//***************************************************************************** // // gpio.c - API for GPIO ports // // Copyright (c) 2005-2014 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // This is part of revision 2.1.0.12573 of the Tiva Peripheral Driver Library. // //***************************************************************************** //***************************************************************************** // //! \addtogroup gpio_api //! @{ // //***************************************************************************** #include #include #include "inc/hw_gpio.h" #include "inc/hw_ints.h" #include "inc/hw_memmap.h" #include "inc/hw_sysctl.h" #include "inc/hw_types.h" #include "driverlib/debug.h" #include "driverlib/gpio.h" #include "driverlib/interrupt.h" //***************************************************************************** // // A mapping of GPIO port address to interrupt number. // //***************************************************************************** static const uint32_t g_ppui32GPIOIntMapBlizzard[][2] = { { GPIO_PORTA_BASE, INT_GPIOA_TM4C123 }, { GPIO_PORTA_AHB_BASE, INT_GPIOA_TM4C123 }, { GPIO_PORTB_BASE, INT_GPIOB_TM4C123 }, { GPIO_PORTB_AHB_BASE, INT_GPIOB_TM4C123 }, { GPIO_PORTC_BASE, INT_GPIOC_TM4C123 }, { GPIO_PORTC_AHB_BASE, INT_GPIOC_TM4C123 }, { GPIO_PORTD_BASE, INT_GPIOD_TM4C123 }, { GPIO_PORTD_AHB_BASE, INT_GPIOD_TM4C123 }, { GPIO_PORTE_BASE, INT_GPIOE_TM4C123 }, { GPIO_PORTE_AHB_BASE, INT_GPIOE_TM4C123 }, { GPIO_PORTF_BASE, INT_GPIOF_TM4C123 }, { GPIO_PORTF_AHB_BASE, INT_GPIOF_TM4C123 }, { GPIO_PORTG_BASE, INT_GPIOG_TM4C123 }, { GPIO_PORTG_AHB_BASE, INT_GPIOG_TM4C123 }, { GPIO_PORTH_BASE, INT_GPIOH_TM4C123 }, { GPIO_PORTH_AHB_BASE, INT_GPIOH_TM4C123 }, { GPIO_PORTJ_BASE, INT_GPIOJ_TM4C123 }, { GPIO_PORTJ_AHB_BASE, INT_GPIOJ_TM4C123 }, { GPIO_PORTK_BASE, INT_GPIOK_TM4C123 }, { GPIO_PORTL_BASE, INT_GPIOL_TM4C123 }, { GPIO_PORTM_BASE, INT_GPIOM_TM4C123 }, { GPIO_PORTN_BASE, INT_GPION_TM4C123 }, { GPIO_PORTP_BASE, INT_GPIOP0_TM4C123 }, { GPIO_PORTQ_BASE, INT_GPIOQ0_TM4C123 }, }; static const uint_fast32_t g_ui32GPIOIntMapBlizzardRows = sizeof(g_ppui32GPIOIntMapBlizzard) / sizeof(g_ppui32GPIOIntMapBlizzard[0]); static const uint32_t g_ppui32GPIOIntMapSnowflake[][2] = { { GPIO_PORTA_BASE, INT_GPIOA_TM4C129 }, { GPIO_PORTA_AHB_BASE, INT_GPIOA_TM4C129 }, { GPIO_PORTB_BASE, INT_GPIOB_TM4C129 }, { GPIO_PORTB_AHB_BASE, INT_GPIOB_TM4C129 }, { GPIO_PORTC_BASE, INT_GPIOC_TM4C129 }, { GPIO_PORTC_AHB_BASE, INT_GPIOC_TM4C129 }, { GPIO_PORTD_BASE, INT_GPIOD_TM4C129 }, { GPIO_PORTD_AHB_BASE, INT_GPIOD_TM4C129 }, { GPIO_PORTE_BASE, INT_GPIOE_TM4C129 }, { GPIO_PORTE_AHB_BASE, INT_GPIOE_TM4C129 }, { GPIO_PORTF_BASE, INT_GPIOF_TM4C129 }, { GPIO_PORTF_AHB_BASE, INT_GPIOF_TM4C129 }, { GPIO_PORTG_BASE, INT_GPIOG_TM4C129 }, { GPIO_PORTG_AHB_BASE, INT_GPIOG_TM4C129 }, { GPIO_PORTH_BASE, INT_GPIOH_TM4C129 }, { GPIO_PORTH_AHB_BASE, INT_GPIOH_TM4C129 }, { GPIO_PORTJ_BASE, INT_GPIOJ_TM4C129 }, { GPIO_PORTJ_AHB_BASE, INT_GPIOJ_TM4C129 }, { GPIO_PORTK_BASE, INT_GPIOK_TM4C129 }, { GPIO_PORTL_BASE, INT_GPIOL_TM4C129 }, { GPIO_PORTM_BASE, INT_GPIOM_TM4C129 }, { GPIO_PORTN_BASE, INT_GPION_TM4C129 }, { GPIO_PORTP_BASE, INT_GPIOP0_TM4C129 }, { GPIO_PORTQ_BASE, INT_GPIOQ0_TM4C129 }, }; static const uint_fast32_t g_ui32GPIOIntMapSnowflakeRows = (sizeof(g_ppui32GPIOIntMapSnowflake) / sizeof(g_ppui32GPIOIntMapSnowflake[0])); //***************************************************************************** // // The base addresses of all the GPIO modules. Both the APB and AHB apertures // are provided. // //***************************************************************************** static const uint32_t g_pui32GPIOBaseAddrs[] = { GPIO_PORTA_BASE, GPIO_PORTA_AHB_BASE, GPIO_PORTB_BASE, GPIO_PORTB_AHB_BASE, GPIO_PORTC_BASE, GPIO_PORTC_AHB_BASE, GPIO_PORTD_BASE, GPIO_PORTD_AHB_BASE, GPIO_PORTE_BASE, GPIO_PORTE_AHB_BASE, GPIO_PORTF_BASE, GPIO_PORTF_AHB_BASE, GPIO_PORTG_BASE, GPIO_PORTG_AHB_BASE, GPIO_PORTH_BASE, GPIO_PORTH_AHB_BASE, GPIO_PORTJ_BASE, GPIO_PORTJ_AHB_BASE, GPIO_PORTK_BASE, GPIO_PORTK_BASE, GPIO_PORTL_BASE, GPIO_PORTL_BASE, GPIO_PORTM_BASE, GPIO_PORTM_BASE, GPIO_PORTN_BASE, GPIO_PORTN_BASE, GPIO_PORTP_BASE, GPIO_PORTP_BASE, GPIO_PORTQ_BASE, GPIO_PORTQ_BASE, GPIO_PORTR_BASE, GPIO_PORTR_BASE, GPIO_PORTS_BASE, GPIO_PORTS_BASE, GPIO_PORTT_BASE, GPIO_PORTT_BASE, }; //***************************************************************************** // //! \internal //! Checks a GPIO base address. //! //! \param ui32Port is the base address of the GPIO port. //! //! This function determines if a GPIO port base address is valid. //! //! \return Returns \b true if the base address is valid and \b false //! otherwise. // //***************************************************************************** #ifdef DEBUG static bool _GPIOBaseValid(uint32_t ui32Port) { return((ui32Port == GPIO_PORTA_BASE) || (ui32Port == GPIO_PORTA_AHB_BASE) || (ui32Port == GPIO_PORTB_BASE) || (ui32Port == GPIO_PORTB_AHB_BASE) || (ui32Port == GPIO_PORTC_BASE) || (ui32Port == GPIO_PORTC_AHB_BASE) || (ui32Port == GPIO_PORTD_BASE) || (ui32Port == GPIO_PORTD_AHB_BASE) || (ui32Port == GPIO_PORTE_BASE) || (ui32Port == GPIO_PORTE_AHB_BASE) || (ui32Port == GPIO_PORTF_BASE) || (ui32Port == GPIO_PORTF_AHB_BASE) || (ui32Port == GPIO_PORTG_BASE) || (ui32Port == GPIO_PORTG_AHB_BASE) || (ui32Port == GPIO_PORTH_BASE) || (ui32Port == GPIO_PORTH_AHB_BASE) || (ui32Port == GPIO_PORTJ_BASE) || (ui32Port == GPIO_PORTJ_AHB_BASE) || (ui32Port == GPIO_PORTK_BASE) || (ui32Port == GPIO_PORTL_BASE) || (ui32Port == GPIO_PORTM_BASE) || (ui32Port == GPIO_PORTN_BASE) || (ui32Port == GPIO_PORTP_BASE) || (ui32Port == GPIO_PORTQ_BASE) || (ui32Port == GPIO_PORTR_BASE) || (ui32Port == GPIO_PORTS_BASE) || (ui32Port == GPIO_PORTT_BASE)); } #endif //***************************************************************************** // //! Gets the GPIO interrupt number. //! //! \param ui32Port is the base address of the GPIO port. //! //! Given a GPIO base address, this function returns the corresponding //! interrupt number. //! //! \return Returns a GPIO interrupt number, or 0 if \e ui32Port is invalid. // //***************************************************************************** static uint32_t _GPIOIntNumberGet(uint32_t ui32Port) { uint_fast32_t ui32Idx, ui32Rows; const uint32_t (*ppui32GPIOIntMap)[2]; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ppui32GPIOIntMap = g_ppui32GPIOIntMapBlizzard; ui32Rows = g_ui32GPIOIntMapBlizzardRows; if(CLASS_IS_TM4C129) { ppui32GPIOIntMap = g_ppui32GPIOIntMapSnowflake; ui32Rows = g_ui32GPIOIntMapSnowflakeRows; } // // Loop through the table that maps I2C base addresses to interrupt // numbers. // for(ui32Idx = 0; ui32Idx < ui32Rows; ui32Idx++) { // // See if this base address