172f1cf04SJared McNeill /*-
272f1cf04SJared McNeill * Copyright (c) 2016 Jared McNeill <jmcneill@invisible.ca>
372f1cf04SJared McNeill *
472f1cf04SJared McNeill * Redistribution and use in source and binary forms, with or without
572f1cf04SJared McNeill * modification, are permitted provided that the following conditions
672f1cf04SJared McNeill * are met:
772f1cf04SJared McNeill * 1. Redistributions of source code must retain the above copyright
872f1cf04SJared McNeill * notice, this list of conditions and the following disclaimer.
972f1cf04SJared McNeill * 2. Redistributions in binary form must reproduce the above copyright
1072f1cf04SJared McNeill * notice, this list of conditions and the following disclaimer in the
1172f1cf04SJared McNeill * documentation and/or other materials provided with the distribution.
1272f1cf04SJared McNeill *
1372f1cf04SJared McNeill * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1472f1cf04SJared McNeill * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1572f1cf04SJared McNeill * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1672f1cf04SJared McNeill * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1772f1cf04SJared McNeill * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
1872f1cf04SJared McNeill * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
1972f1cf04SJared McNeill * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
2072f1cf04SJared McNeill * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
2172f1cf04SJared McNeill * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
2272f1cf04SJared McNeill * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
2372f1cf04SJared McNeill * SUCH DAMAGE.
2472f1cf04SJared McNeill */
2572f1cf04SJared McNeill
2672f1cf04SJared McNeill /*
2772f1cf04SJared McNeill * GPIO controlled regulators
2872f1cf04SJared McNeill */
2972f1cf04SJared McNeill
3072f1cf04SJared McNeill #include <sys/param.h>
3172f1cf04SJared McNeill #include <sys/systm.h>
3272f1cf04SJared McNeill #include <sys/bus.h>
3372f1cf04SJared McNeill #include <sys/rman.h>
3472f1cf04SJared McNeill #include <sys/kernel.h>
3572f1cf04SJared McNeill #include <sys/module.h>
3672f1cf04SJared McNeill #include <sys/gpio.h>
3772f1cf04SJared McNeill
3872f1cf04SJared McNeill #include <dev/ofw/ofw_bus.h>
3972f1cf04SJared McNeill #include <dev/ofw/ofw_bus_subr.h>
4072f1cf04SJared McNeill
4172f1cf04SJared McNeill #include <dev/gpio/gpiobusvar.h>
4272f1cf04SJared McNeill
43*b2f0caf1SEmmanuel Vadot #include <dev/regulator/regulator.h>
4472f1cf04SJared McNeill
4572f1cf04SJared McNeill #include "regdev_if.h"
4672f1cf04SJared McNeill
4772f1cf04SJared McNeill struct gpioregulator_state {
4872f1cf04SJared McNeill int val;
4972f1cf04SJared McNeill uint32_t mask;
5072f1cf04SJared McNeill };
5172f1cf04SJared McNeill
5272f1cf04SJared McNeill struct gpioregulator_init_def {
5372f1cf04SJared McNeill struct regnode_init_def reg_init_def;
5472f1cf04SJared McNeill struct gpiobus_pin *enable_pin;
5572f1cf04SJared McNeill int enable_pin_valid;
5672f1cf04SJared McNeill int startup_delay_us;
5772f1cf04SJared McNeill int nstates;
5872f1cf04SJared McNeill struct gpioregulator_state *states;
5972f1cf04SJared McNeill int npins;
6072f1cf04SJared McNeill struct gpiobus_pin **pins;
6172f1cf04SJared McNeill };
6272f1cf04SJared McNeill
6372f1cf04SJared McNeill struct gpioregulator_reg_sc {
6472f1cf04SJared McNeill struct regnode *regnode;
