/*
* Copyright (c) 2016-2017, 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/bios.h>
#include <nvgpu/bug.h>
#include "gk20a/gk20a.h"
#include "gk20a/platform_gk20a.h"
#include "pwrpolicy.h"
#include "boardobj/boardobjgrp.h"
#include "boardobj/boardobjgrp_e32.h"
#include "gp106/bios_gp106.h"
#include "common/linux/os_linux.h"
#define _pwr_policy_limitarboutputget_helper(p_limit_arb) (p_limit_arb)->output
#define _pwr_policy_limitdeltaapply(limit, delta) ((u32)max(((s32)limit) + (delta), 0))
static u32 _pwr_policy_limitarbinputset_helper(struct gk20a *g,
struct ctrl_pmgr_pwr_policy_limit_arbitration *p_limit_arb,
u8 client_idx,
u32 limit_value)
{
u8 indx;
bool b_found = false;
u32 status = 0;
u32 output = limit_value;
for (indx = 0; indx< p_limit_arb->num_inputs; indx++) {
if (p_limit_arb->inputs[indx].pwr_policy_idx == client_idx) {
p_limit_arb->inputs[indx].limit_value = limit_value;
b_found = true;
} else if (p_limit_arb->b_arb_max) {
output = max(output, p_limit_arb->inputs[indx].limit_value);
} else {
output = min(output, p_limit_arb->inputs[indx].limit_value);
}
}
if (!b_found) {
if (p_limit_arb->num_inputs <
CTRL_PMGR_PWR_POLICY_MAX_LIMIT_INPUTS) {
p_limit_arb->inputs[
p_limit_arb->num_inputs].pwr_policy_idx = client_idx;
p_limit_arb->inputs[
p_limit_arb->num_inputs].limit_value = limit_value;
p_limit_arb->num_inputs++;
} else {
nvgpu_err(g, "No entries remaining for clientIdx=%d",
client_idx);
status = -EINVAL;
}
}
if (!status) {
p_limit_arb->output = output;
}
return status;
}
static u32 _pwr_policy_limitid_translate(struct gk20a *g,
struct pwr_policy *ppolicy,
enum pwr_policy_limit_id limit_id,
struct ctrl_pmgr_pwr_policy_limit_arbitration **p_limit_arb,
struct ctrl_pmgr_pwr_policy_limit_arbitration **p_limit_arb_sec)
{
u32 status = 0;
switch (limit_id) {
case PWR_POLICY_LIMIT_ID_MIN:
*p_limit_arb = &ppolicy->limit_arb_min;
break;
case PWR_POLICY_LIMIT_ID_RATED:
*p_limit_arb = &ppolicy->limit_arb_rated;
if (p_limit_arb_sec != NULL) {
*p_limit_arb_sec = &ppolicy->limit_arb_curr;
}
break;
case PWR_POLICY_LIMIT_ID_MAX:
*p_limit_arb = &ppolicy->limit_arb_max;
break;
case PWR_POLICY_LIMIT_ID_CURR:
*p_limit_arb = &ppolicy->limit_arb_curr;
break;
case PWR_POLICY_LIMIT_ID_BATT:
*p_limit_arb = &ppolicy->limit_arb_batt;
break;
default:
nvgpu_err(g, "Unsupported limitId=%d",
limit_id);
status = -EINVAL;
break;
}
return status;
}
static u32 _pwr_policy_limitarbinputset(struct gk20a *g,
struct pwr_policy *ppolicy,
enum pwr_policy_limit_id limit_id,
u8 client_idx,
u32 limit)
{
u32 status = 0;
struct ctrl_pmgr_pwr_policy_limit_arbitration *p_limit_arb = NULL;
struct ctrl_pmgr_pwr_policy_limit_arbitration *p_limit_arb_sec = NULL;
status = _pwr_policy_limitid_translate(g,
