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[99.135.181.32]) by smtp.gmail.com with ESMTPSA id 36sm729548otb.30.2020.09.28.20.14.45 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Mon, 28 Sep 2020 20:14:46 -0700 (PDT) From: Bjorn Andersson To: Pavel Machek , Dan Murphy , Rob Herring , Andy Gross , Bjorn Andersson , Thierry Reding , =?utf-8?q?Uwe_Kleine-K?= =?utf-8?b?w7ZuaWc=?= , Lee Jones , Martin Botka Cc: linux-leds@vger.kernel.org, devicetree@vger.kernel.org, linux-kernel@vger.kernel.org, linux-arm-msm@vger.kernel.org, linux-pwm@vger.kernel.org Subject: [PATCH v4 2/4] leds: Add driver for Qualcomm LPG Date: Mon, 28 Sep 2020 20:15:42 -0700 Message-Id: <20200929031544.1000204-3-bjorn.andersson@linaro.org> X-Mailer: git-send-email 2.28.0 In-Reply-To: <20200929031544.1000204-1-bjorn.andersson@linaro.org> References: <20200929031544.1000204-1-bjorn.andersson@linaro.org> MIME-Version: 1.0 Precedence: bulk List-ID: X-Mailing-List: devicetree@vger.kernel.org The Light Pulse Generator (LPG) is a PWM-block found in a wide range of PMICs from Qualcomm. It can operate on fixed parameters or based on a lookup-table, altering the duty cycle over time - which provides the means for e.g. hardware assisted transitions of LED brightness. Signed-off-by: Bjorn Andersson --- Changes since v3: - Adopt multicolor model - Simplified hw_pattern implementation drivers/leds/Kconfig | 9 + drivers/leds/Makefile | 1 + drivers/leds/leds-qcom-lpg.c | 1213 ++++++++++++++++++++++++++++++++++ 3 files changed, 1223 insertions(+) create mode 100644 drivers/leds/leds-qcom-lpg.c -- 2.28.0 diff --git a/drivers/leds/Kconfig b/drivers/leds/Kconfig index 849d3c5f908e..d500648c586f 100644 --- a/drivers/leds/Kconfig +++ b/drivers/leds/Kconfig @@ -803,6 +803,15 @@ config LEDS_POWERNV To compile this driver as a module, choose 'm' here: the module will be called leds-powernv. +config LEDS_QCOM_LPG + tristate "LED support for Qualcomm LPG" + depends on LEDS_CLASS_MULTICOLOR + depends on OF + depends on SPMI + help + This option enables support for the Light Pulse Generator found in a + wide variety of Qualcomm PMICs. + config LEDS_SYSCON bool "LED support for LEDs on system controllers" depends on LEDS_CLASS=y diff --git a/drivers/leds/Makefile b/drivers/leds/Makefile index 73e603e1727e..52d0ea26fc35 100644 --- a/drivers/leds/Makefile +++ b/drivers/leds/Makefile @@ -79,6 +79,7 @@ obj-$(CONFIG_LEDS_PCA963X) += leds-pca963x.o obj-$(CONFIG_LEDS_PM8058) += leds-pm8058.o obj-$(CONFIG_LEDS_POWERNV) += leds-powernv.o obj-$(CONFIG_LEDS_PWM) += leds-pwm.o +obj-$(CONFIG_LEDS_QCOM_LPG) += leds-qcom-lpg.o obj-$(CONFIG_LEDS_REGULATOR) += leds-regulator.o obj-$(CONFIG_LEDS_S3C24XX) += leds-s3c24xx.o obj-$(CONFIG_LEDS_SC27XX_BLTC) += leds-sc27xx-bltc.o diff --git a/drivers/leds/leds-qcom-lpg.c b/drivers/leds/leds-qcom-lpg.c new file mode 100644 index 000000000000..17594ce37c9a --- /dev/null +++ b/drivers/leds/leds-qcom-lpg.c @@ -0,0 +1,1213 @@ +/* + * Copyright (c) 2017-2019 Linaro Ltd + * Copyright (c) 2010-2012, 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 +#include +#include +#include +#include +#include +#include +#include + +#define LPG_PATTERN_CONFIG_REG 0x40 +#define LPG_SIZE_CLK_REG 0x41 +#define LPG_PREDIV_CLK_REG 0x42 +#define PWM_TYPE_CONFIG_REG 0x43 +#define PWM_VALUE_REG 0x44 +#define PWM_ENABLE_CONTROL_REG 0x46 +#define PWM_SYNC_REG 0x47 +#define LPG_RAMP_DURATION_REG 0x50 +#define LPG_HI_PAUSE_REG 0x52 +#define LPG_LO_PAUSE_REG 0x54 +#define LPG_HI_IDX_REG 0x56 +#define LPG_LO_IDX_REG 0x57 +#define PWM_SEC_ACCESS_REG 0xd0 +#define PWM_DTEST_REG(x) (0xe2 + (x) - 1) + +#define TRI_LED_SRC_SEL 0x45 +#define TRI_LED_EN_CTL 0x46 +#define TRI_LED_ATC_CTL 0x47 + +#define LPG_LUT_REG(x) (0x40 + (x) * 2) +#define RAMP_CONTROL_REG 0xc8 + +struct lpg_channel; +struct lpg_data; + +/** + * struct lpg - LPG device context + * @dev: struct device for LPG device + * @map: regmap for register access + * @pwm: PWM-chip object, if operating in PWM mode + * @lut_base: base address of the LUT block (optional) + * @lut_size: number of entries in the LUT block + * @lut_bitmap: allocation bitmap for LUT