ==
fifo_engine_status_ctx_status_ctxsw_load_v()) {
if (timeout_rc_type == PREEMPT_TIMEOUT_NORC) {
/* called from recovery, eng seems to be hung */
if (id ==
fifo_engine_status_next_id_v(eng_stat)) {
*reset_eng_bitmask |= BIT(engine_idx);
ret = 0;
break;
}
}
} else {
/* Preempt should be finished */
ret = 0;
break;
}
usleep_range(delay, delay * 2);
delay = min_t(unsigned long,
delay << 1, GR_IDLE_CHECK_MAX);
} while (!nvgpu_timeout_expired_msg(&timeout,
"preempt timeout engine"));
return ret;
}
int gv11b_fifo_is_preempt_pending(struct gk20a *g, u32 id,
unsigned int id_type, unsigned int timeout_rc_type)
{
struct fifo_gk20a *f = &g->fifo;
unsigned long runlist_served_pbdmas;
unsigned long runlist_served_engines;
u32 pbdma_id;
u32 act_eng_id;
u32 runlist_id;
int func_ret;
int ret = 0;
gk20a_dbg_fn("");
if (id_type == ID_TYPE_TSG)
runlist_id = f->tsg[id].runlist_id;
else
runlist_id = f->channel[id].runlist_id;
runlist_served_pbdmas = f->runlist_info[runlist_id].pbdma_bitmask;
runlist_served_engines = f->runlist_info[runlist_id].eng_bitmask;
for_each_set_bit(pbdma_id, &runlist_served_pbdmas, f->num_pbdma) {
func_ret = gv11b_fifo_poll_pbdma_chan_status(g, id, pbdma_id,
timeout_rc_type);
if (func_ret != 0) {
gk20a_dbg_info("preempt timeout pbdma %d", pbdma_id);
ret |= func_ret;
}
}
f->runlist_info[runlist_id].reset_eng_bitmask = 0;
for_each_set_bit(act_eng_id, &runlist_served_engines, f->num_engines) {
func_ret = gv11b_fifo_poll_eng_ctx_status(g, id, act_eng_id,
&f->runlist_info[runlist_id].reset_eng_bitmask,
timeout_rc_type);
if (func_ret != 0) {
gk20a_dbg_info("preempt timeout engine %d", act_eng_id);
ret |= func_ret;
}
}
return ret;
}
static int gv11b_fifo_preempt_channel(struct gk20a *g, u32 hw_chid)
{
struct fifo_gk20a *f = &g->fifo;
u32 ret = 0;
u32 token = PMU_INVALID_MUTEX_OWNER_ID;
u32 mutex_ret = 0;
u32 runlist_id;
gk20a_dbg_fn("%d", hw_chid);
runlist_id = f->channel[hw_chid].runlist_id;
gk20a_dbg_fn("runlist_id %d", runlist_id);
nvgpu_mutex_acquire(&f->runlist_info[runlist_id].mutex);
mutex_ret = pmu_mutex_acquire(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
ret = __locked_fifo_preempt(g, hw_chid, false);
if (!mutex_ret)
pmu_mutex_release(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
nvgpu_mutex_release(&f->runlist_info[runlist_id].mutex);
return ret;
}
static int gv11b_fifo_preempt_tsg(struct gk20a *g, u32 tsgid)
{
struct fifo_gk20a *f = &g->fifo;
u32 ret = 0;
u32 token = PMU_INVALID_MUTEX_OWNER_ID;
u32 mutex_ret = 0;
u32 runlist_id;
gk20a_dbg_fn("%d", tsgid);
runlist_id = f->tsg[tsgid].runlist_id;
gk20a_dbg_fn("runlist_id %d", runlist_id);
nvgpu_mutex_acquire(&f->runlist_info[runlist_id].mutex);
mutex_ret = pmu_mutex_acquire(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
ret = __locked_fifo_preempt(g, tsgid, true);
if (!mutex_ret)
pmu_mutex_release(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
