1061f087fSBiju Das // SPDX-License-Identifier: GPL-2.0
2061f087fSBiju Das /*
3061f087fSBiju Das * Renesas RZ/G2L General PWM Timer (GPT) driver
4061f087fSBiju Das *
5061f087fSBiju Das * Copyright (C) 2025 Renesas Electronics Corporation
6061f087fSBiju Das *
7061f087fSBiju Das * Hardware manual for this IP can be found here
8061f087fSBiju Das * https://www.renesas.com/eu/en/document/mah/rzg2l-group-rzg2lc-group-users-manual-hardware-0?language=en
9061f087fSBiju Das *
10061f087fSBiju Das * Limitations:
11061f087fSBiju Das * - Counter must be stopped before modifying Mode and Prescaler.
12061f087fSBiju Das * - When PWM is disabled, the output is driven to inactive.
13061f087fSBiju Das * - While the hardware supports both polarities, the driver (for now)
14061f087fSBiju Das * only handles normal polarity.
15061f087fSBiju Das * - General PWM Timer (GPT) has 8 HW channels for PWM operations and
16061f087fSBiju Das * each HW channel have 2 IOs.
17061f087fSBiju Das * - Each IO is modelled as an independent PWM channel.
18061f087fSBiju Das * - When both channels are used, disabling the channel on one stops the
19061f087fSBiju Das * other.
20061f087fSBiju Das * - When both channels are used, the period of both IOs in the HW channel
21061f087fSBiju Das * must be same (for now).
22061f087fSBiju Das */
23061f087fSBiju Das
24061f087fSBiju Das #include <linux/bitfield.h>
25061f087fSBiju Das #include <linux/clk.h>
26061f087fSBiju Das #include <linux/io.h>
27061f087fSBiju Das #include <linux/limits.h>
28061f087fSBiju Das #include <linux/module.h>
29061f087fSBiju Das #include <linux/of.h>
30061f087fSBiju Das #include <linux/platform_device.h>
31061f087fSBiju Das #include <linux/pwm.h>
32061f087fSBiju Das #include <linux/reset.h>
33061f087fSBiju Das #include <linux/time.h>
34061f087fSBiju Das #include <linux/units.h>
35061f087fSBiju Das
36061f087fSBiju Das #define RZG2L_GET_CH(hwpwm) ((hwpwm) / 2)
37061f087fSBiju Das #define RZG2L_GET_CH_OFFS(ch) (0x100 * (ch))
38061f087fSBiju Das
39061f087fSBiju Das #define RZG2L_GTCR(ch) (0x2c + RZG2L_GET_CH_OFFS(ch))
40061f087fSBiju Das #define RZG2L_GTUDDTYC(ch) (0x30 + RZG2L_GET_CH_OFFS(ch))
41061f087fSBiju Das #define RZG2L_GTIOR(ch) (0x34 + RZG2L_GET_CH_OFFS(ch))
42061f087fSBiju Das #define RZG2L_GTBER(ch) (0x40 + RZG2L_GET_CH_OFFS(ch))
43061f087fSBiju Das #define RZG2L_GTCNT(ch) (0x48 + RZG2L_GET_CH_OFFS(ch))
44061f087fSBiju Das #define RZG2L_GTCCR(ch, sub_ch) (0x4c + RZG2L_GET_CH_OFFS(ch) + 4 * (sub_ch))
45061f087fSBiju Das #define RZG2L_GTPR(ch) (0x64 + RZG2L_GET_CH_OFFS(ch))
46061f087fSBiju Das
47061f087fSBiju Das #define RZG2L_GTCR_CST BIT(0)
48061f087fSBiju Das #define RZG2L_GTCR_MD GENMASK(18, 16)
49061f087fSBiju Das #define RZG2L_GTCR_TPCS GENMASK(26, 24)
50061f087fSBiju Das
51061f087fSBiju Das #define RZG2L_GTCR_MD_SAW_WAVE_PWM_MODE FIELD_PREP(RZG2L_GTCR_MD, 0)
52061f087fSBiju Das
53061f087fSBiju Das #define RZG2L_GTUDDTYC_UP BIT(0)
54061f087fSBiju Das #define RZG2L_GTUDDTYC_UDF BIT(1)
