1*4882a593Smuzhiyun // SPDX-License-Identifier: GPL-2.0
2*4882a593Smuzhiyun /*
3*4882a593Smuzhiyun * Copyright (C) 2017-2018 SiFive
4*4882a593Smuzhiyun * For SiFive's PWM IP block documentation please refer Chapter 14 of
5*4882a593Smuzhiyun * Reference Manual : https://static.dev.sifive.com/FU540-C000-v1.0.pdf
6*4882a593Smuzhiyun *
7*4882a593Smuzhiyun * Limitations:
8*4882a593Smuzhiyun * - When changing both duty cycle and period, we cannot prevent in
9*4882a593Smuzhiyun * software that the output might produce a period with mixed
10*4882a593Smuzhiyun * settings (new period length and old duty cycle).
11*4882a593Smuzhiyun * - The hardware cannot generate a 100% duty cycle.
12*4882a593Smuzhiyun * - The hardware generates only inverted output.
13*4882a593Smuzhiyun */
14*4882a593Smuzhiyun #include <linux/clk.h>
15*4882a593Smuzhiyun #include <linux/io.h>
16*4882a593Smuzhiyun #include <linux/module.h>
17*4882a593Smuzhiyun #include <linux/platform_device.h>
18*4882a593Smuzhiyun #include <linux/pwm.h>
19*4882a593Smuzhiyun #include <linux/slab.h>
20*4882a593Smuzhiyun #include <linux/bitfield.h>
21*4882a593Smuzhiyun
22*4882a593Smuzhiyun /* Register offsets */
23*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG 0x0
24*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCOUNT 0x8
25*4882a593Smuzhiyun #define PWM_SIFIVE_PWMS 0x10
26*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCMP(i) (0x20 + 4 * (i))
27*4882a593Smuzhiyun
28*4882a593Smuzhiyun /* PWMCFG fields */
29*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_SCALE GENMASK(3, 0)
30*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_STICKY BIT(8)
31*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_ZERO_CMP BIT(9)
32*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_DEGLITCH BIT(10)
33*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_EN_ALWAYS BIT(12)
34*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_EN_ONCE BIT(13)
35*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_CENTER BIT(16)
36*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_GANG BIT(24)
37*4882a593Smuzhiyun #define PWM_SIFIVE_PWMCFG_IP BIT(28)
38*4882a593Smuzhiyun
39*4882a593Smuzhiyun #define PWM_SIFIVE_CMPWIDTH 16
40*4882a593Smuzhiyun #define PWM_SIFIVE_DEFAULT_PERIOD 10000000
41*4882a593Smuzhiyun
42*4882a593Smuzhiyun struct pwm_sifive_ddata {
43*4882a593Smuzhiyun struct pwm_chip chip;
44*4882a593Smuzhiyun struct mutex lock; /* lock to protect user_count */
45*4882a593Smuzhiyun struct notifier_block notifier;
46*4882a593Smuzhiyun struct clk *clk;
47*4882a593Smuzhiyun void __iomem *regs;
48*4882a593Smuzhiyun unsigned int real_period;
49*4882a593Smuzhiyun unsigned int approx_period;
50*4882a593Smuzhiyun int user_count;
51*4882a593Smuzhiyun };
52*4882a593Smuzhiyun
53*4882a593Smuzhiyun static inline
pwm_sifive_chip_to_ddata(struct pwm_chip * c)54*4882a593Smuzhiyun struct pwm_sifive_ddata *pwm_sifive_chip_to_ddata(struct pwm_chip *c)
