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Message-Id: <20220817080757.352021-5-bchihi@baylibre.com>
Date: Wed, 17 Aug 2022 10:07:54 +0200
From: bchihi@...libre.com
To: rafael@...nel.org, rui.zhang@...el.com, daniel.lezcano@...aro.org,
amitk@...nel.org
Cc: linux-pm@...r.kernel.org, linux-kernel@...r.kernel.org,
khilman@...libre.com, mka@...omium.org, robh+dt@...nel.org,
krzk+dt@...nel.org, matthias.bgg@...il.com, p.zabel@...gutronix.de,
devicetree@...r.kernel.org, linux-arm-kernel@...ts.infradead.org,
linux-mediatek@...ts.infradead.org, james.lo@...iatek.com,
fan.chen@...iatek.com, louis.yu@...iatek.com,
rex-bc.chen@...iatek.com, abailon@...libre.com
Subject: [PATCH v9,4/7] thermal: mediatek: Add LVTS driver for mt8192 thermal zones
From: Michael Kao <michael.kao@...iatek.com>
Add LVTS v4 (Low Voltage Thermal Sensor) driver to report junction
temperatures in MediaTek SoC mt8192 and register the maximum temperature
of sensors and each sensor as a thermal zone.
Co-developed-by: Yu-Chia Chang <ethan.chang@...iatek.com>
Signed-off-by: Yu-Chia Chang <ethan.chang@...iatek.com>
Signed-off-by: Michael Kao <michael.kao@...iatek.com>
Co-developed-by: Ben Tseng <ben.tseng@...iatek.com>
Signed-off-by: Ben Tseng <ben.tseng@...iatek.com>
Co-developed-by: Alexandre Bailon <abailon@...libre.com>
Signed-off-by: Alexandre Bailon <abailon@...libre.com>
Co-developed-by: Balsam CHIHI <bchihi@...libre.com>
Signed-off-by: Balsam CHIHI <bchihi@...libre.com>
---
drivers/thermal/mediatek/Kconfig | 21 +
drivers/thermal/mediatek/Makefile | 2 +
drivers/thermal/mediatek/lvts_thermal.c | 861 ++++++++++++++++++++++++
drivers/thermal/mediatek/lvts_thermal.h | 385 +++++++++++
drivers/thermal/mediatek/lvts_v4.c | 249 +++++++
5 files changed, 1518 insertions(+)
create mode 100644 drivers/thermal/mediatek/lvts_thermal.c
create mode 100644 drivers/thermal/mediatek/lvts_thermal.h
create mode 100644 drivers/thermal/mediatek/lvts_v4.c
diff --git a/drivers/thermal/mediatek/Kconfig b/drivers/thermal/mediatek/Kconfig
index 8ff32370b591..02a1b3b42ce0 100644
--- a/drivers/thermal/mediatek/Kconfig
+++ b/drivers/thermal/mediatek/Kconfig
@@ -19,4 +19,25 @@ config MTK_SOC_THERMAL
information for MediaTek platforms. This driver configures
thermal controllers to collect temperature via AUXADC interface.
+config MTK_LVTS_THERMAL
+ tristate "LVTS temperature sensor driver for MediaTek SoCs"
+ depends on HAS_IOMEM
+ depends on NVMEM
+ depends on RESET_CONTROLLER
+ help
+ Enable this option if you want to get SoC temperature information
+ for MediaTek platforms. This driver configures LVTS
+ (Low Voltage Thermal Sensor) thermal controllers to collect
+ temperatures via ASIF (Analog Serial Interface).
+
+if MTK_LVTS_THERMAL
+
+config MTK_LVTS_V4
+ tristate "LVTS v4 driver for MediaTek SoCs"
+ help
+ Enable this option if you want to get temperature information
+ for LVTS v4 SoCs.
+
+endif
+
endif
diff --git a/drivers/thermal/mediatek/Makefile b/drivers/thermal/mediatek/Makefile
index bec325f06a46..e4e62d726776 100644
--- a/drivers/thermal/mediatek/Makefile
+++ b/drivers/thermal/mediatek/Makefile
@@ -1 +1,3 @@
obj-$(CONFIG_MTK_SOC_THERMAL) += auxadc_thermal.o
+obj-$(CONFIG_MTK_LVTS_THERMAL) += lvts_thermal.o
+obj-$(CONFIG_MTK_LVTS_V4) += lvts_v4.o
diff --git a/drivers/thermal/mediatek/lvts_thermal.c b/drivers/thermal/mediatek/lvts_thermal.c
new file mode 100644
index 000000000000..a1681b914c69
--- /dev/null
+++ b/drivers/thermal/mediatek/lvts_thermal.c
@@ -0,0 +1,861 @@
+// SPDX-License-Identifier: GPL-2.0-only
+/*
+ * Copyright (c) 2022 MediaTek Inc.
+ */
+
+#include <linux/bits.h>
+#include <linux/clk.h>
+#include <linux/delay.h>
+#include <linux/interrupt.h>
+#include <linux/io.h>
+#include <linux/iopoll.h>
+#include <linux/kernel.h>
+#include <linux/module.h>
+#include <linux/nvmem-consumer.h>
+#include <linux/of.h>
+#include <linux/of_address.h>
+#include <linux/of_device.h>
+#include <linux/of_irq.h>
+#include <linux/platform_device.h>
+#include <linux/reset.h>
+#include <linux/slab.h>
+#include <linux/string.h>
+#include <linux/thermal.h>
+#include "lvts_thermal.h"
+
+static int lvts_raw_to_temp(struct lvts_formula_coeff *co, unsigned int msr_raw)
+{
+ /* This function returns degree mC */
+
+ int temp;
+
+ temp = (co->a * ((unsigned long long)msr_raw)) >> 14;
+ temp = temp + co->golden_temp * 500 + co->b;
+
+ return temp;
+}
+
+static unsigned int lvts_temp_to_raw(struct lvts_formula_coeff *co, int temp)
+{
+ unsigned int msr_raw;
+
+ msr_raw = div_s64((s64)((co->golden_temp * 500 + co->b - temp)) << 14, (-1 * co->a));
+
+ return msr_raw;
+}
+
+static int soc_temp_lvts_read_temp(void *data, int *temperature)
+{
+ struct soc_temp_tz *lvts_tz = (struct soc_temp_tz *)data;
+ struct lvts_data *lvts_data = lvts_tz->lvts_data;
+ struct device *dev = lvts_data->dev;
+ unsigned int msr_raw;
+
+ msr_raw = readl(lvts_data->reg[lvts_tz->id]) & MRS_RAW_MASK;
+ if (msr_raw == 0) {
+ /* Prevents a false critical temperature trap */
+ *temperature = 0;
+ dev_dbg(dev, "LVTS not yet ready\n");
+
+ } else
+ *temperature = lvts_raw_to_temp(&lvts_data->coeff, msr_raw);
+
+ return 0;
+}
+
+static const struct thermal_zone_of_device_ops soc_temp_lvts_ops = {
+ .get_temp = soc_temp_lvts_read_temp,
+};
+
+static void lvts_write_device(struct lvts_data *lvts_data, unsigned int data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+
+ writel(DEVICE_WRITE(lvts_data) | data, LVTS_CONFIG_0 + base);
+ usleep_range(20, 30);
+}
+
+static unsigned int lvts_read_device(struct lvts_data *lvts_data, unsigned int reg_idx, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ struct device *dev = lvts_data->dev;
+ unsigned int data;
+ int ret;
+
+ writel(READ_DEVICE_REG(lvts_data, reg_idx), LVTS_CONFIG_0 + base);
+ usleep_range(20, 30);
+ ret = readl_poll_timeout(LVTS_CONFIG_0 + base, data, !(data & DEVICE_ACCESS_STARTUS), 2, 200);
+ if (ret)
+ dev_err(dev, "LVTS_TC_%d DEVICE_ACCESS_START is not ready\n", tc_id);
+
+ data = readl(LVTSRDATA0_0 + base);
+
+ return data;
+}
+
+static const char * const lvts_error_table[] = {
+ "Idle",
+ "Write transaction",
+ "Waiting for read after write",
+ "Disable continue fetching on device",
+ "Read transaction",