55061f087fSBiju Das #define RZG2L_GTUDDTYC_UP_COUNTING (RZG2L_GTUDDTYC_UP | RZG2L_GTUDDTYC_UDF)
56061f087fSBiju Das
57061f087fSBiju Das #define RZG2L_GTIOR_GTIOA GENMASK(4, 0)
58061f087fSBiju Das #define RZG2L_GTIOR_GTIOB GENMASK(20, 16)
59061f087fSBiju Das #define RZG2L_GTIOR_GTIOx(sub_ch) ((sub_ch) ? RZG2L_GTIOR_GTIOB : RZG2L_GTIOR_GTIOA)
60061f087fSBiju Das #define RZG2L_GTIOR_OAE BIT(8)
61061f087fSBiju Das #define RZG2L_GTIOR_OBE BIT(24)
62061f087fSBiju Das #define RZG2L_GTIOR_OxE(sub_ch) ((sub_ch) ? RZG2L_GTIOR_OBE : RZG2L_GTIOR_OAE)
63061f087fSBiju Das
64061f087fSBiju Das #define RZG2L_INIT_OUT_HI_OUT_HI_END_TOGGLE 0x1b
65061f087fSBiju Das #define RZG2L_GTIOR_GTIOA_OUT_HI_END_TOGGLE_CMP_MATCH \
66061f087fSBiju Das (RZG2L_INIT_OUT_HI_OUT_HI_END_TOGGLE | RZG2L_GTIOR_OAE)
67061f087fSBiju Das #define RZG2L_GTIOR_GTIOB_OUT_HI_END_TOGGLE_CMP_MATCH \
68061f087fSBiju Das (FIELD_PREP(RZG2L_GTIOR_GTIOB, RZG2L_INIT_OUT_HI_OUT_HI_END_TOGGLE) | RZG2L_GTIOR_OBE)
69061f087fSBiju Das
70061f087fSBiju Das #define RZG2L_GTIOR_GTIOx_OUT_HI_END_TOGGLE_CMP_MATCH(sub_ch) \
71061f087fSBiju Das ((sub_ch) ? RZG2L_GTIOR_GTIOB_OUT_HI_END_TOGGLE_CMP_MATCH : \
72061f087fSBiju Das RZG2L_GTIOR_GTIOA_OUT_HI_END_TOGGLE_CMP_MATCH)
73061f087fSBiju Das
74061f087fSBiju Das #define RZG2L_MAX_HW_CHANNELS 8
75061f087fSBiju Das #define RZG2L_CHANNELS_PER_IO 2
76061f087fSBiju Das #define RZG2L_MAX_PWM_CHANNELS (RZG2L_MAX_HW_CHANNELS * RZG2L_CHANNELS_PER_IO)
77061f087fSBiju Das #define RZG2L_MAX_SCALE_FACTOR 1024
78061f087fSBiju Das #define RZG2L_MAX_TICKS ((u64)U32_MAX * RZG2L_MAX_SCALE_FACTOR)
79061f087fSBiju Das
80061f087fSBiju Das struct rzg2l_gpt_chip {
81061f087fSBiju Das void __iomem *mmio;
82061f087fSBiju Das struct mutex lock; /* lock to protect shared channel resources */
83061f087fSBiju Das unsigned long rate_khz;
84061f087fSBiju Das u32 period_ticks[RZG2L_MAX_HW_CHANNELS];
85061f087fSBiju Das u32 channel_request_count[RZG2L_MAX_HW_CHANNELS];
86061f087fSBiju Das u32 channel_enable_count[RZG2L_MAX_HW_CHANNELS];
87061f087fSBiju Das };
88061f087fSBiju Das
to_rzg2l_gpt_chip(struct pwm_chip * chip)89061f087fSBiju Das static inline struct rzg2l_gpt_chip *to_rzg2l_gpt_chip(struct pwm_chip *chip)
90061f087fSBiju Das {
91061f087fSBiju Das return pwmchip_get_drvdata(chip);
92061f087fSBiju Das }
93061f087fSBiju Das
rzg2l_gpt_subchannel(unsigned int hwpwm)94061f087fSBiju Das static inline unsigned int rzg2l_gpt_subchannel(unsigned int hwpwm)
95061f087fSBiju Das {
96061f087fSBiju Das return hwpwm & 0x1;
97061f087fSBiju Das }
98061f087fSBiju Das
rzg2l_gpt_write(struct rzg2l_gpt_chip * rzg2l_gpt,u32 reg,u32 data)99061f087fSBiju Das static void rzg2l_gpt_write(struct rzg2l_gpt_chip *rzg2l_gpt, u32 reg, u32 data)
100061f087fSBiju Das {
101061f087fSBiju Das writel(data, rzg2l_gpt->mmio + reg);
102061f087fSBiju Das }
103061f087fSBiju Das
rzg2l_gpt_read(struct rzg2l_gpt_chip * rzg2l_gpt,u32 reg)104061f087fSBiju Das static u32 rzg2l_gpt_read(struct rzg2l_gpt_chip *rzg2l_gpt, u32 reg)
105061f087fSBiju Das {
