arm/samsung/exynos_gpio.c

1.29     skrll /*	$NetBSD: exynos_gpio.c,v 1.29 2020/03/20 06:38:16 skrll Exp $ */
 1.9     skrll
 1.1   reinoud /*-
1.29     skrll * Copyright (c) 2014, 2020 The NetBSD Foundation, Inc.
 1.1   reinoud * All rights reserved.
 1.1   reinoud *
 1.1   reinoud * This code is derived from software contributed to The NetBSD Foundation
1.29     skrll * by Reinoud Zandijk, and by Nick Hudson
 1.1   reinoud *
 1.1   reinoud * Redistribution and use in source and binary forms, with or without
 1.1   reinoud * modification, are permitted provided that the following conditions
 1.1   reinoud * are met:
 1.1   reinoud * 1. Redistributions of source code must retain the above copyright
 1.1   reinoud *    notice, this list of conditions and the following disclaimer.
 1.1   reinoud * 2. Redistributions in binary form must reproduce the above copyright
 1.1   reinoud *    notice, this list of conditions and the following disclaimer in the
 1.1   reinoud *    documentation and/or other materials provided with the distribution.
 1.1   reinoud *
 1.1   reinoud * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1   reinoud * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1   reinoud * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1   reinoud * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1   reinoud * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1   reinoud * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1   reinoud * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1   reinoud * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1   reinoud * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1   reinoud * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1   reinoud * POSSIBILITY OF SUCH DAMAGE.
 1.1   reinoud */
 1.1   reinoud
 1.1   reinoud #include "opt_exynos.h"
 1.1   reinoud #include "opt_arm_debug.h"
 1.1   reinoud #include "gpio.h"
 1.1   reinoud
 1.1   reinoud #include <sys/cdefs.h>
1.29     skrll __KERNEL_RCSID(1, "$NetBSD: exynos_gpio.c,v 1.29 2020/03/20 06:38:16 skrll Exp $");
 1.1   reinoud
 1.1   reinoud #include <sys/param.h>
 1.1   reinoud #include <sys/bus.h>
 1.1   reinoud #include <sys/device.h>
 1.1   reinoud #include <sys/intr.h>
 1.1   reinoud #include <sys/systm.h>
 1.1   reinoud #include <sys/kmem.h>
1.13     marty #include <sys/gpio.h>
1.13     marty
1.13     marty #include <dev/gpio/gpiovar.h>
 1.1   reinoud
 1.1   reinoud #include <arm/samsung/exynos_reg.h>
1.15     marty #include <arm/samsung/exynos_var.h>
 1.1   reinoud #include <arm/samsung/exynos_intr.h>
1.14     marty #include <arm/samsung/exynos_pinctrl.h>