ppolicy,
limit_id,
&p_limit_arb,
&p_limit_arb_sec);
if (status) {
goto exit;
}
status = _pwr_policy_limitarbinputset_helper(g, p_limit_arb, client_idx, limit);
if (status) {
nvgpu_err(g,
"Error setting client limit value: status=0x%08x, limitId=0x%x, clientIdx=0x%x, limit=%d",
status, limit_id, client_idx, limit);
goto exit;
}
if (NULL != p_limit_arb_sec) {
status = _pwr_policy_limitarbinputset_helper(g, p_limit_arb_sec,
CTRL_PMGR_PWR_POLICY_LIMIT_INPUT_CLIENT_IDX_RM,
_pwr_policy_limitarboutputget_helper(p_limit_arb));
}
exit:
return status;
}
static inline void _pwr_policy_limitarbconstruct(
struct ctrl_pmgr_pwr_policy_limit_arbitration *p_limit_arb,
bool b_arb_max)
{
p_limit_arb->num_inputs = 0;
p_limit_arb->b_arb_max = b_arb_max;
}
static u32 _pwr_policy_limitarboutputget(struct gk20a *g,
struct pwr_policy *ppolicy,
enum pwr_policy_limit_id limit_id)
{
u32 status = 0;
struct ctrl_pmgr_pwr_policy_limit_arbitration *p_limit_arb = NULL;
status = _pwr_policy_limitid_translate(g,
ppolicy,
limit_id,
&p_limit_arb,
NULL);
if (status) {
return 0;
}
return _pwr_policy_limitarboutputget_helper(p_limit_arb);
}
static u32 _pwr_domains_pmudatainit_hw_threshold(struct gk20a *g,
struct boardobj *board_obj_ptr,
struct nv_pmu_boardobj *ppmudata)
{
struct nv_pmu_pmgr_pwr_policy_hw_threshold *pmu_hw_threshold_data;
struct pwr_policy_hw_threshold *p_hw_threshold;
struct pwr_policy *p_pwr_policy;
struct nv_pmu_pmgr_pwr_policy *pmu_pwr_policy;
u32 status = 0;
status = boardobj_pmudatainit_super(g, board_obj_ptr, ppmudata);
if (status) {
nvgpu_err(g,
"error updating pmu boardobjgrp for pwr sensor 0x%x",
status);
status = -ENOMEM;
goto done;
}
p_hw_threshold = (struct pwr_policy_hw_threshold *)board_obj_ptr;
pmu_hw_threshold_data = (struct nv_pmu_pmgr_pwr_policy_hw_threshold *) ppmudata;
pmu_pwr_policy = (struct nv_pmu_pmgr_pwr_policy *) ppmudata;
p_pwr_policy = (struct pwr_policy *)&(p_hw_threshold->super.super);
pmu_pwr_policy->ch_idx = 0;
pmu_pwr_policy->limit_unit = p_pwr_policy->limit_unit;
pmu_pwr_policy->num_limit_inputs = p_pwr_policy->num_limit_inputs;
pmu_pwr_policy->limit_min = _pwr_policy_limitdeltaapply(
_pwr_policy_limitarboutputget(g, p_pwr_policy,
PWR_POLICY_LIMIT_ID_MIN),
p_pwr_policy->limit_delta);
pmu_pwr_policy->limit_max = _pwr_policy_limitdeltaapply(
_pwr_policy_limitarboutputget(g, p_pwr_policy,
PWR_POLICY_LIMIT_ID_MAX),
p_pwr_policy->limit_delta);
pmu_pwr_policy->limit_curr = _pwr_policy_limitdeltaapply(
_pwr_policy_limitarboutputget(g, p_pwr_policy,
PWR_POLICY_LIMIT_ID_CURR),
p_pwr_policy->limit_delta);
memcpy(&pmu_pwr_policy->integral, &p_pwr_policy->integral,
sizeof(struct ctrl_pmgr_pwr_policy_info_integral));
pmu_pwr_policy->sample_mult = p_pwr_policy->sample_mult;