entries + * @triled_base: base address of the TRILED block (optional) + * @triled_src: power-source for the TRILED + * @channels: list of PWM channels + * @num_channels: number of @channels + */ +struct lpg { + struct device *dev; + struct regmap *map; + + struct pwm_chip pwm; + + const struct lpg_data *data; + + u32 lut_base; + u32 lut_size; + unsigned long *lut_bitmap; + + u32 triled_base; + u32 triled_src; + + struct lpg_channel *channels; + unsigned int num_channels; +}; + +/** + * struct lpg_channel - per channel data + * @lpg: reference to parent lpg + * @base: base address of the PWM channel + * @triled_mask: mask in TRILED to enable this channel + * @lut_mask: mask in LUT to start pattern generator for this channel + * @in_use: channel is exposed to LED framework + * @color: color of the LED attached to this channel + * @dtest_line: DTEST line for output, or 0 if disabled + * @dtest_value: DTEST line configuration + * @pwm_value: duty (in microseconds) of the generated pulses, overriden by LUT + * @enabled: output enabled? + * @period_us: period (in microseconds) of the generated pulses + * @pwm_size: resolution of the @pwm_value, 6 or 9 bits + * @clk: base frequency of the clock generator + * @pre_div: divider of @clk + * @pre_div_exp: exponential divider of @clk + * @ramp_enabled: duty cycle is driven by iterating over lookup table + * @ramp_ping_pong: reverse through pattern, rather than wrapping to start + * @ramp_oneshot: perform only a single pass over the pattern + * @ramp_reverse: iterate over pattern backwards + * @ramp_duration_ms: length (in milliseconds) of one pattern run + * @ramp_lo_pause_ms: pause (in milliseconds) before iterating over pattern + * @ramp_hi_pause_ms: pause (in milliseconds) after iterating over pattern + * @pattern_lo_idx: start index of associated pattern + * @pattern_hi_idx: last index of associated pattern + */ +struct lpg_channel { + struct lpg *lpg; + + u32 base; + unsigned int triled_mask; + unsigned int lut_mask; + + bool in_use; + + int color; + + u32 dtest_line; + u32 dtest_value; + + u16 pwm_value; + bool enabled; + + unsigned int period_us; + unsigned int pwm_size; + unsigned int clk; + unsigned int pre_div; + unsigned int pre_div_exp; + + bool ramp_enabled; + bool ramp_ping_pong; + bool ramp_oneshot; + bool ramp_reverse; + unsigned long ramp_duration_ms; + unsigned long ramp_lo_pause_ms; + unsigned long ramp_hi_pause_ms; + + unsigned int pattern_lo_idx; + unsigned int pattern_hi_idx; +}; + +/** + * struct lpg_led - logical LED object + * @lpg: lpg context reference + * @cdev: LED class device + * @mcdev: Multicolor LED class device + * @num_channels: number of @channels + * @channels: list of channels associated with the LED + */ +struct lpg_led { + struct lpg *lpg; + + struct led_classdev cdev; + struct led_classdev_mc mcdev; + + unsigned int num_channels; + struct lpg_channel *channels[]; +}; + +/** + * struct lpg_channel_data - per channel initialization data + * @base: base address for PWM channel registers + * @triled_mask: bitmask for controlling this channel in TRILED + */ +struct lpg_channel_data { + unsigned int base; + u8 triled_mask; +}; + +/** + * struct lpg_data - initialization data + * @lut_base: base address of LUT block + * @lut_size: number of entries in LUT + * @triled_base: base address of TRILED + * @pwm_9bit_mask: bitmask for switching from 6bit to 9bit pwm + * @num_channels: number of channels in LPG + * @channels: list of channel initialization data + */ +struct lpg_data { + unsigned int lut_base; + unsigned int lut_size; + unsigned int triled_base; + unsigned int pwm_9bit_mask; + int num_channels; + struct lpg_channel_data *channels; +}; + +static int triled_set(struct lpg *lpg, unsigned int mask, bool enable) +{ + /* Skip if we don't have a triled block */ + if (!lpg->triled_base) + return 0; + + return regmap_update_bits(lpg->map, lpg->triled_base + TRI_LED_EN_CTL, + mask, enable ? mask : 0); +} + +static int lpg_lut_store(struct lpg *lpg, struct led_pattern *pattern, + size_t len, unsigned int *lo_idx, unsigned int *hi_idx) +{ + unsigned int idx; + u8 val[2]; + int i; + + /* Hardware