6572f1cf04SJared McNeill device_t base_dev;
6672f1cf04SJared McNeill struct regnode_std_param *param;
6772f1cf04SJared McNeill struct gpioregulator_init_def *def;
6872f1cf04SJared McNeill };
6972f1cf04SJared McNeill
7072f1cf04SJared McNeill struct gpioregulator_softc {
7172f1cf04SJared McNeill device_t dev;
7272f1cf04SJared McNeill struct gpioregulator_reg_sc *reg_sc;
7372f1cf04SJared McNeill struct gpioregulator_init_def init_def;
7472f1cf04SJared McNeill };
7572f1cf04SJared McNeill
7672f1cf04SJared McNeill static int
gpioregulator_regnode_init(struct regnode * regnode)7772f1cf04SJared McNeill gpioregulator_regnode_init(struct regnode *regnode)
7872f1cf04SJared McNeill {
7972f1cf04SJared McNeill struct gpioregulator_reg_sc *sc;
8072f1cf04SJared McNeill int error, n;
8172f1cf04SJared McNeill
8272f1cf04SJared McNeill sc = regnode_get_softc(regnode);
8372f1cf04SJared McNeill
8472f1cf04SJared McNeill if (sc->def->enable_pin_valid == 1) {
8572f1cf04SJared McNeill error = gpio_pin_setflags(sc->def->enable_pin, GPIO_PIN_OUTPUT);
8672f1cf04SJared McNeill if (error != 0)
8772f1cf04SJared McNeill return (error);
8872f1cf04SJared McNeill }
8972f1cf04SJared McNeill
9072f1cf04SJared McNeill for (n = 0; n < sc->def->npins; n++) {
9172f1cf04SJared McNeill error = gpio_pin_setflags(sc->def->pins[n], GPIO_PIN_OUTPUT);
9272f1cf04SJared McNeill if (error != 0)
9372f1cf04SJared McNeill return (error);
9472f1cf04SJared McNeill }
9572f1cf04SJared McNeill
9672f1cf04SJared McNeill return (0);
9772f1cf04SJared McNeill }
9872f1cf04SJared McNeill
9972f1cf04SJared McNeill static int
gpioregulator_regnode_enable(struct regnode * regnode,bool enable,int * udelay)10072f1cf04SJared McNeill gpioregulator_regnode_enable(struct regnode *regnode, bool enable, int *udelay)
10172f1cf04SJared McNeill {
10272f1cf04SJared McNeill struct gpioregulator_reg_sc *sc;
10372f1cf04SJared McNeill bool active;
10472f1cf04SJared McNeill int error;
10572f1cf04SJared McNeill
10672f1cf04SJared McNeill sc = regnode_get_softc(regnode);
10772f1cf04SJared McNeill
10872f1cf04SJared McNeill if (sc->def->enable_pin_valid == 1) {
10972f1cf04SJared McNeill active = enable;
11072f1cf04SJared McNeill if (!sc->param->enable_active_high)
11172f1cf04SJared McNeill active = !active;
11272f1cf04SJared McNeill error = gpio_pin_set_active(sc->def->enable_pin, active);
11372f1cf04SJared McNeill if (error != 0)
11472f1cf04SJared McNeill return (error);
11572f1cf04SJared McNeill }
11672f1cf04SJared McNeill
11772f1cf04SJared McNeill *udelay = sc->def->startup_delay_us;
11872f1cf04SJared McNeill
11972f1cf04SJared McNeill return (0);
12072f1cf04SJared McNeill }
12172f1cf04SJared McNeill
12272f1cf04SJared McNeill static int
gpioregulator_regnode_set_voltage(struct regnode * regnode,int min_uvolt,int max_uvolt,int * udelay)12372f1cf04SJared McNeill gpioregulator_regnode_set_voltage(struct regnode *regnode, int min_uvolt,
12472f1cf04SJared McNeill int max_uvolt, int *udelay)
12572f1cf04SJared McNeill {
12672f1cf04SJared McNeill struct gpioregulator_reg_sc *sc;
12772f1cf04SJared McNeill const struct gpioregulator_state *state;
12872f1cf04SJared McNeill int error, n;
12972f1cf04SJared McNeill
13072f1cf04SJared McNeill sc = regnode_get_softc(regnode);
13172f1cf04SJared McNeill state = NULL;
13272f1cf04SJared McNeill
13372f1cf04SJared McNeill for (n = 0; n < sc->def->nstates; n++) {
13472f1cf04SJared McNeill if (sc->def->states[n].val >= min_uvolt &&
