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/*
* Copyright 2014 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 <linux/types.h>
#include <linux/kernel.h>
#include <linux/log2.h>
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/mutex.h>
#include <linux/device.h>
#include "kfd_pm4_headers.h"
#include "kfd_pm4_headers_diq.h"
#include "kfd_kernel_queue.h"
#include "kfd_priv.h"
#include "kfd_pm4_opcodes.h"
#include "cik_regs.h"
#include "kfd_dbgmgr.h"
#include "kfd_dbgdev.h"
#include "kfd_device_queue_manager.h"
static void dbgdev_address_watch_disable_nodiq(struct kfd_dev *dev)
{
dev->kfd2kgd->address_watch_disable(dev->adev);
}
static int dbgdev_diq_submit_ib(struct kfd_dbgdev *dbgdev,
u32 pasid, uint64_t vmid0_address,
uint32_t *packet_buff, size_t size_in_bytes)
{
struct pm4__release_mem *rm_packet;
struct pm4__indirect_buffer_pasid *ib_packet;
struct kfd_mem_obj *mem_obj;
size_t pq_packets_size_in_bytes;
union ULARGE_INTEGER *largep;
union ULARGE_INTEGER addr;
struct kernel_queue *kq;
uint64_t *rm_state;
unsigned int *ib_packet_buff;
int status;
if (WARN_ON(!size_in_bytes))
return -EINVAL;
kq = dbgdev->kq;
pq_packets_size_in_bytes = sizeof(struct pm4__release_mem) +
sizeof(struct pm4__indirect_buffer_pasid);
/*
* We acquire a buffer from DIQ
* The receive packet buff will be sitting on the Indirect Buffer
* and in the PQ we put the IB packet + sync packet(s).
*/
status = kq_acquire_packet_buffer(kq,
pq_packets_size_in_bytes / sizeof(uint32_t),
&ib_packet_buff);
if (status) {
pr_err("kq_acquire_packet_buffer failed\n");
return status;
}
memset(ib_packet_buff, 0, pq_packets_size_in_bytes);
ib_packet = (struct pm4__indirect_buffer_pasid *) (ib_packet_buff);
ib_packet->header.count = 3;
ib_packet->header.opcode = IT_INDIRECT_BUFFER_PASID;
ib_packet->header.type = PM4_TYPE_3;
largep = (union ULARGE_INTEGER *) &vmid0_address;
ib_packet->bitfields2.ib_base_lo = largep->u.low_part >> 2;
ib_packet->bitfields3.ib_base_hi = largep->u.high_part;
ib_packet->control = (1 << 23) | (1 << 31) |
((size_in_bytes / 4) & 0xfffff);
ib_packet->bitfields5.pasid = pasid;
/*
* for now we use release mem for GPU-CPU synchronization
* Consider WaitRegMem + WriteData as a better alternative
* we get a GART allocations ( gpu/cpu mapping),
* for the sync variable, and wait until:
* (a) Sync with HW
* (b) Sync var is written by CP to mem.