106061f087fSBiju Das return readl(rzg2l_gpt->mmio + reg);
107061f087fSBiju Das }
108061f087fSBiju Das
rzg2l_gpt_modify(struct rzg2l_gpt_chip * rzg2l_gpt,u32 reg,u32 clr,u32 set)109061f087fSBiju Das static void rzg2l_gpt_modify(struct rzg2l_gpt_chip *rzg2l_gpt, u32 reg, u32 clr,
110061f087fSBiju Das u32 set)
111061f087fSBiju Das {
112061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, reg,
113061f087fSBiju Das (rzg2l_gpt_read(rzg2l_gpt, reg) & ~clr) | set);
114061f087fSBiju Das }
115061f087fSBiju Das
rzg2l_gpt_calculate_prescale(struct rzg2l_gpt_chip * rzg2l_gpt,u64 period_ticks)116061f087fSBiju Das static u8 rzg2l_gpt_calculate_prescale(struct rzg2l_gpt_chip *rzg2l_gpt,
117061f087fSBiju Das u64 period_ticks)
118061f087fSBiju Das {
119061f087fSBiju Das u32 prescaled_period_ticks;
120061f087fSBiju Das u8 prescale;
121061f087fSBiju Das
122061f087fSBiju Das prescaled_period_ticks = period_ticks >> 32;
123061f087fSBiju Das if (prescaled_period_ticks >= 256)
124061f087fSBiju Das prescale = 5;
125061f087fSBiju Das else
126061f087fSBiju Das prescale = (fls(prescaled_period_ticks) + 1) / 2;
127061f087fSBiju Das
128061f087fSBiju Das return prescale;
129061f087fSBiju Das }
130061f087fSBiju Das
rzg2l_gpt_request(struct pwm_chip * chip,struct pwm_device * pwm)131061f087fSBiju Das static int rzg2l_gpt_request(struct pwm_chip *chip, struct pwm_device *pwm)
132061f087fSBiju Das {
133061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt = to_rzg2l_gpt_chip(chip);
134061f087fSBiju Das u32 ch = RZG2L_GET_CH(pwm->hwpwm);
135061f087fSBiju Das
136061f087fSBiju Das guard(mutex)(&rzg2l_gpt->lock);
137061f087fSBiju Das rzg2l_gpt->channel_request_count[ch]++;
138061f087fSBiju Das
139061f087fSBiju Das return 0;
140061f087fSBiju Das }
141061f087fSBiju Das
rzg2l_gpt_free(struct pwm_chip * chip,struct pwm_device * pwm)142061f087fSBiju Das static void rzg2l_gpt_free(struct pwm_chip *chip, struct pwm_device *pwm)
143061f087fSBiju Das {
144061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt = to_rzg2l_gpt_chip(chip);
145061f087fSBiju Das u32 ch = RZG2L_GET_CH(pwm->hwpwm);
146061f087fSBiju Das
147061f087fSBiju Das guard(mutex)(&rzg2l_gpt->lock);
148061f087fSBiju Das rzg2l_gpt->channel_request_count[ch]--;
149061f087fSBiju Das }
150061f087fSBiju Das
rzg2l_gpt_is_ch_enabled(struct rzg2l_gpt_chip * rzg2l_gpt,u8 hwpwm)151061f087fSBiju Das static bool rzg2l_gpt_is_ch_enabled(struct rzg2l_gpt_chip *rzg2l_gpt, u8 hwpwm)
152061f087fSBiju Das {
153061f087fSBiju Das u8 ch = RZG2L_GET_CH(hwpwm);
154061f087fSBiju Das u32 val;
155061f087fSBiju Das
156061f087fSBiju Das val = rzg2l_gpt_read(rzg2l_gpt, RZG2L_GTCR(ch));
157061f087fSBiju Das if (!(val & RZG2L_GTCR_CST))
158061f087fSBiju Das return false;
159061f087fSBiju Das
160061f087fSBiju Das val = rzg2l_gpt_read(rzg2l_gpt, RZG2L_GTIOR(ch));
161061f087fSBiju Das
162061f087fSBiju Das return val & RZG2L_GTIOR_OxE(rzg2l_gpt_subchannel(hwpwm));
163061f087fSBiju Das }
164061f087fSBiju Das
165061f087fSBiju Das /* Caller holds the lock while calling rzg2l_gpt_enable() */
