// SPDX-License-Identifier: GPL-2.0 /* Copyright (C) 2020 Daniel Palmer<daniel@thingy.jp> */ #include <linux/bitops.h> #include <linux/kernel.h> #include <linux/types.h> #include <linux/io.h> #include <linux/of.h> #include <linux/of_irq.h> #include <linux/gpio/driver.h> #include <linux/module.h> #include <linux/platform_device.h> #include <dt-bindings/gpio/msc313-gpio.h> #include <dt-bindings/interrupt-controller/arm-gic.h> #define DRIVER_NAME "gpio-msc313" #define MSC313_GPIO_IN BIT(0) #define MSC313_GPIO_OUT BIT(4) #define MSC313_GPIO_OEN BIT(5) /* * These bits need to be saved to correctly restore the * gpio state when resuming from suspend to memory. */ #define MSC313_GPIO_BITSTOSAVE (MSC313_GPIO_OUT | MSC313_GPIO_OEN) /* pad names for fuart, same for all SoCs so far */ #define MSC313_PINNAME_FUART_RX "fuart_rx" #define MSC313_PINNAME_FUART_TX "fuart_tx" #define MSC313_PINNAME_FUART_CTS "fuart_cts" #define MSC313_PINNAME_FUART_RTS "fuart_rts" /* pad names for sr, mercury5 is different */ #define MSC313_PINNAME_SR_IO2 "sr_io2" #define MSC313_PINNAME_SR_IO3 "sr_io3" #define MSC313_PINNAME_SR_IO4 "sr_io4" #define MSC313_PINNAME_SR_IO5 "sr_io5" #define MSC313_PINNAME_SR_IO6 "sr_io6" #define MSC313_PINNAME_SR_IO7 "sr_io7" #define MSC313_PINNAME_SR_IO8 "sr_io8" #define MSC313_PINNAME_SR_IO9 "sr_io9" #define MSC313_PINNAME_SR_IO10 "sr_io10" #define MSC313_PINNAME_SR_IO11 "sr_io11" #define MSC313_PINNAME_SR_IO12 "sr_io12" #define MSC313_PINNAME_SR_IO13 "sr_io13" #define MSC313_PINNAME_SR_IO14 "sr_io14" #define MSC313_PINNAME_SR_IO15 "sr_io15" #define MSC313_PINNAME_SR_IO16 "sr_io16" #define MSC313_PINNAME_SR_IO17 "sr_io17" /* pad names for sd, same for all SoCs so far */ #define MSC313_PINNAME_SD_CLK "sd_clk" #define MSC313_PINNAME_SD_CMD "sd_cmd" #define MSC313_PINNAME_SD_D0 "sd_d0" #define MSC313_PINNAME_SD_D1 "sd_d1" #define MSC313_PINNAME_SD_D2 "sd_d2" #define MSC313_PINNAME_SD_D3 "sd_d3" /* pad names for i2c1, same for all SoCs so for */ #define MSC313_PINNAME_I2C1_SCL "i2c1_scl" #define MSC313_PINNAME_I2C1_SCA "i2c1_sda" /* pad names for spi0, same for all SoCs so far */ #define MSC313_PINNAME_SPI0_CZ "spi0_cz" #define MSC313_PINNAME_SPI0_CK "spi0_ck" #define MSC313_PINNAME_SPI0_DI "spi0_di" #define MSC313_PINNAME_SPI0_DO "spi0_do" #define FUART_NAMES \ MSC313_PINNAME_FUART_RX, \ MSC313_PINNAME_FUART_TX, \ MSC313_PINNAME_FUART_CTS, \ MSC313_PINNAME_FUART_RTS #define OFF_FUART_RX 0x50 #define OFF_FUART_TX 0x54 #define OFF_FUART_CTS 0x58 #define OFF_FUART_RTS 0x5c #define FUART_OFFSETS \ OFF_FUART_RX, \ OFF_FUART_TX, \ OFF_FUART_CTS, \ OFF_FUART_RTS #define SR_NAMES \ MSC313_PINNAME_SR_IO2, \ MSC313_PINNAME_SR_IO3, \ MSC313_PINNAME_SR_IO4, \ MSC313_PINNAME_SR_IO5, \ MSC313_PINNAME_SR_IO6, \ MSC313_PINNAME_SR_IO7, \ MSC313_PINNAME_SR_IO8, \ MSC313_PINNAME_SR_IO9, \ MSC313_PINNAME_SR_IO10, \ MSC313_PINNAME_SR_IO11, \ MSC313_PINNAME_SR_IO12, \ MSC313_PINNAME_SR_IO13, \ MSC313_PINNAME_SR_IO14, \ MSC313_PINNAME_SR_IO15, \ MSC313_PINNAME_SR_IO16, \ MSC313_PINNAME_SR_IO17 #define OFF_SR_IO2 0x88 #define OFF_SR_IO3 0x8c #define OFF_SR_IO4 0x90 #define OFF_SR_IO5 0x94 #define OFF_SR_IO6 0x98 #define OFF_SR_IO7 0x9c #define OFF_SR_IO8 0xa0 #define OFF_SR_IO9 0xa4 #define OFF_SR_IO10 0xa8 #define OFF_SR_IO11 0xac #define OFF_SR_IO12 0xb0 #define OFF_SR_IO13 0xb4 #define OFF_SR_IO14 0xb8 #define OFF_SR_IO15 0xbc #define OFF_SR_IO16 0xc0 #define OFF_SR_IO17 0xc4 #define SR_OFFSETS \ OFF_SR_IO2, \ OFF_SR_IO3, \ OFF_SR_IO4, \ OFF_SR_IO5, \ OFF_SR_IO6, \ OFF_SR_IO7, \ OFF_SR_IO8, \ OFF_SR_IO9, \ OFF_SR_IO10, \ OFF_SR_IO11, \ OFF_SR_IO12, \ OFF_SR_IO13, \ OFF_SR_IO14, \ OFF_SR_IO15, \ OFF_SR_IO16, \ OFF_SR_IO17 #define SD_NAMES \ MSC313_PINNAME_SD_CLK, \ MSC313_PINNAME_SD_CMD, \ MSC313_PINNAME_SD_D0, \ MSC313_PINNAME_SD_D1, \ MSC313_PINNAME_SD_D2, \ MSC313_PINNAME_SD_D3 #define OFF_SD_CLK 0x140 #define OFF_SD_CMD 0x144 #define OFF_SD_D0 0x148 #define OFF_SD_D1 0x14c #define OFF_SD_D2 0x150 #define OFF_SD_D3 0x154 #define SD_OFFSETS \ OFF_SD_CLK, \ OFF_SD_CMD, \ OFF_SD_D0, \ OFF_SD_D1, \ OFF_SD_D2, \ OFF_SD_D3 #define I2C1_NAMES \ MSC313_PINNAME_I2C1_SCL, \ MSC313_PINNAME_I2C1_SCA #define OFF_I2C1_SCL 0x188 #define OFF_I2C1_SCA 0x18c #define I2C1_OFFSETS \ OFF_I2C1_SCL, \ OFF_I2C1_SCA #define SPI0_NAMES \ MSC313_PINNAME_SPI0_CZ, \ MSC313_PINNAME_SPI0_CK, \ MSC313_PINNAME_SPI0_DI, \ MSC313_PINNAME_SPI0_DO #define OFF_SPI0_CZ 0x1c0 #define OFF_SPI0_CK 0x1c4 #define OFF_SPI0_DI 0x1c8 #define OFF_SPI0_DO 0x1cc #define SPI0_OFFSETS \ OFF_SPI0_CZ, \ OFF_SPI0_CK, \ OFF_SPI0_DI, \ OFF_SPI0_DO struct msc313_gpio_data { const char * const *names; const unsigned int *offsets; const unsigned int num; }; #define MSC313_GPIO_CHIPDATA(_chip) \ static const struct msc313_gpio_data _chip##_data = { \ .names = _chip##_names, \ .offsets = _chip##_offsets, \ .num = ARRAY_SIZE(_chip##_offsets), \ } #ifdef CONFIG_MACH_INFINITY static const char * const msc313_names[] = { FUART_NAMES, SR_NAMES, SD_NAMES, I2C1_NAMES, SPI0_NAMES, }; static const unsigned int msc313_offsets[] = { FUART_OFFSETS, SR_OFFSETS, SD_OFFSETS, I2C1_OFFSETS, SPI0_OFFSETS, }; MSC313_GPIO_CHIPDATA(msc313); /* * Unlike the msc313(e) the ssd20xd have a bunch of pins * that are actually called gpio probably because they * have no dedicated function. */ #define SSD20XD_PINNAME_GPIO0 "gpio0" #define SSD20XD_PINNAME_GPIO1 "gpio1" #define SSD20XD_PINNAME_GPIO2 "gpio2" #define SSD20XD_PINNAME_GPIO3 "gpio3" #define