matches. // if(ppui32GPIOIntMap[ui32Idx][0] == ui32Port) { // // Return the corresponding interrupt number. // return(ppui32GPIOIntMap[ui32Idx][1]); } } // // The base address could not be found, so return an error. // return(0); } //***************************************************************************** // //! Sets the direction and mode of the specified pin(s). //! //! \param ui32Port is the base address of the GPIO port //! \param ui8Pins is the bit-packed representation of the pin(s). //! \param ui32PinIO is the pin direction and/or mode. //! //! This function configures the specified pin(s) on the selected GPIO port //! as either input or output under software control, or it configures the //! pin to be under hardware control. //! //! The parameter \e ui32PinIO is an enumerated data type that can be one of //! the following values: //! //! - \b GPIO_DIR_MODE_IN //! - \b GPIO_DIR_MODE_OUT //! - \b GPIO_DIR_MODE_HW //! //! where \b GPIO_DIR_MODE_IN specifies that the pin is programmed as a //! software controlled input, \b GPIO_DIR_MODE_OUT specifies that the pin is //! programmed as a software controlled output, and \b GPIO_DIR_MODE_HW //! specifies that the pin is placed under hardware control. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note GPIOPadConfigSet() must also be used to configure the corresponding //! pad(s) in order for them to propagate the signal to/from the GPIO. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIODirModeSet(uint32_t ui32Port, uint8_t ui8Pins, uint32_t ui32PinIO) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT((ui32PinIO == GPIO_DIR_MODE_IN) || (ui32PinIO == GPIO_DIR_MODE_OUT) || (ui32PinIO == GPIO_DIR_MODE_HW)); // // Set the pin direction and mode. // HWREG(ui32Port + GPIO_O_DIR) = ((ui32PinIO & 1) ? (HWREG(ui32Port + GPIO_O_DIR) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DIR) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_AFSEL) = ((ui32PinIO & 2) ? (HWREG(ui32Port + GPIO_O_AFSEL) | ui8Pins) : (HWREG(ui32Port + GPIO_O_AFSEL) & ~(ui8Pins))); } //***************************************************************************** // //! Gets the direction and mode of a pin. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pin is the pin number. //! //! This function gets the direction and control mode for a specified pin on //! the selected GPIO port. The pin can be configured as either an input or //! output under software control, or it can be under hardware control. The //! type of control and direction are returned as an enumerated data type. //! //! \return Returns one of the enumerated data types described for //! GPIODirModeSet(). // //***************************************************************************** uint32_t GPIODirModeGet(uint32_t ui32Port, uint8_t ui8Pin) { uint32_t ui32Dir, ui32AFSEL; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT(ui8Pin < 8); // // Convert from a pin number to a bit position. // ui8Pin = 1 << ui8Pin; // // Return the pin direction and mode. // ui32Dir = HWREG(ui32Port + GPIO_O_DIR); ui32AFSEL = HWREG(ui32Port + GPIO_O_AFSEL); return(((ui32Dir & ui8Pin) ? 1 : 0) | ((ui32AFSEL & ui8Pin) ? 2 : 0)); } //***************************************************************************** // //! Sets the interrupt type for the specified pin(s). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! \param ui32IntType specifies the type of interrupt trigger mechanism. //! //! This function sets up the various interrupt trigger mechanisms for the //! specified pin(s) on the selected GPIO port. //! //! One of the following flags can be used to define the \e ui32IntType //! parameter: //! //! - \b GPIO_FALLING_EDGE sets detection to edge and trigger to falling //! - \b GPIO_RISING_EDGE sets detection to edge and trigger to rising //! - \b GPIO_BOTH_EDGES sets detection to both edges //! - \b GPIO_LOW_LEVEL sets detection to low level //! - \b GPIO_HIGH_LEVEL sets detection to high level //! //! In addition to the above flags, the following flag can be OR'd in to the //! \e ui32IntType parameter: //! //! - \b GPIO_DISCRETE_INT sets discrete interrupts for each pin on a GPIO //! port. //! //! The \b GPIO_DISCRETE_INT is not available on all devices or all GPIO ports, //! consult the data sheet to ensure that the device and the GPIO port supports //! discrete interrupts. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note In order to avoid any spurious interrupts, the user must ensure that //! the GPIO inputs remain stable for the duration of this function. //! //! \return None. // //***************************************************************************** void GPIOIntTypeSet(uint32_t ui32Port, uint8_t ui8Pins, uint32_t ui32IntType) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT((ui32IntType == GPIO_FALLING_EDGE) || (ui32IntType == GPIO_RISING_EDGE) || (ui32IntType == GPIO_BOTH_EDGES) || (ui32IntType == GPIO_LOW_LEVEL) || (ui32IntType == GPIO_HIGH_LEVEL)); // // Set the pin interrupt type. // HWREG(ui32Port + GPIO_O_IBE) = ((ui32IntType & 1) ? (HWREG(ui32Port + GPIO_O_IBE) | ui8Pins) : (HWREG(ui32Port + GPIO_O_IBE) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_IS) = ((ui32IntType & 2) ? (HWREG(ui32Port + GPIO_O_IS) | ui8Pins) : (HWREG(ui32Port + GPIO_O_IS) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_IEV) = ((ui32IntType & 4) ? (HWREG(ui32Port + GPIO_O_IEV) | ui8Pins) : (HWREG(ui32Port + GPIO_O_IEV) & ~(ui8Pins))); // // Set or clear the discrete interrupt feature. This is not available // on all parts or ports but is safe to write in all cases. // HWREG(ui32Port + GPIO_O_SI) = ((ui32IntType & 0x10000) ? (HWREG(ui32Port + GPIO_O_SI) | 0x01) : (HWREG(ui32Port + GPIO_O_SI) & ~(0x01))); } //***************************************************************************** // //! Gets the interrupt type for a pin. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pin is the pin number. //! //! This function gets the interrupt type for a specified pin on the selected //! GPIO port. The pin can be configured as a falling-edge, rising-edge, or //! both-edges detected interrupt, or it can be configured as a low-level or //! high-level detected interrupt. The type of interrupt detection mechanism //! is returned and can include the \b GPIO_DISCRETE_INT flag. //! //! \return Returns one of the flags described for GPIOIntTypeSet(). // //***************************************************************************** uint32_t GPIOIntTypeGet(uint32_t ui32Port, uint8_t ui8Pin) { uint32_t ui32IBE, ui32IS, ui32IEV, ui32SI; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT(ui8Pin < 8); // // Convert from a pin number to a bit position. // ui8Pin = 1 << ui8Pin; // // Return the pin interrupt type. // ui32IBE = HWREG(ui32Port + GPIO_O_IBE); ui32IS = HWREG(ui32Port + GPIO_O_IS); ui32IEV = HWREG(ui32Port + GPIO_O_IEV); ui32SI = HWREG(ui32Port + GPIO_O_SI); return(((ui32IBE & ui8Pin) ? 