rzg2l_gpt_enable(struct rzg2l_gpt_chip * rzg2l_gpt,struct pwm_device * pwm)166061f087fSBiju Das static void rzg2l_gpt_enable(struct rzg2l_gpt_chip *rzg2l_gpt,
167061f087fSBiju Das struct pwm_device *pwm)
168061f087fSBiju Das {
169061f087fSBiju Das u8 sub_ch = rzg2l_gpt_subchannel(pwm->hwpwm);
170061f087fSBiju Das u32 val = RZG2L_GTIOR_GTIOx(sub_ch) | RZG2L_GTIOR_OxE(sub_ch);
171061f087fSBiju Das u8 ch = RZG2L_GET_CH(pwm->hwpwm);
172061f087fSBiju Das
173061f087fSBiju Das /* Enable pin output */
174061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTIOR(ch), val,
175061f087fSBiju Das RZG2L_GTIOR_GTIOx_OUT_HI_END_TOGGLE_CMP_MATCH(sub_ch));
176061f087fSBiju Das
177061f087fSBiju Das if (!rzg2l_gpt->channel_enable_count[ch])
178061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch), 0, RZG2L_GTCR_CST);
179061f087fSBiju Das
180061f087fSBiju Das rzg2l_gpt->channel_enable_count[ch]++;
181061f087fSBiju Das }
182061f087fSBiju Das
183061f087fSBiju Das /* Caller holds the lock while calling rzg2l_gpt_disable() */
rzg2l_gpt_disable(struct rzg2l_gpt_chip * rzg2l_gpt,struct pwm_device * pwm)184061f087fSBiju Das static void rzg2l_gpt_disable(struct rzg2l_gpt_chip *rzg2l_gpt,
185061f087fSBiju Das struct pwm_device *pwm)
186061f087fSBiju Das {
187061f087fSBiju Das u8 sub_ch = rzg2l_gpt_subchannel(pwm->hwpwm);
188061f087fSBiju Das u8 ch = RZG2L_GET_CH(pwm->hwpwm);
189061f087fSBiju Das
190061f087fSBiju Das /* Stop count, Output low on GTIOCx pin when counting stops */
191061f087fSBiju Das rzg2l_gpt->channel_enable_count[ch]--;
192061f087fSBiju Das
193061f087fSBiju Das if (!rzg2l_gpt->channel_enable_count[ch])
194061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch), RZG2L_GTCR_CST, 0);
195061f087fSBiju Das
196061f087fSBiju Das /* Disable pin output */
197061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTIOR(ch), RZG2L_GTIOR_OxE(sub_ch), 0);
198061f087fSBiju Das }
199061f087fSBiju Das
rzg2l_gpt_calculate_period_or_duty(struct rzg2l_gpt_chip * rzg2l_gpt,u32 val,u8 prescale)200061f087fSBiju Das static u64 rzg2l_gpt_calculate_period_or_duty(struct rzg2l_gpt_chip *rzg2l_gpt,
201061f087fSBiju Das u32 val, u8 prescale)
202061f087fSBiju Das {
203061f087fSBiju Das u64 tmp;
204061f087fSBiju Das
205061f087fSBiju Das /*
206061f087fSBiju Das * The calculation doesn't overflow an u64 because prescale ≤ 5 and so
207061f087fSBiju Das * tmp = val << (2 * prescale) * USEC_PER_SEC
208061f087fSBiju Das * < 2^32 * 2^10 * 10^6
209061f087fSBiju Das * < 2^32 * 2^10 * 2^20
210061f087fSBiju Das * = 2^62
211061f087fSBiju Das */
212061f087fSBiju Das tmp = (u64)val << (2 * prescale);
213061f087fSBiju Das tmp *= USEC_PER_SEC;
214061f087fSBiju Das
215061f087fSBiju Das return DIV64_U64_ROUND_UP(tmp, rzg2l_gpt->rate_khz);
216061f087fSBiju Das }
217061f087fSBiju Das
rzg2l_gpt_get_state(struct pwm_chip * chip,struct pwm_device * pwm,struct pwm_state * state)218061f087fSBiju Das static int rzg2l_gpt_get_state(struct pwm_chip *chip, struct pwm_device *pwm,
