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/**
* @file
*
* @ingroup lpc24xx_io
*
* @brief Input and output module.
*/
/*
* Copyright (c) 2009-2011 embedded brains GmbH. All rights reserved.
*
* embedded brains GmbH
* Obere Lagerstr. 30
* 82178 Puchheim
* Germany
* <rtems@embedded-brains.de>
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*/
#include <bsp.h>
#include <bsp/io.h>
#include <bsp/start.h>
#include <bsp/system-clocks.h>
#define LPC24XX_PIN_SELECT(index) ((index) >> 4U)
#define LPC24XX_PIN_SELECT_SHIFT(index) (((index) & 0xfU) << 1U)
#define LPC24XX_PIN_SELECT_MASK 0x3U
rtems_status_code lpc24xx_gpio_config(
unsigned index,
lpc24xx_gpio_settings settings
)
{
if (index <= LPC24XX_IO_INDEX_MAX) {
rtems_interrupt_level level;
uint32_t port = LPC24XX_IO_PORT(index);
uint32_t port_bit = LPC24XX_IO_PORT_BIT(index);
uint32_t output = (settings & LPC24XX_GPIO_OUTPUT) != 0 ? 1U : 0U;
uint32_t resistor = settings & 0x3U;
#ifdef ARM_MULTILIB_ARCH_V4
uint32_t select = LPC24XX_PIN_SELECT(index);
uint32_t shift = LPC24XX_PIN_SELECT_SHIFT(index);
/* Get resistor flags */
switch (resistor) {
case LPC24XX_GPIO_RESISTOR_PULL_UP:
resistor = 0x0U;
break;
case LPC24XX_GPIO_RESISTOR_NONE:
resistor = 0x2U;
break;
case LPC24XX_GPIO_RESISTOR_PULL_DOWN:
resistor = 0x3U;
break;
default:
return RTEMS_INVALID_NUMBER;
}
#endif
rtems_interrupt_disable(level);
#ifdef ARM_MULTILIB_ARCH_V4
/* Resistor */
LPC24XX_PINMODE [select] =
(LPC24XX_PINMODE [select] & ~(LPC24XX_PIN_SELECT_MASK << shift))
| ((resistor & LPC24XX_PIN_SELECT_MASK) << shift);
#endif
rtems_interrupt_flash(level);
/* Input or output */
LPC24XX_FIO [port].dir =
(LPC24XX_FIO [port].dir & ~(1U << port_bit)) | (output << port_bit);
rtems_interrupt_enable(level);
} else {
return RTEMS_INVALID_ID;
}
return RTEMS_SUCCESSFUL;
}
#define LPC24XX_MODULE_ENTRY(mod, pwr, clk, idx) \
[mod] = { \
.power = pwr, \
.clock = clk, \
.index = idx \
}
typedef struct {
unsigned char power : 1;
unsigned char clock : 1;
unsigned char index : 6;
} lpc24xx_module_entry;
static const lpc24xx_module_entry lpc24xx_module_table [] = {
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_ACF, 0, 1, 15),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_ADC, 1, 1, 12),
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_BAT_RAM, 0, 1, 16),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_CAN_0, 1, 1, 13),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_CAN_1, 1, 1, 14),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_DAC, 0, 1, 11),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_EMC, 1, 0, 11),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_ETHERNET, 1, 0, 30),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_GPDMA, 1, 1, 29),
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_GPIO, 0, 1, 17),
#else
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_GPIO, 0, 1, 15),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_I2C_0, 1, 1, 7),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_I2C_1, 1, 1, 19),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_I2C_2, 1, 1, 26),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_I2S, 1, 1, 27),
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_LCD, 1, 0, 20),
#else
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_LCD, 1, 0, 0),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_MCI, 1, 1, 28),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_PCB, 0, 1, 18),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_PWM_0, 1, 1, 5),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_PWM_1, 1, 1, 6),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_RTC, 1, 1, 9),
