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// SPDX-License-Identifier: GPL-2.0 OR MIT
/*
* Copyright 2014-2022 Advanced Micro Devices, Inc.
*
* 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 COPYRIGHT HOLDER(S) OR AUTHOR(S) 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 "kfd_kernel_queue.h"
#include "kfd_device_queue_manager.h"
#include "kfd_pm4_headers_vi.h"
#include "kfd_pm4_opcodes.h"
unsigned int pm_build_pm4_header(unsigned int opcode, size_t packet_size)
{
union PM4_MES_TYPE_3_HEADER header;
header.u32All = 0;
header.opcode = opcode;
header.count = packet_size / 4 - 2;
header.type = PM4_TYPE_3;
return header.u32All;
}
static int pm_map_process_vi(struct packet_manager *pm, uint32_t *buffer,
struct qcm_process_device *qpd)
{
struct pm4_mes_map_process *packet;
packet = (struct pm4_mes_map_process *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_map_process));
packet->header.u32All = pm_build_pm4_header(IT_MAP_PROCESS,
sizeof(struct pm4_mes_map_process));
packet->bitfields2.diq_enable = (qpd->is_debug) ? 1 : 0;
packet->bitfields2.process_quantum = 10;
packet->bitfields2.pasid = qpd->pqm->process->pasid;
packet->bitfields3.page_table_base = qpd->page_table_base;
packet->bitfields10.gds_size = qpd->gds_size;
packet->bitfields10.num_gws = qpd->num_gws;
packet->bitfields10.num_oac = qpd->num_oac;
packet->bitfields10.num_queues = (qpd->is_debug) ? 0 : qpd->queue_count;
packet->sh_mem_config = qpd->sh_mem_config;
packet->sh_mem_bases = qpd->sh_mem_bases;
packet->sh_mem_ape1_base = qpd->sh_mem_ape1_base;
packet->sh_mem_ape1_limit = qpd->sh_mem_ape1_limit;
packet->sh_hidden_private_base_vmid = qpd->sh_hidden_private_base;
packet->gds_addr_lo = lower_32_bits(qpd->gds_context_area);
packet->gds_addr_hi = upper_32_bits(qpd->gds_context_area);
return 0;
}
static int pm_runlist_vi(struct packet_manager *pm, uint32_t *buffer,
uint64_t ib, size_t ib_size_in_dwords, bool chain)
{
struct pm4_mes_runlist *packet;
int concurrent_proc_cnt = 0;
struct kfd_dev *kfd = pm->dqm->dev;
if (WARN_ON(!ib))
return -EFAULT;
/* Determine the number of processes to map together to HW:
* it can not exceed the number of VMIDs available to the
* scheduler, and it is determined by the smaller of the number
* of processes in the runlist and kfd module parameter
* hws_max_conc_proc.
* Note: the arbitration between the number of VMIDs and
* hws_max_conc_proc has been done in
* kgd2kfd_device_init().
*/
concurrent_proc_cnt = min(pm->dqm->processes_count,
kfd->max_proc_per_quantum);
packet = (struct pm4_mes_runlist *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_runlist));
packet->header.u32All = pm_build_pm4_header(IT_RUN_LIST,
sizeof(struct pm4_mes_runlist));
packet->bitfields4.ib_size = ib_size_in_dwords;
packet->bitfields4.chain = chain ? 1 : 0;
packet->bitfields4.offload_polling = 0;
packet->bitfields4.valid = 1;
packet->bitfields4.process_cnt = concurrent_proc_cnt;
packet->ordinal2 = lower_32_bits(ib);
packet->bitfields3.ib_base_hi = upper_32_bits(ib);
return 0;
}
static int pm_set_resources_vi(struct packet_manager *pm, uint32_t *buffer,
struct scheduling_resources *res)
{
struct pm4_mes_set_resources *packet;
packet = (struct pm4_mes_set_resources *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_set_resources));
packet->header.u32All = pm_build_pm4_header(IT_SET_RESOURCES,
sizeof(struct pm4_mes_set_resources));
packet->bitfields2.queue_type =
queue_type__mes_set_resources__hsa_interface_queue_hiq;
packet->bitfields2.vmid_mask = res->vmid_mask;
packet->bitfields2.unmap_latency = KFD_UNMAP_LATENCY_MS / 100;
packet->bitfields7.oac_mask = res->oac_mask;
packet->bitfields8.gds_heap_base = res->gds_heap_base;
packet->bitfields8.gds_heap_size = res->gds_heap_size;
packet->gws_mask_lo = lower_32_bits(res->gws_mask);
packet->gws_mask_hi = upper_32_bits(res->gws_mask);
packet->queue_mask_lo = lower_32_bits(res->queue_mask);
packet->queue_mask_hi = upper_32_bits(res->queue_mask);
return 0;
}
static int pm_map_queues_vi(struct packet_manager *pm, uint32_t *buffer,
struct queue *q, bool is_static)
{
struct pm4_mes_map_queues *packet;
bool use_static = is_static;
packet = (struct pm4_mes_map_queues *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_map_queues));
packet->header.u32All = pm_build_pm4_header(IT_MAP_QUEUES,
sizeof(struct pm4_mes_map_queues));
packet->bitfields2.num_queues = 1;
packet->bitfields2.queue_sel =
queue_sel__mes_map_queues__map_to_hws_determined_queue_slots_vi;
packet->bitfields2.engine_sel =
engine_sel__mes_map_queues__compute_vi;
packet->bitfields2.queue_type =
