/**************************************************************************** * boards/xtensa/esp32/esp32-pico-kit/src/esp32_gpio.c * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include "esp32-pico-kit.h" #include "esp32_gpio.h" #include "hardware/esp32_gpio_sigmap.h" #if defined(CONFIG_DEV_GPIO) && !defined(CONFIG_GPIO_LOWER_HALF) /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ #if !defined(CONFIG_ESP32_GPIO_IRQ) && BOARD_NGPIOINT > 0 # error "NGPIOINT is > 0 and GPIO interrupts aren't enabled" #endif /* Output pins. GPIO15 is used as an example, any other outputs could be * used. */ #define GPIO_OUT1 15 /* Input pins. GPIO18 is used as an example, any other inputs could be * used. */ #define GPIO_IN1 18 /* Interrupt pins. GPIO22 is used as an example, any other inputs could be * used. */ #define GPIO_IRQPIN1 22 /**************************************************************************** * Private Types ****************************************************************************/ struct esp32gpio_dev_s { struct gpio_dev_s gpio; uint8_t id; }; struct esp32gpint_dev_s { struct esp32gpio_dev_s esp32gpio; pin_interrupt_t callback; }; /**************************************************************************** * Private Function Prototypes ****************************************************************************/ #if BOARD_NGPIOOUT > 0 static int gpout_read(struct gpio_dev_s *dev, bool *value); static int gpout_write(struct gpio_dev_s *dev, bool value); #endif #if BOARD_NGPIOIN > 0 static int gpin_read(struct gpio_dev_s *dev, bool *value); #endif #if BOARD_NGPIOINT > 0 static int gpint_read(struct gpio_dev_s *dev, bool *value); static int gpint_attach(struct gpio_dev_s *dev, pin_interrupt_t callback); static int gpint_enable(struct gpio_dev_s *dev, bool enable); #endif /**************************************************************************** * Private Data ****************************************************************************/ #if BOARD_NGPIOOUT > 0 static const struct gpio_operations_s gpout_ops = { .go_read = gpout_read, .go_write = gpout_write, .go_attach = NULL, .go_enable = NULL, }; /* This array maps the GPIO pins used as OUTPUT */ static const uint32_t g_gpiooutputs[BOARD_NGPIOOUT] = { GPIO_OUT1 }; static struct esp32gpio_dev_s g_gpout[BOARD_NGPIOOUT]; #endif #if BOARD_NGPIOIN > 0 static const struct gpio_operations_s gpin_ops = { .go_read = gpin_read, .go_write = NULL, .go_attach = NULL, .go_enable = NULL, }; /* This array maps the GPIO pins used as INTERRUPT INPUTS */ static const uint32_t g_gpioinputs[BOARD_NGPIOIN] = { GPIO_IN1 }; static struct esp32gpio_dev_s g_gpin[BOARD_NGPIOIN]; #endif #if BOARD_NGPIOINT > 0 static const struct gpio_operations_s gpint_ops = { .go_read = gpint_read, .go_write = NULL, .go_attach = gpint_attach, .go_enable = gpint_enable, }; /* This array maps the GPIO pins used as INTERRUPT INPUTS */ static const uint32_t g_gpiointinputs[BOARD_NGPIOINT] = { GPIO_IRQPIN1, }; static struct esp32gpint_dev_s g_gpint[BOARD_NGPIOINT]; #endif /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: gpout_read ****************************************************************************/ #if BOARD_NGPIOOUT > 0 static int gpout_read(struct gpio_dev_s *dev, bool *value) { struct esp32gpio_dev_s *esp32gpio = (struct esp32gpio_dev_s *)dev; DEBUGASSERT(esp32gpio != NULL && value != NULL); DEBUGASSERT(esp32gpio->id < BOARD_NGPIOOUT); gpioinfo("Reading...\n"); *value = esp32_gpioread(g_gpiooutputs[esp32gpio->id]); return OK; } /**************************************************************************** * Name: gpout_write ****************************************************************************/ static int gpout_write(struct gpio_dev_s *dev, bool value) { struct esp32gpio_dev_s *esp32gpio = (struct esp32gpio_dev_s *)dev; DEBUGASSERT(esp32gpio != NULL); DEBUGASSERT(esp32gpio->id < BOARD_NGPIOOUT); gpioinfo("Writing %d\n", (int)value); esp32_gpiowrite(g_gpiooutputs[esp32gpio->id], value); return OK; } #endif /**************************************************************************** * Name: gpin_read ****************************************************************************/ #if BOARD_NGPIOIN > 0 static int gpin_read(struct gpio_dev_s *dev, bool *value) { struct esp32gpio_dev_s *esp32gpio = (struct