+ "Set device special register for voltage threshold",
+ "Set TSMCU number for fetch"
+};
+
+static void wait_all_tc_sensing_point_idle(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ struct device *dev = lvts_data->dev;
+ unsigned int error_code, is_error;
+ int i, cnt, ret;
+
+ for (cnt = 0; cnt < 2; cnt++) {
+ is_error = 0;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ ret = readl_poll_timeout(LVTSMSRCTL1_0 + base, error_code,
+ !(error_code & ALL_TC_SENSING_POINT_STATUS), 2, 200);
+ error_code = ((error_code & TC_SENSING_POINT_10) >> 8) +
+ ((error_code & TC_SENSING_POINT_7) >> 6) + (error_code & TC_SENSING_POINT_0);
+ if (ret)
+ dev_err(dev, "LVTS_TC_%d Error Code : %s\n", i, lvts_error_table[error_code]);
+
+ if (error_code != 0)
+ is_error = 1;
+ }
+
+ if (is_error == 0)
+ break;
+ }
+}
+
+static void lvts_reset(struct lvts_data *lvts_data)
+{
+ if (lvts_data->reset)
+ reset_control_assert(lvts_data->reset);
+
+ if (lvts_data->reset)
+ reset_control_deassert(lvts_data->reset);
+}
+
+static void device_identification(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ struct device *dev = lvts_data->dev;
+ unsigned int i, data;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ writel(ENABLE_LVTS_CTRL_CLK, LVTSCLKEN_0 + base);
+ lvts_write_device(lvts_data, RESET_ALL_DEVICES(lvts_data), i);
+ writel(READ_BACK_DEVICE_ID(lvts_data), LVTS_CONFIG_0 + base);
+ usleep_range(20, 30);
+ /* Check LVTS device ID */
+ data = (readl(LVTS_ID_0 + base) & DEVICE_REG_DATA);
+ if (data != (lvts_data->tc->dev_id + i))
+ dev_err(dev, "LVTS_TC_%d, Device ID should be 0x%x, but 0x%x\n",
+ i, (lvts_data->tc->dev_id + i), data);
+ }
+}
+
+static void disable_all_sensing_points(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ unsigned int i;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ writel(DISABLE_SENSING_POINT, LVTSMONCTL0_0 + base);
+ }
+}
+
+static void enable_all_sensing_points(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ unsigned int i, num;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ num = tc[i].num_sensor;
+ if (num > ALL_SENSING_POINTS) {
+ dev_err(dev, "LVTS_TC_%d, illegal number of sensors: %d\n", i, tc[i].num_sensor);
+
+ continue;
+ }
+
+ if ((tc[i].ts_offset == 1) && (num == 1))
+ writel(LVTS_SINGLE_SENSE | (0x1 << tc[i].ts_offset), LVTSMONCTL0_0 + base);
+
+ else
+ writel(ENABLE_SENSING_POINT(num), LVTSMONCTL0_0 + base);
+ }
+}
+
+static void set_polling_speed(struct lvts_data *lvts_data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ unsigned int lvts_mon_ctl_1, lvts_mon_ctl_2;
+
+ lvts_mon_ctl_1 = ((tc[tc_id].tc_speed->group_interval_delay << 20) &
+ GROUP_INTERVAL_DELAY_MASK) | (tc[tc_id].tc_speed->period_unit & PERIOD_UNIT_MASK);
+ lvts_mon_ctl_2 = ((tc[tc_id].tc_speed->filter_interval_delay << 16) &
+ FILTER_INTERVAL_DELAY_MASK) | (tc[tc_id].tc_speed->sensor_interval_delay &
+ SENSOR_INTERVAL_DELAY_MASK);
+ /*
+ * Clock source of LVTS thermal controller is 26MHz.
+ * Period unit is a base for all interval delays
+ * All interval delays must multiply it to convert a setting to time.
+ * Filter interval delay is a delay between two samples of the same sensor
+ * Sensor interval delay is a delay between two samples of differnet sensors
+ * Group interval delay is a delay between different rounds.
+ * For example:
+ * If Period unit = C, filter delay = 1, sensor delay = 2, group delay = 1,
+ * and two sensors, TS1 and TS2, are in a LVTS thermal controller
+ * and then
+ * Period unit = C * 1/26M * 256 = 12 * 38.46ns * 256 = 118.149us
+ * Filter interval delay = 1 * Period unit = 118.149us
+ * Sensor interval delay = 2 * Period unit = 236.298us
+ * Group interval delay = 1 * Period unit = 118.149us
+ *
+ * TS1 TS1 ... TS1 TS2 TS2 ... TS2 TS1...
+ * <--> Filter interval delay
+ * <--> Sensor interval delay
+ * <--> Group interval delay
+ */
+ writel(lvts_mon_ctl_1, LVTSMONCTL1_0 + base);
+ writel(lvts_mon_ctl_2, LVTSMONCTL2_0 + base);
+ dev_dbg(dev, "lvts_tc_%d, LVTSMONCTL1_0= 0x%x, LVTSMONCTL2_0= 0x%x\n",
+ tc_id, readl(LVTSMONCTL1_0 + base), readl(LVTSMONCTL2_0 + base));
+}
+
+static void set_hw_filter(struct lvts_data *lvts_data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ unsigned int option = tc[tc_id].hw_filter & 0x7;
+
+ /*
+ * hw filter
+ * 000: Get one sample
+ * 001: Get 2 samples and average them
+ * 010: Get 4 samples, drop max and min, then average the rest of 2 samples
+ * 011: Get 6 samples, drop max and min, then average the rest of 4 samples
+ * 100: Get 10 samples, drop max and min, then average the rest of 8 samples
+ * 101: Get 18 samples, drop max and min, then average the rest of 16 samples
+ */
+ option = (option << 9) | (option << 6) | (option << 3) | option;
+ writel(option, LVTSMSRCTL0_0 + base);
+ dev_dbg(dev, "lvts_tc_%d, LVTSMSRCTL0_0= 0x%x\n", tc_id, readl(LVTSMSRCTL0_0 + base));
+}
+
+static int get_dominator_index(struct lvts_data *lvts_data, int tc_id)
+{
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ int d_index;
+
+ if (tc[tc_id].dominator_sensing_point == ALL_SENSING_POINTS) {
+ d_index = ALL_SENSING_POINTS;
+
+ } else if ((tc[tc_id].dominator_sensing_point < tc[tc_id].num_sensor) ||
+ (tc[tc_id].ts_offset != 0)) {
+ d_index = tc[tc_id].dominator_sensing_point;
+
+ } else {
+ dev_err(dev, "LVTS_TC_%d: dominator sensing point = %d. \
+ It should be smaller than num_sensor %d\n",
+ tc_id, tc[tc_id].dominator_sensing_point, tc[tc_id].num_sensor);
+ dev_err(dev, "Using the sensing point 0 as the dominated sensor\n");
+ d_index = SENSING_POINT0;
+ }
+
+ return d_index;
+}
+
+static void disable_hw_reboot_interrupt(struct lvts_data *lvts_data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ unsigned int temp;
+
+ /*
+ * LVTS thermal controller has two interrupts for thermal HW reboot.
+ * One is for AP SW and the other is for RGU.
+ * The interrupt of AP SW can be turned off by a bit of a register,
+ * but the other for RGU cannot.
+ * To prevent rebooting device accidentally, we are going to add
+ * a huge offset 0x3FFF to LVTS and make it always report extremely low temperature.
+ * LVTS always adds the offset 0x3FFF to MSR_RAW.
+ * When MSR_RAW is larger, SW will convert lower temperature.
