Lines Matching +full:chip +full:- +full:wide
1 // SPDX-License-Identifier: GPL-2.0
5 * Copyright (c) 2021-2023 Microchip Corporation. All rights reserved.
8 * https://www.microsemi.com/document-portal/doc_download/1245275-corepwm-hb
11 * - If the IP block is configured without "shadow registers", all register
19 * - The IP block has no concept of a duty cycle, only rising/falling edges of
28 * - The PWM period is set for the whole IP block not per channel. The driver
63 static inline struct mchp_core_pwm_chip *to_mchp_core_pwm(struct pwm_chip *chip) in to_mchp_core_pwm() argument
65 return pwmchip_get_drvdata(chip); in to_mchp_core_pwm()
68 static void mchp_core_pwm_enable(struct pwm_chip *chip, struct pwm_device *pwm, in mchp_core_pwm_enable() argument
71 struct mchp_core_pwm_chip *mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_enable()
76 * 0-7 and the upper reg 8-15. Check if the pwm is in the upper reg in mchp_core_pwm_enable()
79 reg_offset = MCHPCOREPWM_EN(pwm->hwpwm >> 3); in mchp_core_pwm_enable()
80 shift = pwm->hwpwm & 7; in mchp_core_pwm_enable()
82 channel_enable = readb_relaxed(mchp_core_pwm->base + reg_offset); in mchp_core_pwm_enable()
86 writel_relaxed(channel_enable, mchp_core_pwm->base + reg_offset); in mchp_core_pwm_enable()
87 mchp_core_pwm->channel_enabled &= ~BIT(pwm->hwpwm); in mchp_core_pwm_enable()
88 mchp_core_pwm->channel_enabled |= enable << pwm->hwpwm; in mchp_core_pwm_enable()
93 * This is a NO-OP if the channel does not have shadow registers. in mchp_core_pwm_enable()
95 if (mchp_core_pwm->sync_update_mask & (1 << pwm->hwpwm)) in mchp_core_pwm_enable()
96 mchp_core_pwm->update_timestamp = ktime_add_ns(ktime_get(), period); in mchp_core_pwm_enable()
110 if (mchp_core_pwm->sync_update_mask & (1 << channel)) { in mchp_core_pwm_wait_for_sync_update()
115 remaining_ns = ktime_to_ns(ktime_sub(mchp_core_pwm->update_timestamp, in mchp_core_pwm_wait_for_sync_update()
143 duty_steps = mul_u64_u64_div_u64(state->duty_cycle, clk_rate, tmp); in mchp_core_pwm_calc_duty()
148 static void mchp_core_pwm_apply_duty(struct pwm_chip *chip, struct pwm_device *pwm, in mchp_core_pwm_apply_duty() argument
152 struct mchp_core_pwm_chip *mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_apply_duty()
165 if (state->polarity == PWM_POLARITY_INVERSED) { in mchp_core_pwm_apply_duty()
178 writel_relaxed(posedge, mchp_core_pwm->base + MCHPCOREPWM_POSEDGE(pwm->hwpwm)); in mchp_core_pwm_apply_duty()
179 writel_relaxed(negedge, mchp_core_pwm->base + MCHPCOREPWM_NEGEDGE(pwm->hwpwm)); in mchp_core_pwm_apply_duty()
189 * The registers are each 8 bits wide & multiplied to compute the period in mchp_core_pwm_calc_period()
192 * period = ------------------------------------- in mchp_core_pwm_calc_period()
207 * neg-/pos-edge issue described in the limitations. in mchp_core_pwm_calc_period()
209 tmp = mul_u64_u64_div_u64(state->period, clk_rate, NSEC_PER_SEC); in mchp_core_pwm_calc_period()
240 return -EINVAL; in mchp_core_pwm_calc_period()
247 * prescale = ------------------------- - 1 in mchp_core_pwm_calc_period()
252 * ------------------- was precomputed as `tmp` in mchp_core_pwm_calc_period()
255 *prescale = ((u16)tmp) / (MCHPCOREPWM_PERIOD_STEPS_MAX + 1) - 1; in mchp_core_pwm_calc_period()
260 * period_steps = ----------------------------- - 1 in mchp_core_pwm_calc_period()
271 static int mchp_core_pwm_apply_locked(struct pwm_chip *chip, struct pwm_device *pwm, in mchp_core_pwm_apply_locked() argument
274 struct mchp_core_pwm_chip *mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_apply_locked()
281 if (!state->enabled) { in mchp_core_pwm_apply_locked()
282 mchp_core_pwm_enable(chip, pwm, false, pwm->state.period); in mchp_core_pwm_apply_locked()
291 clk_rate = clk_get_rate(mchp_core_pwm->clk); in mchp_core_pwm_apply_locked()
293 return -EINVAL; in mchp_core_pwm_apply_locked()
308 period_locked = mchp_core_pwm->channel_enabled & ~(1 << pwm->hwpwm); in mchp_core_pwm_apply_locked()
314 hw_prescale = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_PRESCALE); in mchp_core_pwm_apply_locked()
315 hw_period_steps = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_PERIOD); in mchp_core_pwm_apply_locked()
319 return -EINVAL; in mchp_core_pwm_apply_locked()
329 return -EINVAL; in mchp_core_pwm_apply_locked()
346 writel_relaxed(prescale, mchp_core_pwm->base + MCHPCOREPWM_PRESCALE); in mchp_core_pwm_apply_locked()