*/
rm_packet = (struct pm4__release_mem *) (ib_packet_buff +
(sizeof(struct pm4__indirect_buffer_pasid) /
sizeof(unsigned int)));
status = kfd_gtt_sa_allocate(dbgdev->dev, sizeof(uint64_t),
&mem_obj);
if (status) {
pr_err("Failed to allocate GART memory\n");
kq_rollback_packet(kq);
return status;
}
rm_state = (uint64_t *) mem_obj->cpu_ptr;
*rm_state = QUEUESTATE__ACTIVE_COMPLETION_PENDING;
rm_packet->header.opcode = IT_RELEASE_MEM;
rm_packet->header.type = PM4_TYPE_3;
rm_packet->header.count = sizeof(struct pm4__release_mem) / 4 - 2;
rm_packet->bitfields2.event_type = CACHE_FLUSH_AND_INV_TS_EVENT;
rm_packet->bitfields2.event_index =
event_index___release_mem__end_of_pipe;
rm_packet->bitfields2.cache_policy = cache_policy___release_mem__lru;
rm_packet->bitfields2.atc = 0;
rm_packet->bitfields2.tc_wb_action_ena = 1;
addr.quad_part = mem_obj->gpu_addr;
rm_packet->bitfields4.address_lo_32b = addr.u.low_part >> 2;
rm_packet->address_hi = addr.u.high_part;
rm_packet->bitfields3.data_sel =
data_sel___release_mem__send_64_bit_data;
rm_packet->bitfields3.int_sel =
int_sel___release_mem__send_data_after_write_confirm;
rm_packet->bitfields3.dst_sel =
dst_sel___release_mem__memory_controller;
rm_packet->data_lo = QUEUESTATE__ACTIVE;
kq_submit_packet(kq);
/* Wait till CP writes sync code: */
status = amdkfd_fence_wait_timeout(
rm_state,
QUEUESTATE__ACTIVE, 1500);
kfd_gtt_sa_free(dbgdev->dev, mem_obj);
return status;
}
static int dbgdev_register_nodiq(struct kfd_dbgdev *dbgdev)
{
/*
* no action is needed in this case,
* just make sure diq will not be used
*/
dbgdev->kq = NULL;
return 0;
}
static int dbgdev_register_diq(struct kfd_dbgdev *dbgdev)
{
struct queue_properties properties;
unsigned int qid;
struct kernel_queue *kq = NULL;
int status;
properties.type = KFD_QUEUE_TYPE_DIQ;
status = pqm_create_queue(dbgdev->pqm, dbgdev->dev, NULL,
&properties, &qid, NULL);
if (status) {
pr_err("Failed to create DIQ\n");
return status;
}
pr_debug("DIQ Created with queue id: %d\n", qid);
kq = pqm_get_kernel_queue(dbgdev->pqm, qid);
if (!kq) {
pr_err("Error getting DIQ\n");
pqm_destroy_queue(dbgdev->pqm, qid);
return -EFAULT;
}
dbgdev->kq = kq;
return status;
}
static int dbgdev_unregister_nodiq(struct kfd_dbgdev *dbgdev)
{
/* disable watch address */
dbgdev_address_watch_disable_nodiq(dbgdev->dev);
return 0;
}
static int dbgdev_unregister_diq(struct kfd_dbgdev *dbgdev)
{
/* todo - disable address watch */
int status;
status = pqm_destroy_queue(dbgdev->pqm,
dbgdev->kq->queue->properties.queue_id);
dbgdev->kq = NULL;
return status;
}
static void dbgdev_address_watch_set_registers(
const struct dbg_address_watch_info *adw_info,
union TCP_WATCH_ADDR_H_BITS *addrHi,
union TCP_WATCH_ADDR_L_BITS *addrLo,
union TCP_WATCH_CNTL_BITS *cntl,
unsigned int index, unsigned int vmid)
{
