usbtest/libopencm3/lib/msp432/e4/gpio.c
Arti Zirk 244fdbc35c git subrepo clone https://github.com/libopencm3/libopencm3
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C

/** @defgroup gpio_file General-Purpose I/O
*
* @ingroup MSP432E4xx
*
* @brief libopencm3 MSP432E4xx General Purpose Input/Outputs
*
* @version 1.0.0
*
* @date 23 September 2018
*
* LGPL License Terms @ref lgpl_license
*/
/*
* This file is part of the libopencm3 project.
*
* Copyright (C) 2011 Gareth McMullin <gareth@blacksphere.co.nz>
* Copyright (C) 2013 Alexandru Gagniuc <mr.nuke.me@gmail.com>
* Copyright (C) 2018 Dmitry Rezvanov <dmitry.rezvanov@yandex.ru>
*
* This library is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
#include <libopencm3/msp432/e4/gpio.h>
#include <libopencm3/msp432/e4/systemcontrol.h>
/** @brief General Purpose Input/Outputs Set Pin Mode
*
* Sets the Pin Direction, Analog/Digital Mode and Output Pin Pull,
* for a set of GPIO pins on a given GPIO port.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] mode Pin mode @ref gpio_mode
* - GPIO_MODE_OUTPUT -- Configure pin as output
* - GPIO_MODE_INPUT -- Configure pin as input
* - GPIO_MODE_ANALOG -- Configure pin as analog function
* @param[in] pull_up_down Pin pull up/down configuration @ref gpio_pull_up_down
* - GPIO_PUPD_NONE -- Do not pull the pin high or low
* - GPIO_PUPD_PULLUP -- Pull the pin high
* - GPIO_PUPD_PULLDOWN -- Pull the pin low
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be set, use bitwise OR '|' to separate them.
*/
void gpio_mode_setup(uint32_t gpioport, enum gpio_mode mode,
enum gpio_pull_up_down pull_up_down, uint8_t gpios)
{
GPIO_AFSEL(gpioport) &= ~gpios;
switch (mode) {
case GPIO_MODE_OUTPUT:
GPIO_DIR(gpioport) |= gpios;
GPIO_DEN(gpioport) |= gpios;
GPIO_AMSEL(gpioport) &= ~gpios;
break;
case GPIO_MODE_INPUT:
GPIO_DIR(gpioport) &= ~gpios;
GPIO_DEN(gpioport) |= gpios;
GPIO_AMSEL(gpioport) &= ~gpios;
break;
case GPIO_MODE_ANALOG:
GPIO_AFSEL(gpioport) |= gpios;
GPIO_DEN(gpioport) &= ~gpios;
GPIO_AMSEL(gpioport) |= gpios;
break;
default:
/* Don't do anything */
break;
}
/*
* Setting a bit in the GPIO_PDR register clears the corresponding bit
* in the GPIO_PUR register, and vice-versa.
*/
switch (pull_up_down) {
case GPIO_PUPD_PULLUP:
GPIO_PDR(gpioport) &= ~gpios;
GPIO_PUR(gpioport) |= gpios;
break;
case GPIO_PUPD_PULLDOWN:
GPIO_PUR(gpioport) &= ~gpios;
GPIO_PDR(gpioport) |= gpios;
break;
case GPIO_PUPD_NONE: /* Fall through */
default:
GPIO_PUR(gpioport) &= ~gpios;
GPIO_PDR(gpioport) &= ~gpios;
break;
}
}
/** @brief General Purpose Input/Outputs Set Output Options
*
* When the pin is set to output mode, this sets the configuration
* (open drain/push pull), drive strength, speed and slew rate control,
* for a set of GPIO pins on a given GPIO port.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] otype Output driver configuration @ref gpio_output_type
* - GPIO_OTYPE_PP -- Configure pin driver as push-pull \n
* - GPIO_OTYPE_OD -- Configure pin driver as open drain
* @param[in] drive Pin drive strength @ref gpio_drive_strength
* - GPIO_DRIVE_2MA -- 2mA drive \n
* - GPIO_DRIVE_4MA -- 4mA drive \n
* - GPIO_DRIVE_6MA -- 4mA drive \n
* - GPIO_DRIVE_8MA -- 8mA drive \n
* - GPIO_DRIVE_10MA -- 10mA drive \n
* - GPIO_DRIVE_12MA -- 12mA drive
* @param[in] slewctl Pin slew rate control select @ref gpio_slew_ctl
* @note Available only for 8, 10 and 12-ma drive strength.
* - GPIO_SLEW_CTL_ENABLE -- Slew rate control enable
* - GPIO_SLEW_CTL_DISABLE -- Slew rate control disable
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be set, use bitwise OR '|' to separate them.