does not behave when LO_IDX == HI_IDX */ + if (len == 1) + return -EINVAL; + + idx = bitmap_find_next_zero_area(lpg->lut_bitmap, lpg->lut_size, + 0, len, 0); + if (idx >= lpg->lut_size) + return -ENOMEM; + + for (i = 0; i < len; i++) { + val[0] = pattern[i].brightness & 0xff; + val[1] = pattern[i].brightness >> 8; + + regmap_bulk_write(lpg->map, + lpg->lut_base + LPG_LUT_REG(idx + i), val, 2); + } + + bitmap_set(lpg->lut_bitmap, idx, len); + + *lo_idx = idx; + *hi_idx = idx + len - 1; + + return 0; +} + +static void lpg_lut_free(struct lpg *lpg, unsigned int lo_idx, unsigned int hi_idx) +{ + int len; + + if (lo_idx == hi_idx) + return; + + len = hi_idx - lo_idx + 1; + bitmap_clear(lpg->lut_bitmap, lo_idx, len); +} + +static int lpg_lut_sync(struct lpg *lpg, unsigned int mask) +{ + return regmap_write(lpg->map, lpg->lut_base + RAMP_CONTROL_REG, mask); +} + +#define NUM_PWM_PREDIV 4 +#define NUM_PWM_CLK 3 +#define NUM_EXP 7 + +static const unsigned int lpg_clk_table[NUM_PWM_PREDIV][NUM_PWM_CLK] = { + { + 1 * (NSEC_PER_SEC / 1024), + 1 * (NSEC_PER_SEC / 32768), + 1 * (NSEC_PER_SEC / 19200000), + }, + { + 3 * (NSEC_PER_SEC / 1024), + 3 * (NSEC_PER_SEC / 32768), + 3 * (NSEC_PER_SEC / 19200000), + }, + { + 5 * (NSEC_PER_SEC / 1024), + 5 * (NSEC_PER_SEC / 32768), + 5 * (NSEC_PER_SEC / 19200000), + }, + { + 6 * (NSEC_PER_SEC / 1024), + 6 * (NSEC_PER_SEC / 32768), + 6 * (NSEC_PER_SEC / 19200000), + }, +}; + +/* + * PWM Frequency = Clock Frequency / (N * T) + * or + * PWM Period = Clock Period * (N * T) + * where + * N = 2^9 or 2^6 for 9-bit or 6-bit PWM size + * T = Pre-divide * 2^m, where m = 0..7 (exponent) + * + * This is the formula to figure out m for the best pre-divide and clock: + * (PWM Period / N) = (Pre-divide * Clock Period) * 2^m + */ +static void lpg_calc_freq(struct lpg_channel *chan, unsigned int period_us) +{ + int n, m, clk, div; + int best_m, best_div, best_clk; + unsigned int last_err, cur_err, min_err; + unsigned int tmp_p, period_n; + + if (period_us == chan->period_us) + return; + + /* PWM Period / N */ + if (period_us < ((unsigned int)(-1) / NSEC_PER_USEC)) { + period_n = (period_us * NSEC_PER_USEC) >> 6; + n = 6; + } else { + period_n = (period_us >> 9) * NSEC_PER_USEC; + n = 9; + } + + min_err = last_err = (unsigned int)(-1); + best_m = 0; + best_clk = 0; + best_div = 0; + for (clk = 0; clk < NUM_PWM_CLK; clk++) { + for (div = 0; div < NUM_PWM_PREDIV; div++) { + /* period_n = (PWM Period / N) */ + /* tmp_p = (Pre-divide * Clock Period) * 2^m */ + tmp_p = lpg_clk_table[div][clk]; + for (m = 0; m <= NUM_EXP; m++) { + if (period_n > tmp_p) + cur_err = period_n - tmp_p; + else + cur_err = tmp_p - period_n; + + if (cur_err < min_err) { + min_err = cur_err; + best_m = m; + best_clk = clk; + best_div = div; + } + + if (m && cur_err > last_err) + /* Break for bigger cur_err */ + break; + + last_err = cur_err; + tmp_p <<= 1; + } + } + } + + /* Use higher resolution */ + if (best_m >= 3 && n == 6) { + n += 3; + best_m -= 3; + } + + chan->clk = best_clk; + chan->pre_div = best_div; + chan->pre_div_exp = best_m; + chan->pwm_size = n; + + chan->period_us = period_us; +} + +static void lpg_calc_duty(struct lpg_channel *chan, unsigned int duty_us) +{ + unsigned long max = (1 << chan->pwm_size) - 1; + unsigned long val; + + /* Figure out pwm_value with overflow handling */ + if (duty_us < 1 << (sizeof(val) * 8 - chan->pwm_size)) + val = (duty_us << chan->pwm_size) / chan->period_us; + else + val = duty_us / (chan->period_us >> chan->pwm_size); + + if (val > max) + val = max; + + chan->pwm_value = val; +} + +static void lpg_apply_freq(struct lpg_channel *chan) +{ + unsigned long val; + struct lpg *lpg = chan->lpg; + + if (!chan->enabled) + return; + + /* Clock register values are off-by-one from lpg_clk_table */ + val = chan->clk + 1; + + if (chan->pwm_size == 9) + val |= lpg->data->pwm_9bit_mask; + + regmap_write(lpg->map, chan->base + LPG_SIZE_CLK_REG, val); + + val = chan->pre_div << 5 | chan->pre_div_exp; + regmap_write(lpg->map, chan->base + LPG_PREDIV_CLK_REG, val); +} + +#define LPG_ENABLE_GLITCH_REMOVAL BIT(5) + +static void lpg_enable_glitch(struct