+ */
+ temp = readl(LVTSPROTCTL_0 + base);
+ writel(temp | 0x3FFF, LVTSPROTCTL_0 + base);
+
+ /* Disable the interrupt of AP SW */
+ temp = readl(LVTSMONINT_0 + base);
+ writel(temp & ~(STAGE3_INT_EN), LVTSMONINT_0 + base);
+}
+
+static void enable_hw_reboot_interrupt(struct lvts_data *lvts_data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ unsigned int temp;
+
+ /* Enable the interrupt of AP SW */
+ temp = readl(LVTSMONINT_0 + base);
+ writel(temp | STAGE3_INT_EN, LVTSMONINT_0 + base);
+
+ /* Clear the offset */
+ temp = readl(LVTSPROTCTL_0 + base);
+ writel(temp & ~PROTOFFSET, LVTSPROTCTL_0 + base);
+}
+
+static void set_tc_hw_reboot_threshold(struct lvts_data *lvts_data, int trip_point, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ struct device *dev = lvts_data->dev;
+ unsigned int msr_raw, temp, config, d_index;
+
+ d_index = get_dominator_index(lvts_data, tc_id);
+
+ dev_dbg(dev, "lvts_tc_%d: dominator sensing point = %d\n", tc_id, d_index);
+
+ disable_hw_reboot_interrupt(lvts_data, tc_id);
+ temp = readl(LVTSPROTCTL_0 + base);
+ if (d_index == ALL_SENSING_POINTS) {
+ /* Maximum of 4 sensing points */
+ config = (0x1 << 16);
+ writel(config | temp, LVTSPROTCTL_0 + base);
+
+ } else {
+ /* Select protection sensor */
+ config = ((d_index << 2) + 0x2) << 16;
+ writel(config | temp, LVTSPROTCTL_0 + base);
+ }
+
+ msr_raw = lvts_temp_to_raw(&lvts_data->coeff, trip_point);
+ writel(msr_raw, LVTSPROTTC_0 + base);
+ enable_hw_reboot_interrupt(lvts_data, tc_id);
+}
+
+static void set_all_tc_hw_reboot(struct lvts_data *lvts_data)
+{
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ int i, trip_point;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ trip_point = tc[i].hw_reboot_trip_point;
+
+ if (tc[i].num_sensor == 0)
+ continue;
+
+ if (trip_point == THERMAL_TEMP_INVALID)
+ continue;
+
+ set_tc_hw_reboot_threshold(lvts_data, trip_point, i);
+ }
+}
+
+static int lvts_init(struct lvts_data *lvts_data)
+{
+ struct platform_ops *ops = &lvts_data->ops;
+ struct device *dev = lvts_data->dev;
+ int ret;
+
+ ret = clk_prepare_enable(lvts_data->clk);
+ if (ret) {
+ dev_err(dev, "Failed to enable lvts controller clock: %d\n", ret);
+
+ return ret;
+ }
+
+ lvts_reset(lvts_data);
+ device_identification(lvts_data);
+ if (ops->device_enable_and_init)
+ ops->device_enable_and_init(lvts_data);
+
+ if (HAS_FEATURE(lvts_data, FEATURE_DEVICE_AUTO_RCK) && (ops->device_enable_auto_rck))
+ ops->device_enable_auto_rck(lvts_data);
+
+ else if (ops->device_read_count_rc_n)
+ ops->device_read_count_rc_n(lvts_data);
+
+ if (ops->set_cal_data)
+ ops->set_cal_data(lvts_data);
+
+ disable_all_sensing_points(lvts_data);
+ wait_all_tc_sensing_point_idle(lvts_data);
+ if (ops->init_controller)
+ ops->init_controller(lvts_data);
+
+ enable_all_sensing_points(lvts_data);
+ set_all_tc_hw_reboot(lvts_data);
+
+ return 0;
+}
+
+static int prepare_calibration_data(struct lvts_data *lvts_data)
+{
+ struct device *dev = lvts_data->dev;
+ struct lvts_sensor_cal_data *cal_data = &lvts_data->cal_data;
+ struct platform_ops *ops = &lvts_data->ops;
+ int i;
+
+ cal_data->count_r = devm_kcalloc(dev, lvts_data->num_sensor,
+ sizeof(*cal_data->count_r), GFP_KERNEL);
+ if (!cal_data->count_r)
+ return -ENOMEM;
+
+ cal_data->count_rc = devm_kcalloc(dev, lvts_data->num_sensor,
+ sizeof(*cal_data->count_rc), GFP_KERNEL);
+ if (!cal_data->count_rc)
+ return -ENOMEM;
+
+ if (ops->efuse_to_cal_data && !cal_data->use_fake_efuse)
+ ops->efuse_to_cal_data(lvts_data);
+
+ if (cal_data->golden_temp == 0 || cal_data->golden_temp > GOLDEN_TEMP_MAX)
+ cal_data->use_fake_efuse = 1;
+
+ if (cal_data->use_fake_efuse) {
+ /* It means all efuse data are equal to 0 */
+ dev_err(dev, "This sample is not calibrated, fake !!\n");
+ cal_data->golden_temp = cal_data->default_golden_temp;
+ for (i = 0; i < lvts_data->num_sensor; i++) {
+ cal_data->count_r[i] = cal_data->default_count_r;
+ cal_data->count_rc[i] = cal_data->default_count_rc;
+ }
+ }
+
+ lvts_data->coeff.golden_temp = cal_data->golden_temp;
+ dev_dbg(dev, "golden_temp = %d\n", cal_data->golden_temp);
+
+ return 0;
+}
+
+static int get_calibration_data(struct lvts_data *lvts_data)
+{
+ struct device *dev = lvts_data->dev;
+ char cell_name[32];
+ struct nvmem_cell *cell;
+ u32 *buf;
+ size_t len;
+ int i, j, index = 0, ret;
+
+ lvts_data->efuse = devm_kcalloc(dev, lvts_data->num_efuse_addr,
+ sizeof(*lvts_data->efuse), GFP_KERNEL);
+ if (!lvts_data->efuse)
+ return -ENOMEM;
+
+ for (i = 0; i < lvts_data->num_efuse_block; i++) {
+ snprintf(cell_name, sizeof(cell_name), "lvts_calib_data%d", i + 1);
+ cell = nvmem_cell_get(dev, cell_name);
+ if (IS_ERR(cell)) {
+ dev_err(dev, "Failed to get nvmem cell %s\n", cell_name);
+
+ return PTR_ERR(cell);
+ }
+
+ buf = (u32 *)nvmem_cell_read(cell, &len);
+ nvmem_cell_put(cell);
+ if (IS_ERR(buf))
+ return PTR_ERR(buf);
+
+ for (j = 0; j < (len / sizeof(u32)); j++) {
+ if (index >= lvts_data->num_efuse_addr) {
+ dev_err(dev, "Array efuse is going to overflow");
+ kfree(buf);
+
+ return -EINVAL;
+ }
+
+ lvts_data->efuse[index] = buf[j];
+ index++;
+ }
+
+ kfree(buf);
+ }
+
+ ret = prepare_calibration_data(lvts_data);
+
+ return ret;
+}
+
+static int lvts_init_tc_regs(struct device *dev, struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ unsigned int i, j, s_index, x;
+
+ lvts_data->reg = devm_kcalloc(dev, lvts_data->num_sensor,
+ sizeof(*lvts_data->reg), GFP_KERNEL);
+ if (!lvts_data->reg)
+ return -ENOMEM;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ for (j = 0; j < tc[i].num_sensor; j++) {
+ s_index = tc[i].sensor_map[j];
+ x = j + tc[i].ts_offset;
+ lvts_data->reg[s_index] = LVTSMSR0_0 + base + 0x4 * x;
+ }
+ }
+
+ return 0;
+}
+
+static int of_update_lvts_data(struct lvts_data *lvts_data, struct platform_device *pdev)
+{
+ struct device *dev = lvts_data->dev;
+ struct resource *res;
+ int ret;
+
+ lvts_data->clk = devm_clk_get(dev, NULL);
+ if (IS_ERR(lvts_data->clk))
+ return PTR_ERR(lvts_data->clk);
+
+ /* Get base address */
+ res = platform_get_mem_or_io(pdev, 0);
+ if (!res) {
+ dev_err(dev, "No IO resource\n");
+
+ return -ENXIO;
+ }
+
+ lvts_data->base = devm_ioremap_resource(dev, res);
+ if (IS_ERR(lvts_data->base)) {
+ dev_err(dev, "Failed to remap io\n");
+
+ return PTR_ERR(lvts_data->base);
+ }
+
+ /* Get interrupt number */
+ ret = platform_get_irq(pdev, 0);
+ if (ret < 0) {
+ dev_err(dev, "No irq resource\n");
+
+ return ret;
+ }
+
+ lvts_data->irq_num = ret;
+ /* Get reset control */
+ lvts_data->reset = devm_reset_control_get_by_index(dev, 0);
+ if (IS_ERR(lvts_data->reset)) {
+ dev_err(dev, "Failed to get reset control\n");
+
+ return PTR_ERR(lvts_data->reset);
+ }
+
+ ret = lvts_init_tc_regs(dev, lvts_data);
+ if (ret)
+ return ret;
+
+ ret = get_calibration_data(lvts_data);
+ if (ret)
+ return ret;
+
+ return 0;
+}
+
+static void lvts_device_close(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ unsigned int i;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ lvts_write_device(lvts_data, RESET_ALL_DEVICES(lvts_data), i);
+ writel(DISABLE_LVTS_CTRL_CLK, LVTSCLKEN_0 + base);
+ }
+}
+
+static void lvts_close(struct lvts_data *lvts_data)
+{
+ disable_all_sensing_points(lvts_data);
+ wait_all_tc_sensing_point_idle(lvts_data);
+ lvts_device_close(lvts_data);
+ clk_disable_unprepare(lvts_data->clk);
+}
+
+static void tc_irq_handler(struct lvts_data *lvts_data, int tc_id)
+{
+ void __iomem *base = GET_BASE_ADDR(lvts_data, tc_id);
+ const struct device *dev = lvts_data->dev;
+ unsigned int ret = readl(LVTSMONINTSTS_0 + base);