1 : 0) | ((ui32IS & ui8Pin) ? 2 : 0) | ((ui32IEV & ui8Pin) ? 4 : 0) | (ui32SI & 0x01) ? 0x10000 : 0); } //***************************************************************************** // //! Sets the pad configuration for the specified pin(s). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! \param ui32Strength specifies the output drive strength. //! \param ui32PinType specifies the pin type. //! //! This function sets the drive strength and type for the specified pin(s) //! on the selected GPIO port. For pin(s) configured as input ports, the //! pad is configured as requested, but the only real effect on the input //! is the configuration of the pull-up or pull-down termination. //! //! The parameter \e ui32Strength can be one of the following values: //! //! - \b GPIO_STRENGTH_2MA //! - \b GPIO_STRENGTH_4MA //! - \b GPIO_STRENGTH_8MA //! - \b GPIO_STRENGTH_8MA_SC //! - \b GPIO_STRENGTH_6MA //! - \b GPIO_STRENGTH_10MA //! - \b GPIO_STRENGTH_12MA //! //! where \b GPIO_STRENGTH_xMA specifies either 2, 4, or 8 mA output drive //! strength, and \b GPIO_OUT_STRENGTH_8MA_SC specifies 8 mA output drive with //! slew control. //! //! Some Tiva devices also support output drive strengths of 6, 10, and 12 //! mA. //! //! The parameter \e ui32PinType can be one of the following values: //! //! - \b GPIO_PIN_TYPE_STD //! - \b GPIO_PIN_TYPE_STD_WPU //! - \b GPIO_PIN_TYPE_STD_WPD //! - \b GPIO_PIN_TYPE_OD //! - \b GPIO_PIN_TYPE_ANALOG //! - \b GPIO_PIN_TYPE_WAKE_HIGH //! - \b GPIO_PIN_TYPE_WAKE_LOW //! //! where \b GPIO_PIN_TYPE_STD* specifies a push-pull pin, \b GPIO_PIN_TYPE_OD* //! specifies an open-drain pin, \b *_WPU specifies a weak pull-up, \b *_WPD //! specifies a weak pull-down, and \b GPIO_PIN_TYPE_ANALOG specifies an analog //! input. //! //! The \b GPIO_PIN_TYPE_WAKE_* settings specify the pin to be used as a //! hibernation wake source. The pin sense level can be high or low. These //! settings are only available on some Tiva devices. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPadConfigSet(uint32_t ui32Port, uint8_t ui8Pins, uint32_t ui32Strength, uint32_t ui32PinType) { uint8_t ui8Bit; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT((ui32Strength == GPIO_STRENGTH_2MA) || (ui32Strength == GPIO_STRENGTH_4MA) || (ui32Strength == GPIO_STRENGTH_6MA) || (ui32Strength == GPIO_STRENGTH_8MA) || (ui32Strength == GPIO_STRENGTH_8MA_SC) || (ui32Strength == GPIO_STRENGTH_10MA) || (ui32Strength == GPIO_STRENGTH_12MA)); ASSERT((ui32PinType == GPIO_PIN_TYPE_STD) || (ui32PinType == GPIO_PIN_TYPE_STD_WPU) || (ui32PinType == GPIO_PIN_TYPE_STD_WPD) || (ui32PinType == GPIO_PIN_TYPE_OD) || (ui32PinType == GPIO_PIN_TYPE_WAKE_LOW) || (ui32PinType == GPIO_PIN_TYPE_WAKE_HIGH) || (ui32PinType == GPIO_PIN_TYPE_ANALOG)); // // Set the GPIO peripheral configuration register first as required. This // register only appears in TM4E111 and later device classes, but is a // harmless write on older devices. Walk pins 0-7 and clear or set the // provided PC[EDMn] encoding. // for(ui8Bit = 0; ui8Bit < 8; ui8Bit++) { if(ui8Pins & (1 << ui8Bit)) { HWREG(ui32Port + GPIO_O_PC) = (HWREG(ui32Port + GPIO_O_PC) & ~(0x3 << (2 * ui8Bit))); HWREG(ui32Port + GPIO_O_PC) |= (((ui32Strength >> 5) & 0x3) << (2 * ui8Bit)); } } // // Set the output drive