Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/usie/@/amd64/compile/hs32/modules/usr/src/sys/modules/i2c/controllers/alpm/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/umoscom/@/arm/mv/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
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/*- * Copyright (c) 2006 Benno Rice. * Copyright (C) 2008 MARVELL INTERNATIONAL LTD. * All rights reserved. * * Adapted and extended for Marvell SoCs by Semihalf. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * from: FreeBSD: //depot/projects/arm/src/sys/arm/xscale/pxa2x0/pxa2x0_gpio.c, rev 1 */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/arm/mv/gpio.c 224051 2011-07-15 02:29:10Z marcel $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/bus.h> #include <sys/kernel.h> #include <sys/lock.h> #include <sys/interrupt.h> #include <sys/module.h> #include <sys/malloc.h> #include <sys/mutex.h> #include <sys/rman.h> #include <sys/queue.h> #include <sys/timetc.h> #include <machine/bus.h> #include <machine/fdt.h> #include <machine/intr.h> #include <dev/fdt/fdt_common.h> #include <dev/ofw/ofw_bus.h> #include <dev/ofw/ofw_bus_subr.h> #include <arm/mv/mvvar.h> #include <arm/mv/mvreg.h> #define GPIO_MAX_INTR_COUNT 8 #define GPIO_PINS_PER_REG 32 struct mv_gpio_softc { struct resource * res[GPIO_MAX_INTR_COUNT + 1]; void *ih_cookie[GPIO_MAX_INTR_COUNT]; bus_space_tag_t bst; bus_space_handle_t bsh; uint8_t pin_num; /* number of GPIO pins */ uint8_t irq_num; /* number of real IRQs occupied by GPIO controller */ }; extern struct resource_spec mv_gpio_res[]; static struct mv_gpio_softc *mv_gpio_softc = NULL; static uint32_t gpio_setup[MV_GPIO_MAX_NPINS]; static int mv_gpio_probe(device_t); static int mv_gpio_attach(device_t); static int mv_gpio_intr(void *); static void mv_gpio_intr_handler(int pin); static uint32_t mv_gpio_reg_read(uint32_t reg); static void mv_gpio_reg_write(uint32_t reg, uint32_t val); static void mv_gpio_reg_set(uint32_t reg, uint32_t val); static void mv_gpio_reg_clear(uint32_t reg, uint32_t val); static void mv_gpio_blink(uint32_t pin, uint8_t enable); static void mv_gpio_polarity(uint32_t pin, uint8_t enable); static void mv_gpio_level(uint32_t pin, uint8_t enable); static void mv_gpio_edge(uint32_t pin, uint8_t enable); static void mv_gpio_out_en(uint32_t pin, uint8_t enable); static void mv_gpio_int_ack(uint32_t pin); static void mv_gpio_value_set(uint32_t pin, uint8_t val); static uint32_t mv_gpio_value_get(uint32_t pin); static device_method_t mv_gpio_methods[] = { DEVMETHOD(device_probe, mv_gpio_probe), DEVMETHOD(device_attach, mv_gpio_attach), { 0, 0 } }; static driver_t mv_gpio_driver = { "gpio", mv_gpio_methods, sizeof(struct mv_gpio_softc), }; static devclass_t mv_gpio_devclass; DRIVER_MODULE(gpio, simplebus, mv_gpio_driver, mv_gpio_devclass, 0, 0); typedef int (*gpios_phandler_t)(phandle_t, pcell_t *, int); struct gpio_ctrl_entry { const char *compat; gpios_phandler_t handler; }; int mv_handle_gpios_prop(phandle_t ctrl, pcell_t *gpios, int len); int gpio_get_config_from_dt(void); struct gpio_ctrl_entry gpio_controllers[] = { { "mrvl,gpio", &mv_handle_gpios_prop }, { NULL, NULL } }; static int