lpg_channel *chan) +{ + struct lpg *lpg = chan->lpg; + + regmap_update_bits(lpg->map, chan->base + PWM_TYPE_CONFIG_REG, + LPG_ENABLE_GLITCH_REMOVAL, 0); +} + +static void lpg_disable_glitch(struct lpg_channel *chan) +{ + struct lpg *lpg = chan->lpg; + + regmap_update_bits(lpg->map, chan->base + PWM_TYPE_CONFIG_REG, + LPG_ENABLE_GLITCH_REMOVAL, + LPG_ENABLE_GLITCH_REMOVAL); +} + +static void lpg_apply_pwm_value(struct lpg_channel *chan) +{ + u8 val[] = { chan->pwm_value & 0xff, chan->pwm_value >> 8 }; + struct lpg *lpg = chan->lpg; + + if (!chan->enabled) + return; + + regmap_bulk_write(lpg->map, chan->base + PWM_VALUE_REG, val, 2); +} + +#define LPG_PATTERN_CONFIG_LO_TO_HI BIT(4) +#define LPG_PATTERN_CONFIG_REPEAT BIT(3) +#define LPG_PATTERN_CONFIG_TOGGLE BIT(2) +#define LPG_PATTERN_CONFIG_PAUSE_HI BIT(1) +#define LPG_PATTERN_CONFIG_PAUSE_LO BIT(0) + +static void lpg_apply_lut_control(struct lpg_channel *chan) +{ + struct lpg *lpg = chan->lpg; + unsigned int hi_pause; + unsigned int lo_pause; + unsigned int step; + unsigned int conf = 0; + unsigned int lo_idx = chan->pattern_lo_idx; + unsigned int hi_idx = chan->pattern_hi_idx; + int pattern_len; + + if (!chan->ramp_enabled || chan->pattern_lo_idx == chan->pattern_hi_idx) + return; + + pattern_len = hi_idx - lo_idx + 1; + + step = DIV_ROUND_UP(chan->ramp_duration_ms, pattern_len); + hi_pause = DIV_ROUND_UP(chan->ramp_hi_pause_ms, step); + lo_pause = DIV_ROUND_UP(chan->ramp_lo_pause_ms, step); + + if (!chan->ramp_reverse) + conf |= LPG_PATTERN_CONFIG_LO_TO_HI; + if (!chan->ramp_oneshot) + conf |= LPG_PATTERN_CONFIG_REPEAT; + if (chan->ramp_ping_pong) + conf |= LPG_PATTERN_CONFIG_TOGGLE; + if (chan->ramp_hi_pause_ms) + conf |= LPG_PATTERN_CONFIG_PAUSE_HI; + if (chan->ramp_lo_pause_ms) + conf |= LPG_PATTERN_CONFIG_PAUSE_LO; + + regmap_write(lpg->map, chan->base + LPG_PATTERN_CONFIG_REG, conf); + regmap_write(lpg->map, chan->base + LPG_HI_IDX_REG, hi_idx); + regmap_write(lpg->map, chan->base + LPG_LO_IDX_REG, lo_idx); + + regmap_write(lpg->map, chan->base + LPG_RAMP_DURATION_REG, step); + regmap_write(lpg->map, chan->base + LPG_HI_PAUSE_REG, hi_pause); + regmap_write(lpg->map, chan->base + LPG_LO_PAUSE_REG, lo_pause); +} + +#define LPG_ENABLE_CONTROL_OUTPUT BIT(7) +#define LPG_ENABLE_CONTROL_BUFFER_TRISTATE BIT(5) +#define LPG_ENABLE_CONTROL_SRC_PWM BIT(2) +#define LPG_ENABLE_CONTROL_RAMP_GEN BIT(1) + +static void lpg_apply_control(struct lpg_channel *chan) +{ + unsigned int ctrl; + struct lpg *lpg = chan->lpg; + + ctrl = LPG_ENABLE_CONTROL_BUFFER_TRISTATE; + + if (chan->enabled) + ctrl |= LPG_ENABLE_CONTROL_OUTPUT; + + if (chan->pattern_lo_idx != chan->pattern_hi_idx) + ctrl |= LPG_ENABLE_CONTROL_RAMP_GEN; + else + ctrl |= LPG_ENABLE_CONTROL_SRC_PWM; + + regmap_write(lpg->map, chan->base + PWM_ENABLE_CONTROL_REG, ctrl); + + /* + * Due to LPG hardware bug, in the PWM mode, having enabled PWM, + * We have to write PWM values one more time. + */ + if (chan->enabled) + lpg_apply_pwm_value(chan); +} + +#define LPG_SYNC_PWM BIT(0) + +static void lpg_apply_sync(struct lpg_channel *chan) +{ + struct lpg *lpg = chan->lpg; + + regmap_write(lpg->map, chan->base + PWM_SYNC_REG, LPG_SYNC_PWM); +} + +static void lpg_apply_dtest(struct lpg_channel *chan) +{ + struct lpg *lpg = chan->lpg; + + if (!chan->dtest_line) + return; + + regmap_write(lpg->map, chan->base + PWM_SEC_ACCESS_REG, 0xa5); + regmap_write(lpg->map, chan->base + PWM_DTEST_REG(chan->dtest_line), + chan->dtest_value); +} + +static void lpg_apply(struct lpg_channel *chan) +{ + lpg_disable_glitch(chan); + lpg_apply_freq(chan); + lpg_apply_pwm_value(chan); + lpg_apply_control(chan); + lpg_apply_sync(chan); + lpg_apply_lut_control(chan); + lpg_enable_glitch(chan); +} + +static void lpg_brightness_set(struct lpg_led *led, struct led_classdev *cdev, + struct mc_subled *subleds) +{ + enum led_brightness brightness; + struct lpg_channel *chan; + unsigned int triled_mask = 0; + unsigned int lut_mask = 0; + unsigned int duty_us; + struct lpg *lpg = led->lpg; + int i; + + for (i = 0; i < led->num_channels; i++) { + chan = led->channels[i]; + brightness = subleds[i].brightness; + + if (brightness == LED_OFF) { + chan->enabled = false; + chan->ramp_enabled = false; + } else if (chan->pattern_lo_idx != chan->pattern_hi_idx) { + lpg_calc_freq(chan, NSEC_PER_USEC); + + chan->enabled = true; + chan->ramp_enabled = true; + + lut_mask |= chan->lut_mask; + triled_mask |= chan->triled_mask; + } else { + lpg_calc_freq(chan, NSEC_PER_USEC); + + duty_us = brightness * chan->period_us / cdev->max_brightness; + lpg_calc_duty(chan, duty_us); + chan->enabled = true; + chan->ramp_enabled = false; + + triled_mask |= chan->triled_mask; + } + + lpg_apply(chan); + } + + /* Toggle triled lines */ + if (triled_mask) + triled_set(lpg, triled_mask, chan->enabled); + + /* Trigger start of ramp generator(s) */ + if (lut_mask) + lpg_lut_sync(lpg, lut_mask); +} + +static void lpg_brightness_single_set(struct led_classdev *cdev, + enum led_brightness value) +{ + struct lpg_led *led = container_of(cdev, struct lpg_led, cdev); + struct mc_subled info; + + info.brightness = value; + lpg_brightness_set(led, cdev, &info); +} + +static void lpg_brightness_mc_set(struct led_classdev *cdev, + enum led_brightness value) +{ + struct led_classdev_mc *mc = lcdev_to_mccdev(cdev); + struct lpg_led *led = container_of(mc, struct lpg_led, mcdev); + + led_mc_calc_color_components(mc, value); + lpg_brightness_set(led, cdev, mc->subled_info); +} + +static int lpg_blink_set(struct lpg_led *led, + unsigned long delay_on, unsigned long delay_off) +{ + struct lpg_channel *chan; + unsigned int period_us; + unsigned int duty_us; + int i; + + if (!delay_on && !delay_off) { + delay_on = 500; + delay_off = 500; + } + + duty_us = delay_on * USEC_PER_MSEC; + period_us = (delay_on + delay_off) * USEC_PER_MSEC; + + for (i = 0; i < led->num_channels; i++) { + chan = led->channels[i]; + + lpg_calc_freq(chan, period_us); + lpg_calc_duty(chan, duty_us); + + chan->enabled = true; + chan->ramp_enabled = false; + + lpg_apply(chan); + } + + return 0; +} + +static int lpg_blink_single_set(struct led_classdev *cdev, + unsigned long *delay_on, unsigned long *delay_off) +{ + struct lpg_led *led = container_of(cdev, struct lpg_led, cdev); + + return lpg_blink_set(led, *delay_on, *delay_off); +} + +static int lpg_blink_mc_set(struct led_classdev *cdev, + unsigned long *delay_on, unsigned long *delay_off) +{ + struct led_classdev_mc *mc = lcdev_to_mccdev(cdev); + struct lpg_led *led = container_of(mc, struct lpg_led, mcdev); + + return lpg_blink_set(led, *delay_on, *delay_off); +} + +#define interpolate(x1, y1, x2, y2, x) \ + ((y1) + ((y2) - (y1)) * ((x) - (x1)) / ((x2) - (x1))) + +static int lpg_pattern_set(struct lpg_led *led, struct led_pattern *pattern, + u32 len, int repeat) +{ + struct lpg_channel *chan; + struct lpg *lpg = led->lpg; + unsigned int hi_pause; + unsigned int lo_pause; + unsigned int lo_idx; + unsigned int hi_idx; + bool ping_pong = true; + int brightness_a; + int brightness_b; + int ret; + int i; + + /* Only support oneshot or indefinite loops, due to limited pattern space */ + if (repeat != -1 && repeat != 1) + return -EINVAL; + + /* + * The LPG plays patterns with at a fixed pace, a "low pause" can be + * performed before the pattern and a "high pause" after. In order to + * save space the pattern can be played in "ping pong" mode, in which + * the pattern is first played forward, then "high pause" is applied, + * then the pattern is played backwards and finally the "low pause" is + * applied. + * + * The delta_t of the first entry is used to determine the pace of the + * pattern. + * + * If the specified pattern is a palindrome the ping pong mode is + * enabled. In this scenario the delta_t of the last entry determines + * the "low pause" time and the delta_t of the middle entry (i.e. the + * last in the programmed pattern) determines the "high pause". If the + * pattern consists of an odd number of values, no "high pause" is + * used. + * + * When ping pong mode is not selected, the delta_t of the last entry + * is used as "high pause". No "low pause" is used. + * + * delta_t of any other members of the pattern is ignored. + */ + + /* Detect palindromes and use "ping pong" to