queue_type__mes_map_queues__normal_compute_vi;
switch (q->properties.type) {
case KFD_QUEUE_TYPE_COMPUTE:
if (use_static)
packet->bitfields2.queue_type =
queue_type__mes_map_queues__normal_latency_static_queue_vi;
break;
case KFD_QUEUE_TYPE_DIQ:
packet->bitfields2.queue_type =
queue_type__mes_map_queues__debug_interface_queue_vi;
break;
case KFD_QUEUE_TYPE_SDMA:
case KFD_QUEUE_TYPE_SDMA_XGMI:
packet->bitfields2.engine_sel = q->properties.sdma_engine_id +
engine_sel__mes_map_queues__sdma0_vi;
use_static = false; /* no static queues under SDMA */
break;
default:
WARN(1, "queue type %d", q->properties.type);
return -EINVAL;
}
packet->bitfields3.doorbell_offset =
q->properties.doorbell_off;
packet->mqd_addr_lo =
lower_32_bits(q->gart_mqd_addr);
packet->mqd_addr_hi =
upper_32_bits(q->gart_mqd_addr);
packet->wptr_addr_lo =
lower_32_bits((uint64_t)q->properties.write_ptr);
packet->wptr_addr_hi =
upper_32_bits((uint64_t)q->properties.write_ptr);
return 0;
}
static int pm_unmap_queues_vi(struct packet_manager *pm, uint32_t *buffer,
enum kfd_unmap_queues_filter filter,
uint32_t filter_param, bool reset)
{
struct pm4_mes_unmap_queues *packet;
packet = (struct pm4_mes_unmap_queues *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_unmap_queues));
packet->header.u32All = pm_build_pm4_header(IT_UNMAP_QUEUES,
sizeof(struct pm4_mes_unmap_queues));
packet->bitfields2.engine_sel =
engine_sel__mes_unmap_queues__compute;
if (reset)
packet->bitfields2.action =
action__mes_unmap_queues__reset_queues;
else
packet->bitfields2.action =
action__mes_unmap_queues__preempt_queues;
switch (filter) {
case KFD_UNMAP_QUEUES_FILTER_BY_PASID:
packet->bitfields2.queue_sel =
queue_sel__mes_unmap_queues__perform_request_on_pasid_queues;
packet->bitfields3a.pasid = filter_param;
break;
case KFD_UNMAP_QUEUES_FILTER_ALL_QUEUES:
packet->bitfields2.queue_sel =
queue_sel__mes_unmap_queues__unmap_all_queues;
break;
case KFD_UNMAP_QUEUES_FILTER_DYNAMIC_QUEUES:
/* in this case, we do not preempt static queues */
packet->bitfields2.queue_sel =
queue_sel__mes_unmap_queues__unmap_all_non_static_queues;
break;
default:
WARN(1, "filter %d", filter);
return -EINVAL;
}
return 0;
}
static int pm_query_status_vi(struct packet_manager *pm, uint32_t *buffer,
uint64_t fence_address, uint64_t fence_value)
{
struct pm4_mes_query_status *packet;
packet = (struct pm4_mes_query_status *)buffer;
memset(buffer, 0, sizeof(struct pm4_mes_query_status));
packet->header.u32All = pm_build_pm4_header(IT_QUERY_STATUS,
sizeof(struct pm4_mes_query_status));
packet->bitfields2.context_id = 0;
packet->bitfields2.interrupt_sel =
interrupt_sel__mes_query_status__completion_status;
packet->bitfields2.command =
command__mes_query_status__fence_only_after_write_ack;
packet->addr_hi = upper_32_bits((uint64_t)fence_address);
packet->addr_lo = lower_32_bits((uint64_t)fence_address);
packet->data_hi = upper_32_bits((uint64_t)fence_value);
packet->data_lo = lower_32_bits((uint64_t)fence_value);
return 0;
}
static int pm_release_mem_vi(uint64_t gpu_addr, uint32_t *buffer)
{
struct pm4_mec_release_mem *packet;
packet = (struct pm4_mec_release_mem *)buffer;
memset(buffer, 0, sizeof(*packet));
packet->header.u32All = pm_build_pm4_header(IT_RELEASE_MEM,
sizeof(*packet));
packet->bitfields2.event_type = CACHE_FLUSH_AND_INV_TS_EVENT;
packet->bitfields2.event_index = event_index___release_mem__end_of_pipe;
packet->bitfields2.tcl1_action_ena = 1;
packet->bitfields2.tc_action_ena = 1;
packet->bitfields2.cache_policy = cache_policy___release_mem__lru;
packet->bitfields2.atc = 0;
packet->bitfields3.data_sel = data_sel___release_mem__send_32_bit_low;
packet->bitfields3.int_sel =
int_sel___release_mem__send_interrupt_after_write_confirm;
packet->bitfields4.address_lo_32b = (gpu_addr & 0xffffffff) >> 2;
packet->address_hi = upper_32_bits(gpu_addr);
packet->data_lo = 0;
return 0;
}
const struct packet_manager_funcs kfd_vi_pm_funcs = {
.map_process = pm_map_process_vi,
.runlist = pm_runlist_vi,
.set_resources = pm_set_resources_vi,
.map_queues = pm_map_queues_vi,
.unmap_queues = pm_unmap_queues_vi,
.query_status = pm_query_status_vi,
.release_mem = pm_release_mem_vi,
.map_process_size = sizeof(struct pm4_mes_map_process),
.runlist_size = sizeof(struct pm4_mes_runlist),
.set_resources_size = sizeof(struct pm4_mes_set_resources),
.map_queues_size = sizeof(struct pm4_mes_map_queues),
.unmap_queues_size = sizeof(struct pm4_mes_unmap_queues),
.query_status_size = sizeof(struct pm4_mes_query_status),
.release_mem_size = sizeof(struct pm4_mec_release_mem)
};
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