1.14     marty
1.14     marty #include <dev/fdt/fdtvar.h>
 1.1   reinoud
1.13     marty struct exynos_gpio_bank {
1.13     marty 	const char		bank_name[6];
1.13     marty 	device_t		bank_dev;
1.13     marty 	struct gpio_chipset_tag	bank_gc;
1.16     marty 	struct exynos_gpio_softc *bank_sc;
1.13     marty 	gpio_pin_t		bank_pins[8];
1.13     marty
1.13     marty 	const bus_addr_t	bank_core_offset;
1.13     marty 	const uint8_t		bank_bits;
1.13     marty
1.13     marty 	struct exynos_gpio_pin_cfg bank_cfg;
 1.1   reinoud };
 1.1   reinoud
1.13     marty struct exynos_gpio_pin {
1.13     marty 	struct exynos_gpio_softc *pin_sc;
1.13     marty 	int			  pin_no;
1.13     marty 	u_int			  pin_flags;
1.14     marty 	int			  pin_actlo;
1.14     marty 	const struct exynos_gpio_bank   *pin_bank;
 1.1   reinoud };
 1.1   reinoud
 1.1   reinoud
1.16     marty //#define GPIO_REG(v,s,o) (EXYNOS##v##_GPIO_##s##_OFFSET + (o))
1.16     marty #define GPIO_REG(v,s,o) ((o))
1.16     marty #define GPIO_GRP(v, s, o, n, b)	\
1.16     marty 	{ \
1.16     marty 		.bank_name = #n, \
1.16     marty 		.bank_core_offset = GPIO_REG(v,s,o), \
1.16     marty 		.bank_bits = b, \
1.16     marty 	}
1.16     marty
1.29     skrll #define GPIO_GRP_INTR(o, n, b, i)			\
1.29     skrll 	{ 						\
1.29     skrll 		.bank_name = #n,			\
1.29     skrll 		.bank_core_offset = GPIO_REG(v,s,o),	\
1.29     skrll 		.bank_bits = b,				\
1.29     skrll 	}
1.29     skrll
1.29     skrll #define GPIO_GRP_NONE(o, n, b)	\
1.29     skrll 	{ \
1.29     skrll 		.bank_name = #n, \
1.29     skrll 		.bank_core_offset = GPIO_REG(v,s,o), \
1.29     skrll 		.bank_bits = b, \
1.29     skrll 	}
1.29     skrll
1.29     skrll #define GPIO_GRP_WAKEUP(o, n, b, i)			\
1.29     skrll 	{ 						\
1.29     skrll 		.bank_name = #n,			\
1.29     skrll 		.bank_core_offset = GPIO_REG(v,s,o),	\
1.29     skrll 		.bank_bits = b,				\
1.29     skrll 	}
1.29     skrll
1.29     skrll
1.29     skrll
1.29     skrll static struct exynos_gpio_bank exynos5420_banks[] = {
1.16     marty 	GPIO_GRP(5, MUXA, 0x0000, gpy7, 8),
1.16     marty 	GPIO_GRP(5, MUXA, 0x0C00, gpx0, 8),
1.16     marty 	GPIO_GRP(5, MUXA, 0x0C20, gpx1, 8),
1.16     marty 	GPIO_GRP(5, MUXA, 0x0C40, gpx2, 8),
1.16     marty 	GPIO_GRP(5, MUXA, 0x0C60, gpx3, 8),
1.16     marty
1.16     marty 	GPIO_GRP(5, MUXB, 0x0000, gpc0, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0020, gpc1, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0040, gpc2, 7),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0060, gpc3, 4),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0080, gpc4, 2),
