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gerrit-public.fairphone.software / kernel / msm-4.9 / refs/tags/FP3-REL-Q-3.A.0107 / . / drivers / thermal / tsens-mtc.c
blob: 6e43533e12342b5274eab7b5baf5eae96229271c [file] [log] [blame]
/* Copyright (c) 2012-2018, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that 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 "tsens.h"
#include "tsens-mtc.h"
struct tsens_device *tsens_controller_is_present(void)
{
struct tsens_device *tmdev_chip = NULL;
if (list_empty(&tsens_device_list)) {
pr_err("%s: TSENS controller not available\n", __func__);
return tmdev_chip;
}
list_for_each_entry(tmdev_chip, &tsens_device_list, list)
return tmdev_chip;
return tmdev_chip;
}
EXPORT_SYMBOL(tsens_controller_is_present);
int tsens_mtc_reset_history_counter(unsigned int zone)
{
unsigned int reg_cntl, is_valid;
void __iomem *sensor_addr;
struct tsens_device *tmdev = NULL;
if (zone > TSENS_NUM_MTC_ZONES_SUPPORT)
return -EINVAL;
tmdev = tsens_controller_is_present();
if (!tmdev) {
pr_err("No TSENS controller present\n");
return -EPROBE_DEFER;
}
sensor_addr = TSENS_TM_MTC_ZONE0_SW_MASK_ADDR(tmdev->tsens_tm_addr);
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
is_valid = (reg_cntl & TSENS_RESET_HISTORY_MASK)
>> TSENS_RESET_HISTORY_SHIFT;
if (!is_valid) {
/*Enable the bit to reset counter*/
writel_relaxed(reg_cntl | (1 << TSENS_RESET_HISTORY_SHIFT),
(sensor_addr + (zone * TSENS_SN_ADDR_OFFSET)));
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
pr_debug("tsens : zone =%d reg=%x\n", zone, reg_cntl);
}
/*Disble the bit to start counter*/
writel_relaxed(reg_cntl & ~(1 << TSENS_RESET_HISTORY_SHIFT),
(sensor_addr + (zone * TSENS_SN_ADDR_OFFSET)));
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
pr_debug("tsens : zone =%d reg=%x\n", zone, reg_cntl);
return 0;
}
EXPORT_SYMBOL(tsens_mtc_reset_history_counter);
int tsens_set_mtc_zone_sw_mask(unsigned int zone, unsigned int th1_enable,
unsigned int th2_enable)
{
unsigned int reg_cntl;
void __iomem *sensor_addr;
struct tsens_device *tmdev = NULL;
u32 ver_major;
u32 ver_minor;
if (zone > TSENS_NUM_MTC_ZONES_SUPPORT)
return -EINVAL;
tmdev = tsens_controller_is_present();
if (!tmdev) {
pr_err("No TSENS controller present\n");
return -EPROBE_DEFER;
}
ver_major = tmdev->ctrl_data->ver_major;
ver_minor = tmdev->ctrl_data->ver_minor;
if (ver_major == 1 && ver_minor == 4) {
sensor_addr = TSENS_TM_MTC_ZONE0_SW_MASK_ADDR_V14
(tmdev->tsens_tm_addr);
} else {
sensor_addr = TSENS_TM_MTC_ZONE0_SW_MASK_ADDR
(tmdev->tsens_tm_addr);
}
if (th1_enable && th2_enable)
writel_relaxed(TSENS_MTC_IN_EFFECT,
(sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
if (!th1_enable && !th2_enable)
writel_relaxed(TSENS_MTC_DISABLE,
(sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
if (th1_enable && !th2_enable)
writel_relaxed(TSENS_TH1_MTC_IN_EFFECT,
(sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
if (!th1_enable && th2_enable)
writel_relaxed(TSENS_TH2_MTC_IN_EFFECT,
(sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
pr_debug("tsens : zone =%d th1=%d th2=%d reg=%x\n",
zone, th1_enable, th2_enable, reg_cntl);
return 0;
}
EXPORT_SYMBOL(tsens_set_mtc_zone_sw_mask);
int tsens_get_mtc_zone_log(unsigned int zone, void *zone_log)
{
unsigned int i, reg_cntl, is_valid, log[TSENS_MTC_ZONE_LOG_SIZE];
int *zlog = (int *)zone_log;
void __iomem *sensor_addr;
struct tsens_device *tmdev = NULL;
u32 ver_major;
u32 ver_minor;
if (zone > TSENS_NUM_MTC_ZONES_SUPPORT)
return -EINVAL;
tmdev = tsens_controller_is_present();
if (!tmdev) {
pr_err("No TSENS controller present\n");
return -EPROBE_DEFER;
}
ver_major = tmdev->ctrl_data->ver_major;
ver_minor = tmdev->ctrl_data->ver_minor;
if (ver_major == 1 && ver_minor == 4)
sensor_addr = TSENS_TM_MTC_ZONE0_LOG_V14(tmdev->tsens_tm_addr);
else
sensor_addr = TSENS_TM_MTC_ZONE0_LOG(tmdev->tsens_tm_addr);
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
is_valid = (reg_cntl & TSENS_LOGS_VALID_MASK)
>> TSENS_LOGS_VALID_SHIFT;
if (is_valid) {
log[0] = (reg_cntl & TSENS_LOGS_LATEST_MASK);
log[1] = (reg_cntl & TSENS_LOGS_LOG1_MASK)
>> TSENS_LOGS_LOG1_SHIFT;
log[2] = (reg_cntl & TSENS_LOGS_LOG2_MASK)
>> TSENS_LOGS_LOG2_SHIFT;
log[3] = (reg_cntl & TSENS_LOGS_LOG3_MASK)
>> TSENS_LOGS_LOG3_SHIFT;
log[4] = (reg_cntl & TSENS_LOGS_LOG4_MASK)
>> TSENS_LOGS_LOG4_SHIFT;
log[5] = (reg_cntl & TSENS_LOGS_LOG5_MASK)
>> TSENS_LOGS_LOG5_SHIFT;
for (i = 0; i < (TSENS_MTC_ZONE_LOG_SIZE); i++) {
*(zlog+i) = log[i];
pr_debug("Log[%d]=%d\n", i, log[i]);
}
} else {
pr_debug("tsens: Valid bit disabled\n");
return -EINVAL;
}
return 0;
}
EXPORT_SYMBOL(tsens_get_mtc_zone_log);
int tsens_get_mtc_zone_history(unsigned int zone, void *zone_hist)
{
unsigned int i, reg_cntl, hist[TSENS_MTC_ZONE_HISTORY_SIZE];
int *zhist = (int *)zone_hist;
void __iomem *sensor_addr;
struct tsens_device *tmdev = NULL;
if (zone > TSENS_NUM_MTC_ZONES_SUPPORT)
return -EINVAL;
tmdev = tsens_controller_is_present();
if (!tmdev) {
pr_err("No TSENS controller present\n");
return -EPROBE_DEFER;
}
sensor_addr = TSENS_TM_MTC_ZONE0_HISTORY(tmdev->tsens_tm_addr);
reg_cntl = readl_relaxed((sensor_addr +
(zone * TSENS_SN_ADDR_OFFSET)));
hist[0] = (reg_cntl & TSENS_PS_COOL_CMD_MASK);
hist[1] = (reg_cntl & TSENS_PS_YELLOW_CMD_MASK)
>> TSENS_PS_YELLOW_CMD_SHIFT;
hist[2] = (reg_cntl & TSENS_PS_RED_CMD_MASK)
>> TSENS_PS_RED_CMD_SHIFT;
for (i = 0; i < (TSENS_MTC_ZONE_HISTORY_SIZE); i++) {
*(zhist+i) = hist[i];
pr_debug("tsens : %d\n", hist[i]);
}
return 0;
}
EXPORT_SYMBOL(tsens_get_mtc_zone_history);