reduce LUT usage */ + for (i = 0; i < len / 2; i++) { + brightness_a = pattern[i].brightness; + brightness_b = pattern[len - i - 1].brightness; + + if (brightness_a != brightness_b) { + ping_pong = false; + break; + } + } + + if (ping_pong) { + if (len % 2) + hi_pause = 0; + else + hi_pause = pattern[len + 1 / 2].delta_t; + lo_pause = pattern[len - 1].delta_t; + + len = (len + 1) / 2; + } else { + hi_pause = pattern[len - 1].delta_t; + lo_pause = 0; + } + + ret = lpg_lut_store(lpg, pattern, len, &lo_idx, &hi_idx); + if (ret < 0) + goto out; + + for (i = 0; i < led->num_channels; i++) { + chan = led->channels[i]; + + chan->ramp_duration_ms = pattern[0].delta_t * len; + chan->ramp_ping_pong = ping_pong; + chan->ramp_oneshot = repeat != -1; + + chan->ramp_lo_pause_ms = lo_pause; + chan->ramp_hi_pause_ms = hi_pause; + + chan->pattern_lo_idx = lo_idx; + chan->pattern_hi_idx = hi_idx; + } + +out: + return ret; +} + +static int lpg_pattern_single_set(struct led_classdev *cdev, + struct led_pattern *pattern, u32 len, + int repeat) +{ + struct lpg_led *led = container_of(cdev, struct lpg_led, cdev); + int ret; + + ret = lpg_pattern_set(led, pattern, len, repeat); + if (ret < 0) + return ret; + + lpg_brightness_single_set(cdev, LED_FULL); + + return 0; +} + +static int lpg_pattern_mc_set(struct led_classdev *cdev, + struct led_pattern *pattern, u32 len, + int repeat) +{ + struct led_classdev_mc *mc = lcdev_to_mccdev(cdev); + struct lpg_led *led = container_of(mc, struct lpg_led, mcdev); + int ret; + + ret = lpg_pattern_set(led, pattern, len, repeat); + if (ret < 0) + return ret; + + led_mc_calc_color_components(mc, LED_FULL); + lpg_brightness_set(led, cdev, mc->subled_info); + + return 0; +} + +static int lpg_pattern_clear(struct lpg_led *led) +{ + struct lpg_channel *chan; + struct lpg *lpg = led->lpg; + int i; + + chan = led->channels[0]; + lpg_lut_free(lpg, chan->pattern_lo_idx, chan->pattern_hi_idx); + + for (i = 0; i < led->num_channels; i++) { + chan = led->channels[i]; + chan->pattern_lo_idx = 0; + chan->pattern_hi_idx = 0; + } + + return 0; +} + +static int lpg_pattern_single_clear(struct led_classdev *cdev) +{ + struct lpg_led *led = container_of(cdev, struct lpg_led, cdev); + + return lpg_pattern_clear(led); +} + +static int lpg_pattern_mc_clear(struct led_classdev *cdev) +{ + struct led_classdev_mc *mc = lcdev_to_mccdev(cdev); + struct lpg_led *led = container_of(mc, struct lpg_led, mcdev); + + return lpg_pattern_clear(led); +} + +static int lpg_pwm_request(struct pwm_chip *chip, struct pwm_device *pwm) +{ + struct lpg *lpg = container_of(chip, struct lpg, pwm); + struct lpg_channel *chan = &lpg->channels[pwm->hwpwm]; + + return chan->in_use ? -EBUSY : 0; +} + +static int lpg_pwm_apply(struct pwm_chip *chip, struct pwm_device *pwm, + const struct pwm_state *state) +{ + struct lpg *lpg = container_of(chip, struct lpg, pwm); + struct lpg_channel *chan = &lpg->channels[pwm->hwpwm]; + + lpg_calc_freq(chan, state->period / NSEC_PER_USEC); + lpg_calc_duty(chan, state->duty_cycle / NSEC_PER_USEC); + chan->enabled = state->enabled; + + lpg_apply(chan); + + triled_set(lpg, chan->triled_mask, chan->enabled); + + return 0; +} + +static const struct pwm_ops lpg_pwm_ops = { + .request = lpg_pwm_request, + .apply = lpg_pwm_apply, + .owner = THIS_MODULE, +}; + +static int lpg_add_pwm(struct lpg *lpg) +{ + int ret; + + lpg->pwm.base = -1; + lpg->pwm.dev = lpg->dev; + lpg->pwm.npwm = lpg->num_channels; + lpg->pwm.ops = &lpg_pwm_ops; + + ret = pwmchip_add(&lpg->pwm); + if (ret) + dev_err(lpg->dev, "failed to add PWM chip: ret %d\n", ret); + + return ret; +} + +static int lpg_parse_channel(struct lpg *lpg, struct device_node *np, + struct lpg_channel **channel) +{ + struct lpg_channel *chan; + u32 dtest[2]; + u32 color = LED_COLOR_ID_GREEN; + u32 reg; + int ret; + + ret = of_property_read_u32(np, "reg", ®); + if (ret || !reg || reg > lpg->num_channels) { + dev_err(lpg->dev, "invalid reg of %pOFn\n", np); + return -EINVAL; + } + + chan = &lpg->channels[reg - 1]; + chan->in_use = true; + + ret = of_property_read_u32(np, "color", &color); + if (ret < 0 && ret != -EINVAL) + return