pmu_pwr_policy->filter_type = p_pwr_policy->filter_type;
pmu_pwr_policy->filter_param = p_pwr_policy->filter_param;
pmu_hw_threshold_data->threshold_idx = p_hw_threshold->threshold_idx;
pmu_hw_threshold_data->low_threshold_idx = p_hw_threshold->low_threshold_idx;
pmu_hw_threshold_data->b_use_low_threshold = p_hw_threshold->b_use_low_threshold;
pmu_hw_threshold_data->low_threshold_value = p_hw_threshold->low_threshold_value;
if (BOARDOBJ_GET_TYPE(board_obj_ptr) ==
CTRL_PMGR_PWR_POLICY_TYPE_SW_THRESHOLD) {
struct nv_pmu_pmgr_pwr_policy_sw_threshold *pmu_sw_threshold_data;
struct pwr_policy_sw_threshold *p_sw_threshold;
p_sw_threshold = (struct pwr_policy_sw_threshold *)board_obj_ptr;
pmu_sw_threshold_data =
(struct nv_pmu_pmgr_pwr_policy_sw_threshold *) ppmudata;
pmu_sw_threshold_data->event_id =
p_sw_threshold->event_id;
}
done:
return status;
}
static struct boardobj *construct_pwr_policy(struct gk20a *g,
void *pargs, u16 pargs_size, u8 type)
{
struct boardobj *board_obj_ptr = NULL;
u32 status;
struct pwr_policy_hw_threshold *pwrpolicyhwthreshold;
struct pwr_policy *pwrpolicy;
struct pwr_policy *pwrpolicyparams = (struct pwr_policy*)pargs;
struct pwr_policy_hw_threshold *hwthreshold = (struct pwr_policy_hw_threshold*)pargs;
status = boardobj_construct_super(g, &board_obj_ptr,
pargs_size, pargs);
if (status)
return NULL;
pwrpolicyhwthreshold = (struct pwr_policy_hw_threshold*)board_obj_ptr;
pwrpolicy = (struct pwr_policy *)board_obj_ptr;
gk20a_dbg_fn("min=%u rated=%u max=%u",
pwrpolicyparams->limit_min,
pwrpolicyparams->limit_rated,
pwrpolicyparams->limit_max);
/* Set Super class interfaces */
board_obj_ptr->pmudatainit = _pwr_domains_pmudatainit_hw_threshold;
pwrpolicy->ch_idx = pwrpolicyparams->ch_idx;
pwrpolicy->num_limit_inputs = 0;
pwrpolicy->limit_unit = pwrpolicyparams->limit_unit;
pwrpolicy->filter_type = (enum ctrl_pmgr_pwr_policy_filter_type)(pwrpolicyparams->filter_type);
pwrpolicy->sample_mult = pwrpolicyparams->sample_mult;
switch (pwrpolicy->filter_type)
{
case CTRL_PMGR_PWR_POLICY_FILTER_TYPE_NONE:
break;
case CTRL_PMGR_PWR_POLICY_FILTER_TYPE_BLOCK:
pwrpolicy->filter_param.block.block_size =
pwrpolicyparams->filter_param.block.block_size;
break;
case CTRL_PMGR_PWR_POLICY_FILTER_TYPE_MOVING_AVERAGE:
pwrpolicy->filter_param.moving_avg.window_size =
pwrpolicyparams->filter_param.moving_avg.window_size;
break;
case CTRL_PMGR_PWR_POLICY_FILTER_TYPE_IIR:
pwrpolicy->filter_param.iir.divisor = pwrpolicyparams->filter_param.iir.divisor;
break;
default:
nvgpu_err(g, "Error: unrecognized Power Policy filter type: %d",
pwrpolicy->filter_type);
}
_pwr_policy_limitarbconstruct(&pwrpolicy->limit_arb_curr, false);
pwrpolicy->limit_delta = 0;
_pwr_policy_limitarbconstruct(&pwrpolicy->limit_arb_min, true);