219061f087fSBiju Das struct pwm_state *state)
220061f087fSBiju Das {
221061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt = to_rzg2l_gpt_chip(chip);
222061f087fSBiju Das
223061f087fSBiju Das state->enabled = rzg2l_gpt_is_ch_enabled(rzg2l_gpt, pwm->hwpwm);
224061f087fSBiju Das if (state->enabled) {
225061f087fSBiju Das u32 sub_ch = rzg2l_gpt_subchannel(pwm->hwpwm);
226061f087fSBiju Das u32 ch = RZG2L_GET_CH(pwm->hwpwm);
227061f087fSBiju Das u8 prescale;
228061f087fSBiju Das u32 val;
229061f087fSBiju Das
230061f087fSBiju Das val = rzg2l_gpt_read(rzg2l_gpt, RZG2L_GTCR(ch));
231061f087fSBiju Das prescale = FIELD_GET(RZG2L_GTCR_TPCS, val);
232061f087fSBiju Das
233061f087fSBiju Das val = rzg2l_gpt_read(rzg2l_gpt, RZG2L_GTPR(ch));
234061f087fSBiju Das state->period = rzg2l_gpt_calculate_period_or_duty(rzg2l_gpt, val, prescale);
235061f087fSBiju Das
236061f087fSBiju Das val = rzg2l_gpt_read(rzg2l_gpt, RZG2L_GTCCR(ch, sub_ch));
237061f087fSBiju Das state->duty_cycle = rzg2l_gpt_calculate_period_or_duty(rzg2l_gpt, val, prescale);
238061f087fSBiju Das if (state->duty_cycle > state->period)
239061f087fSBiju Das state->duty_cycle = state->period;
240061f087fSBiju Das }
241061f087fSBiju Das
242061f087fSBiju Das state->polarity = PWM_POLARITY_NORMAL;
243061f087fSBiju Das
244061f087fSBiju Das return 0;
245061f087fSBiju Das }
246061f087fSBiju Das
rzg2l_gpt_calculate_pv_or_dc(u64 period_or_duty_cycle,u8 prescale)247061f087fSBiju Das static u32 rzg2l_gpt_calculate_pv_or_dc(u64 period_or_duty_cycle, u8 prescale)
248061f087fSBiju Das {
249061f087fSBiju Das return min_t(u64, DIV_ROUND_DOWN_ULL(period_or_duty_cycle, 1 << (2 * prescale)),
250061f087fSBiju Das U32_MAX);
251061f087fSBiju Das }
252061f087fSBiju Das
253061f087fSBiju Das /* Caller holds the lock while calling rzg2l_gpt_config() */
rzg2l_gpt_config(struct pwm_chip * chip,struct pwm_device * pwm,const struct pwm_state * state)254061f087fSBiju Das static int rzg2l_gpt_config(struct pwm_chip *chip, struct pwm_device *pwm,
255061f087fSBiju Das const struct pwm_state *state)
256061f087fSBiju Das {
257061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt = to_rzg2l_gpt_chip(chip);
258061f087fSBiju Das u8 sub_ch = rzg2l_gpt_subchannel(pwm->hwpwm);
259061f087fSBiju Das u8 ch = RZG2L_GET_CH(pwm->hwpwm);
260061f087fSBiju Das u64 period_ticks, duty_ticks;
261061f087fSBiju Das unsigned long pv, dc;
262061f087fSBiju Das u8 prescale;
263061f087fSBiju Das
264061f087fSBiju Das /* Limit period/duty cycle to max value supported by the HW */
265061f087fSBiju Das period_ticks = mul_u64_u64_div_u64(state->period, rzg2l_gpt->rate_khz, USEC_PER_SEC);
266061f087fSBiju Das if (period_ticks > RZG2L_MAX_TICKS)
267061f087fSBiju Das period_ticks = RZG2L_MAX_TICKS;
268061f087fSBiju Das /*
269061f087fSBiju Das * GPT counter is shared by the two IOs of a single channel, so
270061f087fSBiju Das * prescale and period can NOT be modified when there are multiple IOs
271061f087fSBiju Das * in use with different settings.