+
+ /* Write back to clear interrupt status */
+ writel(ret, LVTSMONINTSTS_0 + base);
+ dev_dbg(dev, "LVTS thermal controller %d, LVTSMONINTSTS=0x%08x\n", tc_id, ret);
+ if (ret & THERMAL_PROTECTION_STAGE_3)
+ dev_dbg(dev, "Thermal protection stage 3 interrupt triggered\n");
+}
+
+static irqreturn_t irq_handler(int irq, void *dev_id)
+{
+ void __iomem *base;
+ struct lvts_data *lvts_data = (struct lvts_data *)dev_id;
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ unsigned int i, irq_bitmap;
+
+ base = lvts_data->base;
+ irq_bitmap = readl(THERMINTST + base);
+ dev_dbg(dev, "THERMINTST = 0x%x\n", irq_bitmap);
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ if (tc[i].irq_bit == 0)
+ tc_irq_handler(lvts_data, i);
+ }
+
+ return IRQ_HANDLED;
+}
+
+static int lvts_register_irq_handler(struct lvts_data *lvts_data)
+{
+ struct device *dev = lvts_data->dev;
+ int ret;
+
+ ret = devm_request_irq(dev, lvts_data->irq_num, irq_handler, IRQF_TRIGGER_NONE,
+ "mtk_lvts", lvts_data);
+ if (ret) {
+ dev_err(dev, "Failed to register LVTS IRQ, ret %d, irq_num %d\n",
+ ret, lvts_data->irq_num);
+ lvts_close(lvts_data);
+
+ return ret;
+ }
+
+ return 0;
+}
+
+static int lvts_register_thermal_zones(struct lvts_data *lvts_data)
+{
+ struct device *dev = lvts_data->dev;
+ struct thermal_zone_device *tzdev;
+ struct soc_temp_tz *lvts_tz;
+ int i, ret;
+
+ for (i = 0; i < lvts_data->num_sensor; i++) {
+ lvts_tz = devm_kzalloc(dev, sizeof(*lvts_tz), GFP_KERNEL);
+ if (!lvts_tz) {
+ lvts_close(lvts_data);
+
+ return -ENOMEM;
+ }
+
+ lvts_tz->id = i;
+ lvts_tz->lvts_data = lvts_data;
+ tzdev = devm_thermal_zone_of_sensor_register(dev, lvts_tz->id, lvts_tz,
+ &soc_temp_lvts_ops);
+ if (IS_ERR(tzdev)) {
+ if (lvts_tz->id != 0)
+ return 0;
+
+ ret = PTR_ERR(tzdev);
+ dev_err(dev, "Failed to register lvts tz %d, ret = %d\n", lvts_tz->id, ret);
+ lvts_close(lvts_data);
+
+ return ret;
+ }
+ }
+
+ return 0;
+}
+
+void lvts_device_enable_and_init(struct lvts_data *lvts_data)
+{
+ unsigned int i;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ lvts_write_device(lvts_data, STOP_COUNTING_V4, i);
+ lvts_write_device(lvts_data, SET_RG_TSFM_LPDLY_V4, i);
+ lvts_write_device(lvts_data, SET_COUNTING_WINDOW_20US1_V4, i);
+ lvts_write_device(lvts_data, SET_COUNTING_WINDOW_20US2_V4, i);
+ lvts_write_device(lvts_data, TSV2F_CHOP_CKSEL_AND_TSV2F_EN_V4, i);
+ lvts_write_device(lvts_data, TSBG_DEM_CKSEL_X_TSBG_CHOP_EN_V4, i);
+ lvts_write_device(lvts_data, SET_TS_RSV_V4, i);
+ lvts_write_device(lvts_data, SET_TS_EN_V4, i);
+ lvts_write_device(lvts_data, TOGGLE_RG_TSV2F_VCO_RST1_V4, i);
+ lvts_write_device(lvts_data, TOGGLE_RG_TSV2F_VCO_RST2_V4, i);
+ }
+
+ lvts_data->counting_window_us = 20;
+}
+EXPORT_SYMBOL_GPL(lvts_device_enable_and_init);
+
+void lvts_device_enable_auto_rck_v4(struct lvts_data *lvts_data)
+{
+ unsigned int i;
+
+ for (i = 0; i < lvts_data->num_tc; i++)
+ lvts_write_device(lvts_data, SET_LVTS_AUTO_RCK_V4, i);
+}
+EXPORT_SYMBOL_GPL(lvts_device_enable_auto_rck_v4);
+
+int lvts_device_read_count_rc_n_v4(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ struct device *dev = lvts_data->dev;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ struct lvts_sensor_cal_data *cal_data = &lvts_data->cal_data;
+ unsigned int s_index, data;
+ int ret, i, j;
+
+ cal_data->count_rc_now = devm_kcalloc(dev, lvts_data->num_sensor,
+ sizeof(*cal_data->count_rc_now), GFP_KERNEL);
+ if (!cal_data->count_rc_now)
+ return -ENOMEM;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ for (j = 0; j < tc[i].num_sensor; j++) {
+ s_index = tc[i].sensor_map[j];
+ lvts_write_device(lvts_data, SELECT_SENSOR_RCK_V4(j), i);
+ lvts_write_device(lvts_data, SET_DEVICE_SINGLE_MODE_V4, i);
+ lvts_write_device(lvts_data, KICK_OFF_RCK_COUNTING_V4, i);
+ ret = readl_poll_timeout(LVTS_CONFIG_0 + base, data,
+ !(data & DEVICE_SENSING_STATUS), 2, 200);
+ if (ret)
+ dev_err(dev, "LVTS_TC_%d DEVICE_SENSING_STATUS didn't ready\n", i);
+
+ data = lvts_read_device(lvts_data, 0x00, i);
+ cal_data->count_rc_now[s_index] = (data & COUNT_RC_NOW_MASK);
+ }
+
+ /* Recover Setting for Normal Access on
+ * temperature fetch
+ */
+ lvts_write_device(lvts_data, SET_SENSOR_NO_RCK_V4, i);
+ lvts_write_device(lvts_data, SET_DEVICE_LOW_POWER_SINGLE_MODE_V4, i);
+ }
+
+ return 0;
+}
+EXPORT_SYMBOL_GPL(lvts_device_read_count_rc_n_v4);
+
+void lvts_set_calibration_data_v4(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ const struct lvts_tc_settings *tc = lvts_data->tc;
+ struct lvts_sensor_cal_data *cal_data = &lvts_data->cal_data;
+ unsigned int i, j, s_index, x;
+ u32 lvts_calib_data;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ for (j = 0; j < tc[i].num_sensor; j++) {
+ s_index = tc[i].sensor_map[j];
+ x = j + tc[i].ts_offset;
+ if (HAS_FEATURE(lvts_data, FEATURE_DEVICE_AUTO_RCK))
+ lvts_calib_data = cal_data->count_r[s_index];
+
+ else
+ lvts_calib_data = (((u32)cal_data->count_rc_now[s_index]) *
+ cal_data->count_r[s_index]) >> 14;
+
+ writel(lvts_calib_data, LVTSEDATA00_0 + base + 0x4 * x);
+ }
+ }
+}
+EXPORT_SYMBOL_GPL(lvts_set_calibration_data_v4);
+
+void lvts_init_controller_v4(struct lvts_data *lvts_data)
+{
+ void __iomem *base;
+ struct device *dev = lvts_data->dev;
+ unsigned int i;
+
+ for (i = 0; i < lvts_data->num_tc; i++) {
+ base = GET_BASE_ADDR(lvts_data, i);
+ lvts_write_device(lvts_data, SET_DEVICE_LOW_POWER_SINGLE_MODE_V4, i);
+ writel(SET_SENSOR_INDEX, LVTSTSSEL_0 + base);
+ writel(SET_CALC_SCALE_RULES, LVTSCALSCALE_0 + base);
+ set_polling_speed(lvts_data, i);
+ set_hw_filter(lvts_data, i);
+ dev_dbg(dev, "lvts_tc_%d: read all %d sensors in %d us, one in %d us\n",
+ i, GET_TC_SENSOR_NUM(lvts_data, i), GROUP_LATENCY_US(lvts_data, i),
+ SENSOR_LATENCY_US(lvts_data, i));
+ }
+}
+EXPORT_SYMBOL_GPL(lvts_init_controller_v4);
+
+int lvts_probe(struct platform_device *pdev)
+{
+ struct device *dev = &pdev->dev;
+ struct lvts_data *lvts_data;
+ int ret;
+
+ lvts_data = (struct lvts_data *)of_device_get_match_data(dev);
+ if (!lvts_data) {
+ dev_err(dev, "Failed to get lvts platform data\n");
+
+ return -ENODATA;
+ }
+
+ lvts_data->dev = &pdev->dev;
+ ret = of_update_lvts_data(lvts_data, pdev);
+ if (ret)
+ return ret;
+
+ platform_set_drvdata(pdev, lvts_data);
+ ret = lvts_init(lvts_data);
+ if (ret)
+ return ret;
+
+ ret = lvts_register_irq_handler(lvts_data);
+ if (ret)
+ return ret;
+
+ ret = lvts_register_thermal_zones(lvts_data);
+ if (ret)
+ return ret;
+
+ return 0;
+}
+
+int lvts_remove(struct platform_device *pdev)
+{
+ struct lvts_data *lvts_data;
+
+ lvts_data = (struct lvts_data *)platform_get_drvdata(pdev);
+ lvts_close(lvts_data);
+
+ return 0;
+}
+
+int lvts_suspend(struct platform_device *pdev, pm_message_t state)
+{
+ int ret;
+
+ ret = lvts_remove(pdev);
+ if (ret)
+ return ret;
+
+ return 0;
+}
+
+int lvts_resume(struct platform_device *pdev)
+{
+ int ret;
+
+ ret = lvts_probe(pdev);
+ if (ret)
+ return ret;
+
+ return 0;
+}
+
+void lvts_shutdown(struct platform_device *pdev)
+{
+ lvts_remove(pdev);
+}
+
+MODULE_AUTHOR("Yu-Chia Chang <ethan.chang@...iatek.com>");
+MODULE_AUTHOR("Michael Kao <michael.kao@...iatek.com>");
+MODULE_DESCRIPTION("MediaTek LVTS Thermal Driver");
+MODULE_LICENSE("GPL");
diff --git a/drivers/thermal/mediatek/lvts_thermal.h b/drivers/thermal/mediatek/lvts_thermal.h
new file mode 100644
index 000000000000..a94ce46acccd
--- /dev/null
+++ b/drivers/thermal/mediatek/lvts_thermal.h
@@ -0,0 +1,385 @@
+/* SPDX-License-Identifier: GPL-2.0-only */
+/*
+ * Copyright (c) 2022 MediaTek Inc.