status = _pwr_policy_limitarbinputset(g,
pwrpolicy,
PWR_POLICY_LIMIT_ID_MIN,
CTRL_PMGR_PWR_POLICY_LIMIT_INPUT_CLIENT_IDX_RM,
pwrpolicyparams->limit_min);
_pwr_policy_limitarbconstruct(&pwrpolicy->limit_arb_max, false);
status = _pwr_policy_limitarbinputset(g,
pwrpolicy,
PWR_POLICY_LIMIT_ID_MAX,
CTRL_PMGR_PWR_POLICY_LIMIT_INPUT_CLIENT_IDX_RM,
pwrpolicyparams->limit_max);
_pwr_policy_limitarbconstruct(&pwrpolicy->limit_arb_rated, false);
status = _pwr_policy_limitarbinputset(g,
pwrpolicy,
PWR_POLICY_LIMIT_ID_RATED,
CTRL_PMGR_PWR_POLICY_LIMIT_INPUT_CLIENT_IDX_RM,
pwrpolicyparams->limit_rated);
_pwr_policy_limitarbconstruct(&pwrpolicy->limit_arb_batt, false);
status = _pwr_policy_limitarbinputset(g,
pwrpolicy,
PWR_POLICY_LIMIT_ID_BATT,
CTRL_PMGR_PWR_POLICY_LIMIT_INPUT_CLIENT_IDX_RM,
((pwrpolicyparams->limit_batt != 0) ?
pwrpolicyparams->limit_batt:
CTRL_PMGR_PWR_POLICY_LIMIT_MAX));
memcpy(&pwrpolicy->integral, &pwrpolicyparams->integral,
sizeof(struct ctrl_pmgr_pwr_policy_info_integral));
pwrpolicyhwthreshold->threshold_idx = hwthreshold->threshold_idx;
pwrpolicyhwthreshold->b_use_low_threshold = hwthreshold->b_use_low_threshold;
pwrpolicyhwthreshold->low_threshold_idx = hwthreshold->low_threshold_idx;
pwrpolicyhwthreshold->low_threshold_value = hwthreshold->low_threshold_value;
if (type == CTRL_PMGR_PWR_POLICY_TYPE_SW_THRESHOLD) {
struct pwr_policy_sw_threshold *pwrpolicyswthreshold;
struct pwr_policy_sw_threshold *swthreshold =
(struct pwr_policy_sw_threshold*)pargs;
pwrpolicyswthreshold = (struct pwr_policy_sw_threshold*)board_obj_ptr;
pwrpolicyswthreshold->event_id = swthreshold->event_id;
}
gk20a_dbg_info(" Done");
return board_obj_ptr;
}
static u32 _pwr_policy_construct_WAR_SW_Threshold_policy(struct gk20a *g,
struct pmgr_pwr_policy *ppwrpolicyobjs,
union pwr_policy_data_union *ppwrpolicydata,
u16 pwr_policy_size,
u32 obj_index)
{
u32 status = 0;
struct boardobj *boardobj;
/* WARN policy */
ppwrpolicydata->pwrpolicy.limit_unit = 0;
ppwrpolicydata->pwrpolicy.limit_min = 10000;
ppwrpolicydata->pwrpolicy.limit_rated = 100000;
ppwrpolicydata->pwrpolicy.limit_max = 100000;
ppwrpolicydata->sw_threshold.threshold_idx = 1;
ppwrpolicydata->pwrpolicy.filter_type =
CTRL_PMGR_PWR_POLICY_FILTER_TYPE_MOVING_AVERAGE;
ppwrpolicydata->pwrpolicy.sample_mult = 5;
/* Filled the entry.filterParam value in the filterParam */
ppwrpolicydata->pwrpolicy.filter_param.moving_avg.window_size = 10;
ppwrpolicydata->sw_threshold.event_id = 0x01;
ppwrpolicydata->boardobj.type = CTRL_PMGR_PWR_POLICY_TYPE_SW_THRESHOLD;
boardobj = construct_pwr_policy(g, ppwrpolicydata,
pwr_policy_size, ppwrpolicydata->boardobj.type);
if (!boardobj) {
nvgpu_err(g,