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_SPI, 1, 1, 8),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_SSP_0, 1, 1, 21),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_SSP_1, 1, 1, 10),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_SYSCON, 0, 1, 30),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_TIMER_0, 1, 1, 1),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_TIMER_1, 1, 1, 2),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_TIMER_2, 1, 1, 22),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_TIMER_3, 1, 1, 23),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_UART_0, 1, 1, 3),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_UART_1, 1, 1, 4),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_UART_2, 1, 1, 24),
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_UART_3, 1, 1, 25),
#ifdef ARM_MULTILIB_ARCH_V4
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_WDT, 0, 1, 0),
#endif
LPC24XX_MODULE_ENTRY(LPC24XX_MODULE_USB, 1, 0, 31)
};
static rtems_status_code lpc24xx_module_do_enable(
lpc24xx_module module,
lpc24xx_module_clock clock,
bool enable
)
{
rtems_interrupt_level level;
bool has_power = false;
bool has_clock = false;
unsigned index = 0;
if ((unsigned) module >= LPC24XX_MODULE_COUNT) {
return RTEMS_INVALID_ID;
}
#ifdef ARM_MULTILIB_ARCH_V4
if (clock == LPC24XX_MODULE_PCLK_DEFAULT) {
#if LPC24XX_PCLKDIV == 1U
clock = LPC24XX_MODULE_CCLK;
#elif LPC24XX_PCLKDIV == 2U
clock = LPC24XX_MODULE_CCLK_2;
#elif LPC24XX_PCLKDIV == 4U
clock = LPC24XX_MODULE_CCLK_4;
#elif LPC24XX_PCLKDIV == 8U
clock = LPC24XX_MODULE_CCLK_8;
#endif
}
if ((clock & ~LPC24XX_MODULE_CLOCK_MASK) != 0U) {
return RTEMS_INVALID_CLOCK;
}
#endif
has_power = lpc24xx_module_table [module].power;
has_clock = lpc24xx_module_table [module].clock;
index = lpc24xx_module_table [module].index;
/* Enable or disable module */
if (enable) {
if (has_power) {
rtems_interrupt_disable(level);
#ifdef ARM_MULTILIB_ARCH_V4
PCONP |= 1U << index;
#endif
rtems_interrupt_enable(level);
}
if (module != LPC24XX_MODULE_USB) {
if (has_clock) {
#ifdef ARM_MULTILIB_ARCH_V4
unsigned clock_shift = 2U * index;
rtems_interrupt_disable(level);
if (clock_shift < 32U) {
PCLKSEL0 = (PCLKSEL0 & ~(LPC24XX_MODULE_CLOCK_MASK << clock_shift))
| (clock << clock_shift);
} else {
clock_shift -= 32U;
PCLKSEL1 = (PCLKSEL1 & ~(LPC24XX_MODULE_CLOCK_MASK << clock_shift))
| (clock << clock_shift);
}
rtems_interrupt_enable(level);
#endif
}
} else {
#ifdef ARM_MULTILIB_ARCH_V4
unsigned pllclk = lpc24xx_pllclk();
unsigned usbsel = pllclk / 48000000U - 1U;
if (
usbsel > 15U
|| (usbsel % 2U != 1U)
|| (pllclk % 48000000U) != 0U
) {
return RTEMS_INCORRECT_STATE;
}
USBCLKCFG = usbsel;
#endif
}
} else {
if (has_power) {
rtems_interrupt_disable(level);
#ifdef ARM_MULTILIB_ARCH_V4
PCONP &= ~(1U << index);
#endif
rtems_interrupt_enable(level);
}
}
return RTEMS_SUCCESSFUL;
}
rtems_status_code lpc24xx_module_enable(
lpc24xx_module module,
lpc24xx_module_clock clock
)
{
return lpc24xx_module_do_enable(module, clock, true);
}
rtems_status_code lpc24xx_module_disable(
lpc24xx_module module
)
{
return lpc24xx_module_do_enable(module, 0U, false);
}
typedef rtems_status_code (*lpc24xx_pin_visitor)(
#ifdef ARM_MULTILIB_ARCH_V4
volatile uint32_t *pinsel,
uint32_t pinsel_mask,
uint32_t pinsel_value,
#endif
volatile uint32_t *fio_dir,
uint32_t fio_bit
);
static BSP_START_TEXT_SECTION __attribute__((flatten)) rtems_status_code