+ */
+
+#ifndef __MTK_SOC_TEMP_LVTS_H__
+#define __MTK_SOC_TEMP_LVTS_H__
+
+#define PERIOD_UNIT 12
+#define GROUP_INTERVAL_DELAY 1
+#define FILTER_INTERVAL_DELAY 1
+#define SENSOR_INTERVAL_DELAY 1
+
+#define HW_REBOOT_TRIP_POINT 117000
+
+#define FEATURE_DEVICE_AUTO_RCK BIT(0)
+#define NUM_EFUSE_ADDR 22
+#define NUM_EFUSE_BLOCK_MT8192 1
+#define DEFAULT_GOLDEN_TEMP 50
+#define DEFAULT_CUONT_R 35000
+#define DEFAULT_CUONT_RC 2750
+#define COEFF_A -250460
+#define COEFF_B 250460
+
+#define CLOCK_26MHZ_CYCLE_NS 38
+#define BUS_ACCESS_US 2
+#define GOLDEN_TEMP_MAX 62
+
+#define LVTS_FILTER_SAMPLES_1 1
+#define LVTS_FILTER_SAMPLES_2 2
+#define LVTS_FILTER_SAMPLES_4 4
+#define LVTS_FILTER_SAMPLES_6 6
+#define LVTS_FILTER_SAMPLES_10 10
+#define LVTS_FILTER_SAMPLES_18 18
+
+#define TC_SENSING_POINT_0 BIT(0)
+#define TC_SENSING_POINT_7 BIT(7)
+#define TC_SENSING_POINT_10 BIT(10)
+#define ALL_TC_SENSING_POINT_STATUS (BIT(10) | BIT(7) | BIT(0))
+#define COUNT_RC_NOW_MASK GENMASK(23, 0)
+#define PERIOD_UNIT_MASK GENMASK(9, 0)
+#define GROUP_INTERVAL_DELAY_MASK GENMASK(29, 20)
+#define FILTER_INTERVAL_DELAY_MASK GENMASK(25, 16)
+#define SENSOR_INTERVAL_DELAY_MASK GENMASK(9, 0)
+
+/* LVTS device register */
+#define RG_TSFM_DATA_0 0x00
+#define RG_TSFM_DATA_1 0x01
+#define RG_TSFM_DATA_2 0x02
+#define RG_TSFM_CTRL_0 0x03
+#define RG_TSFM_CTRL_1 0x04
+#define RG_TSFM_CTRL_2 0x05
+#define RG_TSFM_CTRL_3 0x06
+#define RG_TSFM_CTRL_4 0x07
+#define RG_TSV2F_CTRL_0 0x08
+#define RG_TSV2F_CTRL_1 0x09
+#define RG_TSV2F_CTRL_2 0x0A
+#define RG_TSV2F_CTRL_3 0x0B
+#define RG_TSV2F_CTRL_4 0x0C
+#define RG_TSV2F_CTRL_5 0x0D
+#define RG_TSV2F_CTRL_6 0x0E
+#define RG_TEMP_DATA_0 0x10
+#define RG_TEMP_DATA_1 0x11
+#define RG_TEMP_DATA_2 0x12
+#define RG_TEMP_DATA_3 0x13
+#define RG_RC_DATA_0 0x14
+#define RG_RC_DATA_1 0x15
+#define RG_RC_DATA_2 0x16
+#define RG_RC_DATA_3 0x17
+#define RG_DIV_DATA_0 0x18
+#define RG_DIV_DATA_1 0x19
+#define RG_DIV_DATA_2 0x1A
+#define RG_DIV_DATA_3 0x1B
+#define RG_TST_DATA_0 0x70
+#define RG_TST_DATA_1 0x71
+#define RG_TST_DATA_2 0x72
+#define RG_TST_CTRL 0x73
+#define RG_DBG_FQMTR 0xF0
+#define RG_DBG_LPSEQ 0xF1
+#define RG_DBG_STATE 0xF2
+#define RG_DBG_CHKSUM 0xF3
+#define RG_DID_LVTS 0xFC
+#define RG_DID_REV 0xFD
+#define RG_TSFM_RST 0xFF
+
+/* LVTS controller register */
+#define LVTSMONCTL0_0 0x000
+#define ENABLE_SENSING_POINT(num) (LVTS_SINGLE_SENSE | GENMASK(((num) - 1), 0))
+#define DISABLE_SENSING_POINT (LVTS_SINGLE_SENSE | 0x0)
+#define LVTSMONCTL1_0 0x004
+#define LVTSMONCTL2_0 0x008
+#define LVTSMONINT_0 0x00C
+#define STAGE3_INT_EN BIT(31)
+#define LVTSMONINTSTS_0 0x010
+#define LVTSMONIDET0_0 0x014
+#define LVTSMONIDET1_0 0x018
+#define LVTSMONIDET2_0 0x01C
+#define LVTSMONIDET3_0 0x020
+#define LVTSH2NTHRE_0 0x024
+#define LVTSHTHRE_0 0x028
+#define LVTSCTHRE_0 0x02C
+#define LVTSOFFSETH_0 0x030
+#define LVTSOFFSETL_0 0x034
+#define LVTSMSRCTL0_0 0x038
+#define LVTSMSRCTL1_0 0x03C
+#define LVTSTSSEL_0 0x040
+#define SET_SENSOR_INDEX 0x13121110
+#define LVTSDEVICETO_0 0x044
+#define LVTSCALSCALE_0 0x048
+#define SET_CALC_SCALE_RULES 0x00000300
+#define LVTS_ID_0 0x04C
+#define LVTS_CONFIG_0 0x050
+
+#define SCK_ONLY BIT(31)
+#define BROADCAST_ID_UPDATE BIT(26)
+#define DEVICE_SENSING_STATUS BIT(25)
+#define DEVICE_ACCESS_STARTUS BIT(24)
+#define READ_32BIT_ACCESS BIT(17)
+#define WRITE_ACCESS BIT(16)
+#define LVTS_SINGLE_SENSE BIT(9)
+#define FEATURE_CK26M_ACTIVE BIT(1)
+#define DEVICE_REG_DATA GENMASK(7, 0)
+
+#define LVTSEDATA00_0 0x054
+#define LVTSEDATA01_0 0x058
+#define LVTSEDATA02_0 0x05C
+#define LVTSEDATA03_0 0x060
+#define LVTSMSR0_0 0x090
+#define MRS_RAW_MASK GENMASK(15, 0)
+#define MRS_RAW_VALID_BIT BIT(16)
+#define LVTSMSR1_0 0x094
+#define LVTSMSR2_0 0x098
+#define LVTSMSR3_0 0x09C
+#define LVTSIMMD0_0 0x0A0
+#define LVTSIMMD1_0 0x0A4
+#define LVTSIMMD2_0 0x0A8
+#define LVTSIMMD3_0 0x0AC
+#define LVTSRDATA0_0 0x0B0
+#define LVTSRDATA1_0 0x0B4
+#define LVTSRDATA2_0 0x0B8
+#define LVTSRDATA3_0 0x0BC
+#define LVTSPROTCTL_0 0x0C0
+#define PROTOFFSET GENMASK(15, 0)
+#define LVTSPROTTA_0 0x0C4
+#define LVTSPROTTB_0 0x0C8
+#define LVTSPROTTC_0 0x0CC
+#define LVTSCLKEN_0 0x0E4
+#define ENABLE_LVTS_CTRL_CLK (1)
+#define DISABLE_LVTS_CTRL_CLK (0)
+#define LVTSDBGSEL_0 0x0E8
+#define LVTSDBGSIG_0 0x0EC
+#define LVTSSPARE0_0 0x0F0
+#define LVTSSPARE1_0 0x0F4
+#define LVTSSPARE2_0 0x0F8
+#define LVTSSPARE3_0 0x0FC
+#define THERMINTST 0xF04
+
+/* LVTS register mask */
+#define THERMAL_COLD_INTERRUPT_0 BIT(0)
+#define THERMAL_HOT_INTERRUPT_0 BIT(1)
+#define THERMAL_LOW_OFFSET_INTERRUPT_0 BIT(2)
+#define THERMAL_HIGH_OFFSET_INTERRUPT_0 BIT(3)
+#define THERMAL_HOT2NORMAL_INTERRUPT_0 BIT(4)
+#define THERMAL_COLD_INTERRUPT_1 BIT(5)
+#define THERMAL_HOT_INTERRUPT_1 BIT(6)
+#define THERMAL_LOW_OFFSET_INTERRUPT_1 BIT(7)
+#define THERMAL_HIGH_OFFSET_INTERRUPT_1 BIT(8)