272061f087fSBiju Das */
273*e373991eSUwe Kleine-König if (rzg2l_gpt->channel_request_count[ch] > 1) {
274*e373991eSUwe Kleine-König if (period_ticks < rzg2l_gpt->period_ticks[ch])
275061f087fSBiju Das return -EBUSY;
276*e373991eSUwe Kleine-König else
277*e373991eSUwe Kleine-König period_ticks = rzg2l_gpt->period_ticks[ch];
278*e373991eSUwe Kleine-König }
279061f087fSBiju Das
280061f087fSBiju Das prescale = rzg2l_gpt_calculate_prescale(rzg2l_gpt, period_ticks);
281061f087fSBiju Das pv = rzg2l_gpt_calculate_pv_or_dc(period_ticks, prescale);
282061f087fSBiju Das
283061f087fSBiju Das duty_ticks = mul_u64_u64_div_u64(state->duty_cycle, rzg2l_gpt->rate_khz, USEC_PER_SEC);
284*e373991eSUwe Kleine-König if (duty_ticks > period_ticks)
285*e373991eSUwe Kleine-König duty_ticks = period_ticks;
286061f087fSBiju Das dc = rzg2l_gpt_calculate_pv_or_dc(duty_ticks, prescale);
287061f087fSBiju Das
288061f087fSBiju Das /*
289061f087fSBiju Das * GPT counter is shared by multiple channels, we cache the period ticks
290061f087fSBiju Das * from the first enabled channel and use the same value for both
291061f087fSBiju Das * channels.
292061f087fSBiju Das */
293061f087fSBiju Das rzg2l_gpt->period_ticks[ch] = period_ticks;
294061f087fSBiju Das
295061f087fSBiju Das /*
296061f087fSBiju Das * Counter must be stopped before modifying mode, prescaler, timer
297061f087fSBiju Das * counter and buffer enable registers. These registers are shared
298061f087fSBiju Das * between both channels. So allow updating these registers only for the
299061f087fSBiju Das * first enabled channel.