ret; + + chan->color = color; + + ret = of_property_read_u32_array(np, "qcom,dtest", dtest, 2); + if (ret < 0 && ret != -EINVAL) { + dev_err(lpg->dev, "malformed qcom,dtest of %pOFn\n", np); + return ret; + } else if (!ret) { + chan->dtest_line = dtest[0]; + chan->dtest_value = dtest[1]; + } + + *channel = chan; + + return 0; +} + +static int lpg_add_led(struct lpg *lpg, struct device_node *np) +{ + struct led_classdev *cdev; + struct device_node *child; + struct mc_subled *info; + struct lpg_led *led; + const char *state; + int num_channels; + u32 color = 0; + int size; + int ret; + int i; + + ret = of_property_read_u32(np, "color", &color); + if (ret < 0 && ret != -EINVAL) + return ret; + + if (color == LED_COLOR_ID_MULTI) + num_channels = of_get_available_child_count(np); + else + num_channels = 1; + + size = sizeof(*led) + num_channels * sizeof(struct lpg_channel*); + led = devm_kzalloc(lpg->dev, size, GFP_KERNEL); + if (!led) + return -ENOMEM; + + led->lpg = lpg; + led->num_channels = num_channels; + + if (color == LED_COLOR_ID_MULTI) { + info = devm_kcalloc(lpg->dev, num_channels, sizeof(*info), GFP_KERNEL); + if (!info) + return -ENOMEM; + i = 0; + for_each_available_child_of_node(np, child) { + ret = lpg_parse_channel(lpg, child, &led->channels[i]); + if (ret < 0) + return ret; + + info[i].color_index = led->channels[i]->color; + info[i].intensity = LED_FULL; + i++; + } + + led->mcdev.subled_info = info; + led->mcdev.num_colors = num_channels; + + cdev = &led->mcdev.led_cdev; + cdev->brightness_set = lpg_brightness_mc_set; + cdev->blink_set = lpg_blink_mc_set; + + /* Register pattern accessors only if we have a LUT block */ + if (lpg->lut_base) { + cdev->pattern_set = lpg_pattern_mc_set; + cdev->pattern_clear = lpg_pattern_mc_clear; + } + } else { + ret = lpg_parse_channel(lpg, np, &led->channels[0]); + if (ret < 0) + return ret; + + cdev = &led->cdev; + cdev->brightness_set = lpg_brightness_single_set; + cdev->blink_set = lpg_blink_single_set; + + /* Register pattern accessors only if we have a LUT block */ + if (lpg->lut_base) { + cdev->pattern_set = lpg_pattern_single_set; + cdev->pattern_clear = lpg_pattern_single_clear; + } + } + + /* Use label else node name */ + cdev->name = of_get_property(np, "label", NULL) ? : np->name; + cdev->default_trigger = of_get_property(np, "linux,default-trigger", NULL); + cdev->max_brightness = 255; + + if (!of_property_read_string(np, "default-state", &state) && + !strcmp(state, "on")) + cdev->brightness = LED_FULL; + else + cdev->brightness = LED_OFF; + + cdev->brightness_set(cdev, cdev->brightness); + + if (color == LED_COLOR_ID_MULTI) + ret = devm_led_classdev_multicolor_register(lpg->dev, &led->mcdev); + else + ret = devm_led_classdev_register(lpg->dev, &led->cdev); + if (ret) + dev_err(lpg->dev, "unable to register %s\n", cdev->name); + + return ret; +} + +static int lpg_init_channels(struct lpg *lpg) +{ + const struct lpg_data *data = lpg->data; + int i; + + lpg->num_channels = data->num_channels; + lpg->channels = devm_kcalloc(lpg->dev, data->num_channels, + sizeof(struct lpg_channel), GFP_KERNEL); + if (!lpg->channels) + return -ENOMEM; + + for (i = 0; i < data->num_channels; i++) { + lpg->channels[i].lpg = lpg; + lpg->channels[i].base = data->channels[i].base; + lpg->channels[i].triled_mask = data->channels[i].triled_mask; + lpg->channels[i].lut_mask = BIT(i); + } + + return 0; +} + +static int lpg_init_triled(struct lpg *lpg) +{ + struct device_node *np = lpg->dev->of_node; + int ret; + + /* Skip initialization if we don't have a triled block */ + if (!lpg->data->triled_base) + return 0; + + lpg->triled_base = lpg->data->triled_base; + + ret = of_property_read_u32(np, "qcom,power-source", &lpg->triled_src); + if (ret || lpg->triled_src == 2 || lpg->triled_src > 3) { + dev_err(lpg->dev, "invalid power source\n"); + return -EINVAL; + } + + /* Disable automatic trickle charge LED */ + regmap_write(lpg->map, lpg->triled_base + TRI_LED_ATC_CTL, 0); + + /* Configure power source */ + regmap_write(lpg->map, lpg->triled_base + TRI_LED_SRC_SEL, lpg->triled_src); + + /* Default all outputs to off */ + regmap_write(lpg->map, lpg->triled_base + TRI_LED_EN_CTL, 0); + + return 0; +} + +static int lpg_init_lut(struct lpg *lpg) +{ + const struct lpg_data *data = lpg->data; + size_t bitmap_size; + + if (!data->lut_base) + return 0; + + lpg->lut_base = data->lut_base; + lpg->lut_size = data->lut_size; + + bitmap_size = BITS_TO_LONGS(lpg->lut_size) * sizeof(unsigned long); + lpg->lut_bitmap = devm_kzalloc(lpg->dev, bitmap_size, GFP_KERNEL); + + bitmap_clear(lpg->lut_bitmap, 0, lpg->lut_size); + return lpg->lut_bitmap ? 