55*4882a593Smuzhiyun {
56*4882a593Smuzhiyun return container_of(c, struct pwm_sifive_ddata, chip);
57*4882a593Smuzhiyun }
58*4882a593Smuzhiyun
pwm_sifive_request(struct pwm_chip * chip,struct pwm_device * pwm)59*4882a593Smuzhiyun static int pwm_sifive_request(struct pwm_chip *chip, struct pwm_device *pwm)
60*4882a593Smuzhiyun {
61*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = pwm_sifive_chip_to_ddata(chip);
62*4882a593Smuzhiyun
63*4882a593Smuzhiyun mutex_lock(&ddata->lock);
64*4882a593Smuzhiyun ddata->user_count++;
65*4882a593Smuzhiyun mutex_unlock(&ddata->lock);
66*4882a593Smuzhiyun
67*4882a593Smuzhiyun return 0;
68*4882a593Smuzhiyun }
69*4882a593Smuzhiyun
pwm_sifive_free(struct pwm_chip * chip,struct pwm_device * pwm)70*4882a593Smuzhiyun static void pwm_sifive_free(struct pwm_chip *chip, struct pwm_device *pwm)
71*4882a593Smuzhiyun {
72*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = pwm_sifive_chip_to_ddata(chip);
73*4882a593Smuzhiyun
74*4882a593Smuzhiyun mutex_lock(&ddata->lock);
75*4882a593Smuzhiyun ddata->user_count--;
76*4882a593Smuzhiyun mutex_unlock(&ddata->lock);
77*4882a593Smuzhiyun }
78*4882a593Smuzhiyun
pwm_sifive_update_clock(struct pwm_sifive_ddata * ddata,unsigned long rate)79*4882a593Smuzhiyun static void pwm_sifive_update_clock(struct pwm_sifive_ddata *ddata,
80*4882a593Smuzhiyun unsigned long rate)
81*4882a593Smuzhiyun {
82*4882a593Smuzhiyun unsigned long long num;
83*4882a593Smuzhiyun unsigned long scale_pow;
84*4882a593Smuzhiyun int scale;
85*4882a593Smuzhiyun u32 val;
86*4882a593Smuzhiyun /*
87*4882a593Smuzhiyun * The PWM unit is used with pwmzerocmp=0, so the only way to modify the
88*4882a593Smuzhiyun * period length is using pwmscale which provides the number of bits the
89*4882a593Smuzhiyun * counter is shifted before being feed to the comparators. A period
90*4882a593Smuzhiyun * lasts (1 << (PWM_SIFIVE_CMPWIDTH + pwmscale)) clock ticks.
91*4882a593Smuzhiyun * (1 << (PWM_SIFIVE_CMPWIDTH + scale)) * 10^9/rate = period
92*4882a593Smuzhiyun */
93*4882a593Smuzhiyun scale_pow = div64_ul(ddata->approx_period * (u64)rate, NSEC_PER_SEC);
94*4882a593Smuzhiyun scale = clamp(ilog2(scale_pow) - PWM_SIFIVE_CMPWIDTH, 0, 0xf);
95*4882a593Smuzhiyun
96*4882a593Smuzhiyun val = PWM_SIFIVE_PWMCFG_EN_ALWAYS |
97*4882a593Smuzhiyun FIELD_PREP(PWM_SIFIVE_PWMCFG_SCALE, scale);
98*4882a593Smuzhiyun writel(val, ddata->regs + PWM_SIFIVE_PWMCFG);
99*4882a593Smuzhiyun
100*4882a593Smuzhiyun /* As scale <= 15 the shift operation cannot overflow. */
101*4882a593Smuzhiyun num = (unsigned long long)NSEC_PER_SEC << (PWM_SIFIVE_CMPWIDTH + scale);
102*4882a593Smuzhiyun ddata->real_period = div64_ul(num, rate);
103*4882a593Smuzhiyun dev_dbg(ddata->chip.dev,
104*4882a593Smuzhiyun "New real_period = %u ns\n", ddata->real_period);
105*4882a593Smuzhiyun }
106*4882a593Smuzhiyun
pwm_sifive_get_state(struct pwm_chip * chip,struct pwm_device * pwm,struct pwm_state * state)107*4882a593Smuzhiyun static void pwm_sifive_get_state(struct pwm_chip *chip, struct pwm_device *pwm,