union ULARGE_INTEGER addr;
addr.quad_part = 0;
addrHi->u32All = 0;
addrLo->u32All = 0;
cntl->u32All = 0;
if (adw_info->watch_mask)
cntl->bitfields.mask =
(uint32_t) (adw_info->watch_mask[index] &
ADDRESS_WATCH_REG_CNTL_DEFAULT_MASK);
else
cntl->bitfields.mask = ADDRESS_WATCH_REG_CNTL_DEFAULT_MASK;
addr.quad_part = (unsigned long long) adw_info->watch_address[index];
addrHi->bitfields.addr = addr.u.high_part &
ADDRESS_WATCH_REG_ADDHIGH_MASK;
addrLo->bitfields.addr =
(addr.u.low_part >> ADDRESS_WATCH_REG_ADDLOW_SHIFT);
cntl->bitfields.mode = adw_info->watch_mode[index];
cntl->bitfields.vmid = (uint32_t) vmid;
/* for now assume it is an ATC address */
cntl->u32All |= ADDRESS_WATCH_REG_CNTL_ATC_BIT;
pr_debug("\t\t%20s %08x\n", "set reg mask :", cntl->bitfields.mask);
pr_debug("\t\t%20s %08x\n", "set reg add high :",
addrHi->bitfields.addr);
pr_debug("\t\t%20s %08x\n", "set reg add low :",
addrLo->bitfields.addr);
}
static int dbgdev_address_watch_nodiq(struct kfd_dbgdev *dbgdev,
struct dbg_address_watch_info *adw_info)
{
union TCP_WATCH_ADDR_H_BITS addrHi;
union TCP_WATCH_ADDR_L_BITS addrLo;
union TCP_WATCH_CNTL_BITS cntl;
struct kfd_process_device *pdd;
unsigned int i;
/* taking the vmid for that process on the safe way using pdd */
pdd = kfd_get_process_device_data(dbgdev->dev,
adw_info->process);
if (!pdd) {
pr_err("Failed to get pdd for wave control no DIQ\n");
return -EFAULT;
}
addrHi.u32All = 0;
addrLo.u32All = 0;
cntl.u32All = 0;
if ((adw_info->num_watch_points > MAX_WATCH_ADDRESSES) ||
(adw_info->num_watch_points == 0)) {
pr_err("num_watch_points is invalid\n");
return -EINVAL;
}
if (!adw_info->watch_mode || !adw_info->watch_address) {
pr_err("adw_info fields are not valid\n");
return -EINVAL;
}
for (i = 0; i < adw_info->num_watch_points; i++) {
dbgdev_address_watch_set_registers(adw_info, &addrHi, &addrLo,
&cntl, i, pdd->qpd.vmid);
pr_debug("\t\t%30s\n", "* * * * * * * * * * * * * * * * * *");
pr_debug("\t\t%20s %08x\n", "register index :", i);
pr_debug("\t\t%20s %08x\n", "vmid is :", pdd->qpd.vmid);
pr_debug("\t\t%20s %08x\n", "Address Low is :",
addrLo.bitfields.addr);
pr_debug("\t\t%20s %08x\n", "Address high is :",
addrHi.bitfields.addr);
pr_debug("\t\t%20s %08x\n", "Address high is :",
addrHi.bitfields.addr);
pr_debug("\t\t%20s %08x\n", "Control Mask is :",
cntl.bitfields.mask);
pr_debug("\t\t%20s %08x\n", "Control Mode is :",
cntl.bitfields.mode);
pr_debug("\t\t%20s %08x\n", "Control Vmid is :",
cntl.bitfields.vmid);
pr_debug("\t\t%20s %08x\n", "Control atc is :",
cntl.bitfields.atc);
pr_debug("\t\t%30s\n", "* * * * * * * * * * * * * * * * * *");
pdd->dev->kfd2kgd->address_watch_execute(
dbgdev->dev->adev,
i,
cntl.u32All,
addrHi.u32All,
addrLo.u32All);
}
return 0;
}
static int dbgdev_address_watch_diq(struct kfd_dbgdev *dbgdev,