"unable to create pwr policy for type %d", ppwrpolicydata->boardobj.type);
status = -EINVAL;
goto done;
}
status = boardobjgrp_objinsert(&ppwrpolicyobjs->pwr_policies.super,
boardobj, obj_index);
if (status) {
nvgpu_err(g,
"unable to insert pwr policy boardobj for %d", obj_index);
status = -EINVAL;
goto done;
}
done:
return status;
}
struct pwr_policy_3x_header_unpacked {
u8 version;
u8 header_size;
u8 table_entry_size;
u8 num_table_entries;
u16 base_sample_period;
u16 min_client_sample_period;
u8 table_rel_entry_size;
u8 num_table_rel_entries;
u8 tgp_policy_idx;
u8 rtp_policy_idx;
u8 mxm_policy_idx;
u8 dnotifier_policy_idx;
u32 d2_limit;
u32 d3_limit;
u32 d4_limit;
u32 d5_limit;
u8 low_sampling_mult;
u8 pwr_tgt_policy_idx;
u8 pwr_tgt_floor_policy_idx;
u8 sm_bus_policy_idx;
u8 table_viol_entry_size;
u8 num_table_viol_entries;
};
#define __UNPACK_FIELD(unpacked, packed, field) \
__builtin_memcpy(&unpacked->field, &packed->field, \
sizeof(unpacked->field))
static inline void devinit_unpack_pwr_policy_header(
struct pwr_policy_3x_header_unpacked *unpacked,
struct pwr_policy_3x_header_struct *packed)
{
__UNPACK_FIELD(unpacked, packed, version);
__UNPACK_FIELD(unpacked, packed, header_size);
__UNPACK_FIELD(unpacked, packed, table_entry_size);
__UNPACK_FIELD(unpacked, packed, num_table_entries);
__UNPACK_FIELD(unpacked, packed, base_sample_period);
__UNPACK_FIELD(unpacked, packed, min_client_sample_period);
__UNPACK_FIELD(unpacked, packed, table_rel_entry_size);
__UNPACK_FIELD(unpacked, packed, num_table_rel_entries);
__UNPACK_FIELD(unpacked, packed, tgp_policy_idx);
__UNPACK_FIELD(unpacked, packed, rtp_policy_idx);
__UNPACK_FIELD(unpacked, packed, mxm_policy_idx);
__UNPACK_FIELD(unpacked, packed, dnotifier_policy_idx);
__UNPACK_FIELD(unpacked, packed, d2_limit);
__UNPACK_FIELD(unpacked, packed, d3_limit);
__UNPACK_FIELD(unpacked, packed, d4_limit);
__UNPACK_FIELD(unpacked, packed, d5_limit);
__UNPACK_FIELD(unpacked, packed, low_sampling_mult);
__UNPACK_FIELD(unpacked, packed, pwr_tgt_policy_idx);
__UNPACK_FIELD(unpacked, packed, pwr_tgt_floor_policy_idx);
__UNPACK_FIELD(unpacked, packed, sm_bus_policy_idx);
__UNPACK_FIELD(unpacked, packed, table_viol_entry_size);
__UNPACK_FIELD(unpacked, packed, num_table_viol_entries);
}
struct pwr_policy_3x_entry_unpacked {
u8 flags0;
u8 ch_idx;
u32 limit_min;
u32 limit_rated;
u32 limit_max;
u32 param0;
u32 param1;
u32 param2;
u32 param3;
u32 limit_batt;
u8 flags1;
u8 past_length;
u8 next_length;
u16 ratio_min;
u16 ratio_max;
u8 sample_mult;
u32 filter_param;
};
static inline void devinit_unpack_pwr_policy_entry(
struct pwr_policy_3x_entry_unpacked *unpacked,
struct pwr_policy_3x_entry_struct *packed)
{