lpc24xx_pin_set_function(
#ifdef ARM_MULTILIB_ARCH_V4
volatile uint32_t *pinsel,
uint32_t pinsel_mask,
uint32_t pinsel_value,
#endif
volatile uint32_t *fio_dir,
uint32_t fio_bit
)
{
#ifdef ARM_MULTILIB_ARCH_V4
rtems_interrupt_level level;
rtems_interrupt_disable(level);
*pinsel = (*pinsel & ~pinsel_mask) | pinsel_value;
rtems_interrupt_enable(level);
#endif
return RTEMS_SUCCESSFUL;
}
static BSP_START_TEXT_SECTION rtems_status_code lpc24xx_pin_check_function(
#ifdef ARM_MULTILIB_ARCH_V4
volatile uint32_t *pinsel,
uint32_t pinsel_mask,
uint32_t pinsel_value,
#endif
volatile uint32_t *fio_dir,
uint32_t fio_bit
)
{
#ifdef ARM_MULTILIB_ARCH_V4
if ((*pinsel & pinsel_mask) == pinsel_value) {
return RTEMS_SUCCESSFUL;
} else {
return RTEMS_IO_ERROR;
}
#endif
}
static BSP_START_TEXT_SECTION __attribute__((flatten)) rtems_status_code
lpc24xx_pin_set_input(
#ifdef ARM_MULTILIB_ARCH_V4
volatile uint32_t *pinsel,
uint32_t pinsel_mask,
uint32_t pinsel_value,
#endif
volatile uint32_t *fio_dir,
uint32_t fio_bit
)
{
rtems_interrupt_level level;
rtems_interrupt_disable(level);
*fio_dir &= ~fio_bit;
#ifdef ARM_MULTILIB_ARCH_V4
*pinsel &= ~pinsel_mask;
#endif
rtems_interrupt_enable(level);
return RTEMS_SUCCESSFUL;
}
static BSP_START_TEXT_SECTION rtems_status_code lpc24xx_pin_check_input(
#ifdef ARM_MULTILIB_ARCH_V4
volatile uint32_t *pinsel,
uint32_t pinsel_mask,
uint32_t pinsel_value,
#endif
volatile uint32_t *fio_dir,
uint32_t fio_bit
)
{
rtems_status_code sc = RTEMS_IO_ERROR;
bool is_input = (*fio_dir & fio_bit) == 0;
if (is_input) {
#ifdef ARM_MULTILIB_ARCH_V4
bool is_gpio = (*pinsel & pinsel_mask) == 0;
#endif
if (is_gpio) {
sc = RTEMS_SUCCESSFUL;
}
}
return sc;
}
static BSP_START_DATA_SECTION const lpc24xx_pin_visitor
lpc24xx_pin_visitors [] = {
[LPC24XX_PIN_SET_FUNCTION] = lpc24xx_pin_set_function,
[LPC24XX_PIN_CHECK_FUNCTION] = lpc24xx_pin_check_function,
[LPC24XX_PIN_SET_INPUT] = lpc24xx_pin_set_input,
[LPC24XX_PIN_CHECK_INPUT] = lpc24xx_pin_check_input
};
BSP_START_TEXT_SECTION rtems_status_code lpc24xx_pin_config(
const lpc24xx_pin_range *pins,
lpc24xx_pin_action action
)
{
rtems_status_code sc = RTEMS_SUCCESSFUL;
if ((unsigned) action <= LPC24XX_PIN_CHECK_INPUT) {
lpc24xx_pin_visitor visitor = lpc24xx_pin_visitors [action];
lpc24xx_pin_range terminal = LPC24XX_PIN_TERMINAL;
lpc24xx_pin_range pin_range = *pins;
uint32_t previous_port_bit = pin_range.fields.port_bit;
while (sc == RTEMS_SUCCESSFUL && pin_range.value != terminal.value) {
uint32_t port = pin_range.fields.port;
uint32_t port_bit = pin_range.fields.port_bit;
uint32_t port_bit_last = port_bit;
uint32_t range = pin_range.fields.range;
#ifdef ARM_MULTILIB_ARCH_V4
uint32_t function = pin_range.fields.function;
#endif
volatile uint32_t *fio_dir = &LPC24XX_FIO [port].dir;
if (range) {
port_bit = previous_port_bit;
}
while (sc == RTEMS_SUCCESSFUL && port_bit <= port_bit_last) {
uint32_t index = LPC24XX_IO_INDEX_BY_PORT(port, port_bit);
uint32_t fio_bit = 1U << port_bit;
#ifdef ARM_MULTILIB_ARCH_V4
uint32_t select = LPC24XX_PIN_SELECT(index);
uint32_t shift = LPC24XX_PIN_SELECT_SHIFT(index);
volatile uint32_t *pinsel = &LPC24XX_PINSEL [select];
uint32_t pinsel_mask = LPC24XX_PIN_SELECT_MASK << shift;
uint32_t pinsel_value = (function & LPC24XX_PIN_SELECT_MASK) << shift;
sc = (*visitor)(pinsel, pinsel_mask, pinsel_value, fio_dir, fio_bit);
#endif
++port_bit;
}
++pins;
previous_port_bit = port_bit;
pin_range = *pins;
}
} else {
sc = RTEMS_NOT_DEFINED;
}
return sc;
}
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