struct dbg_address_watch_info *adw_info)
{
struct pm4__set_config_reg *packets_vec;
union TCP_WATCH_ADDR_H_BITS addrHi;
union TCP_WATCH_ADDR_L_BITS addrLo;
union TCP_WATCH_CNTL_BITS cntl;
struct kfd_mem_obj *mem_obj;
unsigned int aw_reg_add_dword;
uint32_t *packet_buff_uint;
unsigned int i;
int status;
size_t ib_size = sizeof(struct pm4__set_config_reg) * 4;
/* we do not control the vmid in DIQ mode, just a place holder */
unsigned int vmid = 0;
addrHi.u32All = 0;
addrLo.u32All = 0;
cntl.u32All = 0;
if ((adw_info->num_watch_points > MAX_WATCH_ADDRESSES) ||
(adw_info->num_watch_points == 0)) {
pr_err("num_watch_points is invalid\n");
return -EINVAL;
}
if (!adw_info->watch_mode || !adw_info->watch_address) {
pr_err("adw_info fields are not valid\n");
return -EINVAL;
}
status = kfd_gtt_sa_allocate(dbgdev->dev, ib_size, &mem_obj);
if (status) {
pr_err("Failed to allocate GART memory\n");
return status;
}
packet_buff_uint = mem_obj->cpu_ptr;
memset(packet_buff_uint, 0, ib_size);
packets_vec = (struct pm4__set_config_reg *) (packet_buff_uint);
packets_vec[0].header.count = 1;
packets_vec[0].header.opcode = IT_SET_CONFIG_REG;
packets_vec[0].header.type = PM4_TYPE_3;
packets_vec[0].bitfields2.vmid_shift = ADDRESS_WATCH_CNTL_OFFSET;
packets_vec[0].bitfields2.insert_vmid = 1;
packets_vec[1].ordinal1 = packets_vec[0].ordinal1;
packets_vec[1].bitfields2.insert_vmid = 0;
packets_vec[2].ordinal1 = packets_vec[0].ordinal1;
packets_vec[2].bitfields2.insert_vmid = 0;
packets_vec[3].ordinal1 = packets_vec[0].ordinal1;
packets_vec[3].bitfields2.vmid_shift = ADDRESS_WATCH_CNTL_OFFSET;
packets_vec[3].bitfields2.insert_vmid = 1;
for (i = 0; i < adw_info->num_watch_points; i++) {
dbgdev_address_watch_set_registers(adw_info,
&addrHi,
&addrLo,
&cntl,
i,
vmid);
pr_debug("\t\t%30s\n", "* * * * * * * * * * * * * * * * * *");
pr_debug("\t\t%20s %08x\n", "register index :", i);
pr_debug("\t\t%20s %08x\n", "vmid is :", vmid);
pr_debug("\t\t%20s %p\n", "Add ptr is :",
adw_info->watch_address);
pr_debug("\t\t%20s %08llx\n", "Add is :",
adw_info->watch_address[i]);
pr_debug("\t\t%20s %08x\n", "Address Low is :",
addrLo.bitfields.addr);
pr_debug("\t\t%20s %08x\n", "Address high is :",
addrHi.bitfields.addr);
pr_debug("\t\t%20s %08x\n", "Control Mask is :",
cntl.bitfields.mask);
pr_debug("\t\t%20s %08x\n", "Control Mode is :",
cntl.bitfields.mode);
pr_debug("\t\t%20s %08x\n", "Control Vmid is :",
cntl.bitfields.vmid);
pr_debug("\t\t%20s %08x\n", "Control atc is :",
cntl.bitfields.atc);
pr_debug("\t\t%30s\n", "* * * * * * * * * * * * * * * * * *");
aw_reg_add_dword =
dbgdev->dev->kfd2kgd->address_watch_get_offset(
dbgdev->dev->adev,
i,
ADDRESS_WATCH_REG_CNTL);
packets_vec[0].bitfields2.reg_offset =
aw_reg_add_dword - AMD_CONFIG_REG_BASE;
packets_vec[0].reg_data[0] = cntl.u32All;
aw_reg_add_dword =