mv_gpio_probe(device_t dev) { if (!ofw_bus_is_compatible(dev, "mrvl,gpio")) return (ENXIO); device_set_desc(dev, "Marvell Integrated GPIO Controller"); return (0); } static int mv_gpio_attach(device_t dev) { int error, i; struct mv_gpio_softc *sc; uint32_t dev_id, rev_id; sc = (struct mv_gpio_softc *)device_get_softc(dev); if (sc == NULL) return (ENXIO); mv_gpio_softc = sc; /* Get chip id and revision */ soc_id(&dev_id, &rev_id); if (dev_id == MV_DEV_88F5182 || dev_id == MV_DEV_88F5281 || dev_id == MV_DEV_MV78100 || dev_id == MV_DEV_MV78100_Z0 ) { sc->pin_num = 32; sc->irq_num = 4; } else if (dev_id == MV_DEV_88F6281) { sc->pin_num = 50; sc->irq_num = 7; } else { device_printf(dev, "unknown chip id=0x%x\n", dev_id); return (ENXIO); } error = bus_alloc_resources(dev, mv_gpio_res, sc->res); if (error) { device_printf(dev, "could not allocate resources\n"); return (ENXIO); } sc->bst = rman_get_bustag(sc->res[0]); sc->bsh = rman_get_bushandle(sc->res[0]); /* Disable and clear all interrupts */ bus_space_write_4(sc->bst, sc->bsh, GPIO_INT_EDGE_MASK, 0); bus_space_write_4(sc->bst, sc->bsh, GPIO_INT_LEV_MASK, 0); bus_space_write_4(sc->bst, sc->bsh, GPIO_INT_CAUSE, 0); if (sc->pin_num > GPIO_PINS_PER_REG) { bus_space_write_4(sc->bst, sc->bsh, GPIO_HI_INT_EDGE_MASK, 0); bus_space_write_4(sc->bst, sc->bsh, GPIO_HI_INT_LEV_MASK, 0); bus_space_write_4(sc->bst, sc->bsh, GPIO_HI_INT_CAUSE, 0); } for (i = 0; i < sc->irq_num; i++) { if (bus_setup_intr(dev, sc->res[1 + i], INTR_TYPE_MISC, mv_gpio_intr, NULL, sc, &sc->ih_cookie[i]) != 0) { bus_release_resources(dev, mv_gpio_res, sc->res); device_printf(dev, "could not set up intr %d\n", i); return (ENXIO); } } return (platform_gpio_init()); } static int mv_gpio_intr(void *arg) { uint32_t int_cause, gpio_val; uint32_t int_cause_hi, gpio_val_hi = 0; int i; int_cause = mv_gpio_reg_read(GPIO_INT_CAUSE); gpio_val = mv_gpio_reg_read(GPIO_DATA_IN); gpio_val &= int_cause; if (mv_gpio_softc->pin_num > GPIO_PINS_PER_REG) { int_cause_hi = mv_gpio_reg_read(GPIO_HI_INT_CAUSE); gpio_val_hi = mv_gpio_reg_read(GPIO_HI_DATA_IN); gpio_val_hi &= int_cause_hi; } i = 0; while (gpio_val != 0) { if (gpio_val & 1) mv_gpio_intr_handler(i); gpio_val >>= 1; i++; } if (mv_gpio_softc->pin_num > GPIO_PINS_PER_REG) { i = 0; while (gpio_val_hi != 0) { if (gpio_val_hi & 1) mv_gpio_intr_handler(i + GPIO_PINS_PER_REG); gpio_val_hi >>= 1; i++; } } return (FILTER_HANDLED); } /* * GPIO interrupt handling */ static struct intr_event *gpio_events[MV_GPIO_MAX_NPINS]; int mv_gpio_setup_intrhandler(const char *name, driver_filter_t *filt, void (*hand)(void *), void *arg, int pin, int flags, void **cookiep) { struct intr_event *event; int error; if (pin < 0 || pin >= mv_gpio_softc->pin_num) return (ENXIO); event = gpio_events[pin]; if (event == NULL) { error = intr_event_create(&event, (void *)pin, 0, pin, (void (*)(void *))mv_gpio_intr_mask, (void (*)(void *))mv_gpio_intr_unmask, (void (*)(void *))mv_gpio_int_ack, NULL, "gpio%d:", pin); if (error != 0) return (error); gpio_events[pin] = event; } intr_event_add_handler(event, name, filt, hand, arg, intr_priority(flags), flags, cookiep); return (0); } void mv_gpio_intr_mask(int pin) { if (pin >= mv_gpio_softc->pin_num) return; if (gpio_setup[pin] & MV_GPIO_IN_IRQ_EDGE) mv_gpio_edge(pin, 0); else mv_gpio_level(pin, 0); } void mv_gpio_intr_unmask(int pin) { if (pin >= mv_gpio_softc->pin_num) return; if (gpio_setup[pin] & MV_GPIO_IN_IRQ_EDGE) mv_gpio_edge(pin, 1); else mv_gpio_level(pin, 1); } static void mv_gpio_intr_handler(int pin) { struct intr_event *event; event = gpio_events[pin]; if (event == NULL || TAILQ_EMPTY(&event->ie_handlers)) return; intr_event_handle(event, NULL); } static int mv_gpio_configure(uint32_t pin, uint32_t flags) { if (pin >= mv_gpio_softc->pin_num) return (EINVAL); if (flags & MV_GPIO_OUT_BLINK) mv_gpio_blink(pin, 1); if (flags & MV_GPIO_IN_POL_LOW) mv_gpio_polarity(pin, 1); if (flags & MV_GPIO_IN_IRQ_EDGE) mv_gpio_edge(pin, 1); if (flags & MV_GPIO_IN_IRQ_LEVEL) mv_gpio_level(pin, 1); gpio_setup[pin] = flags; return (0); } void mv_gpio_out(uint32_t pin, uint8_t val, uint8_t enable) { mv_gpio_value_set(pin, val); mv_gpio_out_en(pin, enable); } uint8_t mv_gpio_in(uint32_t pin) { return (mv_gpio_value_get(pin) ? 1 : 0); } static uint32_t mv_gpio_reg_read(uint32_t reg) { return (bus_space_read_4(mv_gpio_softc->bst, mv_gpio_softc->bsh, reg)); } static void mv_gpio_reg_write(uint32_t reg, uint32_t val) { bus_space_write_4(mv_gpio_softc->bst, mv_gpio_softc->bsh, reg, val); } static void mv_gpio_reg_set(uint32_t reg, uint32_t pin) { uint32_t reg_val; reg_val = mv_gpio_reg_read(reg); reg_val |= GPIO(pin); mv_gpio_reg_write(reg, reg_val); } static void mv_gpio_reg_clear(uint32_t reg, uint32_t pin) { uint32_t reg_val; reg_val = mv_gpio_reg_read(reg); reg_val &= ~(GPIO(pin)); mv_gpio_reg_write(reg, reg_val); } static void mv_gpio_out_en(uint32_t pin, uint8_t enable) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_DATA_OUT_EN_CTRL; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_DATA_OUT_EN_CTRL; if (enable) mv_gpio_reg_clear(reg, pin); else mv_gpio_reg_set(reg, pin); } static void mv_gpio_blink(uint32_t pin, uint8_t enable) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_BLINK_EN; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_BLINK_EN; if (enable) mv_gpio_reg_set(reg, pin); else mv_gpio_reg_clear(reg, pin); } static void mv_gpio_polarity(uint32_t pin, uint8_t enable) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_DATA_IN_POLAR; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_DATA_IN_POLAR; if (enable) mv_gpio_reg_set(reg, pin); else mv_gpio_reg_clear(reg, pin); } static void mv_gpio_level(uint32_t pin, uint8_t enable) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_INT_LEV_MASK; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_INT_LEV_MASK; if (enable) mv_gpio_reg_set(reg, pin); else mv_gpio_reg_clear(reg, pin); } static void mv_gpio_edge(uint32_t pin, uint8_t enable) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_INT_EDGE_MASK; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_INT_EDGE_MASK; if (enable) mv_gpio_reg_set(reg, pin); else mv_gpio_reg_clear(reg, pin); } static void mv_gpio_int_ack(uint32_t pin) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_INT_CAUSE; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_INT_CAUSE; mv_gpio_reg_clear(reg, pin); } static