13572f1cf04SJared McNeill sc->def->states[n].val <= max_uvolt) {
13672f1cf04SJared McNeill state = &sc->def->states[n];
13772f1cf04SJared McNeill break;
13872f1cf04SJared McNeill }
13972f1cf04SJared McNeill }
14072f1cf04SJared McNeill if (state == NULL)
14172f1cf04SJared McNeill return (EINVAL);
14272f1cf04SJared McNeill
14372f1cf04SJared McNeill for (n = 0; n < sc->def->npins; n++) {
14472f1cf04SJared McNeill error = gpio_pin_set_active(sc->def->pins[n],
14572f1cf04SJared McNeill (state->mask >> n) & 1);
14672f1cf04SJared McNeill if (error != 0)
14772f1cf04SJared McNeill return (error);
14872f1cf04SJared McNeill }
14972f1cf04SJared McNeill
15072f1cf04SJared McNeill *udelay = sc->def->startup_delay_us;
15172f1cf04SJared McNeill
15272f1cf04SJared McNeill return (0);
15372f1cf04SJared McNeill }
15472f1cf04SJared McNeill
15572f1cf04SJared McNeill static int
gpioregulator_regnode_get_voltage(struct regnode * regnode,int * uvolt)15672f1cf04SJared McNeill gpioregulator_regnode_get_voltage(struct regnode *regnode, int *uvolt)
15772f1cf04SJared McNeill {
15872f1cf04SJared McNeill struct gpioregulator_reg_sc *sc;
15972f1cf04SJared McNeill uint32_t mask;
16072f1cf04SJared McNeill int error, n;
16172f1cf04SJared McNeill bool active;
16272f1cf04SJared McNeill
16372f1cf04SJared McNeill sc = regnode_get_softc(regnode);
16472f1cf04SJared McNeill mask = 0;
16572f1cf04SJared McNeill
16672f1cf04SJared McNeill for (n = 0; n < sc->def->npins; n++) {
16772f1cf04SJared McNeill error = gpio_pin_is_active(sc->def->pins[n], &active);
16872f1cf04SJared McNeill if (error != 0)
16972f1cf04SJared McNeill return (error);
17072f1cf04SJared McNeill mask |= (active << n);
17172f1cf04SJared McNeill }
17272f1cf04SJared McNeill
17372f1cf04SJared McNeill for (n = 0; n < sc->def->nstates; n++) {
17472f1cf04SJared McNeill if (sc->def->states[n].mask == mask) {
17572f1cf04SJared McNeill *uvolt = sc->def->states[n].val;
17672f1cf04SJared McNeill return (0);
17772f1cf04SJared McNeill }
17872f1cf04SJared McNeill }
17972f1cf04SJared McNeill
18072f1cf04SJared McNeill return (EIO);
18172f1cf04SJared McNeill }
18272f1cf04SJared McNeill
18372f1cf04SJared McNeill static regnode_method_t gpioregulator_regnode_methods[] = {
18472f1cf04SJared McNeill /* Regulator interface */
18572f1cf04SJared McNeill REGNODEMETHOD(regnode_init, gpioregulator_regnode_init),
18672f1cf04SJared McNeill REGNODEMETHOD(regnode_enable, gpioregulator_regnode_enable),
18772f1cf04SJared McNeill REGNODEMETHOD(regnode_set_voltage, gpioregulator_regnode_set_voltage),
18872f1cf04SJared McNeill REGNODEMETHOD(regnode_get_voltage, gpioregulator_regnode_get_voltage),
18972f1cf04SJared McNeill REGNODEMETHOD_END
19072f1cf04SJared McNeill };
19172f1cf04SJared McNeill DEFINE_CLASS_1(gpioregulator_regnode, gpioregulator_regnode_class,
19272f1cf04SJared McNeill gpioregulator_regnode_methods, sizeof(struct gpioregulator_reg_sc),
19372f1cf04SJared McNeill regnode_class);
19472f1cf04SJared McNeill
19572f1cf04SJared McNeill static int
gpioregulator_parse_fdt(struct gpioregulator_softc * sc)19672f1cf04SJared McNeill gpioregulator_parse_fdt(struct gpioregulator_softc *sc)
19772f1cf04SJared McNeill {
19872f1cf04SJared McNeill uint32_t *pstates, mask;
19972f1cf04SJared McNeill phandle_t node;
20072f1cf04SJared McNeill ssize_t len;
20172f1cf04SJared McNeill int error, n;
20272f1cf04SJared McNeill
20372f1cf04SJared McNeill node = ofw_bus_get_node(sc->dev);
20472f1cf04SJared McNeill pstates = NULL;