dbgdev->dev->kfd2kgd->address_watch_get_offset(
dbgdev->dev->adev,
i,
ADDRESS_WATCH_REG_ADDR_HI);
packets_vec[1].bitfields2.reg_offset =
aw_reg_add_dword - AMD_CONFIG_REG_BASE;
packets_vec[1].reg_data[0] = addrHi.u32All;
aw_reg_add_dword =
dbgdev->dev->kfd2kgd->address_watch_get_offset(
dbgdev->dev->adev,
i,
ADDRESS_WATCH_REG_ADDR_LO);
packets_vec[2].bitfields2.reg_offset =
aw_reg_add_dword - AMD_CONFIG_REG_BASE;
packets_vec[2].reg_data[0] = addrLo.u32All;
/* enable watch flag if address is not zero*/
if (adw_info->watch_address[i] > 0)
cntl.bitfields.valid = 1;
else
cntl.bitfields.valid = 0;
aw_reg_add_dword =
dbgdev->dev->kfd2kgd->address_watch_get_offset(
dbgdev->dev->adev,
i,
ADDRESS_WATCH_REG_CNTL);
packets_vec[3].bitfields2.reg_offset =
aw_reg_add_dword - AMD_CONFIG_REG_BASE;
packets_vec[3].reg_data[0] = cntl.u32All;
status = dbgdev_diq_submit_ib(
dbgdev,
adw_info->process->pasid,
mem_obj->gpu_addr,
packet_buff_uint,
ib_size);
if (status) {
pr_err("Failed to submit IB to DIQ\n");
break;
}
}
kfd_gtt_sa_free(dbgdev->dev, mem_obj);
return status;
}
static int dbgdev_wave_control_set_registers(
struct dbg_wave_control_info *wac_info,
union SQ_CMD_BITS *in_reg_sq_cmd,
union GRBM_GFX_INDEX_BITS *in_reg_gfx_index)
{
int status = 0;
union SQ_CMD_BITS reg_sq_cmd;
union GRBM_GFX_INDEX_BITS reg_gfx_index;
struct HsaDbgWaveMsgAMDGen2 *pMsg;
reg_sq_cmd.u32All = 0;
reg_gfx_index.u32All = 0;
pMsg = &wac_info->dbgWave_msg.DbgWaveMsg.WaveMsgInfoGen2;
switch (wac_info->mode) {
/* Send command to single wave */
case HSA_DBG_WAVEMODE_SINGLE:
/*
* Limit access to the process waves only,
* by setting vmid check
*/
reg_sq_cmd.bits.check_vmid = 1;
reg_sq_cmd.bits.simd_id = pMsg->ui32.SIMD;
reg_sq_cmd.bits.wave_id = pMsg->ui32.WaveId;
reg_sq_cmd.bits.mode = SQ_IND_CMD_MODE_SINGLE;
reg_gfx_index.bits.sh_index = pMsg->ui32.ShaderArray;
reg_gfx_index.bits.se_index = pMsg->ui32.ShaderEngine;
reg_gfx_index.bits.instance_index = pMsg->ui32.HSACU;
break;
/* Send command to all waves with matching VMID */
case HSA_DBG_WAVEMODE_BROADCAST_PROCESS:
reg_gfx_index.bits.sh_broadcast_writes = 1;
reg_gfx_index.bits.se_broadcast_writes = 1;
reg_gfx_index.bits.instance_broadcast_writes = 1;
reg_sq_cmd.bits.mode = SQ_IND_CMD_MODE_BROADCAST;
break;
/* Send command to all CU waves with matching VMID */
case HSA_DBG_WAVEMODE_BROADCAST_PROCESS_CU:
reg_sq_cmd.bits.check_vmid = 1;
reg_sq_cmd.bits.mode = SQ_IND_CMD_MODE_BROADCAST;
reg_gfx_index.bits.sh_index = pMsg->ui32.ShaderArray;
reg_gfx_index.bits.se_index = pMsg->ui32.ShaderEngine;
reg_gfx_index.bits.instance_index = pMsg->ui32.HSACU;
break;
default:
return -EINVAL;
}
switch (wac_info->operand) {
case HSA_DBG_WAVEOP_HALT:
reg_sq_cmd.bits.cmd = SQ_IND_CMD_CMD_HALT;
break;
case HSA_DBG_WAVEOP_RESUME:
reg_sq_cmd.bits.cmd = SQ_IND_CMD_CMD_RESUME;
break;