__UNPACK_FIELD(unpacked, packed, flags0);
__UNPACK_FIELD(unpacked, packed, ch_idx);
__UNPACK_FIELD(unpacked, packed, limit_min);
__UNPACK_FIELD(unpacked, packed, limit_rated);
__UNPACK_FIELD(unpacked, packed, limit_max);
__UNPACK_FIELD(unpacked, packed, param0);
__UNPACK_FIELD(unpacked, packed, param1);
__UNPACK_FIELD(unpacked, packed, param2);
__UNPACK_FIELD(unpacked, packed, param3);
__UNPACK_FIELD(unpacked, packed, limit_batt);
__UNPACK_FIELD(unpacked, packed, flags1);
__UNPACK_FIELD(unpacked, packed, past_length);
__UNPACK_FIELD(unpacked, packed, next_length);
__UNPACK_FIELD(unpacked, packed, ratio_min);
__UNPACK_FIELD(unpacked, packed, ratio_max);
__UNPACK_FIELD(unpacked, packed, sample_mult);
__UNPACK_FIELD(unpacked, packed, filter_param);
}
static u32 devinit_get_pwr_policy_table(struct gk20a *g,
struct pmgr_pwr_policy *ppwrpolicyobjs)
{
struct gk20a_platform *platform = gk20a_get_platform(dev_from_gk20a(g));
u32 status = 0;
u8 *ptr = NULL;
struct boardobj *boardobj;
struct pwr_policy_3x_header_struct *packed_hdr;
struct pwr_policy_3x_header_unpacked hdr;
u32 index;
u32 obj_index = 0;
u16 pwr_policy_size;
bool integral_control = false;
u32 hw_threshold_policy_index = 0;
union pwr_policy_data_union pwr_policy_data;
gk20a_dbg_info("");
ptr = (u8 *)nvgpu_bios_get_perf_table_ptrs(g,
g->bios.perf_token, POWER_CAPPING_TABLE);
if (ptr == NULL) {
status = -EINVAL;
goto done;
}
packed_hdr = (struct pwr_policy_3x_header_struct *)ptr;
if (packed_hdr->version !=
VBIOS_POWER_POLICY_VERSION_3X) {
status = -EINVAL;
goto done;
}
if (packed_hdr->header_size <
VBIOS_POWER_POLICY_3X_HEADER_SIZE_25) {
status = -EINVAL;
goto done;
}
if (packed_hdr->table_entry_size <
VBIOS_POWER_POLICY_3X_ENTRY_SIZE_2E) {
status = -EINVAL;
goto done;
}
/* unpack power policy table header */
devinit_unpack_pwr_policy_header(&hdr, packed_hdr);
ptr += (u32)hdr.header_size;
for (index = 0; index < hdr.num_table_entries;
index++, ptr += (u32)hdr.table_entry_size) {
struct pwr_policy_3x_entry_struct *packed_entry;
struct pwr_policy_3x_entry_unpacked entry;
u8 class_type;
packed_entry = (struct pwr_policy_3x_entry_struct *)ptr;
class_type = (u8)BIOS_GET_FIELD(
packed_entry->flags0,
NV_VBIOS_POWER_POLICY_3X_ENTRY_FLAGS0_CLASS);
if (class_type != NV_VBIOS_POWER_POLICY_3X_ENTRY_FLAGS0_CLASS_HW_THRESHOLD)
continue;
/* unpack power policy table entry */
devinit_unpack_pwr_policy_entry(&entry, packed_entry);
ppwrpolicyobjs->version =
CTRL_PMGR_PWR_POLICY_TABLE_VERSION_3X;
ppwrpolicyobjs->base_sample_period = hdr.base_sample_period;
ppwrpolicyobjs->min_client_sample_period =
hdr.min_client_sample_period;
ppwrpolicyobjs->low_sampling_mult = hdr.low_sampling_mult;
ppwrpolicyobjs->policy_idxs[1] = hdr.tgp_policy_idx;
ppwrpolicyobjs->policy_idxs[0] = hdr.rtp_policy_idx;