347 writel_relaxed(period_steps, mchp_core_pwm->base + MCHPCOREPWM_PERIOD); in mchp_core_pwm_apply_locked()
350 mchp_core_pwm_apply_duty(chip, pwm, state, duty_steps, period_steps); in mchp_core_pwm_apply_locked()
352 mchp_core_pwm_enable(chip, pwm, true, pwm->state.period); in mchp_core_pwm_apply_locked()
357 static int mchp_core_pwm_apply(struct pwm_chip *chip, struct pwm_device *pwm, in mchp_core_pwm_apply() argument
360 struct mchp_core_pwm_chip *mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_apply()
362 mchp_core_pwm_wait_for_sync_update(mchp_core_pwm, pwm->hwpwm); in mchp_core_pwm_apply()
364 return mchp_core_pwm_apply_locked(chip, pwm, state); in mchp_core_pwm_apply()
367 static int mchp_core_pwm_get_state(struct pwm_chip *chip, struct pwm_device *pwm, in mchp_core_pwm_get_state() argument
370 struct mchp_core_pwm_chip *mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_get_state()
375 mchp_core_pwm_wait_for_sync_update(mchp_core_pwm, pwm->hwpwm); in mchp_core_pwm_get_state()
377 if (mchp_core_pwm->channel_enabled & (1 << pwm->hwpwm)) in mchp_core_pwm_get_state()
378 state->enabled = true; in mchp_core_pwm_get_state()
380 state->enabled = false; in mchp_core_pwm_get_state()
382 rate = clk_get_rate(mchp_core_pwm->clk); in mchp_core_pwm_get_state()
386 * The registers are each 8 bits wide & multiplied to compute the period in mchp_core_pwm_get_state()
389 * period = ------------------------------------- in mchp_core_pwm_get_state()
397 prescale = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_PRESCALE); in mchp_core_pwm_get_state()
398 period_steps = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_PERIOD); in mchp_core_pwm_get_state()
400 state->period = (period_steps + 1) * (prescale + 1); in mchp_core_pwm_get_state()
401 state->period *= NSEC_PER_SEC; in mchp_core_pwm_get_state()
402 state->period = DIV64_U64_ROUND_UP(state->period, rate); in mchp_core_pwm_get_state()
404 posedge = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_POSEDGE(pwm->hwpwm)); in mchp_core_pwm_get_state()
405 negedge = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_NEGEDGE(pwm->hwpwm)); in mchp_core_pwm_get_state()
408 state->duty_cycle = state->period; in mchp_core_pwm_get_state()
409 state->period *= 2; in mchp_core_pwm_get_state()
411 duty_steps = abs((s16)posedge - (s16)negedge); in mchp_core_pwm_get_state()
412 state->duty_cycle = duty_steps * (prescale + 1) * NSEC_PER_SEC; in mchp_core_pwm_get_state()
413 state->duty_cycle = DIV64_U64_ROUND_UP(state->duty_cycle, rate); in mchp_core_pwm_get_state()
416 state->polarity = negedge < posedge ? PWM_POLARITY_INVERSED : PWM_POLARITY_NORMAL; in mchp_core_pwm_get_state()
428 .compatible = "microchip,corepwm-rtl-v4",
436 struct pwm_chip *chip; in mchp_core_pwm_probe() local
441 chip = devm_pwmchip_alloc(&pdev->dev, 16, sizeof(*mchp_core_pwm)); in mchp_core_pwm_probe()
442 if (IS_ERR(chip)) in mchp_core_pwm_probe()
443 return PTR_ERR(chip); in mchp_core_pwm_probe()
444 mchp_core_pwm = to_mchp_core_pwm(chip); in mchp_core_pwm_probe()
446 mchp_core_pwm->base = devm_platform_get_and_ioremap_resource(pdev, 0, ®s); in mchp_core_pwm_probe()
447 if (IS_ERR(mchp_core_pwm->base)) in mchp_core_pwm_probe()
448 return PTR_ERR(mchp_core_pwm->base); in mchp_core_pwm_probe()
450 mchp_core_pwm->clk = devm_clk_get_enabled(&pdev->dev, NULL); in mchp_core_pwm_probe()
451 if (IS_ERR(mchp_core_pwm->clk)) in mchp_core_pwm_probe()
452 return dev_err_probe(&pdev->dev, PTR_ERR(mchp_core_pwm->clk), in mchp_core_pwm_probe()
455 if (of_property_read_u32(pdev->dev.of_node, "microchip,sync-update-mask", in mchp_core_pwm_probe()
456 &mchp_core_pwm->sync_update_mask)) in mchp_core_pwm_probe()
457 mchp_core_pwm->sync_update_mask = 0; in mchp_core_pwm_probe()
459 chip->ops = &mchp_core_pwm_ops; in mchp_core_pwm_probe()
461 mchp_core_pwm->channel_enabled = readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_EN(0)); in mchp_core_pwm_probe()
462 mchp_core_pwm->channel_enabled |= in mchp_core_pwm_probe()
463 readb_relaxed(mchp_core_pwm->base + MCHPCOREPWM_EN(1)) << 8; in mchp_core_pwm_probe()
469 writel_relaxed(1U, mchp_core_pwm->base + MCHPCOREPWM_SYNC_UPD); in mchp_core_pwm_probe()
470 mchp_core_pwm->update_timestamp = ktime_get(); in mchp_core_pwm_probe()
472 ret = devm_pwmchip_add(&pdev->dev, chip); in mchp_core_pwm_probe()
474 return dev_err_probe(&pdev->dev, ret, "Failed to add pwmchip\n"); in mchp_core_pwm_probe()
481 .name = "mchp-core-pwm",