case HSA_DBG_WAVEOP_KILL:
reg_sq_cmd.bits.cmd = SQ_IND_CMD_CMD_KILL;
break;
case HSA_DBG_WAVEOP_DEBUG:
reg_sq_cmd.bits.cmd = SQ_IND_CMD_CMD_DEBUG;
break;
case HSA_DBG_WAVEOP_TRAP:
if (wac_info->trapId < MAX_TRAPID) {
reg_sq_cmd.bits.cmd = SQ_IND_CMD_CMD_TRAP;
reg_sq_cmd.bits.trap_id = wac_info->trapId;
} else {
status = -EINVAL;
}
break;
default:
status = -EINVAL;
break;
}
if (status == 0) {
*in_reg_sq_cmd = reg_sq_cmd;
*in_reg_gfx_index = reg_gfx_index;
}
return status;
}
static int dbgdev_wave_control_diq(struct kfd_dbgdev *dbgdev,
struct dbg_wave_control_info *wac_info)
{
int status;
union SQ_CMD_BITS reg_sq_cmd;
union GRBM_GFX_INDEX_BITS reg_gfx_index;
struct kfd_mem_obj *mem_obj;
uint32_t *packet_buff_uint;
struct pm4__set_config_reg *packets_vec;
size_t ib_size = sizeof(struct pm4__set_config_reg) * 3;
reg_sq_cmd.u32All = 0;
status = dbgdev_wave_control_set_registers(wac_info, ®_sq_cmd,
®_gfx_index);
if (status) {
pr_err("Failed to set wave control registers\n");
return status;
}
/* we do not control the VMID in DIQ, so reset it to a known value */
reg_sq_cmd.bits.vm_id = 0;
pr_debug("\t\t %30s\n", "* * * * * * * * * * * * * * * * * *");
pr_debug("\t\t mode is: %u\n", wac_info->mode);
pr_debug("\t\t operand is: %u\n", wac_info->operand);
pr_debug("\t\t trap id is: %u\n", wac_info->trapId);
pr_debug("\t\t msg value is: %u\n",
wac_info->dbgWave_msg.DbgWaveMsg.WaveMsgInfoGen2.Value);
pr_debug("\t\t vmid is: N/A\n");
pr_debug("\t\t chk_vmid is : %u\n", reg_sq_cmd.bitfields.check_vmid);
pr_debug("\t\t command is : %u\n", reg_sq_cmd.bitfields.cmd);
pr_debug("\t\t queue id is : %u\n", reg_sq_cmd.bitfields.queue_id);
pr_debug("\t\t simd id is : %u\n", reg_sq_cmd.bitfields.simd_id);
pr_debug("\t\t mode is : %u\n", reg_sq_cmd.bitfields.mode);
pr_debug("\t\t vm_id is : %u\n", reg_sq_cmd.bitfields.vm_id);
pr_debug("\t\t wave_id is : %u\n", reg_sq_cmd.bitfields.wave_id);
pr_debug("\t\t ibw is : %u\n",
reg_gfx_index.bitfields.instance_broadcast_writes);
pr_debug("\t\t ii is : %u\n",
reg_gfx_index.bitfields.instance_index);
pr_debug("\t\t sebw is : %u\n",
reg_gfx_index.bitfields.se_broadcast_writes);
pr_debug("\t\t se_ind is : %u\n", reg_gfx_index.bitfields.se_index);
pr_debug("\t\t sh_ind is : %u\n", reg_gfx_index.bitfields.sh_index);
pr_debug("\t\t sbw is : %u\n",
reg_gfx_index.bitfields.sh_broadcast_writes);
pr_debug("\t\t %30s\n", "* * * * * * * * * * * * * * * * * *");
status = kfd_gtt_sa_allocate(dbgdev->dev, ib_size, &mem_obj);
if (status != 0) {
pr_err("Failed to allocate GART memory\n");
return status;
}
packet_buff_uint = mem_obj->cpu_ptr;
memset(packet_buff_uint, 0, ib_size);
packets_vec = (struct pm4__set_config_reg *) packet_buff_uint;
packets_vec[0].header.count = 1;
packets_vec[0].header.opcode = IT_SET_UCONFIG_REG;
packets_vec[0].header.type = PM4_TYPE_3;