ppwrpolicyobjs->policy_idxs[2] = hdr.mxm_policy_idx;
ppwrpolicyobjs->policy_idxs[3] = hdr.dnotifier_policy_idx;
ppwrpolicyobjs->ext_limits[0].limit = hdr.d2_limit;
ppwrpolicyobjs->ext_limits[1].limit = hdr.d3_limit;
ppwrpolicyobjs->ext_limits[2].limit = hdr.d4_limit;
ppwrpolicyobjs->ext_limits[3].limit = hdr.d5_limit;
ppwrpolicyobjs->policy_idxs[4] = hdr.pwr_tgt_policy_idx;
ppwrpolicyobjs->policy_idxs[5] = hdr.pwr_tgt_floor_policy_idx;
ppwrpolicyobjs->policy_idxs[6] = hdr.sm_bus_policy_idx;
integral_control = (bool)BIOS_GET_FIELD(entry.flags1,
NV_VBIOS_POWER_POLICY_3X_ENTRY_FLAGS1_INTEGRAL_CONTROL);
if (integral_control == 0x01) {
pwr_policy_data.pwrpolicy.integral.past_sample_count =
entry.past_length;
pwr_policy_data.pwrpolicy.integral.next_sample_count =
entry.next_length;
pwr_policy_data.pwrpolicy.integral.ratio_limit_max =
entry.ratio_max;
pwr_policy_data.pwrpolicy.integral.ratio_limit_min =
entry.ratio_min;
} else {
memset(&(pwr_policy_data.pwrpolicy.integral), 0x0,
sizeof(struct ctrl_pmgr_pwr_policy_info_integral));
}
pwr_policy_data.hw_threshold.threshold_idx = (u8)
BIOS_GET_FIELD(entry.param0,
NV_VBIOS_POWER_POLICY_3X_ENTRY_PARAM0_HW_THRESHOLD_THRES_IDX);
pwr_policy_data.hw_threshold.b_use_low_threshold =
BIOS_GET_FIELD(entry.param0,
NV_VBIOS_POWER_POLICY_3X_ENTRY_PARAM0_HW_THRESHOLD_LOW_THRESHOLD_USE);
if (pwr_policy_data.hw_threshold.b_use_low_threshold) {
pwr_policy_data.hw_threshold.low_threshold_idx = (u8)
BIOS_GET_FIELD(entry.param0,
NV_VBIOS_POWER_POLICY_3X_ENTRY_PARAM0_HW_THRESHOLD_LOW_THRESHOLD_IDX);
pwr_policy_data.hw_threshold.low_threshold_value = (u16)
BIOS_GET_FIELD(entry.param1,
NV_VBIOS_POWER_POLICY_3X_ENTRY_PARAM1_HW_THRESHOLD_LOW_THRESHOLD_VAL);
}
pwr_policy_size = sizeof(struct pwr_policy_hw_threshold);
/* Initialize data for the parent class */
pwr_policy_data.boardobj.type =
CTRL_PMGR_PWR_POLICY_TYPE_HW_THRESHOLD;
pwr_policy_data.pwrpolicy.ch_idx = entry.ch_idx;
pwr_policy_data.pwrpolicy.limit_unit = (u8)
BIOS_GET_FIELD(entry.flags0,
NV_VBIOS_POWER_POLICY_3X_ENTRY_FLAGS0_LIMIT_UNIT);
pwr_policy_data.pwrpolicy.filter_type = (u8)
BIOS_GET_FIELD(entry.flags1,
NV_VBIOS_POWER_POLICY_3X_ENTRY_FLAGS1_FILTER_TYPE);
pwr_policy_data.pwrpolicy.limit_min = entry.limit_min;
pwr_policy_data.pwrpolicy.limit_rated = entry.limit_rated;
pwr_policy_data.pwrpolicy.limit_max = entry.limit_max;
pwr_policy_data.pwrpolicy.limit_batt = entry.limit_batt;
pwr_policy_data.pwrpolicy.sample_mult = (u8)entry.sample_mult;
/* Filled the entry.filterParam value in the filterParam */
pwr_policy_data.pwrpolicy.filter_param.block.block_size = 0;
pwr_policy_data.pwrpolicy.filter_param.moving_avg.window_size = 0;
pwr_policy_data.pwrpolicy.filter_param.iir.divisor = 0;
hw_threshold_policy_index |=