nvgpu_mutex_release(&f->runlist_info[runlist_id].mutex);
return ret;
}
static int __locked_fifo_preempt_ch_tsg(struct gk20a *g, u32 id,
unsigned int id_type, unsigned int timeout_rc_type)
{
int ret;
/* issue preempt */
gk20a_fifo_issue_preempt(g, id, id_type);
/* wait for preempt */
ret = g->ops.fifo.is_preempt_pending(g, id, id_type,
timeout_rc_type);
if (ret && (timeout_rc_type == PREEMPT_TIMEOUT_RC))
__locked_fifo_preempt_timeout_rc(g, id, id_type);
return ret;
}
static int gv11b_fifo_preempt_ch_tsg(struct gk20a *g, u32 id,
unsigned int id_type, unsigned int timeout_rc_type)
{
struct fifo_gk20a *f = &g->fifo;
u32 ret = 0;
u32 token = PMU_INVALID_MUTEX_OWNER_ID;
u32 mutex_ret = 0;
u32 runlist_id;
if (id_type == ID_TYPE_TSG)
runlist_id = f->tsg[id].runlist_id;
else if (id_type == ID_TYPE_CHANNEL)
runlist_id = f->channel[id].runlist_id;
else
return -EINVAL;
if (runlist_id >= g->fifo.max_runlists) {
gk20a_dbg_info("runlist_id = %d", runlist_id);
return -EINVAL;
}
gk20a_dbg_fn("preempt id = %d, runlist_id = %d", id, runlist_id);
nvgpu_mutex_acquire(&f->runlist_info[runlist_id].mutex);
mutex_ret = pmu_mutex_acquire(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
ret = __locked_fifo_preempt_ch_tsg(g, id, id_type, timeout_rc_type);
if (!mutex_ret)
pmu_mutex_release(&g->pmu, PMU_MUTEX_ID_FIFO, &token);
nvgpu_mutex_release(&f->runlist_info[runlist_id].mutex);
return ret;
}
void gv11b_init_fifo(struct gpu_ops *gops)
{
gp10b_init_fifo(gops);
/* for gv11b no need to do any thing special for fifo hw setup */
gops->fifo.init_fifo_setup_hw = NULL;
gops->fifo.runlist_entry_size = ram_rl_entry_size_v;
gops->fifo.get_tsg_runlist_entry = gv11b_get_tsg_runlist_entry;
gops->fifo.get_ch_runlist_entry = gv11b_get_ch_runlist_entry;
gops->fifo.get_num_fifos = gv11b_fifo_get_num_fifos;
gops->fifo.userd_gp_get = gv11b_userd_gp_get;
gops->fifo.userd_gp_put = gv11b_userd_gp_put;
gops->fifo.setup_ramfc = channel_gv11b_setup_ramfc;
gops->fifo.resetup_ramfc = NULL;
gops->fifo.unbind_channel = channel_gv11b_unbind;
gops->fifo.eng_runlist_base_size = fifo_eng_runlist_base__size_1_v;
gops->fifo.free_channel_ctx_header = gv11b_free_subctx_header;
gops->fifo.device_info_fault_id = top_device_info_data_fault_id_enum_v;
gops->fifo.is_fault_engine_subid_gpc = gv11b_is_fault_engine_subid_gpc;
gops->fifo.trigger_mmu_fault = NULL;
gops->fifo.dump_pbdma_status = gk20a_dump_pbdma_status;
gops->fifo.dump_eng_status = gv11b_dump_eng_status;
gops->fifo.dump_channel_status_ramfc = gv11b_dump_channel_status_ramfc;
gops->fifo.intr_0_error_mask = gv11b_fifo_intr_0_error_mask;
gops->fifo.preempt_channel = gv11b_fifo_preempt_channel;
gops->fifo.preempt_tsg = gv11b_fifo_preempt_tsg;
gops->fifo.is_preempt_pending = gv11b_fifo_is_preempt_pending;
gops->fifo.preempt_ch_tsg = gv11b_fifo_preempt_ch_tsg;
}
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