0 : -ENOMEM; +} + +static int lpg_probe(struct platform_device *pdev) +{ + struct device_node *np; + struct lpg *lpg; + int ret; + int i; + + lpg = devm_kzalloc(&pdev->dev, sizeof(*lpg), GFP_KERNEL); + if (!lpg) + return -ENOMEM; + + lpg->data = of_device_get_match_data(&pdev->dev); + if (!lpg->data) + return -EINVAL; + + lpg->dev = &pdev->dev; + + lpg->map = dev_get_regmap(pdev->dev.parent, NULL); + if (!lpg->map) { + dev_err(&pdev->dev, "parent regmap unavailable\n"); + return -ENXIO; + } + + ret = lpg_init_channels(lpg); + if (ret < 0) + return ret; + + ret = lpg_init_triled(lpg); + if (ret < 0) + return ret; + + ret = lpg_init_lut(lpg); + if (ret < 0) + return ret; + + for_each_available_child_of_node(pdev->dev.of_node, np) { + ret = lpg_add_led(lpg, np); + if (ret) + return ret; + } + + for (i = 0; i < lpg->num_channels; i++) + lpg_apply_dtest(&lpg->channels[i]); + + ret = lpg_add_pwm(lpg); + if (ret) + return ret; + + platform_set_drvdata(pdev, lpg); + + return 0; +} + +static int lpg_remove(struct platform_device *pdev) +{ + struct lpg *lpg = platform_get_drvdata(pdev); + + pwmchip_remove(&lpg->pwm); + + return 0; +} + +static const struct lpg_data pm8916_pwm_data = { + .pwm_9bit_mask = BIT(2), + + .num_channels = 1, + .channels = (struct lpg_channel_data[]) { + { .base = 0xbc00 }, + }, +}; + +static const struct lpg_data pm8941_lpg_data = { + .lut_base = 0xb000, + .lut_size = 64, + + .triled_base = 0xd000, + + .pwm_9bit_mask = 3 << 4, + + .num_channels = 8, + .channels = (struct lpg_channel_data[]) { + { .base = 0xb100 }, + { .base = 0xb200 }, + { .base = 0xb300 }, + { .base = 0xb400 }, + { .base = 0xb500, .triled_mask = BIT(5) }, + { .base = 0xb600, .triled_mask = BIT(6) }, + { .base = 0xb700, .triled_mask = BIT(7) }, + { .base = 0xb800 }, + }, +}; + +static const struct lpg_data pm8994_lpg_data = { + .lut_base = 0xb000, + .lut_size = 64, + + .pwm_9bit_mask = 3 << 4, + + .num_channels = 6, + .channels = (struct lpg_channel_data[]) { + { .base = 0xb100 }, + { .base = 0xb200 }, + { .base = 0xb300 }, + { .base = 0xb400 }, + { .base = 0xb500 }, + { .base = 0xb600 }, + }, +}; + +static const struct lpg_data pmi8994_lpg_data = { + .lut_base = 0xb000, + .lut_size = 24, + + .triled_base = 0xd000, + + .pwm_9bit_mask = BIT(4), + + .num_channels = 4, + .channels = (struct lpg_channel_data[]) { + { .base = 0xb100, .triled_mask = BIT(5) }, + { .base = 0xb200, .triled_mask = BIT(6) }, + { .base = 0xb300, .triled_mask = BIT(7) }, + { .base = 0xb400 }, + }, +}; + +static const struct lpg_data pmi8998_lpg_data = { + .lut_base = 0xb000, + .lut_size = 49, + + .pwm_9bit_mask = BIT(4), + + .num_channels = 6, + .channels = (struct lpg_channel_data[]) { + { .base = 0xb100 }, + { .base = 0xb200 }, + { .base = 0xb300, .triled_mask = BIT(5) }, + { .base = 0xb400, .triled_mask = BIT(6) }, + { .base = 0xb500, .triled_mask = BIT(7) }, + { .base = 0xb600 }, + }, +}; + +static const struct of_device_id lpg_of_table[] = { + { .compatible = "qcom,pm8916-pwm", .data = &pm8916_pwm_data }, + { .compatible = "qcom,pm8941-lpg", .data = &pm8941_lpg_data }, + { .compatible = "qcom,pm8994-lpg", .data = &pm8994_lpg_data }, + { .compatible = "qcom,pmi8994-lpg", .data = &pmi8994_lpg_data }, + { .compatible = "qcom,pmi8998-lpg", .data = &pmi8998_lpg_data }, + {}, +}; +MODULE_DEVICE_TABLE(of, lpg_of_table); + +static struct platform_driver lpg_driver = { + .probe = lpg_probe, + .remove = lpg_remove, + .driver = { + .name = "qcom-spmi-lpg", + .of_match_table = lpg_of_table, + }, +}; +module_platform_driver(lpg_driver); + +MODULE_DESCRIPTION("Qualcomm LPG LED driver"); +MODULE_LICENSE("GPL v2");