300061f087fSBiju Das */
301061f087fSBiju Das if (rzg2l_gpt->channel_enable_count[ch] <= 1) {
302061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch), RZG2L_GTCR_CST, 0);
303061f087fSBiju Das
304061f087fSBiju Das /* GPT set operating mode (saw-wave up-counting) */
305061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch), RZG2L_GTCR_MD,
306061f087fSBiju Das RZG2L_GTCR_MD_SAW_WAVE_PWM_MODE);
307061f087fSBiju Das
308061f087fSBiju Das /* Set count direction */
309061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, RZG2L_GTUDDTYC(ch), RZG2L_GTUDDTYC_UP_COUNTING);
310061f087fSBiju Das
311061f087fSBiju Das /* Select count clock */
312061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch), RZG2L_GTCR_TPCS,
313061f087fSBiju Das FIELD_PREP(RZG2L_GTCR_TPCS, prescale));
314061f087fSBiju Das
315061f087fSBiju Das /* Set period */
316061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, RZG2L_GTPR(ch), pv);
317061f087fSBiju Das }
318061f087fSBiju Das
319061f087fSBiju Das /* Set duty cycle */
320061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, RZG2L_GTCCR(ch, sub_ch), dc);
321061f087fSBiju Das
322061f087fSBiju Das if (rzg2l_gpt->channel_enable_count[ch] <= 1) {
323061f087fSBiju Das /* Set initial value for counter */
324061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, RZG2L_GTCNT(ch), 0);
325061f087fSBiju Das
326061f087fSBiju Das /* Set no buffer operation */
327061f087fSBiju Das rzg2l_gpt_write(rzg2l_gpt, RZG2L_GTBER(ch), 0);
328061f087fSBiju Das
329061f087fSBiju Das /* Restart the counter after updating the registers */
330061f087fSBiju Das rzg2l_gpt_modify(rzg2l_gpt, RZG2L_GTCR(ch),
331061f087fSBiju Das RZG2L_GTCR_CST, RZG2L_GTCR_CST);
332061f087fSBiju Das }
333061f087fSBiju Das
334061f087fSBiju Das return 0;
335061f087fSBiju Das }
336061f087fSBiju Das
rzg2l_gpt_apply(struct pwm_chip * chip,struct pwm_device * pwm,const struct pwm_state * state)337061f087fSBiju Das static int rzg2l_gpt_apply(struct pwm_chip *chip, struct pwm_device *pwm,
338061f087fSBiju Das const struct pwm_state *state)
339061f087fSBiju Das {
340061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt = to_rzg2l_gpt_chip(chip);
341061f087fSBiju Das bool enabled = pwm->state.enabled;
342061f087fSBiju Das int ret;
343061f087fSBiju Das
344061f087fSBiju Das if (state->polarity != PWM_POLARITY_NORMAL)
345061f087fSBiju Das return -EINVAL;
346061f087fSBiju Das
347061f087fSBiju Das guard(mutex)(&rzg2l_gpt->lock);
348061f087fSBiju Das if (!state->enabled) {
349061f087fSBiju Das if (enabled)
350061f087fSBiju Das rzg2l_gpt_disable(rzg2l_gpt, pwm);
351061f087fSBiju Das
352061f087fSBiju Das return 0;
353061f087fSBiju Das }
354061f087fSBiju Das
355061f087fSBiju Das ret = rzg2l_gpt_config(chip, pwm, state);
356061f087fSBiju Das if (!ret && !enabled)
357061f087fSBiju Das rzg2l_gpt_enable(rzg2l_gpt, pwm);
358061f087fSBiju Das
359061f087fSBiju Das return ret;
360061f087fSBiju Das }
361061f087fSBiju Das
362061f087fSBiju Das static const struct pwm_ops rzg2l_gpt_ops = {
363061f087fSBiju Das .request = rzg2l_gpt_request,
364061f087fSBiju Das .free = rzg2l_gpt_free,
365061f087fSBiju Das .get_state = rzg2l_gpt_get_state,
366061f087fSBiju Das .apply = rzg2l_gpt_apply,
367061f087fSBiju Das };
368061f087fSBiju Das
rzg2l_gpt_probe(struct platform_device * pdev)369061f087fSBiju Das static int rzg2l_gpt_probe(struct platform_device *pdev)
370061f087fSBiju Das {
371061f087fSBiju Das struct rzg2l_gpt_chip *rzg2l_gpt;
372061f087fSBiju Das struct device *dev = &pdev->dev;
373061f087fSBiju Das struct reset_control *rstc;