packets_vec[0].bitfields2.reg_offset =
GRBM_GFX_INDEX / 4 - USERCONFIG_REG_BASE;
packets_vec[0].bitfields2.insert_vmid = 0;
packets_vec[0].reg_data[0] = reg_gfx_index.u32All;
packets_vec[1].header.count = 1;
packets_vec[1].header.opcode = IT_SET_CONFIG_REG;
packets_vec[1].header.type = PM4_TYPE_3;
packets_vec[1].bitfields2.reg_offset = SQ_CMD / 4 - AMD_CONFIG_REG_BASE;
packets_vec[1].bitfields2.vmid_shift = SQ_CMD_VMID_OFFSET;
packets_vec[1].bitfields2.insert_vmid = 1;
packets_vec[1].reg_data[0] = reg_sq_cmd.u32All;
/* Restore the GRBM_GFX_INDEX register */
reg_gfx_index.u32All = 0;
reg_gfx_index.bits.sh_broadcast_writes = 1;
reg_gfx_index.bits.instance_broadcast_writes = 1;
reg_gfx_index.bits.se_broadcast_writes = 1;
packets_vec[2].ordinal1 = packets_vec[0].ordinal1;
packets_vec[2].bitfields2.reg_offset =
GRBM_GFX_INDEX / 4 - USERCONFIG_REG_BASE;
packets_vec[2].bitfields2.insert_vmid = 0;
packets_vec[2].reg_data[0] = reg_gfx_index.u32All;
status = dbgdev_diq_submit_ib(
dbgdev,
wac_info->process->pasid,
mem_obj->gpu_addr,
packet_buff_uint,
ib_size);
if (status)
pr_err("Failed to submit IB to DIQ\n");
kfd_gtt_sa_free(dbgdev->dev, mem_obj);
return status;
}
static int dbgdev_wave_control_nodiq(struct kfd_dbgdev *dbgdev,
struct dbg_wave_control_info *wac_info)
{
int status;
union SQ_CMD_BITS reg_sq_cmd;
union GRBM_GFX_INDEX_BITS reg_gfx_index;
struct kfd_process_device *pdd;
reg_sq_cmd.u32All = 0;
/* taking the VMID for that process on the safe way using PDD */
pdd = kfd_get_process_device_data(dbgdev->dev, wac_info->process);
if (!pdd) {
pr_err("Failed to get pdd for wave control no DIQ\n");
return -EFAULT;
}
status = dbgdev_wave_control_set_registers(wac_info, ®_sq_cmd,
®_gfx_index);
if (status) {
pr_err("Failed to set wave control registers\n");
return status;
}
/* for non DIQ we need to patch the VMID: */
reg_sq_cmd.bits.vm_id = pdd->qpd.vmid;
pr_debug("\t\t %30s\n", "* * * * * * * * * * * * * * * * * *");
pr_debug("\t\t mode is: %u\n", wac_info->mode);
pr_debug("\t\t operand is: %u\n", wac_info->operand);
pr_debug("\t\t trap id is: %u\n", wac_info->trapId);
pr_debug("\t\t msg value is: %u\n",
wac_info->dbgWave_msg.DbgWaveMsg.WaveMsgInfoGen2.Value);
pr_debug("\t\t vmid is: %u\n", pdd->qpd.vmid);
pr_debug("\t\t chk_vmid is : %u\n", reg_sq_cmd.bitfields.check_vmid);
pr_debug("\t\t command is : %u\n", reg_sq_cmd.bitfields.cmd);
pr_debug("\t\t queue id is : %u\n", reg_sq_cmd.bitfields.queue_id);
pr_debug("\t\t simd id is : %u\n", reg_sq_cmd.bitfields.simd_id);
pr_debug("\t\t mode is : %u\n", reg_sq_cmd.bitfields.mode);
pr_debug("\t\t vm_id is : %u\n", reg_sq_cmd.bitfields.vm_id);
pr_debug("\t\t wave_id is : %u\n", reg_sq_cmd.bitfields.wave_id);
pr_debug("\t\t ibw is : %u\n",
reg_gfx_index.bitfields.instance_broadcast_writes);
pr_debug("\t\t ii is : %u\n",