+#define THERMAL_HOT2NORMAL_INTERRUPT_1 BIT(9)
+#define THERMAL_COLD_INTERRUPT_2 BIT(10)
+#define THERMAL_HOT_INTERRUPT_2 BIT(11)
+#define THERMAL_LOW_OFFSET_INTERRUPT_2 BIT(12)
+#define THERMAL_HIGH_OFFSET_INTERRUPT_2 BIT(13)
+#define THERMAL_HOT2NORMAL_INTERRUPT_2 BIT(14)
+#define THERMAL_AHB_TIMEOUT_INTERRUPT BIT(15)
+#define THERMAL_DEVICE_TIMEOUT_INTERRUPT BIT(15)
+#define THERMAL_IMMEDIATE_INTERRUPT_0 BIT(16)
+#define THERMAL_IMMEDIATE_INTERRUPT_1 BIT(17)
+#define THERMAL_IMMEDIATE_INTERRUPT_2 BIT(18)
+#define THERMAL_FILTER_INTERRUPT_0 BIT(19)
+#define THERMAL_FILTER_INTERRUPT_1 BIT(20)
+#define THERMAL_FILTER_INTERRUPT_2 BIT(21)
+#define THERMAL_COLD_INTERRUPT_3 BIT(22)
+#define THERMAL_HOT_INTERRUPT_3 BIT(23)
+#define THERMAL_LOW_OFFSET_INTERRUPT_3 BIT(24)
+#define THERMAL_HIGH_OFFSET_INTERRUPT_3 BIT(25)
+#define THERMAL_HOT2NORMAL_INTERRUPT_3 BIT(26)
+#define THERMAL_IMMEDIATE_INTERRUPT_3 BIT(27)
+#define THERMAL_FILTER_INTERRUPT_3 BIT(28)
+#define THERMAL_PROTECTION_STAGE_1 BIT(29)
+#define THERMAL_PROTECTION_STAGE_2 BIT(30)
+#define THERMAL_PROTECTION_STAGE_3 BIT(31)
+
+#define CFG_REGISTER(reg, value) (reg << 8 | value)
+#define STOP_COUNTING_V4 CFG_REGISTER(RG_TSFM_CTRL_0, 0x00)
+#define SET_RG_TSFM_LPDLY_V4 CFG_REGISTER(RG_TSFM_CTRL_4, 0xA6)
+#define SET_COUNTING_WINDOW_20US1_V4 CFG_REGISTER(RG_TSFM_CTRL_2, 0x00)
+#define SET_COUNTING_WINDOW_20US2_V4 CFG_REGISTER(RG_TSFM_CTRL_1, 0x20)
+#define TSV2F_CHOP_CKSEL_AND_TSV2F_EN_V4 CFG_REGISTER(RG_TSV2F_CTRL_2, 0x84)
+#define TSBG_DEM_CKSEL_X_TSBG_CHOP_EN_V4 CFG_REGISTER(RG_TSV2F_CTRL_4, 0x7C)
+#define SET_TS_RSV_V4 CFG_REGISTER(RG_TSV2F_CTRL_1, 0x8D)
+#define SET_TS_EN_V4 CFG_REGISTER(RG_TSV2F_CTRL_0, 0xF4)
+#define TOGGLE_RG_TSV2F_VCO_RST1_V4 CFG_REGISTER(RG_TSV2F_CTRL_0, 0xFC)
+#define TOGGLE_RG_TSV2F_VCO_RST2_V4 CFG_REGISTER(RG_TSV2F_CTRL_0, 0xF4)
+
+#define SET_LVTS_AUTO_RCK_V4 CFG_REGISTER(RG_TSV2F_CTRL_6, 0x01)
+#define SELECT_SENSOR_RCK_V4(id) CFG_REGISTER(RG_TSV2F_CTRL_5, (id))
+#define SET_DEVICE_SINGLE_MODE_V4 CFG_REGISTER(RG_TSFM_CTRL_3, 0x78)
+#define KICK_OFF_RCK_COUNTING_V4 CFG_REGISTER(RG_TSFM_CTRL_0, 0x02)
+#define SET_SENSOR_NO_RCK_V4 CFG_REGISTER(RG_TSV2F_CTRL_5, 0x10)
+#define SET_DEVICE_LOW_POWER_SINGLE_MODE_V4 CFG_REGISTER(RG_TSFM_CTRL_3, 0xB8)
+
+#define HAS_FEATURE(lvts_data, feature) (lvts_data->feature_bitmap & (feature))
+#define GET_BASE_ADDR(lvts_data, tc_id) (lvts_data->base + lvts_data->tc[tc_id].addr_offset)
+#define GET_CAL_DATA_BITMASK(index, lvts_data, h, l) (((index) < lvts_data->num_efuse_addr) ? \
+ ((lvts_data->efuse[(index)] & GENMASK(h, l)) >> l) : 0)
+
+#define GET_TC_SENSOR_NUM(lvts_data, tc_id) (lvts_data->tc[tc_id].num_sensor)
+#define ONE_SAMPLE(lvts_data) (lvts_data->counting_window_us + 2 * BUS_ACCESS_US)
+#define NUM_OF_SAMPLE(lvts_data, tc_id) ((lvts_data->tc[tc_id].hw_filter < LVTS_FILTER_2) ? \
+ LVTS_FILTER_SAMPLES_1 : ((lvts_data->tc[tc_id].hw_filter > LVTS_FILTER_16_OF_18) ? \
+ LVTS_FILTER_SAMPLES_1 : ((lvts_data->tc[tc_id].hw_filter == LVTS_FILTER_16_OF_18) ? \
+ LVTS_FILTER_SAMPLES_18 : ((lvts_data->tc[tc_id].hw_filter == LVTS_FILTER_8_OF_10) ? \
+ LVTS_FILTER_SAMPLES_10 : (lvts_data->tc[tc_id].hw_filter * 2)))))
+
+#define PERIOD_UNIT_US(lvts_data, tc_id) ((lvts_data->tc[tc_id].tc_speed->period_unit * 256 \
+ * CLOCK_26MHZ_CYCLE_NS) / 1000)
+#define FILTER_INT_US(lvts_data, tc_id) (lvts_data->tc[tc_id].tc_speed->filter_interval_delay \
+ * PERIOD_UNIT_US(lvts_data, tc_id))
+#define SENSOR_INT_US(lvts_data, tc_id) (lvts_data->tc[tc_id].tc_speed->sensor_interval_delay \
+ * PERIOD_UNIT_US(lvts_data, tc_id))
+#define GROUP_INT_US(lvts_data, tc_id) (lvts_data->tc[tc_id].tc_speed->group_interval_delay \
+ * PERIOD_UNIT_US(lvts_data, tc_id))
+#define SENSOR_LATENCY_US(lvts_data, tc_id) ((NUM_OF_SAMPLE(lvts_data, tc_id) - 1) * \
+ FILTER_INT_US(lvts_data, tc_id) + NUM_OF_SAMPLE(lvts_data, tc_id) * ONE_SAMPLE(lvts_data))
+#define GROUP_LATENCY_US(lvts_data, tc_id) (GET_TC_SENSOR_NUM(lvts_data, tc_id) * \
+ SENSOR_LATENCY_US(lvts_data, tc_id) + (GET_TC_SENSOR_NUM(lvts_data, tc_id) - 1) * \
+ SENSOR_INT_US(lvts_data, tc_id) + GROUP_INT_US(lvts_data, tc_id))
+
+#define CK26M_ACTIVE(lvts_data) (((lvts_data->feature_bitmap & FEATURE_CK26M_ACTIVE) \
+ ? 1 : 0) << 30)
+#define DEVICE_ACCESS (SCK_ONLY | DEVICE_ACCESS_STARTUS | READ_32BIT_ACCESS)
+#define DEVICE_READ(lvts_data) (CK26M_ACTIVE(lvts_data) | DEVICE_ACCESS)
+#define DEVICE_WRITE(lvts_data) (CK26M_ACTIVE(lvts_data) | DEVICE_ACCESS | WRITE_ACCESS)
+#define RESET_ALL_DEVICES(lvts_data) (DEVICE_WRITE(lvts_data) | RG_TSFM_RST << 8 | 0xFF)
+#define READ_DEVICE_REG(lvts_data, reg_id) (DEVICE_READ(lvts_data) | (reg_id) << 8 | 0x00)
+#define READ_BACK_DEVICE_ID(lvts_data) (CK26M_ACTIVE(lvts_data) | DEVICE_ACCESS | \
+ BROADCAST_ID_UPDATE | RG_DID_LVTS << 8)
+
+/*
+ * LVTS HW filter settings
+ * 000: Get one sample
+ * 001: Get 2 samples and average them