*/
void gpio_set_output_options(uint32_t gpioport,
enum gpio_output_type otype,
enum gpio_drive_strength drive,
enum gpio_slew_ctl slewctl,
uint8_t gpios)
{
uint8_t i;
uint8_t pin_mask;
if (otype == GPIO_OTYPE_OD) {
GPIO_ODR(gpioport) |= gpios;
} else {
GPIO_ODR(gpioport) &= ~gpios;
}
GPIO_PP(gpioport) |= GPIO_PP_EDE;
for (i = 0; i < 8; i++) {
pin_mask = (1 << i);
if (!(gpios & pin_mask)) {
continue;
}
GPIO_PC(gpioport) &= ~GPIO_PC_EDM_MASK(i);
GPIO_PC(gpioport) |= GPIO_PC_EDM(i, GPIO_PC_EDM_FULL_RANGE);
}
GPIO_DR4R(gpioport) &= ~gpios;
GPIO_DR8R(gpioport) &= ~gpios;
GPIO_DR12R(gpioport) &= ~gpios;
switch (drive) {
case GPIO_DRIVE_4MA:
GPIO_DR4R(gpioport) |= gpios;
break;
case GPIO_DRIVE_6MA:
GPIO_DR8R(gpioport) |= gpios;
break;
case GPIO_DRIVE_8MA:
GPIO_DR4R(gpioport) |= gpios;
GPIO_DR8R(gpioport) |= gpios;
break;
case GPIO_DRIVE_10MA:
GPIO_DR8R(gpioport) |= gpios;
GPIO_DR12R(gpioport) |= gpios;
break;
case GPIO_DRIVE_12MA:
GPIO_DR4R(gpioport) |= gpios;
GPIO_DR8R(gpioport) |= gpios;
GPIO_DR12R(gpioport) |= gpios;
break;
case GPIO_DRIVE_2MA: /* Fall through */
default:
/* don't anything */
break;
}
if ((slewctl == GPIO_SLEW_CTL_ENABLE) &&
((drive == GPIO_DRIVE_8MA) || (drive == GPIO_DRIVE_10MA) ||
(drive == GPIO_DRIVE_12MA))) {
GPIO_SLR(gpioport) |= gpios;
} else {
GPIO_SLR(gpioport) &= ~gpios;
}
}
/** @brief General Purpose Input/Outputs Set Alternate Function Selection
*
* Mux the pin or group of pins to the given alternate function. Note that a
* number of pins may be set but only with a single AF number.
*
* Because AF0 is not used on the MSP432E4,
* passing GPIO_AF_DISABLE as the alt_func_num parameter will disable
* the alternate function of the given pins.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] alt_func_num Pin alternate function number or GPIO_AF_DISABLE to
* disable the alternate function multiplexing.
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be set, use bitwise OR '|' to separate them.
*/
void gpio_set_af(uint32_t gpioport, uint8_t alt_func_num, uint8_t gpios)
{
uint32_t pctl32;
uint8_t pin_mask;
uint8_t i;
/* Did we mean to disable the alternate function? */
if (alt_func_num == 0) {
GPIO_AFSEL(gpioport) &= ~gpios;
return;
}
/* Enable the alternate function */
GPIO_AFSEL(gpioport) |= gpios;
/* Now take care of the actual multiplexing */
pctl32 = GPIO_PCTL(gpioport);
for (i = 0; i < 8; i++) {
pin_mask = (1 << i);
if (!(gpios & pin_mask)) {
continue;
}
pctl32 &= ~GPIO_PCTL_MASK(i);
pctl32 |= GPIO_PCTL_AF(i, (alt_func_num & 0xf));
}
GPIO_PCTL(gpioport) = pctl32;
}
/** @brief General Purpose Input/Outputs Configure Interrupt Trigger
*
* Sets the trigger level/edge, for a set of GPIO pins on a given GPIO port.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] trigger Trigger configuration @ref gpio_trigger
* - GPIO_TRIG_LVL_LOW -- Trigger on low level
* - GPIO_TRIG_LVL_HIGH -- Trigger on high level
* - GPIO_TRIG_EDGE_FALL -- Trigger on falling edges
* - GPIO_TRIG_EDGE_RISE -- Trigger on rising edges
* - GPIO_TRIG_EDGE_BOTH -- Trigger on all edges
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be configure, use bitwise OR '|' to separate them.
*/
void gpio_configure_trigger(uint32_t gpioport, enum gpio_trigger trigger,
uint8_t gpios)
{
switch (trigger) {
case GPIO_TRIG_LVL_LOW:
GPIO_IS(gpioport) |= gpios;
GPIO_IEV(gpioport) &= ~gpios;
break;
case GPIO_TRIG_LVL_HIGH:
GPIO_IS(gpioport) |= gpios;
GPIO_IEV(gpioport) |= gpios;
break;
case GPIO_TRIG_EDGE_FALL:
GPIO_IS(gpioport) &= ~gpios;
GPIO_IBE(gpioport) &= ~gpios;
GPIO_IEV(gpioport) &= ~gpios;
break;
case GPIO_TRIG_EDGE_RISE:
GPIO_IS(gpioport) &= ~gpios;
GPIO_IBE(gpioport) &= ~gpios;
GPIO_IEV(gpioport) |= gpios;
break;
case GPIO_TRIG_EDGE_BOTH:
GPIO_IS(gpioport) &= ~gpios;
GPIO_IBE(gpioport) |= gpios;
break;
default:
/* Don't do anything */
break;
}
}
/** @brief General Purpose Input/Outputs Set a Group of Pins Atomic
*
* Set one or more pins of the given GPIO port to 1 in an atomic operation.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be changed, use bitwise OR '|' to separate them.
