iw4x-client/deps/mongoose/examples/ti/ek-tm4c1294xl-rndis/hal.h
2024-03-07 05:13:50 -05:00

182 lines
6.7 KiB
C

// Copyright (c) 2022 Cesanta Software Limited
// All rights reserved
// https://www.ti.com/lit/pdf/spms433
#pragma once
#include "TM4C1294NCPDT.h"
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#define BIT(x) (1UL << (x))
#define SETBITS(R, CLEARMASK, SETMASK) (R) = ((R) & ~(CLEARMASK)) | (SETMASK)
#define PIN(bank, num) ((bank << 8) | (num))
#define PINNO(pin) (pin & 255)
#define PINBANK(pin) pinbank(pin >> 8)
// This MCU doesn't have GPIOI nor GPIOO
static inline unsigned int pinbank(unsigned int bank) {
bank = bank > 'O' ? bank - 2 : bank > 'I' ? bank - 1 : bank;
return bank - 'A';
}
// 5.5, Table 5-12: configure flash (and EEPROM) timing in accordance to clock
// freq
enum {
PLL_CLK = 25,
PLL_M = 96,
PLL_N = 5,
PLL_Q = 1,
PSYSDIV = 4
}; // Run at 120 Mhz
#define PLL_FREQ (PLL_CLK * PLL_M / PLL_N / PLL_Q / PSYSDIV)
#define FLASH_CLKHIGH 6
#define FLASH_WAITST 5
#define SYS_FREQUENCY (PLL_FREQ * 1000000)
static inline void spin(volatile uint32_t count) {
while (count--) (void) 0;
}
enum { GPIO_MODE_INPUT, GPIO_MODE_OUTPUT, GPIO_MODE_AF, GPIO_MODE_ANALOG };
enum { GPIO_OTYPE_PUSH_PULL, GPIO_OTYPE_OPEN_DRAIN };
enum { GPIO_SPEED_LOW, GPIO_SPEED_HIGH };
enum { GPIO_PULL_NONE, GPIO_PULL_UP, GPIO_PULL_DOWN };
#define GPIO(bank) ((GPIOA_AHB_Type *) (GPIOA_AHB_BASE + 0x1000U * (bank)))
// CMSIS header forces 0xFF mask when writing to DATA (see 10.6 in datasheet)
// and does not seem to support that feature for writing by defining RESERVED0
// to read-only
static inline void gpio_toggle(uint16_t pin) {
GPIOA_AHB_Type *gpio = GPIO(PINBANK(pin));
volatile uint32_t *GPIODATA = (volatile uint32_t *) gpio->RESERVED0;
uint8_t mask = BIT(PINNO(pin));
GPIODATA[mask] ^= mask;
}
static inline int gpio_read(uint16_t pin) {
GPIOA_AHB_Type *gpio = GPIO(PINBANK(pin));
volatile uint32_t *GPIODATA = (volatile uint32_t *) gpio->RESERVED0;
uint8_t mask = BIT(PINNO(pin));
return GPIODATA[mask] ? 1 : 0;
}
static inline void gpio_write(uint16_t pin, bool val) {
GPIOA_AHB_Type *gpio = GPIO(PINBANK(pin));
volatile uint32_t *GPIODATA = (volatile uint32_t *) gpio->RESERVED0;
uint8_t mask = BIT(PINNO(pin));
GPIODATA[mask] = val ? mask : 0;
}
static inline void gpio_init(uint16_t pin, uint8_t mode, uint8_t type,
uint8_t speed, uint8_t pull, uint8_t af) {
GPIOA_AHB_Type *gpio = GPIO(PINBANK(pin));
uint8_t n = (uint8_t) (PINNO(pin));
SYSCTL->RCGCGPIO |= BIT(PINBANK(pin)); // Enable GPIO clock
if (mode == GPIO_MODE_ANALOG) {
gpio->AMSEL |= BIT(PINNO(pin));
return;
}
if (mode == GPIO_MODE_INPUT) {
gpio->DIR &= ~BIT(PINNO(pin));
} else if (mode == GPIO_MODE_OUTPUT) {
gpio->DIR |= BIT(PINNO(pin));
} else { // GPIO_MODE_AF
SETBITS(gpio->PCTL, 15UL << ((n & 7) * 4),
((uint32_t) af) << ((n & 7) * 4));
gpio->AFSEL |= BIT(PINNO(pin));
}
gpio->DEN |= BIT(PINNO(pin)); // Enable pin as digital function
if (type == GPIO_OTYPE_OPEN_DRAIN)
gpio->ODR |= BIT(PINNO(pin));
else // GPIO_OTYPE_PUSH_PULL
gpio->ODR &= ~BIT(PINNO(pin));
if (speed == GPIO_SPEED_LOW)
gpio->SLR |= BIT(PINNO(pin));
else // GPIO_SPEED_HIGH
gpio->SLR &= ~BIT(PINNO(pin));
if (pull == GPIO_PULL_UP) {
gpio->PUR |= BIT(PINNO(pin)); // setting one...