reg_gfx_index.bitfields.instance_index);
pr_debug("\t\t sebw is : %u\n",
reg_gfx_index.bitfields.se_broadcast_writes);
pr_debug("\t\t se_ind is : %u\n", reg_gfx_index.bitfields.se_index);
pr_debug("\t\t sh_ind is : %u\n", reg_gfx_index.bitfields.sh_index);
pr_debug("\t\t sbw is : %u\n",
reg_gfx_index.bitfields.sh_broadcast_writes);
pr_debug("\t\t %30s\n", "* * * * * * * * * * * * * * * * * *");
return dbgdev->dev->kfd2kgd->wave_control_execute(dbgdev->dev->adev,
reg_gfx_index.u32All,
reg_sq_cmd.u32All);
}
int dbgdev_wave_reset_wavefronts(struct kfd_dev *dev, struct kfd_process *p)
{
int status = 0;
unsigned int vmid;
uint16_t queried_pasid;
union SQ_CMD_BITS reg_sq_cmd;
union GRBM_GFX_INDEX_BITS reg_gfx_index;
struct kfd_process_device *pdd;
struct dbg_wave_control_info wac_info;
int first_vmid_to_scan = dev->vm_info.first_vmid_kfd;
int last_vmid_to_scan = dev->vm_info.last_vmid_kfd;
reg_sq_cmd.u32All = 0;
status = 0;
wac_info.mode = HSA_DBG_WAVEMODE_BROADCAST_PROCESS;
wac_info.operand = HSA_DBG_WAVEOP_KILL;
pr_debug("Killing all process wavefronts\n");
/* Scan all registers in the range ATC_VMID8_PASID_MAPPING ..
* ATC_VMID15_PASID_MAPPING
* to check which VMID the current process is mapped to.
*/
for (vmid = first_vmid_to_scan; vmid <= last_vmid_to_scan; vmid++) {
status = dev->kfd2kgd->get_atc_vmid_pasid_mapping_info
(dev->adev, vmid, &queried_pasid);
if (status && queried_pasid == p->pasid) {
pr_debug("Killing wave fronts of vmid %d and pasid 0x%x\n",
vmid, p->pasid);
break;
}
}
if (vmid > last_vmid_to_scan) {
pr_err("Didn't find vmid for pasid 0x%x\n", p->pasid);
return -EFAULT;
}
/* taking the VMID for that process on the safe way using PDD */
pdd = kfd_get_process_device_data(dev, p);
if (!pdd)
return -EFAULT;
status = dbgdev_wave_control_set_registers(&wac_info, ®_sq_cmd,
®_gfx_index);
if (status != 0)
return -EINVAL;
/* for non DIQ we need to patch the VMID: */
reg_sq_cmd.bits.vm_id = vmid;
dev->kfd2kgd->wave_control_execute(dev->adev,
reg_gfx_index.u32All,
reg_sq_cmd.u32All);
return 0;
}
void kfd_dbgdev_init(struct kfd_dbgdev *pdbgdev, struct kfd_dev *pdev,
enum DBGDEV_TYPE type)
{
pdbgdev->dev = pdev;
pdbgdev->kq = NULL;
pdbgdev->type = type;
pdbgdev->pqm = NULL;
switch (type) {
case DBGDEV_TYPE_NODIQ:
pdbgdev->dbgdev_register = dbgdev_register_nodiq;
pdbgdev->dbgdev_unregister = dbgdev_unregister_nodiq;
pdbgdev->dbgdev_wave_control = dbgdev_wave_control_nodiq;
pdbgdev->dbgdev_address_watch = dbgdev_address_watch_nodiq;
break;
case DBGDEV_TYPE_DIQ:
default:
pdbgdev->dbgdev_register = dbgdev_register_diq;
pdbgdev->dbgdev_unregister = dbgdev_unregister_diq;
pdbgdev->dbgdev_wave_control = dbgdev_wave_control_diq;
pdbgdev->dbgdev_address_watch = dbgdev_address_watch_diq;
break;
}
}
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