1.16     marty 	GPIO_GRP(5, MUXB, 0x00A0, gpd1, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x00C0, gpy0, 6),
1.16     marty 	GPIO_GRP(5, MUXB, 0x00E0, gpy1, 4),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0100, gpy2, 6),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0120, gpy3, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0140, gpy4, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0160, gpy5, 8),
1.16     marty 	GPIO_GRP(5, MUXB, 0x0180, gpy6, 8),
1.16     marty
1.16     marty 	GPIO_GRP(5, MUXC, 0x0000, gpe0, 8),
1.16     marty 	GPIO_GRP(5, MUXC, 0x0020, gpe1, 2),
1.16     marty 	GPIO_GRP(5, MUXC, 0x0040, gpf0, 6),
1.16     marty 	GPIO_GRP(5, MUXC, 0x0060, gpf1, 8),
1.16     marty 	GPIO_GRP(5, MUXC, 0x0080, gpg0, 8),
1.16     marty 	GPIO_GRP(5, MUXC, 0x00A0, gpg1, 8),
1.16     marty 	GPIO_GRP(5, MUXC, 0x00C0, gpg2, 2),
1.16     marty 	GPIO_GRP(5, MUXC, 0x00E0, gpj4, 4),
1.16     marty
1.16     marty 	GPIO_GRP(5, MUXD, 0x0000, gpa0, 8),
1.16     marty 	GPIO_GRP(5, MUXD, 0x0020, gpa1, 6),
1.16     marty 	GPIO_GRP(5, MUXD, 0x0040, gpa2, 8),
1.16     marty 	GPIO_GRP(5, MUXD, 0x0060, gpb0, 5),
1.16     marty 	GPIO_GRP(5, MUXD, 0x0080, gpb1, 5),
1.16     marty 	GPIO_GRP(5, MUXD, 0x00A0, gpb2, 4),
1.16     marty 	GPIO_GRP(5, MUXD, 0x00C0, gpb3, 8),
1.16     marty 	GPIO_GRP(5, MUXD, 0x00E0, gpb4, 2),
1.16     marty 	GPIO_GRP(5, MUXD, 0x0100, gph0, 4),
1.16     marty
1.22     marty 	GPIO_GRP(5, MUXE, 0x0000, gpz, 7),
1.29     skrll };
1.29     skrll
1.29     skrll struct exynos_pinctrl_banks exynos5420_pinctrl_banks = {
1.29     skrll 	.epb_banks = exynos5420_banks,
1.29     skrll 	.epb_nbanks = __arraycount(exynos5420_banks)
1.29     skrll };
1.29     skrll
1.29     skrll static struct exynos_gpio_bank exynos5410_banks[] = {
1.29     skrll 	/* pin-controller 0 */
1.29     skrll 	GPIO_GRP_INTR(0x000, gpa0, 8, 0x00),
1.29     skrll 	GPIO_GRP_INTR(0x020, gpa1, 6, 0x04),
1.29     skrll 	GPIO_GRP_INTR(0x040, gpa2, 8, 0x08),
1.29     skrll 	GPIO_GRP_INTR(0x060, gpb0, 5, 0x0c),
1.29     skrll 	GPIO_GRP_INTR(0x080, gpb1, 5, 0x10),
1.29     skrll 	GPIO_GRP_INTR(0x0A0, gpb2, 4, 0x14),
1.29     skrll 	GPIO_GRP_INTR(0x0C0, gpb3, 4, 0x18),
1.29     skrll 	GPIO_GRP_INTR(0x0E0, gpc0, 7, 0x1c),
1.29     skrll 	GPIO_GRP_INTR(0x100, gpc3, 4, 0x20),
1.29     skrll 	GPIO_GRP_INTR(0x120, gpc1, 7, 0x24),
1.29     skrll 	GPIO_GRP_INTR(0x140, gpc2, 7, 0x28),
1.29     skrll 	GPIO_GRP_INTR(0x180, gpd1, 8, 0x2c),
1.29     skrll 	GPIO_GRP_INTR(0x1A0, gpe0, 8, 0x30),
1.29     skrll 	GPIO_GRP_INTR(0x1C0, gpe1, 2, 0x34),
1.29     skrll 	GPIO_GRP_INTR(0x1E0, gpf0, 6, 0x38),
1.29     skrll 	GPIO_GRP_INTR(0x200, gpf1, 8, 0x3c),
