ref: 9861f1a92b373a16939fd6f3c167e5dad9f253d3
dir: /sys/src/9/imx8/gpio.c/
#include "u.h" #include "../port/lib.h" #include "../port/error.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" /* gpio registers */ enum { GPIO_DR = 0x00/4, GPIO_GDIR = 0x04/4, GPIO_PSR = 0x08/4, GPIO_ICR1 = 0x0C/4, GPIO_ICR2 = 0x10/4, GPIO_IMR = 0x14/4, GPIO_ISR = 0x18/4, GPIO_EDGE_SEL = 0x1C/4, }; typedef struct Ivec Ivec; struct Ivec { void (*f)(uint pin, void *a); void *a; }; typedef struct Ctlr Ctlr; struct Ctlr { u32int *reg; char *clk; u32int dir; int enabled; Ivec vec[32]; Lock; }; static Ctlr ctlrs[5] = { {(u32int*)(VIRTIO + 0x200000), "gpio1.ipg_clk_s" }, {(u32int*)(VIRTIO + 0x210000), "gpio2.ipg_clk_s" }, {(u32int*)(VIRTIO + 0x220000), "gpio3.ipg_clk_s" }, {(u32int*)(VIRTIO + 0x230000), "gpio4.ipg_clk_s" }, {(u32int*)(VIRTIO + 0x240000), "gpio5.ipg_clk_s" }, }; static Ctlr* enable(uint pin) { Ctlr *ctlr; pin /= 32; if(pin < 1 || pin > nelem(ctlrs)) return nil; ctlr = &ctlrs[pin-1]; if(!ctlr->enabled){ setclkgate(ctlr->clk, 1); ctlr->reg[GPIO_IMR] = 0; ctlr->dir = ctlr->reg[GPIO_GDIR]; ctlr->enabled = 1; } return ctlr; } void gpioout(uint pin, int set) { u32int bit = 1 << (pin % 32); Ctlr *ctlr = enable(pin); if(ctlr == nil) return; if((ctlr->dir & bit) == 0) ctlr->reg[GPIO_GDIR] = ctlr->dir |= bit; if(set) ctlr->reg[GPIO_DR] |= bit; else ctlr->reg[GPIO_DR] &= ~bit; } int gpioin(uint pin) { u32int bit = 1 << (pin % 32); Ctlr *ctlr = enable(pin); if(ctlr == nil) return -1; if(ctlr->dir & bit) ctlr->reg[GPIO_GDIR] = ctlr->dir &= ~bit; return (ctlr->reg[GPIO_DR] & bit) != 0; } void gpiointrenable(uint pin, int mode, void (*f)(uint pin, void *a), void *a) { u32int bit = 1 << (pin % 32); Ctlr *ctlr = enable(pin); if(ctlr == nil) return; ctlr->reg[GPIO_IMR] &= ~bit; ilock(ctlr); if(ctlr->dir & bit) ctlr->reg[GPIO_GDIR] = ctlr->dir &= ~bit; if(mode == GpioEdge) ctlr->reg[GPIO_EDGE_SEL] |= bit; else if(bit < 16) ctlr->reg[GPIO_ICR1] |= mode << (bit*2); else ctlr->reg[GPIO_ICR2] |= mode << (bit-16)*2; ctlr->vec[pin % 32].f = f; ctlr->vec[pin % 32].a = a; iunlock(ctlr); ctlr->reg[GPIO_IMR] |= bit; } void gpiointrdisable(uint pin) { u32int bit = 1 << (pin % 32); Ctlr *ctlr = enable(pin); if(ctlr == nil) return; ctlr->reg[GPIO_IMR] &= ~bit; ilock(ctlr); ctlr->vec[pin % 32].f = nil; ctlr->vec[pin % 32].a = nil; iunlock(ctlr); } static void gpiointerrupt(Ureg *, void *arg) { Ctlr *ctlr = arg; u32int status; Ivec *vec; int pin; status = ctlr->reg[GPIO_ISR]; if(status == 0) return; ctlr->reg[GPIO_ISR] = status; ilock(ctlr); for(vec = ctlr->vec; status != 0 && vec < &ctlr->vec[nelem(ctlr->vec)]; vec++, status >>= 1){ if((status & 1) != 0 && vec->f != nil){ pin = (ctlr - ctlrs + 1)<<5 | (vec - ctlr->vec); (*vec->f)(pin, vec->a); } } iunlock(ctlr); } void gpiolink(void) { intrenable(IRQgpio1l, gpiointerrupt, &ctlrs[0], BUSUNKNOWN, "gpio1"); intrenable(IRQgpio1h, gpiointerrupt, &ctlrs[0], BUSUNKNOWN, "gpio1"); intrenable(IRQgpio2l, gpiointerrupt, &ctlrs[1], BUSUNKNOWN, "gpio2"); intrenable(IRQgpio2h, gpiointerrupt, &ctlrs[1], BUSUNKNOWN, "gpio2"); intrenable(IRQgpio3l, gpiointerrupt, &ctlrs[2], BUSUNKNOWN, "gpio3"); intrenable(IRQgpio3h, gpiointerrupt, &ctlrs[2], BUSUNKNOWN, "gpio3"); intrenable(IRQgpio4l, gpiointerrupt, &ctlrs[3], BUSUNKNOWN, "gpio4"); intrenable(IRQgpio4h, gpiointerrupt, &ctlrs[3], BUSUNKNOWN, "gpio4"); intrenable(IRQgpio5l, gpiointerrupt, &ctlrs[4], BUSUNKNOWN, "gpio5"); intrenable(IRQgpio5h, gpiointerrupt, &ctlrs[4], BUSUNKNOWN, "gpio5"); }