mirror of
https://github.com/isometimes/rpi4-osdev
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199 lines
5.9 KiB
C
199 lines
5.9 KiB
C
#include "io.h"
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// GPIO
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enum {
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GPFSEL0 = PERIPHERAL_BASE + 0x200000,
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GPSET0 = PERIPHERAL_BASE + 0x20001C,
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GPCLR0 = PERIPHERAL_BASE + 0x200028,
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GPPUPPDN0 = PERIPHERAL_BASE + 0x2000E4
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};
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enum {
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GPIO_MAX_PIN = 53,
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GPIO_FUNCTION_OUT = 1,
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GPIO_FUNCTION_ALT5 = 2,
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GPIO_FUNCTION_ALT3 = 7,
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GPIO_FUNCTION_ALT0 = 4
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};
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enum {
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Pull_None = 0,
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Pull_Down = 1, // Are down and up the right way around?
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Pull_Up = 2
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};
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void mmio_write(long reg, unsigned int val) { *(volatile unsigned int *)reg = val; }
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unsigned int mmio_read(long reg) { return *(volatile unsigned int *)reg; }
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unsigned int gpio_call(unsigned int pin_number, unsigned int value, unsigned int base, unsigned int field_size, unsigned int field_max) {
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unsigned int field_mask = (1 << field_size) - 1;
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if (pin_number > field_max) return 0;
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if (value > field_mask) return 0;
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unsigned int num_fields = 32 / field_size;
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unsigned int reg = base + ((pin_number / num_fields) * 4);
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unsigned int shift = (pin_number % num_fields) * field_size;
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unsigned int curval = mmio_read(reg);
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curval &= ~(field_mask << shift);
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curval |= value << shift;
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mmio_write(reg, curval);
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return 1;
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}
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unsigned int gpio_set (unsigned int pin_number, unsigned int value) { return gpio_call(pin_number, value, GPSET0, 1, GPIO_MAX_PIN); }
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unsigned int gpio_clear (unsigned int pin_number, unsigned int value) { return gpio_call(pin_number, value, GPCLR0, 1, GPIO_MAX_PIN); }
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unsigned int gpio_pull (unsigned int pin_number, unsigned int value) { return gpio_call(pin_number, value, GPPUPPDN0, 2, GPIO_MAX_PIN); }
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unsigned int gpio_function(unsigned int pin_number, unsigned int value) { return gpio_call(pin_number, value, GPFSEL0, 3, GPIO_MAX_PIN); }
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void gpio_useAsAlt0(unsigned int pin_number) {
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gpio_pull(pin_number, Pull_None);
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gpio_function(pin_number, GPIO_FUNCTION_ALT0);
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}
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void gpio_useAsAlt3(unsigned int pin_number) {
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gpio_pull(pin_number, Pull_None);
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gpio_function(pin_number, GPIO_FUNCTION_ALT3);
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}
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void gpio_useAsAlt5(unsigned int pin_number) {
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gpio_pull(pin_number, Pull_None);
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gpio_function(pin_number, GPIO_FUNCTION_ALT5);
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}
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void gpio_initOutputPinWithPullNone(unsigned int pin_number) {
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gpio_pull(pin_number, Pull_None);
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gpio_function(pin_number, GPIO_FUNCTION_OUT);
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}
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void gpio_setPinOutputBool(unsigned int pin_number, unsigned int onOrOff) {
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if (onOrOff) {
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gpio_set(pin_number, 1);
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} else {
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gpio_clear(pin_number, 1);
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}
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}
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// UART
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enum {
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AUX_BASE = PERIPHERAL_BASE + 0x215000,
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AUX_IRQ = AUX_BASE,
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AUX_ENABLES = AUX_BASE + 4,
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AUX_MU_IO_REG = AUX_BASE + 64,
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AUX_MU_IER_REG = AUX_BASE + 68,
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AUX_MU_IIR_REG = AUX_BASE + 72,
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AUX_MU_LCR_REG = AUX_BASE + 76,
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AUX_MU_MCR_REG = AUX_BASE + 80,
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AUX_MU_LSR_REG = AUX_BASE + 84,
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AUX_MU_MSR_REG = AUX_BASE + 88,
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AUX_MU_SCRATCH = AUX_BASE + 92,
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AUX_MU_CNTL_REG = AUX_BASE + 96,
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AUX_MU_STAT_REG = AUX_BASE + 100,
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AUX_MU_BAUD_REG = AUX_BASE + 104,