esp32gpio_dev_s *)dev; DEBUGASSERT(esp32gpio != NULL && value != NULL); DEBUGASSERT(esp32gpio->id < BOARD_NGPIOIN); gpioinfo("Reading... pin %d\n", g_gpioinputs[esp32gpio->id]); *value = esp32_gpioread(g_gpioinputs[esp32gpio->id]); return OK; } #endif /**************************************************************************** * Name: esp32gpio_interrupt ****************************************************************************/ #if BOARD_NGPIOINT > 0 static int esp32gpio_interrupt(int irq, void *context, void *arg) { struct esp32gpint_dev_s *esp32gpint = (struct esp32gpint_dev_s *)arg; DEBUGASSERT(esp32gpint != NULL && esp32gpint->callback != NULL); gpioinfo("Interrupt! callback=%p\n", esp32gpint->callback); esp32gpint->callback(&esp32gpint->esp32gpio.gpio, esp32gpint->esp32gpio.id); return OK; } /**************************************************************************** * Name: gpint_read ****************************************************************************/ static int gpint_read(struct gpio_dev_s *dev, bool *value) { struct esp32gpint_dev_s *esp32gpint = (struct esp32gpint_dev_s *)dev; DEBUGASSERT(esp32gpint != NULL && value != NULL); DEBUGASSERT(esp32gpint->esp32gpio.id < BOARD_NGPIOINT); gpioinfo("Reading int pin...\n"); *value = esp32_gpioread(g_gpiointinputs[esp32gpint->esp32gpio.id]); return OK; } /**************************************************************************** * Name: gpint_attach ****************************************************************************/ static int gpint_attach(struct gpio_dev_s *dev, pin_interrupt_t callback) { struct esp32gpint_dev_s *esp32gpint = (struct esp32gpint_dev_s *)dev; int irq = ESP32_PIN2IRQ(g_gpiointinputs[esp32gpint->esp32gpio.id]); int ret; gpioinfo("Attaching the callback\n"); /* Make sure the interrupt is disabled */ esp32_gpioirqdisable(irq); ret = irq_attach(irq, esp32gpio_interrupt, &g_gpint[esp32gpint->esp32gpio.id]); if (ret < 0) { syslog(LOG_ERR, "ERROR: gpint_attach() failed: %d\n", ret); return ret; } gpioinfo("Attach %p\n", callback); esp32gpint->callback = callback; return OK; } /**************************************************************************** * Name: gpint_enable ****************************************************************************/ static int gpint_enable(struct gpio_dev_s *dev, bool enable) { struct esp32gpint_dev_s *esp32gpint = (struct esp32gpint_dev_s *)dev; int irq = ESP32_PIN2IRQ(g_gpiointinputs[esp32gpint->esp32gpio.id]); if (enable) { if (esp32gpint->callback != NULL) { gpioinfo("Enabling the interrupt\n"); /* Configure the interrupt for rising edge */ esp32_gpioirqenable(irq, RISING); } } else { gpioinfo("Disable the interrupt\n"); esp32_gpioirqdisable(irq); } return OK; } #endif /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: esp32_gpio_init ****************************************************************************/ int esp32_gpio_init(void) { int pincount = 0; int i; #if BOARD_NGPIOOUT > 0 for (i = 0; i < BOARD_NGPIOOUT; i++) { /* Setup and register the GPIO pin */ g_gpout[i].gpio.gp_pintype = GPIO_OUTPUT_PIN; g_gpout[i].gpio.gp_ops = &gpout_ops; g_gpout[i].id = i; gpio_pin_register(&g_gpout[i].gpio, pincount); /* Configure the pins that will be used as output */ esp32_gpio_matrix_out(g_gpiooutputs[i], SIG_GPIO_OUT_IDX, 0, 0); esp32_configgpio(g_gpiooutputs[i], OUTPUT_FUNCTION_3 | INPUT_FUNCTION_3); esp32_gpiowrite(g_gpiooutputs[i], 0); pincount++; } #endif #if BOARD_NGPIOIN > 0 for (i = 0; i < BOARD_NGPIOIN; i++) { /* Setup and register the GPIO pin */ g_gpin[i].gpio.gp_pintype = GPIO_INPUT_PIN; g_gpin[i].gpio.gp_ops = &gpin_ops; g_gpin[i].id = i; gpio_pin_register(&g_gpin[i].gpio, pincount); /* Configure the pins that will be used as INPUT */ esp32_configgpio(g_gpioinputs[i], INPUT_FUNCTION_3); pincount++; } #endif #if BOARD_NGPIOINT > 0 for (i = 0; i < BOARD_NGPIOINT; i++) { /* Setup and register the GPIO pin */ g_gpint[i].esp32gpio.gpio.gp_pintype = GPIO_INTERRUPT_PIN; g_gpint[i].esp32gpio.gpio.gp_ops = &gpint_ops; g_gpint[i].esp32gpio.id = i; gpio_pin_register(&g_gpint[i].esp32gpio.gpio, pincount); /* Configure the pins that will be used as interrupt input */ esp32_configgpio(g_gpiointinputs[i], INPUT_FUNCTION_3 | PULLDOWN); pincount++; } #endif return OK; } #endif /* CONFIG_DEV_GPIO && !CONFIG_GPIO_LOWER_HALF */