1.29     skrll 	GPIO_GRP_INTR(0x220, gpg0, 8, 0x40),
1.29     skrll 	GPIO_GRP_INTR(0x240, gpg1, 8, 0x44),
1.29     skrll 	GPIO_GRP_INTR(0x260, gpg2, 2, 0x48),
1.29     skrll 	GPIO_GRP_INTR(0x280, gph0, 4, 0x4c),
1.29     skrll 	GPIO_GRP_INTR(0x2A0, gph1, 8, 0x50),
1.29     skrll 	GPIO_GRP_NONE(0x160, gpm5, 2),
1.29     skrll 	GPIO_GRP_NONE(0x2C0, gpm7, 8),
1.29     skrll 	GPIO_GRP_NONE(0x2E0, gpy0, 6),
1.29     skrll 	GPIO_GRP_NONE(0x300, gpy1, 4),
1.29     skrll 	GPIO_GRP_NONE(0x320, gpy2, 6),
1.29     skrll 	GPIO_GRP_NONE(0x340, gpy3, 8),
1.29     skrll 	GPIO_GRP_NONE(0x360, gpy4, 8),
1.29     skrll 	GPIO_GRP_NONE(0x380, gpy5, 8),
1.29     skrll 	GPIO_GRP_NONE(0x3A0, gpy6, 8),
1.29     skrll 	GPIO_GRP_NONE(0x3C0, gpy7, 8),
1.29     skrll 	GPIO_GRP_WAKEUP(0xC00, gpx0, 8, 0x00),
1.29     skrll 	GPIO_GRP_WAKEUP(0xC20, gpx1, 8, 0x04),
1.29     skrll 	GPIO_GRP_WAKEUP(0xC40, gpx2, 8, 0x08),
1.29     skrll 	GPIO_GRP_WAKEUP(0xC60, gpx3, 8, 0x0c),
1.29     skrll
1.29     skrll 	/* pin-controller 1 */
1.29     skrll 	GPIO_GRP_INTR(0x000, gpj0, 5, 0x00),
1.29     skrll 	GPIO_GRP_INTR(0x020, gpj1, 8, 0x04),
1.29     skrll 	GPIO_GRP_INTR(0x040, gpj2, 8, 0x08),
1.29     skrll 	GPIO_GRP_INTR(0x060, gpj3, 8, 0x0c),
1.29     skrll 	GPIO_GRP_INTR(0x080, gpj4, 2, 0x10),
1.29     skrll 	GPIO_GRP_INTR(0x0A0, gpk0, 8, 0x14),
1.29     skrll 	GPIO_GRP_INTR(0x0C0, gpk1, 8, 0x18),
1.29     skrll 	GPIO_GRP_INTR(0x0E0, gpk2, 8, 0x1c),
1.29     skrll 	GPIO_GRP_INTR(0x100, gpk3, 7, 0x20),
1.29     skrll
1.29     skrll 	/* pin-controller 2 */
1.29     skrll 	GPIO_GRP_INTR(0x000, gpv0, 8, 0x00),
1.29     skrll 	GPIO_GRP_INTR(0x020, gpv1, 8, 0x04),
1.29     skrll 	GPIO_GRP_INTR(0x060, gpv2, 8, 0x08),
1.29     skrll 	GPIO_GRP_INTR(0x080, gpv3, 8, 0x0c),
1.29     skrll 	GPIO_GRP_INTR(0x0C0, gpv4, 2, 0x10),
1.29     skrll
1.29     skrll 	/* pin-controller 2 */
1.29     skrll 	GPIO_GRP_INTR(0x000, gpz, 7, 0x00),
1.29     skrll };
1.16     marty
1.29     skrll struct exynos_pinctrl_banks exynos5410_pinctrl_banks = {
1.29     skrll 	.epb_banks = exynos5410_banks,
1.29     skrll 	.epb_nbanks = __arraycount(exynos5410_banks)
1.16     marty };
1.16     marty
1.16     marty
1.16     marty static int exynos_gpio_pin_read(void *, int);
1.16     marty static void exynos_gpio_pin_write(void *, int, int);
1.16     marty static void exynos_gpio_pin_ctl(void *, int, int);
1.14     marty static void *exynos_gpio_fdt_acquire(device_t, const void *,
1.14     marty 				     size_t, int);
1.14     marty static void exynos_gpio_fdt_release(device_t, void *);
1.14     marty
1.17  jmcneill static int exynos_gpio_fdt_read(device_t, void *, bool);