20572f1cf04SJared McNeill mask = 0;
20672f1cf04SJared McNeill
20772f1cf04SJared McNeill error = regulator_parse_ofw_stdparam(sc->dev, node,
20872f1cf04SJared McNeill &sc->init_def.reg_init_def);
20972f1cf04SJared McNeill if (error != 0)
21072f1cf04SJared McNeill return (error);
21172f1cf04SJared McNeill
21272f1cf04SJared McNeill /* "states" property (required) */
213f7604b1bSOleksandr Tymoshenko len = OF_getencprop_alloc_multi(node, "states", sizeof(*pstates),
21472f1cf04SJared McNeill (void **)&pstates);
21572f1cf04SJared McNeill if (len < 2) {
21672f1cf04SJared McNeill device_printf(sc->dev, "invalid 'states' property\n");
21772f1cf04SJared McNeill error = EINVAL;
21872f1cf04SJared McNeill goto done;
21972f1cf04SJared McNeill }
22072f1cf04SJared McNeill sc->init_def.nstates = len / 2;
22172f1cf04SJared McNeill sc->init_def.states = malloc(sc->init_def.nstates *
22272f1cf04SJared McNeill sizeof(*sc->init_def.states), M_DEVBUF, M_WAITOK);
22372f1cf04SJared McNeill for (n = 0; n < sc->init_def.nstates; n++) {
22472f1cf04SJared McNeill sc->init_def.states[n].val = pstates[n * 2 + 0];
22572f1cf04SJared McNeill sc->init_def.states[n].mask = pstates[n * 2 + 1];
22672f1cf04SJared McNeill mask |= sc->init_def.states[n].mask;
22772f1cf04SJared McNeill }
22872f1cf04SJared McNeill
22972f1cf04SJared McNeill /* "startup-delay-us" property (optional) */
23072f1cf04SJared McNeill len = OF_getencprop(node, "startup-delay-us",
23172f1cf04SJared McNeill &sc->init_def.startup_delay_us,
23272f1cf04SJared McNeill sizeof(sc->init_def.startup_delay_us));
23372f1cf04SJared McNeill if (len <= 0)
23472f1cf04SJared McNeill sc->init_def.startup_delay_us = 0;
23572f1cf04SJared McNeill
23672f1cf04SJared McNeill /* "enable-gpio" property (optional) */
23772f1cf04SJared McNeill error = gpio_pin_get_by_ofw_property(sc->dev, node, "enable-gpio",
23872f1cf04SJared McNeill &sc->init_def.enable_pin);
23972f1cf04SJared McNeill if (error == 0)
24072f1cf04SJared McNeill sc->init_def.enable_pin_valid = 1;
24172f1cf04SJared McNeill
24272f1cf04SJared McNeill /* "gpios" property */
24372f1cf04SJared McNeill sc->init_def.npins = 32 - __builtin_clz(mask);
24472f1cf04SJared McNeill sc->init_def.pins = malloc(sc->init_def.npins *
245e5b6bcc7SLuiz Otavio O Souza sizeof(sc->init_def.pins), M_DEVBUF, M_WAITOK | M_ZERO);
24672f1cf04SJared McNeill for (n = 0; n < sc->init_def.npins; n++) {
24772f1cf04SJared McNeill error = gpio_pin_get_by_ofw_idx(sc->dev, node, n,
24872f1cf04SJared McNeill &sc->init_def.pins[n]);
24972f1cf04SJared McNeill if (error != 0) {
25072f1cf04SJared McNeill device_printf(sc->dev, "cannot get pin %d\n", n);
25172f1cf04SJared McNeill goto done;
25272f1cf04SJared McNeill }
25372f1cf04SJared McNeill }
25472f1cf04SJared McNeill
25572f1cf04SJared McNeill done:
25672f1cf04SJared McNeill if (error != 0) {
25772f1cf04SJared McNeill for (n = 0; n < sc->init_def.npins; n++) {
25872f1cf04SJared McNeill if (sc->init_def.pins[n] != NULL)
25972f1cf04SJared McNeill gpio_pin_release(sc->init_def.pins[n]);
26072f1cf04SJared McNeill }
26172f1cf04SJared McNeill
26272f1cf04SJared McNeill free(sc->init_def.states, M_DEVBUF);
26372f1cf04SJared McNeill free(sc->init_def.pins, M_DEVBUF);
26472f1cf04SJared McNeill
26572f1cf04SJared McNeill }
26672f1cf04SJared McNeill OF_prop_free(pstates);
26772f1cf04SJared McNeill
26872f1cf04SJared McNeill return (error);
26972f1cf04SJared McNeill }
27072f1cf04SJared McNeill