374061f087fSBiju Das struct pwm_chip *chip;
375061f087fSBiju Das unsigned long rate;
376061f087fSBiju Das struct clk *clk;
377061f087fSBiju Das int ret;
378061f087fSBiju Das
379061f087fSBiju Das chip = devm_pwmchip_alloc(dev, RZG2L_MAX_PWM_CHANNELS, sizeof(*rzg2l_gpt));
380061f087fSBiju Das if (IS_ERR(chip))
381061f087fSBiju Das return PTR_ERR(chip);
382061f087fSBiju Das rzg2l_gpt = to_rzg2l_gpt_chip(chip);
383061f087fSBiju Das
384061f087fSBiju Das rzg2l_gpt->mmio = devm_platform_ioremap_resource(pdev, 0);
385061f087fSBiju Das if (IS_ERR(rzg2l_gpt->mmio))
386061f087fSBiju Das return PTR_ERR(rzg2l_gpt->mmio);
387061f087fSBiju Das
388061f087fSBiju Das rstc = devm_reset_control_get_exclusive_deasserted(dev, NULL);
389061f087fSBiju Das if (IS_ERR(rstc))
390061f087fSBiju Das return dev_err_probe(dev, PTR_ERR(rstc), "Cannot deassert reset control\n");
391061f087fSBiju Das
392061f087fSBiju Das clk = devm_clk_get_enabled(dev, NULL);
393061f087fSBiju Das if (IS_ERR(clk))
394061f087fSBiju Das return dev_err_probe(dev, PTR_ERR(clk), "Cannot get clock\n");
395061f087fSBiju Das
396061f087fSBiju Das ret = devm_clk_rate_exclusive_get(dev, clk);
397061f087fSBiju Das if (ret)
398061f087fSBiju Das return ret;
399061f087fSBiju Das
400061f087fSBiju Das rate = clk_get_rate(clk);
401061f087fSBiju Das if (!rate)
402061f087fSBiju Das return dev_err_probe(dev, -EINVAL, "The gpt clk rate is 0");
403061f087fSBiju Das
404061f087fSBiju Das /*
405061f087fSBiju Das * Refuse clk rates > 1 GHz to prevent overflow later for computing
406061f087fSBiju Das * period and duty cycle.
407061f087fSBiju Das */
408061f087fSBiju Das if (rate > NSEC_PER_SEC)
409061f087fSBiju Das return dev_err_probe(dev, -EINVAL, "The gpt clk rate is > 1GHz");
410061f087fSBiju Das
411061f087fSBiju Das /*
412061f087fSBiju Das * Rate is in MHz and is always integer for peripheral clk
413061f087fSBiju Das * 2^32 * 2^10 (prescalar) * 10^6 (rate_khz) < 2^64
414061f087fSBiju Das * So make sure rate is multiple of 1000.
415061f087fSBiju Das */
416061f087fSBiju Das rzg2l_gpt->rate_khz = rate / KILO;
417061f087fSBiju Das if (rzg2l_gpt->rate_khz * KILO != rate)
418061f087fSBiju Das return dev_err_probe(dev, -EINVAL, "Rate is not multiple of 1000");
419061f087fSBiju Das
420061f087fSBiju Das mutex_init(&rzg2l_gpt->lock);
421061f087fSBiju Das
422061f087fSBiju Das chip->ops = &rzg2l_gpt_ops;
423061f087fSBiju Das ret = devm_pwmchip_add(dev, chip);
424061f087fSBiju Das if (ret)
425061f087fSBiju Das return dev_err_probe(dev, ret, "Failed to add PWM chip\n");
426061f087fSBiju Das
427061f087fSBiju Das return 0;
428061f087fSBiju Das }
429061f087fSBiju Das
430061f087fSBiju Das static const struct of_device_id rzg2l_gpt_of_table[] = {
431061f087fSBiju Das { .compatible = "renesas,rzg2l-gpt", },
432061f087fSBiju Das { /* Sentinel */ }
433061f087fSBiju Das };
434061f087fSBiju Das MODULE_DEVICE_TABLE(of, rzg2l_gpt_of_table);
435061f087fSBiju Das
436061f087fSBiju Das static struct platform_driver rzg2l_gpt_driver = {
437061f087fSBiju Das .driver = {
438061f087fSBiju Das .name = "pwm-rzg2l-gpt",
439061f087fSBiju Das .of_match_table = rzg2l_gpt_of_table,
440061f087fSBiju Das },
441061f087fSBiju Das .probe = rzg2l_gpt_probe,
442061f087fSBiju Das };
443061f087fSBiju Das module_platform_driver(rzg2l_gpt_driver);
444061f087fSBiju Das
445061f087fSBiju Das MODULE_AUTHOR("Biju Das <biju.das.jz@bp.renesas.com>");
446061f087fSBiju Das MODULE_DESCRIPTION("Renesas RZ/G2L General PWM Timer (GPT) Driver");
447061f087fSBiju Das MODULE_LICENSE("GPL");
448