1.17  jmcneill static void exynos_gpio_fdt_write(device_t, void *, int, bool);
1.16     marty static int exynos_gpio_cfprint(void *, const char *);
1.14     marty
1.14     marty struct fdtbus_gpio_controller_func exynos_gpio_funcs = {
1.14     marty 	.acquire = exynos_gpio_fdt_acquire,
1.14     marty 	.release = exynos_gpio_fdt_release,
1.14     marty 	.read = exynos_gpio_fdt_read,
1.14     marty 	.write = exynos_gpio_fdt_write
 1.1   reinoud };
1.16     marty #define GPIO_WRITE(bank, reg, val) \
1.16     marty 	bus_space_write_4((bank)->bank_sc->sc_bst, \
1.16     marty 	    (bank)->bank_sc->sc_bsh, \
1.16     marty 	    (bank)->bank_core_offset + (reg), (val))
1.16     marty #define GPIO_READ(bank, reg) \
1.16     marty 	bus_space_read_4((bank)->bank_sc->sc_bst, \
1.16     marty 	    (bank)->bank_sc->sc_bsh, \
1.16     marty 	    (bank)->bank_core_offset + (reg))
 1.1   reinoud
1.13     marty static int
1.13     marty exynos_gpio_cfprint(void *priv, const char *pnp)
1.13     marty {
1.13     marty 	struct gpiobus_attach_args *gba = priv;
1.13     marty 	struct exynos_gpio_bank *bank = gba->gba_gc->gp_cookie;
1.13     marty 	const char *bankname = bank->bank_name;
1.13     marty
1.13     marty 	if (pnp)
1.13     marty 		aprint_normal("gpiobus at %s", pnp);
1.13     marty
1.13     marty 	aprint_normal(" (%s)", bankname);
1.13     marty
1.13     marty 	return UNCONF;
1.13     marty }
 1.1   reinoud
1.16     marty static int
1.16     marty exynos_gpio_pin_read(void *cookie, int pin)
1.16     marty {
1.16     marty 	struct exynos_gpio_bank * const bank = cookie;
1.27     skrll 	uint8_t val;
1.16     marty
1.16     marty 	KASSERT(pin < bank->bank_bits);
1.27     skrll 	val = bus_space_read_1(bank->bank_sc->sc_bst, bank->bank_sc->sc_bsh,
1.27     skrll 	    EXYNOS_GPIO_DAT);
1.27     skrll
1.27     skrll 	return __SHIFTOUT(val, __BIT(pin));
1.16     marty }
1.16     marty
1.16     marty static void
1.16     marty exynos_gpio_pin_write(void *cookie, int pin, int value)
1.16     marty {
1.16     marty 	struct exynos_gpio_bank * const bank = cookie;
1.16     marty 	int val;
1.16     marty
1.16     marty 	KASSERT(pin < bank->bank_bits);
1.27     skrll 	val = bus_space_read_1(bank->bank_sc->sc_bst, bank->bank_sc->sc_bsh,
1.27     skrll 	    EXYNOS_GPIO_DAT);
1.16     marty 	val &= ~__BIT(pin);
1.16     marty 	if (value)
1.16     marty 		val |= __BIT(pin);
1.27     skrll 	bus_space_write_1(bank->bank_sc->sc_bst, bank->bank_sc->sc_bsh,
1.27     skrll 	    EXYNOS_GPIO_DAT, val);
1.16     marty }
 1.1   reinoud
 1.1   reinoud static void
 1.1   reinoud exynos_gpio_pin_ctl(void *cookie, int pin, int flags)
 1.1   reinoud {