*/
void gpio_set(uint32_t gpioport, uint8_t gpios)
{
GPIO_DATA(gpioport)[gpios] = 0xFF;
}
/** @brief General Purpose Input/Outputs Clear a Group of Pins Atomic
*
* Clear one or more pins of the given GPIO port to 0 in an atomic operation.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be changed, use bitwise OR '|' to separate them.
*/
void gpio_clear(uint32_t gpioport, uint8_t gpios)
{
GPIO_DATA(gpioport)[gpios] = 0x0;
}
/** @brief General Purpose Input/Outputs Read a Group of Pins
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be read, use bitwise OR '|' to separate them.
*
* @return Unsigned int8 value of the pin values. The bit position of the pin
value returned corresponds to the pin number.
*/
uint8_t gpio_get(uint32_t gpioport, uint8_t gpios)
{
return (uint8_t)GPIO_DATA(gpioport)[gpios];
}
/** @brief General Purpose Input/Outputs Toggle a Group of Pins
*
* Toggle one or more pins of the given GPIO port.
* The non-toggled pins are not affected.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be changed, use bitwise OR '|' to separate them.
*/
void gpio_toggle(uint32_t gpioport, uint8_t gpios)
{
/* The mask makes sure we only toggle the GPIOs we want to */
GPIO_DATA(gpioport)[gpios] ^= GPIO_ALL;
}
/** @brief General Purpose Input/Outputs Read from a Port
*
* Read the current value of the given GPIO port.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
*
* @return Unsigned int8. The value held in the specified GPIO port.
*/
uint8_t gpio_port_read(uint32_t gpioport)
{
return (uint8_t)GPIO_DATA(gpioport)[GPIO_ALL];
}
/** @brief General Purpose Input/Outputs Write to a Port
*
* Write a value to the given GPIO port.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] data Unsigned int8. The value to be written to the GPIO port.
*/
void gpio_port_write(uint32_t gpioport, uint8_t data)
{
GPIO_DATA(gpioport)[GPIO_ALL] = data;
}
/** @brief General Purpose Input/Outputs Enable Interrupts on specified pins
*
* Enable interrupts on the specified GPIO pins.
*
* @note The NVIC must be enabled and properly configured for the interrupt
* to be routed to the CPU.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base)
* @param[in] gpios Pin identifiers @ref gpio_pin_id.
* Pins whose interrupts to enable.
* If multiple pins are to be enable interrupt,
* use bitwise OR '|' to separate them.
*/
void gpio_enable_interrupts(uint32_t gpioport, uint8_t gpios)
{
GPIO_IM(gpioport) |= gpios;
}
/** @brief General Purpose Input/Outputs Disable interrupts on specified pins
*
* Disable interrupts on the specified GPIO pins.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id.
* Pins whose interrupts to disable.
* If multiple pins are to be disable interrupt,
* use bitwise OR '|' to separate them.
*/
void gpio_disable_interrupts(uint32_t gpioport, uint8_t gpios)
{
GPIO_IM(gpioport) &= ~gpios;
}
/** @brief General Purpose Input/Outputs Unlock The Commit Control
*
* Unlocks the commit control of the given pin or group of pins. If a pin is a
* JTAG/SWD or NMI, the pin may then be reconfigured as a GPIO pin. If the pin
* is not locked by default, this has no effect.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id.
* If multiple pins are to be unlock,
* use bitwise OR '|' to separate them.
*/
void gpio_unlock_commit(uint32_t gpioport, uint8_t gpios)
{
/* Unlock the GPIO_CR register */
GPIO_LOCK(gpioport) = GPIO_LOCK_UNLOCK_CODE;
/* Enable committing changes */
GPIO_CR(gpioport) |= gpios;
/* Lock the GPIO_CR register */
GPIO_LOCK(gpioport) = ~GPIO_LOCK_UNLOCK_CODE;
}
/** @brief General Purpose Input/Outputs Determine if interrupt is generated
* by the given pin
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Source pin identifiers @ref gpio_pin_id.
* If multiple pins are to be check,
* use bitwise OR '|' to separate them.
*
* @return Unsigned int8. The bit position of the pin
value returned corresponds to the pin number.
*/
uint8_t gpio_is_interrupt_source(uint32_t gpioport, uint8_t gpios)
{
return GPIO_MIS(gpioport) & gpios;
}
/** @brief General Purpose Input/Outputs Mark Interrupt as Serviced
*
* After an interrupt is services, its flag must be cleared. If the flag is not
* cleared, then execution will jump back to the start of the ISR after the ISR
* returns.
*
* @param[in] gpioport GPIO block register address base @ref gpio_reg_base
* @param[in] gpios Pin identifiers @ref gpio_pin_id. If multiple pins are
* to be clear interrupt flag, use bitwise OR '|' to separate them.
*/
void gpio_clear_interrupt_flag(uint32_t gpioport, uint8_t gpios)
{
GPIO_ICR(gpioport) |= gpios;
}