+ * 010: Get 4 samples, drop max and min, then average the rest of 2 samples
+ * 011: Get 6 samples, drop max and min, then average the rest of 4 samples
+ * 100: Get 10 samples, drop max and min, then average the rest of 8 samples
+ * 101: Get 18 samples, drop max and min, then average the rest of 16 samples
+ */
+enum lvts_hw_filter {
+ LVTS_FILTER_1,
+ LVTS_FILTER_2,
+ LVTS_FILTER_2_OF_4,
+ LVTS_FILTER_4_OF_6,
+ LVTS_FILTER_8_OF_10,
+ LVTS_FILTER_16_OF_18
+};
+
+enum lvts_sensing_point {
+ SENSING_POINT0,
+ SENSING_POINT1,
+ SENSING_POINT2,
+ SENSING_POINT3,
+ ALL_SENSING_POINTS
+};
+
+struct lvts_data;
+
+/**
+ * struct lvts_speed_settings - A structure to hold the data related to polling rate
+ * @period_unit: Period unit is a base for all interval delays
+ * @group_interval_delay: Delay between different rounds
+ * @filter_interval_delay: Delay between two samples of the same sensor
+ * @sensor_interval_delay: Delay between two samples of differnet sensors
+ *
+ * Calculation is achieved with the following equations:
+ * For the period unit: (period_us * 1000) / (256 * clock_26mhz_cycle_ns)
+ * For the interval delays: delay / period_us
+ */
+struct lvts_speed_settings {
+ unsigned int period_unit;
+ unsigned int group_interval_delay;
+ unsigned int filter_interval_delay;
+ unsigned int sensor_interval_delay;
+};
+
+struct lvts_tc_settings {
+ unsigned int dev_id;
+ unsigned int addr_offset;
+ unsigned int num_sensor;
+ unsigned int ts_offset;
+ unsigned int sensor_map[ALL_SENSING_POINTS]; /* In sensor ID */
+ struct lvts_speed_settings *tc_speed;
+ /*
+ * HW filter setting
+ * 000: Get one sample
+ * 001: Get 2 samples and average them
+ * 010: Get 4 samples, drop max and min, then average the rest of 2 samples
+ * 011: Get 6 samples, drop max and min, then average the rest of 4 samples
+ * 100: Get 10 samples, drop max and min, then average the rest of 8 samples
+ * 101: Get 18 samples, drop max and min, then average the rest of 16 samples
+ */
+ unsigned int hw_filter;
+ /*
+ * Dominator_sensing point is used to select a sensing point
+ * and reference its temperature to trigger Thermal HW Reboot
+ * When it is ALL_SENSING_POINTS, it will select all sensing points
+ */
+ int dominator_sensing_point;
+ int hw_reboot_trip_point; /* -274000: Disable HW reboot */
+ unsigned int irq_bit;
+};
+
+struct lvts_formula_coeff {
+ int a;
+ int b;
+ unsigned int golden_temp;
+};
+
+struct lvts_sensor_cal_data {
+ int use_fake_efuse; /* 1: Use fake efuse, 0: Use real efuse */
+ unsigned int golden_temp;
+ unsigned int *count_r;
+ unsigned int *count_rc;
+ unsigned int *count_rc_now;
+ unsigned int default_golden_temp;
+ unsigned int default_count_r;
+ unsigned int default_count_rc;
+};
+
+struct platform_ops {
+ void (*efuse_to_cal_data)(struct lvts_data *lvts_data);
+ void (*device_enable_and_init)(struct lvts_data *lvts_data);
+ void (*device_enable_auto_rck)(struct lvts_data *lvts_data);
+ int (*device_read_count_rc_n)(struct lvts_data *lvts_data);
+ void (*set_cal_data)(struct lvts_data *lvts_data);
+ void (*init_controller)(struct lvts_data *lvts_data);
+};
+
+struct lvts_data {
+ struct device *dev;
+ struct clk *clk;
+ void __iomem *base; /* LVTS base addresses */
+ unsigned int irq_num; /* LVTS interrupt numbers */
+ struct reset_control *reset;
+ int num_tc; /* Number of LVTS thermal controllers */
+ const struct lvts_tc_settings *tc;
+ int counting_window_us; /* LVTS device counting window */
+ int num_sensor; /* Number of sensors in this platform */
+ void __iomem **reg;
+ struct platform_ops ops;
+ int feature_bitmap; /* Show what features are enabled */
+ unsigned int num_efuse_addr;
+ unsigned int *efuse;
+ unsigned int num_efuse_block; /* Number of contiguous efuse indexes */
+ struct lvts_sensor_cal_data cal_data;
+ struct lvts_formula_coeff coeff;
+};
+
+struct soc_temp_tz {
+ unsigned int id;
+ struct lvts_data *lvts_data;
+};
+
+extern void lvts_device_enable_and_init(struct lvts_data *lvts_data);
+extern void lvts_device_enable_auto_rck_v4(struct lvts_data *lvts_data);
+extern int lvts_device_read_count_rc_n_v4(struct lvts_data *lvts_data);
+extern void lvts_set_calibration_data_v4(struct lvts_data *lvts_data);
+extern void lvts_init_controller_v4(struct lvts_data *lvts_data);
+
+extern int lvts_probe(struct platform_device *pdev);
+extern int lvts_remove(struct platform_device *pdev);
+extern int lvts_suspend(struct platform_device *pdev, pm_message_t state);
+extern int lvts_resume(struct platform_device *pdev);
+extern void lvts_shutdown(struct platform_device *pdev);
+
+#endif /* __MTK_SOC_TEMP_LVTS_H__ */
diff --git a/drivers/thermal/mediatek/lvts_v4.c b/drivers/thermal/mediatek/lvts_v4.c
new file mode 100644
index 000000000000..3dc00d2589f9
--- /dev/null
+++ b/drivers/thermal/mediatek/lvts_v4.c
@@ -0,0 +1,249 @@
+// SPDX-License-Identifier: GPL-2.0-only
+/*
+ * Copyright (c) 2022 MediaTek Inc.