108*4882a593Smuzhiyun struct pwm_state *state)
109*4882a593Smuzhiyun {
110*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = pwm_sifive_chip_to_ddata(chip);
111*4882a593Smuzhiyun u32 duty, val;
112*4882a593Smuzhiyun
113*4882a593Smuzhiyun duty = readl(ddata->regs + PWM_SIFIVE_PWMCMP(pwm->hwpwm));
114*4882a593Smuzhiyun
115*4882a593Smuzhiyun state->enabled = duty > 0;
116*4882a593Smuzhiyun
117*4882a593Smuzhiyun val = readl(ddata->regs + PWM_SIFIVE_PWMCFG);
118*4882a593Smuzhiyun if (!(val & PWM_SIFIVE_PWMCFG_EN_ALWAYS))
119*4882a593Smuzhiyun state->enabled = false;
120*4882a593Smuzhiyun
121*4882a593Smuzhiyun state->period = ddata->real_period;
122*4882a593Smuzhiyun state->duty_cycle =
123*4882a593Smuzhiyun (u64)duty * ddata->real_period >> PWM_SIFIVE_CMPWIDTH;
124*4882a593Smuzhiyun state->polarity = PWM_POLARITY_INVERSED;
125*4882a593Smuzhiyun }
126*4882a593Smuzhiyun
pwm_sifive_enable(struct pwm_chip * chip,bool enable)127*4882a593Smuzhiyun static int pwm_sifive_enable(struct pwm_chip *chip, bool enable)
128*4882a593Smuzhiyun {
129*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = pwm_sifive_chip_to_ddata(chip);
130*4882a593Smuzhiyun int ret;
131*4882a593Smuzhiyun
132*4882a593Smuzhiyun if (enable) {
133*4882a593Smuzhiyun ret = clk_enable(ddata->clk);
134*4882a593Smuzhiyun if (ret) {
135*4882a593Smuzhiyun dev_err(ddata->chip.dev, "Enable clk failed\n");
136*4882a593Smuzhiyun return ret;
137*4882a593Smuzhiyun }
138*4882a593Smuzhiyun }
139*4882a593Smuzhiyun
140*4882a593Smuzhiyun if (!enable)
141*4882a593Smuzhiyun clk_disable(ddata->clk);
142*4882a593Smuzhiyun
143*4882a593Smuzhiyun return 0;
144*4882a593Smuzhiyun }
145*4882a593Smuzhiyun
pwm_sifive_apply(struct pwm_chip * chip,struct pwm_device * pwm,const struct pwm_state * state)146*4882a593Smuzhiyun static int pwm_sifive_apply(struct pwm_chip *chip, struct pwm_device *pwm,
147*4882a593Smuzhiyun const struct pwm_state *state)
148*4882a593Smuzhiyun {
149*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = pwm_sifive_chip_to_ddata(chip);
150*4882a593Smuzhiyun struct pwm_state cur_state;
151*4882a593Smuzhiyun unsigned int duty_cycle;
152*4882a593Smuzhiyun unsigned long long num;
153*4882a593Smuzhiyun bool enabled;
154*4882a593Smuzhiyun int ret = 0;
155*4882a593Smuzhiyun u32 frac;
156*4882a593Smuzhiyun
157*4882a593Smuzhiyun if (state->polarity != PWM_POLARITY_INVERSED)
158*4882a593Smuzhiyun return -EINVAL;
159*4882a593Smuzhiyun
160*4882a593Smuzhiyun ret = clk_enable(ddata->clk);
161*4882a593Smuzhiyun if (ret) {
162*4882a593Smuzhiyun dev_err(ddata->chip.dev, "Enable clk failed\n");
163*4882a593Smuzhiyun return ret;
164*4882a593Smuzhiyun }
165*4882a593Smuzhiyun
166*4882a593Smuzhiyun mutex_lock(&ddata->lock);
167*4882a593Smuzhiyun cur_state = pwm->state;
168*4882a593Smuzhiyun enabled = cur_state.enabled;
169*4882a593Smuzhiyun
170*4882a593Smuzhiyun duty_cycle = state->duty_cycle;