1.13     marty 	struct exynos_gpio_bank * const bank = cookie;
1.25  jmcneill 	struct exynos_gpio_pin_cfg ncfg = { 0 };
 1.1   reinoud
 1.1   reinoud 	/* honour pullup requests */
1.25  jmcneill 	if (flags & GPIO_PIN_PULLUP) {
1.25  jmcneill 		ncfg.pud = EXYNOS_GPIO_PIN_PULL_UP;
1.25  jmcneill 		ncfg.pud_valid = true;
1.25  jmcneill 	}
1.25  jmcneill 	if (flags & GPIO_PIN_PULLDOWN) {
1.25  jmcneill 		ncfg.pud = EXYNOS_GPIO_PIN_PULL_DOWN;
1.25  jmcneill 		ncfg.pud_valid = true;
1.25  jmcneill 	}
 1.1   reinoud
 1.1   reinoud 	/* honour i/o */
1.14     marty 	if (flags & GPIO_PIN_INPUT) {
1.25  jmcneill 		ncfg.cfg = EXYNOS_GPIO_FUNC_INPUT;
1.25  jmcneill 		ncfg.cfg_valid = true;
1.14     marty 	} else if (flags & GPIO_PIN_OUTPUT) {
1.25  jmcneill 		ncfg.cfg = EXYNOS_GPIO_FUNC_OUTPUT;
1.25  jmcneill 		ncfg.cfg_valid = true;
1.14     marty 	}
 1.1   reinoud
 1.1   reinoud 	/* update any config registers that changed */
1.25  jmcneill 	exynos_gpio_pin_ctl_write(bank, &ncfg, pin);
 1.1   reinoud }
 1.1   reinoud
1.24  jmcneill void exynos_gpio_pin_ctl_write(const struct exynos_gpio_bank *bank,
1.24  jmcneill 			       const struct exynos_gpio_pin_cfg *cfg,
1.24  jmcneill 			       int pin)
1.22     marty {
1.24  jmcneill 	uint32_t val;
1.24  jmcneill
1.24  jmcneill 	if (cfg->cfg_valid) {
1.24  jmcneill 		val = GPIO_READ(bank, EXYNOS_GPIO_CON);
1.24  jmcneill 		val &= ~(0xf << (pin * 4));
1.24  jmcneill 		val |= (cfg->cfg << (pin * 4));
1.24  jmcneill 		GPIO_WRITE(bank, EXYNOS_GPIO_CON, val);
1.24  jmcneill 	}
1.24  jmcneill
1.24  jmcneill 	if (cfg->pud_valid) {
1.24  jmcneill 		val = GPIO_READ(bank, EXYNOS_GPIO_PUD);
1.24  jmcneill 		val &= ~(0x3 << (pin * 2));
1.24  jmcneill 		val |= (cfg->pud << (pin * 2));
1.24  jmcneill 		GPIO_WRITE(bank, EXYNOS_GPIO_PUD, val);
1.24  jmcneill 	}
1.24  jmcneill
1.24  jmcneill 	if (cfg->drv_valid) {
1.24  jmcneill 		val = GPIO_READ(bank, EXYNOS_GPIO_DRV);
1.24  jmcneill 		val &= ~(0x3 << (pin * 2));
1.24  jmcneill 		val |= (cfg->drv << (pin * 2));
1.24  jmcneill 		GPIO_WRITE(bank, EXYNOS_GPIO_DRV, val);
1.24  jmcneill 	}
1.24  jmcneill
1.24  jmcneill 	if (cfg->conpwd_valid) {
1.24  jmcneill 		val = GPIO_READ(bank, EXYNOS_GPIO_CONPWD);
1.24  jmcneill 		val &= ~(0x3 << (pin * 2));
1.24  jmcneill 		val |= (cfg->conpwd << (pin * 2));
1.24  jmcneill 		GPIO_WRITE(bank, EXYNOS_GPIO_CONPWD, val);
1.24  jmcneill 	}
1.22     marty
1.24  jmcneill 	if (cfg->pudpwd_valid) {
1.24  jmcneill 		val = GPIO_READ(bank, EXYNOS_GPIO_PUDPWD);
1.24  jmcneill 		val &= ~(0x3 << (pin * 2));
1.24  jmcneill 		val |= (cfg->pudpwd << (pin * 2));
1.24  jmcneill 		GPIO_WRITE(bank, EXYNOS_GPIO_PUDPWD, val);