SSD20XD_PINNAME_GPIO4 "gpio4" #define SSD20XD_PINNAME_GPIO5 "gpio5" #define SSD20XD_PINNAME_GPIO6 "gpio6" #define SSD20XD_PINNAME_GPIO7 "gpio7" #define SSD20XD_PINNAME_GPIO10 "gpio10" #define SSD20XD_PINNAME_GPIO11 "gpio11" #define SSD20XD_PINNAME_GPIO12 "gpio12" #define SSD20XD_PINNAME_GPIO13 "gpio13" #define SSD20XD_PINNAME_GPIO14 "gpio14" #define SSD20XD_PINNAME_GPIO85 "gpio85" #define SSD20XD_PINNAME_GPIO86 "gpio86" #define SSD20XD_PINNAME_GPIO90 "gpio90" #define SSD20XD_GPIO_NAMES SSD20XD_PINNAME_GPIO0, \ SSD20XD_PINNAME_GPIO1, \ SSD20XD_PINNAME_GPIO2, \ SSD20XD_PINNAME_GPIO3, \ SSD20XD_PINNAME_GPIO4, \ SSD20XD_PINNAME_GPIO5, \ SSD20XD_PINNAME_GPIO6, \ SSD20XD_PINNAME_GPIO7, \ SSD20XD_PINNAME_GPIO10, \ SSD20XD_PINNAME_GPIO11, \ SSD20XD_PINNAME_GPIO12, \ SSD20XD_PINNAME_GPIO13, \ SSD20XD_PINNAME_GPIO14, \ SSD20XD_PINNAME_GPIO85, \ SSD20XD_PINNAME_GPIO86, \ SSD20XD_PINNAME_GPIO90 #define SSD20XD_GPIO_OFF_GPIO0 0x0 #define SSD20XD_GPIO_OFF_GPIO1 0x4 #define SSD20XD_GPIO_OFF_GPIO2 0x8 #define SSD20XD_GPIO_OFF_GPIO3 0xc #define SSD20XD_GPIO_OFF_GPIO4 0x10 #define SSD20XD_GPIO_OFF_GPIO5 0x14 #define SSD20XD_GPIO_OFF_GPIO6 0x18 #define SSD20XD_GPIO_OFF_GPIO7 0x1c #define SSD20XD_GPIO_OFF_GPIO10 0x28 #define SSD20XD_GPIO_OFF_GPIO11 0x2c #define SSD20XD_GPIO_OFF_GPIO12 0x30 #define SSD20XD_GPIO_OFF_GPIO13 0x34 #define SSD20XD_GPIO_OFF_GPIO14 0x38 #define SSD20XD_GPIO_OFF_GPIO85 0x100 #define SSD20XD_GPIO_OFF_GPIO86 0x104 #define SSD20XD_GPIO_OFF_GPIO90 0x114 #define SSD20XD_GPIO_OFFSETS SSD20XD_GPIO_OFF_GPIO0, \ SSD20XD_GPIO_OFF_GPIO1, \ SSD20XD_GPIO_OFF_GPIO2, \ SSD20XD_GPIO_OFF_GPIO3, \ SSD20XD_GPIO_OFF_GPIO4, \ SSD20XD_GPIO_OFF_GPIO5, \ SSD20XD_GPIO_OFF_GPIO6, \ SSD20XD_GPIO_OFF_GPIO7, \ SSD20XD_GPIO_OFF_GPIO10, \ SSD20XD_GPIO_OFF_GPIO11, \ SSD20XD_GPIO_OFF_GPIO12, \ SSD20XD_GPIO_OFF_GPIO13, \ SSD20XD_GPIO_OFF_GPIO14, \ SSD20XD_GPIO_OFF_GPIO85, \ SSD20XD_GPIO_OFF_GPIO86, \ SSD20XD_GPIO_OFF_GPIO90 /* "ttl" pins lcd interface pins */ #define SSD20XD_PINNAME_TTL0 "ttl0" #define SSD20XD_PINNAME_TTL1 "ttl1" #define SSD20XD_PINNAME_TTL2 "ttl2" #define SSD20XD_PINNAME_TTL3 "ttl3" #define SSD20XD_PINNAME_TTL4 "ttl4" #define SSD20XD_PINNAME_TTL5 "ttl5" #define SSD20XD_PINNAME_TTL6 "ttl6" #define SSD20XD_PINNAME_TTL7 "ttl7" #define SSD20XD_PINNAME_TTL8 "ttl8" #define SSD20XD_PINNAME_TTL9 "ttl9" #define SSD20XD_PINNAME_TTL10 "ttl10" #define SSD20XD_PINNAME_TTL11 "ttl11" #define SSD20XD_PINNAME_TTL12 "ttl12" #define SSD20XD_PINNAME_TTL13 "ttl13" #define SSD20XD_PINNAME_TTL14 "ttl14" #define SSD20XD_PINNAME_TTL15 "ttl15" #define SSD20XD_PINNAME_TTL16 "ttl16" #define SSD20XD_PINNAME_TTL17 "ttl17" #define SSD20XD_PINNAME_TTL18 "ttl18" #define SSD20XD_PINNAME_TTL19 "ttl19" #define