171*4882a593Smuzhiyun if (!state->enabled)
172*4882a593Smuzhiyun duty_cycle = 0;
173*4882a593Smuzhiyun
174*4882a593Smuzhiyun /*
175*4882a593Smuzhiyun * The problem of output producing mixed setting as mentioned at top,
176*4882a593Smuzhiyun * occurs here. To minimize the window for this problem, we are
177*4882a593Smuzhiyun * calculating the register values first and then writing them
178*4882a593Smuzhiyun * consecutively
179*4882a593Smuzhiyun */
180*4882a593Smuzhiyun num = (u64)duty_cycle * (1U << PWM_SIFIVE_CMPWIDTH);
181*4882a593Smuzhiyun frac = DIV64_U64_ROUND_CLOSEST(num, state->period);
182*4882a593Smuzhiyun /* The hardware cannot generate a 100% duty cycle */
183*4882a593Smuzhiyun frac = min(frac, (1U << PWM_SIFIVE_CMPWIDTH) - 1);
184*4882a593Smuzhiyun
185*4882a593Smuzhiyun if (state->period != ddata->approx_period) {
186*4882a593Smuzhiyun if (ddata->user_count != 1) {
187*4882a593Smuzhiyun ret = -EBUSY;
188*4882a593Smuzhiyun goto exit;
189*4882a593Smuzhiyun }
190*4882a593Smuzhiyun ddata->approx_period = state->period;
191*4882a593Smuzhiyun pwm_sifive_update_clock(ddata, clk_get_rate(ddata->clk));
192*4882a593Smuzhiyun }
193*4882a593Smuzhiyun
194*4882a593Smuzhiyun writel(frac, ddata->regs + PWM_SIFIVE_PWMCMP(pwm->hwpwm));
195*4882a593Smuzhiyun
196*4882a593Smuzhiyun if (state->enabled != enabled)
197*4882a593Smuzhiyun pwm_sifive_enable(chip, state->enabled);
198*4882a593Smuzhiyun
199*4882a593Smuzhiyun exit:
200*4882a593Smuzhiyun clk_disable(ddata->clk);
201*4882a593Smuzhiyun mutex_unlock(&ddata->lock);
202*4882a593Smuzhiyun return ret;
203*4882a593Smuzhiyun }
204*4882a593Smuzhiyun
205*4882a593Smuzhiyun static const struct pwm_ops pwm_sifive_ops = {
206*4882a593Smuzhiyun .request = pwm_sifive_request,
207*4882a593Smuzhiyun .free = pwm_sifive_free,
208*4882a593Smuzhiyun .get_state = pwm_sifive_get_state,
209*4882a593Smuzhiyun .apply = pwm_sifive_apply,
210*4882a593Smuzhiyun .owner = THIS_MODULE,
211*4882a593Smuzhiyun };
212*4882a593Smuzhiyun
pwm_sifive_clock_notifier(struct notifier_block * nb,unsigned long event,void * data)213*4882a593Smuzhiyun static int pwm_sifive_clock_notifier(struct notifier_block *nb,
214*4882a593Smuzhiyun unsigned long event, void *data)
215*4882a593Smuzhiyun {
216*4882a593Smuzhiyun struct clk_notifier_data *ndata = data;
217*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata =
218*4882a593Smuzhiyun container_of(nb, struct pwm_sifive_ddata, notifier);
219*4882a593Smuzhiyun
220*4882a593Smuzhiyun if (event == POST_RATE_CHANGE)
221*4882a593Smuzhiyun pwm_sifive_update_clock(ddata, ndata->new_rate);
222*4882a593Smuzhiyun
223*4882a593Smuzhiyun return NOTIFY_OK;
224*4882a593Smuzhiyun }
225*4882a593Smuzhiyun
pwm_sifive_probe(struct platform_device * pdev)226*4882a593Smuzhiyun static int pwm_sifive_probe(struct platform_device *pdev)
227*4882a593Smuzhiyun {
228*4882a593Smuzhiyun struct device *dev = &pdev->dev;
229*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata;