1.24  jmcneill 	}
1.22     marty }
1.22     marty
1.22     marty struct exynos_gpio_softc *
1.18     marty exynos_gpio_bank_config(struct exynos_pinctrl_softc * parent,
1.18     marty 			const struct fdt_attach_args *faa, int node)
 1.1   reinoud {
1.16     marty 	struct exynos_gpio_softc *sc = kmem_zalloc(sizeof(*sc), KM_SLEEP);
1.16     marty 	struct gpiobus_attach_args gba;
1.16     marty 	struct gpio_chipset_tag *gc_tag;
1.14     marty 	char result[64];
1.13     marty
1.16     marty 	OF_getprop(node, "name", result, sizeof(result));
1.29     skrll 	struct exynos_gpio_bank *bank =
1.29     skrll 	    exynos_gpio_bank_lookup(parent->sc_epb, result);
1.20  jmcneill 	if (bank == NULL) {
1.20  jmcneill 		aprint_error_dev(parent->sc_dev, "no bank found for %s\n",
1.20  jmcneill 		    result);
1.22     marty 		return NULL;
1.20  jmcneill 	}
1.26     skrll
1.14     marty 	sc->sc_dev = parent->sc_dev;
1.16     marty 	sc->sc_bst = &armv7_generic_bs_tag;
1.16     marty 	sc->sc_bsh = parent->sc_bsh;
1.22     marty 	sc->sc_bank = bank;
1.22     marty
1.16     marty 	gc_tag = &bank->bank_gc;
1.16     marty 	gc_tag->gp_cookie = bank;
1.16     marty 	gc_tag->gp_pin_read  = exynos_gpio_pin_read;
1.16     marty 	gc_tag->gp_pin_write = exynos_gpio_pin_write;
1.16     marty 	gc_tag->gp_pin_ctl   = exynos_gpio_pin_ctl;
1.14     marty 	memset(&gba, 0, sizeof(gba));
1.14     marty 	gba.gba_gc = &bank->bank_gc;
1.14     marty 	gba.gba_pins = bank->bank_pins;
1.16     marty 	gba.gba_npins = bank->bank_bits;
1.29     skrll
1.16     marty 	bank->bank_sc = sc;
1.14     marty 	bank->bank_dev = config_found_ia(parent->sc_dev, "gpiobus", &gba,
1.14     marty 					 exynos_gpio_cfprint);
1.29     skrll 	bank->bank_dev->dv_private = sc;
1.14     marty
1.14     marty 	/* read in our initial settings */
1.16     marty 	bank->bank_cfg.cfg = GPIO_READ(bank, EXYNOS_GPIO_CON);
1.16     marty 	bank->bank_cfg.pud = GPIO_READ(bank, EXYNOS_GPIO_PUD);
1.16     marty 	bank->bank_cfg.drv = GPIO_READ(bank, EXYNOS_GPIO_DRV);
1.16     marty 	bank->bank_cfg.conpwd = GPIO_READ(bank, EXYNOS_GPIO_CONPWD);
1.16     marty 	bank->bank_cfg.pudpwd = GPIO_READ(bank, EXYNOS_GPIO_PUDPWD);
1.18     marty
1.21  jmcneill 	fdtbus_register_gpio_controller(bank->bank_dev, node,
1.18     marty 					&exynos_gpio_funcs);
1.22     marty 	return sc;
1.13     marty }
 1.1   reinoud
1.22     marty /*
1.22     marty  * This function is a bit funky.  Given a string that may look like
1.22     marty  * 'gpAN' or 'gpAN-P' it is meant to find a match to the part before
1.22     marty  * the '-', or the four character string if the dash is not present.