SSD20XD_PINNAME_TTL20 "ttl20" #define SSD20XD_PINNAME_TTL21 "ttl21" #define SSD20XD_PINNAME_TTL22 "ttl22" #define SSD20XD_PINNAME_TTL23 "ttl23" #define SSD20XD_PINNAME_TTL24 "ttl24" #define SSD20XD_PINNAME_TTL25 "ttl25" #define SSD20XD_PINNAME_TTL26 "ttl26" #define SSD20XD_PINNAME_TTL27 "ttl27" #define SSD20XD_TTL_PINNAMES SSD20XD_PINNAME_TTL0, \ SSD20XD_PINNAME_TTL1, \ SSD20XD_PINNAME_TTL2, \ SSD20XD_PINNAME_TTL3, \ SSD20XD_PINNAME_TTL4, \ SSD20XD_PINNAME_TTL5, \ SSD20XD_PINNAME_TTL6, \ SSD20XD_PINNAME_TTL7, \ SSD20XD_PINNAME_TTL8, \ SSD20XD_PINNAME_TTL9, \ SSD20XD_PINNAME_TTL10, \ SSD20XD_PINNAME_TTL11, \ SSD20XD_PINNAME_TTL12, \ SSD20XD_PINNAME_TTL13, \ SSD20XD_PINNAME_TTL14, \ SSD20XD_PINNAME_TTL15, \ SSD20XD_PINNAME_TTL16, \ SSD20XD_PINNAME_TTL17, \ SSD20XD_PINNAME_TTL18, \ SSD20XD_PINNAME_TTL19, \ SSD20XD_PINNAME_TTL20, \ SSD20XD_PINNAME_TTL21, \ SSD20XD_PINNAME_TTL22, \ SSD20XD_PINNAME_TTL23, \ SSD20XD_PINNAME_TTL24, \ SSD20XD_PINNAME_TTL25, \ SSD20XD_PINNAME_TTL26, \ SSD20XD_PINNAME_TTL27 #define SSD20XD_TTL_OFFSET_TTL0 0x80 #define SSD20XD_TTL_OFFSET_TTL1 0x84 #define SSD20XD_TTL_OFFSET_TTL2 0x88 #define SSD20XD_TTL_OFFSET_TTL3 0x8c #define SSD20XD_TTL_OFFSET_TTL4 0x90 #define SSD20XD_TTL_OFFSET_TTL5 0x94 #define SSD20XD_TTL_OFFSET_TTL6 0x98 #define SSD20XD_TTL_OFFSET_TTL7 0x9c #define SSD20XD_TTL_OFFSET_TTL8 0xa0 #define SSD20XD_TTL_OFFSET_TTL9 0xa4 #define SSD20XD_TTL_OFFSET_TTL10 0xa8 #define SSD20XD_TTL_OFFSET_TTL11 0xac #define SSD20XD_TTL_OFFSET_TTL12 0xb0 #define SSD20XD_TTL_OFFSET_TTL13 0xb4 #define SSD20XD_TTL_OFFSET_TTL14 0xb8 #define SSD20XD_TTL_OFFSET_TTL15 0xbc #define SSD20XD_TTL_OFFSET_TTL16 0xc0 #define SSD20XD_TTL_OFFSET_TTL17 0xc4 #define SSD20XD_TTL_OFFSET_TTL18 0xc8 #define SSD20XD_TTL_OFFSET_TTL19 0xcc #define SSD20XD_TTL_OFFSET_TTL20 0xd0 #define SSD20XD_TTL_OFFSET_TTL21 0xd4 #define SSD20XD_TTL_OFFSET_TTL22 0xd8 #define SSD20XD_TTL_OFFSET_TTL23 0xdc #define SSD20XD_TTL_OFFSET_TTL24 0xe0 #define SSD20XD_TTL_OFFSET_TTL25 0xe4 #define SSD20XD_TTL_OFFSET_TTL26 0xe8 #define SSD20XD_TTL_OFFSET_TTL27 0xec #define SSD20XD_TTL_OFFSETS SSD20XD_TTL_OFFSET_TTL0, \ SSD20XD_TTL_OFFSET_TTL1, \ SSD20XD_TTL_OFFSET_TTL2, \ SSD20XD_TTL_OFFSET_TTL3, \ SSD20XD_TTL_OFFSET_TTL4, \ SSD20XD_TTL_OFFSET_TTL5, \ SSD20XD_TTL_OFFSET_TTL6, \ SSD20XD_TTL_OFFSET_TTL7, \ SSD20XD_TTL_OFFSET_TTL8, \ SSD20XD_TTL_OFFSET_TTL9, \ SSD20XD_TTL_OFFSET_TTL10, \ SSD20XD_TTL_OFFSET_TTL11, \ SSD20XD_TTL_OFFSET_TTL12, \ SSD20XD_TTL_OFFSET_TTL13, \ SSD20XD_TTL_OFFSET_TTL14, \ SSD20XD_TTL_OFFSET_TTL15, \ SSD20XD_TTL_OFFSET_TTL16, \ SSD20XD_TTL_OFFSET_TTL17, \ SSD20XD_TTL_OFFSET_TTL18, \ SSD20XD_TTL_OFFSET_TTL19, \ SSD20XD_TTL_OFFSET_TTL20, \ SSD20XD_TTL_OFFSET_TTL21, \ SSD20XD_TTL_OFFSET_TTL22, \ SSD20XD_TTL_OFFSET_TTL23, \ SSD20XD_TTL_OFFSET_TTL24, \ SSD20XD_TTL_OFFSET_TTL25, \ SSD20XD_TTL_OFFSET_TTL26, \ SSD20XD_TTL_OFFSET_TTL27 /* On the ssd20xd the two normal uarts have dedicated pins */ #define SSD20XD_PINNAME_UART0_RX "uart0_rx" #define SSD20XD_PINNAME_UART0_TX "uart0_tx" #define SSD20XD_UART0_NAMES \ SSD20XD_PINNAME_UART0_RX, \ SSD20XD_PINNAME_UART0_TX #define SSD20XD_PINNAME_UART1_RX "uart1_rx" #define SSD20XD_PINNAME_UART1_TX "uart1_tx" #define SSD20XD_UART1_NAMES \ SSD20XD_PINNAME_UART1_RX, \ SSD20XD_PINNAME_UART1_TX #define SSD20XD_OFF_UART0_RX 0x60 #define SSD20XD_OFF_UART0_TX 0x64 #define SSD20XD_UART0_OFFSETS \ SSD20XD_OFF_UART0_RX, \ SSD20XD_OFF_UART0_TX #define SSD20XD_OFF_UART1_RX 0x68 #define SSD20XD_OFF_UART1_TX 0x6c #define SSD20XD_UART1_OFFSETS \ SSD20XD_OFF_UART1_RX, \ SSD20XD_OFF_UART1_TX /* * ssd20x has the same pin names but different ordering * of the registers that control the gpio. */ #define SSD20XD_OFF_SD_D0 0x140 #define SSD20XD_OFF_SD_D1 0x144 #define SSD20XD_OFF_SD_D2 0x148 #define SSD20XD_OFF_SD_D3 0x14c #define SSD20XD_OFF_SD_CMD 0x150 #define SSD20XD_OFF_SD_CLK 0x154 #define SSD20XD_SD_OFFSETS SSD20XD_OFF_SD_CLK, \ SSD20XD_OFF_SD_CMD, \ SSD20XD_OFF_SD_D0, \ SSD20XD_OFF_SD_D1, \ SSD20XD_OFF_SD_D2, \ SSD20XD_OFF_SD_D3 static const char * const ssd20xd_names[] = { FUART_NAMES, SD_NAMES, SSD20XD_UART0_NAMES, SSD20XD_UART1_NAMES, SSD20XD_TTL_PINNAMES, SSD20XD_GPIO_NAMES, }; static const unsigned int ssd20xd_offsets[] = { FUART_OFFSETS, SSD20XD_SD_OFFSETS, SSD20XD_UART0_OFFSETS, SSD20XD_UART1_OFFSETS, SSD20XD_TTL_OFFSETS, SSD20XD_GPIO_OFFSETS, }; MSC313_GPIO_CHIPDATA(ssd20xd); #endif struct msc313_gpio { void __iomem *base; const struct msc313_gpio_data *gpio_data; u8 *saved; }; static void msc313_gpio_set(struct gpio_chip *chip, unsigned int offset, int value) { struct msc313_gpio *gpio = gpiochip_get_data(chip); u8 gpioreg = readb_relaxed(gpio->base + gpio->gpio_data->offsets[offset]); if (value) gpioreg |= MSC313_GPIO_OUT; else gpioreg &= ~MSC313_GPIO_OUT; writeb_relaxed(gpioreg, gpio->base + gpio->gpio_data->offsets[offset]); } static int msc313_gpio_get(struct gpio_chip *chip, unsigned int offset) { struct msc313_gpio *gpio = gpiochip_get_data(chip); return readb_relaxed(gpio->base + gpio->gpio_data->offsets[offset]) & MSC313_GPIO_IN; } static int msc313_gpio_direction_input(struct gpio_chip *chip, unsigned int offset) { struct msc313_gpio *gpio = gpiochip_get_data(chip); u8 gpioreg = readb_relaxed(gpio->base + gpio->gpio_data->offsets[offset]); gpioreg |= MSC313_GPIO_OEN; writeb_relaxed(gpioreg, gpio->base + gpio->gpio_data->offsets[offset]); return 0; } static int msc313_gpio_direction_output(struct gpio_chip *chip, unsigned int