230*4882a593Smuzhiyun struct pwm_chip *chip;
231*4882a593Smuzhiyun struct resource *res;
232*4882a593Smuzhiyun int ret;
233*4882a593Smuzhiyun u32 val;
234*4882a593Smuzhiyun unsigned int enabled_pwms = 0, enabled_clks = 1;
235*4882a593Smuzhiyun
236*4882a593Smuzhiyun ddata = devm_kzalloc(dev, sizeof(*ddata), GFP_KERNEL);
237*4882a593Smuzhiyun if (!ddata)
238*4882a593Smuzhiyun return -ENOMEM;
239*4882a593Smuzhiyun
240*4882a593Smuzhiyun mutex_init(&ddata->lock);
241*4882a593Smuzhiyun chip = &ddata->chip;
242*4882a593Smuzhiyun chip->dev = dev;
243*4882a593Smuzhiyun chip->ops = &pwm_sifive_ops;
244*4882a593Smuzhiyun chip->of_xlate = of_pwm_xlate_with_flags;
245*4882a593Smuzhiyun chip->of_pwm_n_cells = 3;
246*4882a593Smuzhiyun chip->base = -1;
247*4882a593Smuzhiyun chip->npwm = 4;
248*4882a593Smuzhiyun
249*4882a593Smuzhiyun res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
250*4882a593Smuzhiyun ddata->regs = devm_ioremap_resource(dev, res);
251*4882a593Smuzhiyun if (IS_ERR(ddata->regs))
252*4882a593Smuzhiyun return PTR_ERR(ddata->regs);
253*4882a593Smuzhiyun
254*4882a593Smuzhiyun ddata->clk = devm_clk_get(dev, NULL);
255*4882a593Smuzhiyun if (IS_ERR(ddata->clk))
256*4882a593Smuzhiyun return dev_err_probe(dev, PTR_ERR(ddata->clk),
257*4882a593Smuzhiyun "Unable to find controller clock\n");
258*4882a593Smuzhiyun
259*4882a593Smuzhiyun ret = clk_prepare_enable(ddata->clk);
260*4882a593Smuzhiyun if (ret) {
261*4882a593Smuzhiyun dev_err(dev, "failed to enable clock for pwm: %d\n", ret);
262*4882a593Smuzhiyun return ret;
263*4882a593Smuzhiyun }
264*4882a593Smuzhiyun
265*4882a593Smuzhiyun val = readl(ddata->regs + PWM_SIFIVE_PWMCFG);
266*4882a593Smuzhiyun if (val & PWM_SIFIVE_PWMCFG_EN_ALWAYS) {
267*4882a593Smuzhiyun unsigned int i;
268*4882a593Smuzhiyun
269*4882a593Smuzhiyun for (i = 0; i < chip->npwm; ++i) {
270*4882a593Smuzhiyun val = readl(ddata->regs + PWM_SIFIVE_PWMCMP(i));
271*4882a593Smuzhiyun if (val > 0)
272*4882a593Smuzhiyun ++enabled_pwms;
273*4882a593Smuzhiyun }
274*4882a593Smuzhiyun }
275*4882a593Smuzhiyun
276*4882a593Smuzhiyun /* The clk should be on once for each running PWM. */
277*4882a593Smuzhiyun if (enabled_pwms) {
278*4882a593Smuzhiyun while (enabled_clks < enabled_pwms) {
279*4882a593Smuzhiyun /* This is not expected to fail as the clk is already on */
280*4882a593Smuzhiyun ret = clk_enable(ddata->clk);
281*4882a593Smuzhiyun if (unlikely(ret)) {
282*4882a593Smuzhiyun dev_err_probe(dev, ret, "Failed to enable clk\n");
283*4882a593Smuzhiyun goto disable_clk;
284*4882a593Smuzhiyun }
285*4882a593Smuzhiyun ++enabled_clks;
286*4882a593Smuzhiyun }
287*4882a593Smuzhiyun } else {
288*4882a593Smuzhiyun clk_disable(ddata->clk);
289*4882a593Smuzhiyun enabled_clks = 0;
290*4882a593Smuzhiyun }
291*4882a593Smuzhiyun
292*4882a593Smuzhiyun /* Watch for changes to underlying clock frequency */
293*4882a593Smuzhiyun ddata->notifier.notifier_call = pwm_sifive_clock_notifier;