} else if (pull == GPIO_PULL_DOWN) {
gpio->PDR |= BIT(PINNO(pin)); // ...just clears the other
} else {
gpio->PUR &= ~BIT(PINNO(pin));
gpio->PDR &= ~BIT(PINNO(pin));
}
}
static inline void gpio_input(uint16_t pin) {
gpio_init(pin, GPIO_MODE_INPUT, GPIO_OTYPE_PUSH_PULL, GPIO_SPEED_HIGH,
GPIO_PULL_NONE, 0);
}
static inline void gpio_output(uint16_t pin) {
gpio_init(pin, GPIO_MODE_OUTPUT, GPIO_OTYPE_PUSH_PULL, GPIO_SPEED_HIGH,
GPIO_PULL_NONE, 0);
}
static inline void gpio_irq_attach(uint16_t pin) {
uint8_t irqvecs[] = {16, 17, 18, 19, 20, 30, 31, 32,
51, 52, 53, 72, 73, 76, 84};
GPIOA_AHB_Type *gpio = GPIO(PINBANK(pin));
gpio->IS &= ~BIT(PINNO(pin)); // edge sensitive
gpio->IBE |= BIT(PINNO(pin)); // both edges
gpio->IM |= BIT(PINNO(pin)); // enable pin irq
int irqvec = irqvecs[PINBANK(pin)]; // IRQ vector index, 2.5.2
NVIC_SetPriority(irqvec, 3);
NVIC_EnableIRQ(irqvec);
}
#ifndef UART_DEBUG
#define UART_DEBUG UART0
#endif
#define UART_OFFSET 0x1000
#define UART(N) ((UART0_Type *) (UART0_BASE + UART_OFFSET * (N)))
#define UARTNO(u) ((uint8_t) (((unsigned int) (u) -UART0_BASE) / UART_OFFSET))
static inline void uart_init(UART0_Type *uart, unsigned long baud) {
uint8_t af = 1; // Alternate function
uint16_t rx = 0, tx = 0; // pins
uint8_t uartno = UARTNO(uart);
SYSCTL->RCGCUART |= BIT(uartno); // Enable peripheral clock
if (uart == UART0) tx = PIN('A', 0), rx = PIN('A', 1);
if (uart == UART1) tx = PIN('B', 0), rx = PIN('B', 1);
if (uart == UART2) tx = PIN('A', 6), rx = PIN('A', 7); // or PD4, PD5...
gpio_init(tx, GPIO_MODE_AF, GPIO_OTYPE_PUSH_PULL, GPIO_SPEED_HIGH, 0, af);
gpio_init(rx, GPIO_MODE_AF, GPIO_OTYPE_PUSH_PULL, GPIO_SPEED_HIGH, 0, af);
// (16.3.2) ClkDiv = 16 (HSE=0)
// BRD = BRDI + BRDF = UARTSysClk / (ClkDiv * Baud Rate)
// UARTFBRD[DIVFRAC] = integer(BRDF * 64 + 0.5)
// must write in this order
uart->CTL = 0; // Disable this UART, clear HSE
uart->IBRD = SYS_FREQUENCY / (16 * baud); // Baud rate, integer part
uart->FBRD = ((SYS_FREQUENCY % (16 * baud)) >> 26) &
0x3F; // Baud rate, fractional part
uart->LCRH = (3 << 5); // 8N1, no FIFOs;
uart->CTL |= BIT(0) | BIT(9) | BIT(8); // Set UARTEN, RXE, TXE
}
static inline void uart_write_byte(UART0_Type *uart, uint8_t byte) {
uart->DR = byte;
while ((uart->FR & BIT(7)) == 0) spin(1);
}
static inline void uart_write_buf(UART0_Type *uart, char *buf, size_t len) {
while (len-- > 0) uart_write_byte(uart, *(uint8_t *) buf++);
}
static inline int uart_read_ready(UART0_Type *uart) {
return uart->FR & BIT(6); // If RXFF bit is set, data is ready
}
static inline uint8_t uart_read_byte(UART0_Type *uart) {
return (uint8_t) (uart->DR & 0xFF);
}
// Helper macro for reading pre-flashed MAC from user registers
#define READ_PREFLASHED_MAC() \
{ \
(FLASH_CTRL->USERREG0 >> 0) & 0xFF, (FLASH_CTRL->USERREG0 >> 8) & 0xFF, \
(FLASH_CTRL->USERREG0 >> 16) & 0xFF, \
(FLASH_CTRL->USERREG1 >> 0) & 0xFF, \
(FLASH_CTRL->USERREG1 >> 8) & 0xFF, \
(FLASH_CTRL->USERREG1 >> 16) & 0xFF \
}