BIT(pwr_policy_data.hw_threshold.threshold_idx);
boardobj = construct_pwr_policy(g, &pwr_policy_data,
pwr_policy_size, pwr_policy_data.boardobj.type);
if (!boardobj) {
nvgpu_err(g,
"unable to create pwr policy for %d type %d",
index, pwr_policy_data.boardobj.type);
status = -EINVAL;
goto done;
}
status = boardobjgrp_objinsert(&ppwrpolicyobjs->pwr_policies.super,
boardobj, obj_index);
if (status) {
nvgpu_err(g,
"unable to insert pwr policy boardobj for %d",
index);
status = -EINVAL;
goto done;
}
++obj_index;
}
if (platform->hardcode_sw_threshold) {
status = _pwr_policy_construct_WAR_SW_Threshold_policy(g,
ppwrpolicyobjs,
&pwr_policy_data,
sizeof(struct pwr_policy_sw_threshold),
obj_index);
if (status) {
nvgpu_err(g, "unable to construct_WAR_policy");
status = -EINVAL;
goto done;
}
++obj_index;
}
done:
gk20a_dbg_info(" done status %x", status);
return status;
}
u32 pmgr_policy_sw_setup(struct gk20a *g)
{
u32 status;
struct boardobjgrp *pboardobjgrp = NULL;
struct pwr_policy *ppolicy;
struct pmgr_pwr_policy *ppwrpolicyobjs;
u8 indx = 0;
/* Construct the Super Class and override the Interfaces */
status = boardobjgrpconstruct_e32(
&g->pmgr_pmu.pmgr_policyobjs.pwr_policies);
if (status) {
nvgpu_err(g,
"error creating boardobjgrp for pmgr policy, status - 0x%x",
status);
goto done;
}
status = boardobjgrpconstruct_e32(
&g->pmgr_pmu.pmgr_policyobjs.pwr_policy_rels);
if (status) {
nvgpu_err(g,
"error creating boardobjgrp for pmgr policy rels, status - 0x%x",
status);
goto done;
}
status = boardobjgrpconstruct_e32(
&g->pmgr_pmu.pmgr_policyobjs.pwr_violations);
if (status) {
nvgpu_err(g,
"error creating boardobjgrp for pmgr violations, status - 0x%x",
status);
goto done;
}
memset(g->pmgr_pmu.pmgr_policyobjs.policy_idxs, CTRL_PMGR_PWR_POLICY_INDEX_INVALID,
sizeof(u8) * CTRL_PMGR_PWR_POLICY_IDX_NUM_INDEXES);
/* Initialize external power limit policy indexes to _INVALID/0xFF */
for (indx = 0; indx < PWR_POLICY_EXT_POWER_STATE_ID_COUNT; indx++) {
g->pmgr_pmu.pmgr_policyobjs.ext_limits[indx].policy_table_idx =
CTRL_PMGR_PWR_POLICY_INDEX_INVALID;
}
/* Initialize external power state to _D1 */
g->pmgr_pmu.pmgr_policyobjs.ext_power_state = 0xFFFFFFFF;
ppwrpolicyobjs = &(g->pmgr_pmu.pmgr_policyobjs);
pboardobjgrp = &(g->pmgr_pmu.pmgr_policyobjs.pwr_policies.super);
status = devinit_get_pwr_policy_table(g, ppwrpolicyobjs);
if (status)
goto done;
g->pmgr_pmu.pmgr_policyobjs.b_enabled = true;
BOARDOBJGRP_FOR_EACH(pboardobjgrp, struct pwr_policy *, ppolicy, indx) {
PMGR_PWR_POLICY_INCREMENT_LIMIT_INPUT_COUNT(ppolicy);
}
g->pmgr_pmu.pmgr_policyobjs.global_ceiling.values[0] =
0xFF;
g->pmgr_pmu.pmgr_policyobjs.client_work_item.b_pending = false;
done:
gk20a_dbg_info(" done status %x", status);
return status;
}
