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linux-nvgpu/drivers/gpu/nvgpu/therm/thrmchannel.c
Vijayakumar 2ebf099207 gpu: nvgpu: handle vf curve change due to temp 
JIRA DNVGPU-129

1)send 150'c as default temperature to PMU so that PMU will
start reading temperature from sensor to evaluate VFE equations

2)Send GP106's temp min and max range for GPU sensor so that PMU
will read right temperature

3)PMU will send event whenever temperature goes above +ve hysteresis
or goes below -ve hysteresis. Call the Arbiter's VF re-evaluation
function in the event handler.

Change-Id: Iaebc0655f60e17998f0864824095f4fc8bba5b62
Signed-off-by: Vijayakumar <vsubbu@nvidia.com>
Reviewed-on: http://git-master/r/1245392
(cherry picked from commit 7e59d0faa8cee6aace5524c724001e88248b2da7)
Reviewed-on: http://git-master/r/1268062
Reviewed-by: Automatic_Commit_Validation_User
GVS: Gerrit_Virtual_Submit
Tested-by: Thomas Fleury <tfleury@nvidia.com>
Reviewed-by: Terje Bergstrom <tbergstrom@nvidia.com>
2016-12-27 15:26:52 +05:30

247 lines
7.0 KiB
C
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/*
* Copyright (c) 2016, 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 "gk20a/gk20a.h"
#include "thrmchannel.h"
#include "include/bios.h"
#include "boardobj/boardobjgrp.h"
#include "boardobj/boardobjgrp_e32.h"
#include "pmuif/gpmuifboardobj.h"
#include "pmuif/gpmuifthermsensor.h"
#include "gm206/bios_gm206.h"
#include "gk20a/pmu_gk20a.h"
static u32 _therm_channel_pmudatainit_device(struct gk20a *g,
struct boardobj *board_obj_ptr,
struct nv_pmu_boardobj *ppmudata)
{
u32 status = 0;
struct therm_channel *pchannel;
struct therm_channel_device *ptherm_channel;
struct nv_pmu_therm_therm_channel_device_boardobj_set *pset;
status = boardobj_pmudatainit_super(g, board_obj_ptr, ppmudata);
if (status) {
gk20a_err(dev_from_gk20a(g),
"error updating pmu boardobjgrp for therm channel 0x%x",
status);
status = -ENOMEM;
goto done;
}
pchannel = (struct therm_channel *)board_obj_ptr;
pset = (struct nv_pmu_therm_therm_channel_device_boardobj_set *)ppmudata;
ptherm_channel = (struct therm_channel_device *)board_obj_ptr;
pset->super.scaling = pchannel->scaling;
pset->super.offset = pchannel->offset;
pset->super.temp_min = pchannel->temp_min;
pset->super.temp_max = pchannel->temp_max;
pset->therm_dev_idx = ptherm_channel->therm_dev_idx;
pset->therm_dev_prov_idx = ptherm_channel->therm_dev_prov_idx;
done:
return status;
}
static struct boardobj *construct_channel_device(struct gk20a *g,
void *pargs, u16 pargs_size, u8 type)
{
struct boardobj *board_obj_ptr = NULL;
struct therm_channel *pchannel;
struct therm_channel_device *pchannel_device;
u32 status;
struct therm_channel_device *therm_device = (struct therm_channel_device*)pargs;
status = boardobj_construct_super(g, &board_obj_ptr,
pargs_size, pargs);
if (status)
return NULL;
/* Set Super class interfaces */
board_obj_ptr->pmudatainit = _therm_channel_pmudatainit_device;
pchannel = (struct therm_channel *)board_obj_ptr;
pchannel_device = (struct therm_channel_device *)board_obj_ptr;
g->ops.therm.get_internal_sensor_limits(&pchannel->temp_max,
&pchannel->temp_min);
pchannel->scaling = (1 << 8);
pchannel->offset = 0;
pchannel_device->therm_dev_idx = therm_device->therm_dev_idx;
pchannel_device->therm_dev_prov_idx = therm_device->therm_dev_prov_idx;
gk20a_dbg_info(" Done");
return board_obj_ptr;
}
static u32 _therm_channel_pmudata_instget(struct gk20a *g,
struct nv_pmu_boardobjgrp *pmuboardobjgrp,
struct nv_pmu_boardobj **ppboardobjpmudata,
u8 idx)
{
struct nv_pmu_therm_therm_channel_boardobj_grp_set *pgrp_set =
(struct nv_pmu_therm_therm_channel_boardobj_grp_set *)
pmuboardobjgrp;
gk20a_dbg_info("");
/*check whether pmuboardobjgrp has a valid boardobj in index*/