1.22     marty  */
1.22     marty struct exynos_gpio_bank *
1.29     skrll exynos_gpio_bank_lookup(struct exynos_pinctrl_banks *epb,  const char *name)
1.13     marty {
1.22     marty 	struct exynos_gpio_bank *bank;
1.22     marty
1.29     skrll 	for (u_int n = 0; n < epb->epb_nbanks; n++) {
1.29     skrll 		bank = &epb->epb_banks[n];
1.22     marty 		if (!strncmp(bank->bank_name, name,
1.22     marty 			     strlen(bank->bank_name))) {
1.14     marty 			return bank;
 1.1   reinoud 		}
1.16     marty 	}
1.13     marty
1.13     marty 	return NULL;
 1.1   reinoud }
 1.1   reinoud
1.20  jmcneill #if notyet
1.20  jmcneill static int
1.20  jmcneill exynos_gpio_pin_lookup(const char *name)
1.20  jmcneill {
1.20  jmcneill 	char *p;
1.20  jmcneill
1.20  jmcneill 	p = strchr(name, '-');
1.20  jmcneill 	if (p == NULL || p[1] < '0' || p[1] > '9')
1.20  jmcneill 		return -1;
1.20  jmcneill
1.20  jmcneill 	return p[1] - '0';
1.20  jmcneill }
1.20  jmcneill #endif
1.20  jmcneill
1.14     marty static void *
1.14     marty exynos_gpio_fdt_acquire(device_t dev, const void *data, size_t len, int flags)
1.13     marty {
1.13     marty 	struct exynos_gpio_pin *gpin;
1.13     marty
1.21  jmcneill 	if (len != 12)
1.20  jmcneill 		return NULL;
1.20  jmcneill
1.29     skrll 	const u_int *cells = data;
1.21  jmcneill 	const int pin = be32toh(cells[1]) & 0x0f;
1.21  jmcneill 	const int actlo = be32toh(cells[2]) & 0x01;
1.20  jmcneill
1.29     skrll 	struct exynos_gpio_softc *bank_sc = device_private(dev);
1.29     skrll 	struct exynos_gpio_bank * const bank = bank_sc->sc_bank;
1.13     marty
1.13     marty 	gpin = kmem_alloc(sizeof(*gpin), KM_SLEEP);
1.16     marty 	gpin->pin_sc = bank->bank_sc;
1.13     marty 	gpin->pin_bank = bank;
1.13     marty 	gpin->pin_no = pin;
1.13     marty 	gpin->pin_flags = flags;
1.20  jmcneill 	gpin->pin_actlo = actlo;
1.13     marty
1.21  jmcneill 	exynos_gpio_pin_ctl(bank, gpin->pin_no, gpin->pin_flags);
1.13     marty
1.13     marty 	return gpin;
1.13     marty }
1.14     marty
1.14     marty static void
1.14     marty exynos_gpio_fdt_release(device_t dev, void *priv)
1.14     marty {
1.14     marty 	struct exynos_gpio_pin *gpin = priv;
1.14     marty
1.14     marty 	kmem_free(gpin, sizeof(*gpin));
1.14     marty }
1.14     marty
1.14     marty static int
1.17  jmcneill exynos_gpio_fdt_read(device_t dev, void *priv, bool raw)
1.14     marty {
1.14     marty 	struct exynos_gpio_pin *gpin = priv;
1.14     marty 	int val;
1.14     marty
1.14     marty 	val = (bus_space_read_1(gpin->pin_sc->sc_bst,
1.14     marty 				 gpin->pin_sc->sc_bsh,
1.14     marty 				 EXYNOS_GPIO_DAT) >> gpin->pin_no) & 1;
1.14     marty
1.17  jmcneill 	if (!raw && gpin->pin_actlo)
1.14     marty 		val = !val;
1.14     marty
1.14     marty 	return val;
1.14     marty }
1.14     marty
1.14     marty static void
1.17  jmcneill exynos_gpio_fdt_write(device_t dev, void *priv, int val, bool raw)
1.14     marty {
1.14     marty 	struct exynos_gpio_pin *gpin = priv;
1.14     marty
1.17  jmcneill 	if (!raw && gpin->pin_actlo)
1.14     marty 		val = !val;
1.14     marty
1.14     marty 	val = bus_space_read_1(gpin->pin_sc->sc_bst,
1.14     marty 			       gpin->pin_sc->sc_bsh,
1.14     marty 			       EXYNOS_GPIO_DAT);
1.14     marty 	val &= ~__BIT(gpin->pin_no);
1.14     marty 	if (val)
1.14     marty 		val |= __BIT(gpin->pin_no);
1.14     marty 	bus_space_write_1(gpin->pin_sc->sc_bst,
1.14     marty 			  gpin->pin_sc->sc_bsh,
1.14     marty 			  EXYNOS_GPIO_DAT, val);
1.14     marty
1.14     marty }