offset, int value) { struct msc313_gpio *gpio = gpiochip_get_data(chip); u8 gpioreg = readb_relaxed(gpio->base + gpio->gpio_data->offsets[offset]); gpioreg &= ~MSC313_GPIO_OEN; if (value) gpioreg |= MSC313_GPIO_OUT; else gpioreg &= ~MSC313_GPIO_OUT; writeb_relaxed(gpioreg, gpio->base + gpio->gpio_data->offsets[offset]); return 0; } static void msc313_gpio_irq_mask(struct irq_data *d) { struct gpio_chip *gc = irq_data_get_irq_chip_data(d); irq_chip_mask_parent(d); gpiochip_disable_irq(gc, d->hwirq); } static void msc313_gpio_irq_unmask(struct irq_data *d) { struct gpio_chip *gc = irq_data_get_irq_chip_data(d); gpiochip_enable_irq(gc, d->hwirq); irq_chip_unmask_parent(d); } /* * The interrupt handling happens in the parent interrupt controller, * we don't do anything here. */ static const struct irq_chip msc313_gpio_irqchip = { .name = "GPIO", .irq_eoi = irq_chip_eoi_parent, .irq_mask = msc313_gpio_irq_mask, .irq_unmask = msc313_gpio_irq_unmask, .irq_set_type = irq_chip_set_type_parent, .irq_set_affinity = irq_chip_set_affinity_parent, .flags = IRQCHIP_IMMUTABLE, GPIOCHIP_IRQ_RESOURCE_HELPERS, }; /* * The parent interrupt controller needs the GIC interrupt type set to GIC_SPI * so we need to provide the fwspec. Essentially gpiochip_populate_parent_fwspec_twocell * that puts GIC_SPI into the first cell. */ static int msc313_gpio_populate_parent_fwspec(struct gpio_chip *gc, union gpio_irq_fwspec *gfwspec, unsigned int parent_hwirq, unsigned int parent_type) { struct irq_fwspec *fwspec = &gfwspec->fwspec; fwspec->fwnode = gc->irq.parent_domain->fwnode; fwspec->param_count = 3; fwspec->param[0] = GIC_SPI; fwspec->param[1] = parent_hwirq; fwspec->param[2] = parent_type; return 0; } static int msc313e_gpio_child_to_parent_hwirq(struct gpio_chip *chip, unsigned int child, unsigned int child_type, unsigned int *parent, unsigned int *parent_type) { struct msc313_gpio *priv = gpiochip_get_data(chip); unsigned int offset = priv->gpio_data->offsets[child]; /* * only the spi0 pins have interrupts on the parent * on all of the known chips and so far they are all * mapped to the same place */ if (offset >= OFF_SPI0_CZ && offset <= OFF_SPI0_DO) { *parent_type = child_type; *parent = ((offset - OFF_SPI0_CZ) >> 2) + 28; return 0; } return -EINVAL; } static int msc313_gpio_probe(struct platform_device *pdev) { const struct msc313_gpio_data *match_data; struct msc313_gpio *gpio; struct gpio_chip *gpiochip; struct gpio_irq_chip *gpioirqchip; struct irq_domain *parent_domain; struct device_node *parent_node; struct device *dev = &pdev->dev; match_data = of_device_get_match_data(dev); if (!match_data) return -EINVAL; parent_node = of_irq_find_parent(dev->of_node); if (!parent_node) return -ENODEV; parent_domain = irq_find_host(parent_node); if (!parent_domain) return -ENODEV; gpio = devm_kzalloc(dev, sizeof(*gpio), GFP_KERNEL); if (!gpio) return -ENOMEM; gpio->gpio_data = match_data; gpio->saved = devm_kcalloc(dev, gpio->gpio_data->num, sizeof(*gpio->saved), GFP_KERNEL); if (!gpio->saved) return -ENOMEM; gpio->base = devm_platform_ioremap_resource(pdev, 0); if (IS_ERR(gpio->base)) return PTR_ERR(gpio->base); platform_set_drvdata(pdev, gpio); gpiochip = devm_kzalloc(dev, sizeof(*gpiochip), GFP_KERNEL); if (!gpiochip) return -ENOMEM; gpiochip->label = DRIVER_NAME; gpiochip->parent = dev; gpiochip->request = gpiochip_generic_request; gpiochip->free = gpiochip_generic_free; gpiochip->direction_input = msc313_gpio_direction_input; gpiochip->direction_output = msc313_gpio_direction_output; gpiochip->get = msc313_gpio_get; gpiochip->set = msc313_gpio_set; gpiochip->base = -1; gpiochip->ngpio = gpio->gpio_data->num; gpiochip->names = gpio->gpio_data->names; gpioirqchip = &gpiochip->irq; gpio_irq_chip_set_chip(gpioirqchip, &msc313_gpio_irqchip); gpioirqchip->fwnode = of_node_to_fwnode(dev->of_node); gpioirqchip->parent_domain = parent_domain; gpioirqchip->child_to_parent_hwirq = msc313e_gpio_child_to_parent_hwirq; gpioirqchip->populate_parent_alloc_arg = msc313_gpio_populate_parent_fwspec; gpioirqchip->handler = handle_bad_irq; gpioirqchip->default_type = IRQ_TYPE_NONE; return devm_gpiochip_add_data(dev, gpiochip, gpio); } static const struct of_device_id msc313_gpio_of_match[] = { #ifdef CONFIG_MACH_INFINITY { .compatible = "mstar,msc313-gpio", .data = &msc313_data, }, { .compatible = "sstar,ssd20xd-gpio", .data = &ssd20xd_data, }, #endif { } }; /* * The GPIO controller loses the state of the registers when the * SoC goes into suspend to memory mode so we need to save some * of the register bits before suspending and put it back when resuming */ static int __maybe_unused msc313_gpio_suspend(struct device *dev) { struct msc313_gpio *gpio = dev_get_drvdata(dev); int i; for (i = 0; i < gpio->gpio_data->num; i++) gpio->saved[i] = readb_relaxed(gpio->base + gpio->gpio_data->offsets[i]) & MSC313_GPIO_BITSTOSAVE; return 0; } static int __maybe_unused msc313_gpio_resume(struct device *dev) { struct msc313_gpio *gpio = dev_get_drvdata(dev); int i; for (i = 0; i < gpio->gpio_data->num; i++) writeb_relaxed(gpio->saved[i], gpio->base + gpio->gpio_data->offsets[i]); return 0; } static SIMPLE_DEV_PM_OPS(msc313_gpio_ops, msc313_gpio_suspend, msc313_gpio_resume); static struct platform_driver msc313_gpio_driver = { .driver = { .name = DRIVER_NAME, .of_match_table = msc313_gpio_of_match, .pm = &msc313_gpio_ops, }, .probe = msc313_gpio_probe, }; builtin_platform_driver(msc313_gpio_driver);