uint32_t mv_gpio_value_get(uint32_t pin) { uint32_t reg, reg_val; if (pin >= mv_gpio_softc->pin_num) return (0); if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_DATA_IN; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_DATA_IN; reg_val = mv_gpio_reg_read(reg); return (reg_val & GPIO(pin)); } static void mv_gpio_value_set(uint32_t pin, uint8_t val) { uint32_t reg; if (pin >= mv_gpio_softc->pin_num) return; if (pin >= GPIO_PINS_PER_REG) { reg = GPIO_HI_DATA_OUT; pin -= GPIO_PINS_PER_REG; } else reg = GPIO_DATA_OUT; if (val) mv_gpio_reg_set(reg, pin); else mv_gpio_reg_clear(reg, pin); } int mv_handle_gpios_prop(phandle_t ctrl, pcell_t *gpios, int len) { pcell_t gpio_cells, pincnt; int inc, t, tuples, tuple_size; int dir, flags, pin; u_long gpio_ctrl, size; struct mv_gpio_softc sc; pincnt = 0; if (OF_getproplen(ctrl, "gpio-controller") <= 0) /* Node is not a GPIO controller. */ return (ENXIO); if (OF_getprop(ctrl, "#gpio-cells", &gpio_cells, sizeof(pcell_t)) < 0) return (ENXIO); gpio_cells = fdt32_to_cpu(gpio_cells); if (gpio_cells != 3) return (ENXIO); tuple_size = gpio_cells * sizeof(pcell_t) + sizeof(phandle_t); tuples = len / tuple_size; if (fdt_regsize(ctrl, &gpio_ctrl, &size)) return (ENXIO); if (OF_getprop(ctrl, "pin-count", &pincnt, sizeof(pcell_t)) < 0) return (ENXIO); sc.pin_num = fdt32_to_cpu(pincnt); /* * Skip controller reference, since controller's phandle is given * explicitly (in a function argument). */ inc = sizeof(ihandle_t) / sizeof(pcell_t); gpios += inc; for (t = 0; t < tuples; t++) { pin = fdt32_to_cpu(gpios[0]); dir = fdt32_to_cpu(gpios[1]); flags = fdt32_to_cpu(gpios[2]); mv_gpio_configure(pin, flags); if (dir == 1) /* Input. */ mv_gpio_out_en(pin, 0); else { /* Output. */ if (flags & MV_GPIO_OUT_OPEN_DRAIN) mv_gpio_out(pin, 0, 1); if (flags & MV_GPIO_OUT_OPEN_SRC) mv_gpio_out(pin, 1, 1); } gpios += gpio_cells + inc; } return (0); } #define MAX_PINS_PER_NODE 5 #define GPIOS_PROP_CELLS 4 int platform_gpio_init(void) { phandle_t child, parent, root, ctrl; ihandle_t ctrl_ihandle; pcell_t gpios[MAX_PINS_PER_NODE * GPIOS_PROP_CELLS]; struct gpio_ctrl_entry *e; int len, rv; root = OF_finddevice("/"); len = 0; parent = root; /* Traverse through entire tree to find nodes with 'gpios' prop */ for (child = OF_child(parent); child != 0; child = OF_peer(child)) { /* Find a 'leaf'. Start the search from this node. */ while (OF_child(child)) { parent = child; child = OF_child(child); } if ((len = OF_getproplen(child, "gpios")) > 0) { if (len > sizeof(gpios)) return (ENXIO); /* Get 'gpios' property. */ OF_getprop(child, "gpios", &gpios, len); e = (struct gpio_ctrl_entry *)&gpio_controllers; /* Find and call a handler. */ for (; e->compat; e++) { /* * First cell of 'gpios' property should * contain a ref. to a node defining GPIO * controller. */ ctrl_ihandle = (ihandle_t)gpios[0]; ctrl_ihandle = fdt32_to_cpu(ctrl_ihandle); ctrl = OF_instance_to_package(ctrl_ihandle); if (fdt_is_compatible(ctrl, e->compat)) /* Call a handler. */ if ((rv = e->handler(ctrl, (pcell_t *)&gpios, len))) return (rv); } } if (OF_peer(child) == 0) { /* No more siblings. */ child = parent; parent = OF_parent(child); } } return (0); }