27172f1cf04SJared McNeill static int
gpioregulator_probe(device_t dev)27272f1cf04SJared McNeill gpioregulator_probe(device_t dev)
27372f1cf04SJared McNeill {
27472f1cf04SJared McNeill
27572f1cf04SJared McNeill if (!ofw_bus_is_compatible(dev, "regulator-gpio"))
27672f1cf04SJared McNeill return (ENXIO);
27772f1cf04SJared McNeill
27872f1cf04SJared McNeill device_set_desc(dev, "GPIO controlled regulator");
27972f1cf04SJared McNeill return (BUS_PROBE_GENERIC);
28072f1cf04SJared McNeill }
28172f1cf04SJared McNeill
28272f1cf04SJared McNeill static int
gpioregulator_attach(device_t dev)28372f1cf04SJared McNeill gpioregulator_attach(device_t dev)
28472f1cf04SJared McNeill {
28572f1cf04SJared McNeill struct gpioregulator_softc *sc;
28672f1cf04SJared McNeill struct regnode *regnode;
28772f1cf04SJared McNeill phandle_t node;
28872f1cf04SJared McNeill int error;
28972f1cf04SJared McNeill
29072f1cf04SJared McNeill sc = device_get_softc(dev);
29172f1cf04SJared McNeill sc->dev = dev;
29272f1cf04SJared McNeill node = ofw_bus_get_node(dev);
29372f1cf04SJared McNeill
29472f1cf04SJared McNeill error = gpioregulator_parse_fdt(sc);
29572f1cf04SJared McNeill if (error != 0) {
29672f1cf04SJared McNeill device_printf(dev, "cannot parse parameters\n");
29772f1cf04SJared McNeill return (ENXIO);
29872f1cf04SJared McNeill }
29972f1cf04SJared McNeill sc->init_def.reg_init_def.id = 1;
30072f1cf04SJared McNeill sc->init_def.reg_init_def.ofw_node = node;
30172f1cf04SJared McNeill
30272f1cf04SJared McNeill regnode = regnode_create(dev, &gpioregulator_regnode_class,
30372f1cf04SJared McNeill &sc->init_def.reg_init_def);
30472f1cf04SJared McNeill if (regnode == NULL) {
30572f1cf04SJared McNeill device_printf(dev, "cannot create regulator\n");
30672f1cf04SJared McNeill return (ENXIO);
30772f1cf04SJared McNeill }
30872f1cf04SJared McNeill
30972f1cf04SJared McNeill sc->reg_sc = regnode_get_softc(regnode);
31072f1cf04SJared McNeill sc->reg_sc->regnode = regnode;
31172f1cf04SJared McNeill sc->reg_sc->base_dev = dev;
31272f1cf04SJared McNeill sc->reg_sc->param = regnode_get_stdparam(regnode);
31372f1cf04SJared McNeill sc->reg_sc->def = &sc->init_def;
31472f1cf04SJared McNeill
31572f1cf04SJared McNeill regnode_register(regnode);
31672f1cf04SJared McNeill
31772f1cf04SJared McNeill return (0);
31872f1cf04SJared McNeill }
31972f1cf04SJared McNeill
32072f1cf04SJared McNeill
32172f1cf04SJared McNeill static device_method_t gpioregulator_methods[] = {
32272f1cf04SJared McNeill /* Device interface */
32372f1cf04SJared McNeill DEVMETHOD(device_probe, gpioregulator_probe),
32472f1cf04SJared McNeill DEVMETHOD(device_attach, gpioregulator_attach),
32572f1cf04SJared McNeill
32672f1cf04SJared McNeill /* Regdev interface */
32772f1cf04SJared McNeill DEVMETHOD(regdev_map, regdev_default_ofw_map),
32872f1cf04SJared McNeill
32972f1cf04SJared McNeill DEVMETHOD_END
33072f1cf04SJared McNeill };
33172f1cf04SJared McNeill
33272f1cf04SJared McNeill static driver_t gpioregulator_driver = {
33372f1cf04SJared McNeill "gpioregulator",
33472f1cf04SJared McNeill gpioregulator_methods,
33572f1cf04SJared McNeill sizeof(struct gpioregulator_softc),
33672f1cf04SJared McNeill };
33772f1cf04SJared McNeill
33884c5f982SJohn Baldwin EARLY_DRIVER_MODULE(gpioregulator, simplebus, gpioregulator_driver, 0, 0,
33984c5f982SJohn Baldwin BUS_PASS_INTERRUPT + BUS_PASS_ORDER_LAST);
34072f1cf04SJared McNeill MODULE_VERSION(gpioregulator, 1);
341