+ */
+
+#include <linux/of_irq.h>
+#include <linux/platform_device.h>
+#include "lvts_thermal.h"
+
+enum mt8192_lvts_mcu_sensor_enum {
+ MT8192_TS1_0,
+ MT8192_TS1_1,
+ MT8192_TS2_0,
+ MT8192_TS2_1,
+ MT8192_TS3_0,
+ MT8192_TS3_1,
+ MT8192_TS3_2,
+ MT8192_TS3_3,
+ MT8192_NUM_TS_MCU
+};
+
+enum mt8192_lvts_ap_sensor_enum {
+ MT8192_TS4_0,
+ MT8192_TS4_1,
+ MT8192_TS5_0,
+ MT8192_TS5_1,
+ MT8192_TS6_0,
+ MT8192_TS6_1,
+ MT8192_TS7_0,
+ MT8192_TS7_1,
+ MT8192_TS7_2,
+ MT8192_NUM_TS_AP
+};
+
+static void mt8192_mcu_efuse_to_cal_data(struct lvts_data *lvts_data)
+{
+ const unsigned int mt8192_ts[] = { MT8192_TS2_0, MT8192_TS3_0 };
+ struct lvts_sensor_cal_data *cal_data = &lvts_data->cal_data;
+ unsigned int i, j;
+
+ cal_data->golden_temp = GET_CAL_DATA_BITMASK(0, lvts_data, 31, 24);
+
+ for (i = 0; i < MT8192_NUM_TS_MCU; i++)
+ cal_data->count_r[i] = GET_CAL_DATA_BITMASK(i + 1, lvts_data, 23, 0);
+
+ cal_data->count_rc[MT8192_TS1_0] = GET_CAL_DATA_BITMASK(21, lvts_data, 23, 0);
+
+ for (i = 0; i < (ARRAY_SIZE(mt8192_ts)); i++) {
+ for (j = 1; j <= 18; j++) {
+ cal_data->count_rc[mt8192_ts[i]] = (GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24)
+ << 16) + (GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24) << 8) +
+ GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24);
+ }
+ }
+}
+
+static void mt8192_ap_efuse_to_cal_data(struct lvts_data *lvts_data)
+{
+ const unsigned int mt8192_ts[] = { MT8192_TS4_0, MT8192_TS5_0, MT8192_TS6_0, MT8192_TS7_0 };
+ struct lvts_sensor_cal_data *cal_data = &lvts_data->cal_data;
+ unsigned int i, j;
+
+ cal_data->golden_temp = GET_CAL_DATA_BITMASK(0, lvts_data, 31, 24);
+
+ for (i = 0; i < MT8192_NUM_TS_AP; i++)
+ cal_data->count_r[i] = GET_CAL_DATA_BITMASK(i + 1, lvts_data, 23, 0);
+
+ for (i = 0; i < (ARRAY_SIZE(mt8192_ts)); i++) {
+ for (j = 1; j <= 18; j++) {
+ cal_data->count_rc[mt8192_ts[i]] = (GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24)
+ << 16) + (GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24) << 8) +
+ GET_CAL_DATA_BITMASK(j, lvts_data, 31, 24);
+ }
+ }
+}
+
+static struct lvts_speed_settings tc_speed_mt8192 = {
+ .period_unit = PERIOD_UNIT,
+ .group_interval_delay = GROUP_INTERVAL_DELAY,
+ .filter_interval_delay = FILTER_INTERVAL_DELAY,
+ .sensor_interval_delay = SENSOR_INTERVAL_DELAY,
+};
+
+static const struct lvts_tc_settings mt8192_tc_mcu_settings[] = {
+ [0] = {
+ .dev_id = 0x81,
+ .addr_offset = 0x0,
+ .num_sensor = 2,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS1_0, MT8192_TS1_1 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT1,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(3),
+ },
+ [1] = {
+ .dev_id = 0x82,
+ .addr_offset = 0x100,
+ .num_sensor = 2,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS2_0, MT8192_TS2_1 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT0,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(4),
+ },
+ [2] = {
+ .dev_id = 0x83,
+ .addr_offset = 0x200,
+ .num_sensor = 4,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS3_0, MT8192_TS3_1, MT8192_TS3_2, MT8192_TS3_3 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT0,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(5),
+ }
+};
+
+static const struct lvts_tc_settings mt8192_tc_ap_settings[] = {
+ [0] = {
+ .dev_id = 0x84,
+ .addr_offset = 0x0,
+ .num_sensor = 2,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS4_0, MT8192_TS4_1 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT0,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(3),
+ },
+ [1] = {
+ .dev_id = 0x85,
+ .addr_offset = 0x100,
+ .num_sensor = 2,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS5_0, MT8192_TS5_1 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT1,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(4),
+ },
+ [2] = {
+ .dev_id = 0x86,
+ .addr_offset = 0x200,
+ .num_sensor = 2,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS6_0, MT8192_TS6_1 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT1,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(5),
+ },
+ [3] = {
+ .dev_id = 0x87,
+ .addr_offset = 0x300,
+ .num_sensor = 3,
+ .ts_offset = 0,
+ .sensor_map = { MT8192_TS7_0, MT8192_TS7_1, MT8192_TS7_2 },
+ .tc_speed = &tc_speed_mt8192,
+ .hw_filter = LVTS_FILTER_2_OF_4,
+ .dominator_sensing_point = SENSING_POINT2,
+ .hw_reboot_trip_point = HW_REBOOT_TRIP_POINT,
+ .irq_bit = BIT(6),
+ }
+};
+
+static const struct lvts_data mt8192_lvts_mcu_data = {
+ .num_tc = (ARRAY_SIZE(mt8192_tc_mcu_settings)),
+ .tc = mt8192_tc_mcu_settings,
+ .num_sensor = MT8192_NUM_TS_MCU,
+ .ops = {
+ .efuse_to_cal_data = mt8192_mcu_efuse_to_cal_data,
+ .device_enable_and_init = lvts_device_enable_and_init,
+ .device_enable_auto_rck = lvts_device_enable_auto_rck_v4,
+ .device_read_count_rc_n = lvts_device_read_count_rc_n_v4,
+ .set_cal_data = lvts_set_calibration_data_v4,
+ .init_controller = lvts_init_controller_v4,
+ },
+ .feature_bitmap = FEATURE_DEVICE_AUTO_RCK,
+ .num_efuse_addr = NUM_EFUSE_ADDR,
+ .num_efuse_block = NUM_EFUSE_BLOCK_MT8192,
+ .cal_data = {
+ .default_golden_temp = DEFAULT_GOLDEN_TEMP,
+ .default_count_r = DEFAULT_CUONT_R,
+ .default_count_rc = DEFAULT_CUONT_RC,
+ },
+ .coeff = {
+ .a = COEFF_A,
+ .b = COEFF_B,
+ },
+};
+
+static const struct lvts_data mt8192_lvts_ap_data = {
+ .num_tc = (ARRAY_SIZE(mt8192_tc_ap_settings)),
+ .tc = mt8192_tc_ap_settings,
+ .num_sensor = MT8192_NUM_TS_AP,
+ .ops = {
+ .efuse_to_cal_data = mt8192_ap_efuse_to_cal_data,
+ .device_enable_and_init = lvts_device_enable_and_init,
+ .device_enable_auto_rck = lvts_device_enable_auto_rck_v4,
+ .device_read_count_rc_n = lvts_device_read_count_rc_n_v4,
+ .set_cal_data = lvts_set_calibration_data_v4,
+ .init_controller = lvts_init_controller_v4,
+ },
+ .feature_bitmap = FEATURE_DEVICE_AUTO_RCK,
+ .num_efuse_addr = NUM_EFUSE_ADDR,
+ .num_efuse_block = NUM_EFUSE_BLOCK_MT8192,
+ .cal_data = {
+ .default_golden_temp = DEFAULT_GOLDEN_TEMP,
+ .default_count_r = DEFAULT_CUONT_R,
+ .default_count_rc = DEFAULT_CUONT_RC,
+ },
+ .coeff = {
+ .a = COEFF_A,
+ .b = COEFF_B,
+ },
+};
+
+static const struct of_device_id lvts_of_match[] = {
+ { .compatible = "mediatek,mt8192-lvts-mcu", .data = &mt8192_lvts_mcu_data, },
+ { .compatible = "mediatek,mt8192-lvts-ap", .data = &mt8192_lvts_ap_data, },
+ {},
+};
+MODULE_DEVICE_TABLE(of, lvts_of_match);
+
+static struct platform_driver soc_temp_lvts = {
+ .probe = lvts_probe,
+ .remove = lvts_remove,
+ .suspend = lvts_suspend,
+ .resume = lvts_resume,
+ .shutdown = lvts_shutdown,
+ .driver = {
+ .name = "mtk-lvts-thermal-v4",
+ .of_match_table = lvts_of_match,
+ },
+};
+module_platform_driver(soc_temp_lvts);
+
+MODULE_AUTHOR("Yu-Chia Chang <ethan.chang@...iatek.com>");
+MODULE_AUTHOR("Michael Kao <michael.kao@...iatek.com>");
+MODULE_DESCRIPTION("MediaTek LVTS V4 Thermal Driver");
+MODULE_LICENSE("GPL");
--
2.34.1
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