294*4882a593Smuzhiyun ret = clk_notifier_register(ddata->clk, &ddata->notifier);
295*4882a593Smuzhiyun if (ret) {
296*4882a593Smuzhiyun dev_err(dev, "failed to register clock notifier: %d\n", ret);
297*4882a593Smuzhiyun goto disable_clk;
298*4882a593Smuzhiyun }
299*4882a593Smuzhiyun
300*4882a593Smuzhiyun ret = pwmchip_add(chip);
301*4882a593Smuzhiyun if (ret < 0) {
302*4882a593Smuzhiyun dev_err(dev, "cannot register PWM: %d\n", ret);
303*4882a593Smuzhiyun goto unregister_clk;
304*4882a593Smuzhiyun }
305*4882a593Smuzhiyun
306*4882a593Smuzhiyun platform_set_drvdata(pdev, ddata);
307*4882a593Smuzhiyun dev_dbg(dev, "SiFive PWM chip registered %d PWMs\n", chip->npwm);
308*4882a593Smuzhiyun
309*4882a593Smuzhiyun return 0;
310*4882a593Smuzhiyun
311*4882a593Smuzhiyun unregister_clk:
312*4882a593Smuzhiyun clk_notifier_unregister(ddata->clk, &ddata->notifier);
313*4882a593Smuzhiyun disable_clk:
314*4882a593Smuzhiyun while (enabled_clks) {
315*4882a593Smuzhiyun clk_disable(ddata->clk);
316*4882a593Smuzhiyun --enabled_clks;
317*4882a593Smuzhiyun }
318*4882a593Smuzhiyun clk_unprepare(ddata->clk);
319*4882a593Smuzhiyun
320*4882a593Smuzhiyun return ret;
321*4882a593Smuzhiyun }
322*4882a593Smuzhiyun
pwm_sifive_remove(struct platform_device * dev)323*4882a593Smuzhiyun static int pwm_sifive_remove(struct platform_device *dev)
324*4882a593Smuzhiyun {
325*4882a593Smuzhiyun struct pwm_sifive_ddata *ddata = platform_get_drvdata(dev);
326*4882a593Smuzhiyun struct pwm_device *pwm;
327*4882a593Smuzhiyun int ch;
328*4882a593Smuzhiyun
329*4882a593Smuzhiyun pwmchip_remove(&ddata->chip);
330*4882a593Smuzhiyun clk_notifier_unregister(ddata->clk, &ddata->notifier);
331*4882a593Smuzhiyun
332*4882a593Smuzhiyun for (ch = 0; ch < ddata->chip.npwm; ch++) {
333*4882a593Smuzhiyun pwm = &ddata->chip.pwms[ch];
334*4882a593Smuzhiyun if (pwm->state.enabled)
335*4882a593Smuzhiyun clk_disable(ddata->clk);
336*4882a593Smuzhiyun }
337*4882a593Smuzhiyun
338*4882a593Smuzhiyun clk_unprepare(ddata->clk);
339*4882a593Smuzhiyun
340*4882a593Smuzhiyun return 0;
341*4882a593Smuzhiyun }
342*4882a593Smuzhiyun
343*4882a593Smuzhiyun static const struct of_device_id pwm_sifive_of_match[] = {
344*4882a593Smuzhiyun { .compatible = "sifive,pwm0" },
345*4882a593Smuzhiyun {},
346*4882a593Smuzhiyun };
347*4882a593Smuzhiyun MODULE_DEVICE_TABLE(of, pwm_sifive_of_match);
348*4882a593Smuzhiyun
349*4882a593Smuzhiyun static struct platform_driver pwm_sifive_driver = {
350*4882a593Smuzhiyun .probe = pwm_sifive_probe,
351*4882a593Smuzhiyun .remove = pwm_sifive_remove,
352*4882a593Smuzhiyun .driver = {
353*4882a593Smuzhiyun .name = "pwm-sifive",
354*4882a593Smuzhiyun .of_match_table = pwm_sifive_of_match,
355*4882a593Smuzhiyun },
356*4882a593Smuzhiyun };
357*4882a593Smuzhiyun module_platform_driver(pwm_sifive_driver);
358*4882a593Smuzhiyun
359*4882a593Smuzhiyun MODULE_DESCRIPTION("SiFive PWM driver");
360*4882a593Smuzhiyun MODULE_LICENSE("GPL v2");
361