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AUX_UART_CLOCK = 500000000,
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UART_MAX_QUEUE = 16 * 1024
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};
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#define AUX_MU_BAUD(baud) ((AUX_UART_CLOCK/(baud*8))-1)
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unsigned char uart_output_queue[UART_MAX_QUEUE];
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unsigned int uart_output_queue_write = 0;
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unsigned int uart_output_queue_read = 0;
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void uart_init() {
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mmio_write(AUX_ENABLES, 1); //enable UART1
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mmio_write(AUX_MU_IER_REG, 0);
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mmio_write(AUX_MU_CNTL_REG, 0);
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mmio_write(AUX_MU_LCR_REG, 3); //8 bits
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mmio_write(AUX_MU_MCR_REG, 0);
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mmio_write(AUX_MU_IER_REG, 0);
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mmio_write(AUX_MU_IIR_REG, 0xC6); //disable interrupts
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mmio_write(AUX_MU_BAUD_REG, AUX_MU_BAUD(115200));
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gpio_useAsAlt5(14);
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gpio_useAsAlt5(15);
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mmio_write(AUX_MU_CNTL_REG, 3); //enable RX/TX
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}
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unsigned int uart_isOutputQueueEmpty() {
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return uart_output_queue_read == uart_output_queue_write;
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}
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unsigned int uart_isReadByteReady() { return mmio_read(AUX_MU_LSR_REG) & 0x01; }
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unsigned int uart_isWriteByteReady() { return mmio_read(AUX_MU_LSR_REG) & 0x20; }
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unsigned char uart_readByte() {
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while (!uart_isReadByteReady());
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return (unsigned char)mmio_read(AUX_MU_IO_REG);
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}
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void uart_writeByteBlockingActual(unsigned char ch) {
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while (!uart_isWriteByteReady());
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mmio_write(AUX_MU_IO_REG, (unsigned int)ch);
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}
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void uart_loadOutputFifo() {
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while (!uart_isOutputQueueEmpty() && uart_isWriteByteReady()) {
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uart_writeByteBlockingActual(uart_output_queue[uart_output_queue_read]);
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uart_output_queue_read = (uart_output_queue_read + 1) & (UART_MAX_QUEUE - 1); // Don't overrun
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}
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}
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void uart_writeByteBlocking(unsigned char ch) {
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unsigned int next = (uart_output_queue_write + 1) & (UART_MAX_QUEUE - 1); // Don't overrun
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while (next == uart_output_queue_read) uart_loadOutputFifo();
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uart_output_queue[uart_output_queue_write] = ch;
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uart_output_queue_write = next;
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}
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void uart_writeText(char *buffer) {
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while (*buffer) {
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if (*buffer == '\n') uart_writeByteBlockingActual('\r');
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uart_writeByteBlockingActual(*buffer++);
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}
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}
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void uart_drainOutputQueue() {
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while (!uart_isOutputQueueEmpty()) uart_loadOutputFifo();
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}
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void uart_update() {
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uart_loadOutputFifo();
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if (uart_isReadByteReady()) {
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unsigned char ch = uart_readByte();
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if (ch == '\r') uart_writeText("\n"); else uart_writeByteBlocking(ch);
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}
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}
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void uart_hex(unsigned int d) {
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unsigned int n;
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int c;
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for(c=28;c>=0;c-=4) {
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// get highest tetrad
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n=(d>>c)&0xF;
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// 0-9 => '0'-'9', 10-15 => 'A'-'F'
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n+=n>9?0x37:0x30;
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uart_writeByteBlockingActual(n);
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}
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}
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void uart_byte(unsigned char b) {
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unsigned int n;
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int c;
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for(c=4;c>=0;c-=4) {
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// get highest tetrad
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n=(b>>c)&0xF;
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// 0-9 => '0'-'9', 10-15 => 'A'-'F'
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n+=n>9?0x37:0x30;
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uart_writeByteBlockingActual(n);
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}
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uart_writeByteBlockingActual(' ');
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}
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