if (((u32)BIT(idx) &
pgrp_set->hdr.data.super.obj_mask.super.data[0]) == 0)
return -EINVAL;
*ppboardobjpmudata = (struct nv_pmu_boardobj *)
&pgrp_set->objects[idx].data.board_obj;
gk20a_dbg_info(" Done");
return 0;
}
static u32 devinit_get_therm_channel_table(struct gk20a *g,
struct therm_channels *pthermchannelobjs)
{
u32 status = 0;
u8 *therm_channel_table_ptr = NULL;
u8 *curr_therm_channel_table_ptr = NULL;
struct boardobj *boardobj;
struct therm_channel_1x_header therm_channel_table_header = { 0 };
struct therm_channel_1x_entry *therm_channel_table_entry = NULL;
u32 index;
u32 obj_index = 0;
u16 therm_channel_size = 0;
union {
struct boardobj boardobj;
struct therm_channel therm_channel;
struct therm_channel_device device;
} therm_channel_data;
gk20a_dbg_info("");
if (g->ops.bios.get_perf_table_ptrs) {
therm_channel_table_ptr = (u8 *)g->ops.bios.get_perf_table_ptrs(g,
g->bios.perf_token, THERMAL_CHANNEL_TABLE);
if (therm_channel_table_ptr == NULL) {
status = -EINVAL;
goto done;
}
}
memcpy(&therm_channel_table_header, therm_channel_table_ptr,
VBIOS_THERM_CHANNEL_1X_HEADER_SIZE_09);
if (therm_channel_table_header.version !=
VBIOS_THERM_CHANNEL_VERSION_1X) {
status = -EINVAL;
goto done;
}
if (therm_channel_table_header.header_size <
VBIOS_THERM_CHANNEL_1X_HEADER_SIZE_09) {
status = -EINVAL;
goto done;
}
curr_therm_channel_table_ptr = (therm_channel_table_ptr +
VBIOS_THERM_CHANNEL_1X_HEADER_SIZE_09);
for (index = 0; index < therm_channel_table_header.num_table_entries;
index++) {
therm_channel_table_entry = (struct therm_channel_1x_entry *)
(curr_therm_channel_table_ptr +
(therm_channel_table_header.table_entry_size * index));
if (therm_channel_table_entry->class_id !=
NV_VBIOS_THERM_CHANNEL_1X_ENTRY_CLASS_DEVICE) {
continue;
}
therm_channel_data.device.therm_dev_idx = therm_channel_table_entry->param0;
therm_channel_data.device.therm_dev_prov_idx = therm_channel_table_entry->param1;
therm_channel_size = sizeof(struct therm_channel_device);
therm_channel_data.boardobj.type = CTRL_THERMAL_THERM_CHANNEL_CLASS_DEVICE;
boardobj = construct_channel_device(g, &therm_channel_data,
therm_channel_size, therm_channel_data.boardobj.type);
if (!boardobj) {
gk20a_err(dev_from_gk20a(g),
"unable to create thermal device for %d type %d",
index, therm_channel_data.boardobj.type);
status = -EINVAL;
goto done;
}
status = boardobjgrp_objinsert(&pthermchannelobjs->super.super,
boardobj, obj_index);
if (status) {
gk20a_err(dev_from_gk20a(g),
"unable to insert thermal device boardobj for %d", index);
status = -EINVAL;
goto done;
}
++obj_index;
}
done:
gk20a_dbg_info(" done status %x", status);
return status;
}
u32 therm_channel_sw_setup(struct gk20a *g)
{
u32 status;
struct boardobjgrp *pboardobjgrp = NULL;
struct therm_channels *pthermchannelobjs;
/* Construct the Super Class and override the Interfaces */
status = boardobjgrpconstruct_e32(&g->therm_pmu.therm_channelobjs.super);
if (status) {
gk20a_err(dev_from_gk20a(g),
"error creating boardobjgrp for therm devices, status - 0x%x",
status);
goto done;
}
pboardobjgrp = &g->therm_pmu.therm_channelobjs.super.super;
pthermchannelobjs = &(g->therm_pmu.therm_channelobjs);
/* Override the Interfaces */
pboardobjgrp->pmudatainstget = _therm_channel_pmudata_instget;
status = devinit_get_therm_channel_table(g, pthermchannelobjs);
if (status)
goto done;
BOARDOBJGRP_PMU_CONSTRUCT(pboardobjgrp, THERM, THERM_CHANNEL);
status = BOARDOBJGRP_PMU_CMD_GRP_SET_CONSTRUCT(g, pboardobjgrp,
therm, THERM, therm_channel, THERM_CHANNEL);
if (status) {
gk20a_err(dev_from_gk20a(g),
"error constructing PMU_BOARDOBJ_CMD_GRP_SET interface - 0x%x",
status);
goto done;
}
done:
gk20a_dbg_info(" done status %x", status);
return status;
}
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