strength. // HWREG(ui32Port + GPIO_O_DR2R) = ((ui32Strength & 1) ? (HWREG(ui32Port + GPIO_O_DR2R) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DR2R) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_DR4R) = ((ui32Strength & 2) ? (HWREG(ui32Port + GPIO_O_DR4R) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DR4R) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_DR8R) = ((ui32Strength & 4) ? (HWREG(ui32Port + GPIO_O_DR8R) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DR8R) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_SLR) = ((ui32Strength & 8) ? (HWREG(ui32Port + GPIO_O_SLR) | ui8Pins) : (HWREG(ui32Port + GPIO_O_SLR) & ~(ui8Pins))); // // Set the 12-mA drive select register. This register only appears in // TM4E111 and later device classes, but is a harmless write on older // devices. // HWREG(ui32Port + GPIO_O_DR12R) = ((ui32Strength & 0x10) ? (HWREG(ui32Port + GPIO_O_DR12R) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DR12R) & ~(ui8Pins))); // // Set the pin type. // HWREG(ui32Port + GPIO_O_ODR) = ((ui32PinType & 1) ? (HWREG(ui32Port + GPIO_O_ODR) | ui8Pins) : (HWREG(ui32Port + GPIO_O_ODR) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_PUR) = ((ui32PinType & 2) ? (HWREG(ui32Port + GPIO_O_PUR) | ui8Pins) : (HWREG(ui32Port + GPIO_O_PUR) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_PDR) = ((ui32PinType & 4) ? (HWREG(ui32Port + GPIO_O_PDR) | ui8Pins) : (HWREG(ui32Port + GPIO_O_PDR) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_DEN) = ((ui32PinType & 8) ? (HWREG(ui32Port + GPIO_O_DEN) | ui8Pins) : (HWREG(ui32Port + GPIO_O_DEN) & ~(ui8Pins))); // // Set the wake pin enable register and the wake level register. These // registers only appear in TM4E111 and later device classes, but are // harmless writes on older devices. // HWREG(ui32Port + GPIO_O_WAKELVL) = ((ui32PinType & 0x200) ? (HWREG(ui32Port + GPIO_O_WAKELVL) | ui8Pins) : (HWREG(ui32Port + GPIO_O_WAKELVL) & ~(ui8Pins))); HWREG(ui32Port + GPIO_O_WAKEPEN) = ((ui32PinType & 0x300) ? (HWREG(ui32Port + GPIO_O_WAKEPEN) | ui8Pins) : (HWREG(ui32Port + GPIO_O_WAKEPEN) & ~(ui8Pins))); // // Set the analog mode select register. // HWREG(ui32Port + GPIO_O_AMSEL) = ((ui32PinType == GPIO_PIN_TYPE_ANALOG) ? (HWREG(ui32Port + GPIO_O_AMSEL) | ui8Pins) : (HWREG(ui32Port + GPIO_O_AMSEL) & ~(ui8Pins))); } //***************************************************************************** // //! Gets the pad configuration for a pin. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pin is the pin number. //! \param pui32Strength is a pointer to storage for the output drive strength. //! \param pui32PinType is a pointer to storage for the output drive type. //! //! This function gets the pad configuration for a specified pin on the //! selected GPIO port. The values returned in \e pui32Strength and //! \e pui32PinType correspond to the values used in GPIOPadConfigSet(). This //! function also works for pin(s) configured as input pin(s); however, the //! only meaningful data returned is whether the pin is terminated with a //! pull-up or down resistor. //! //! \return None // //***************************************************************************** void GPIOPadConfigGet(uint32_t ui32Port, uint8_t ui8Pin, uint32_t *pui32Strength, uint32_t *pui32PinType) { uint32_t ui32PinType, ui32Strength; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); ASSERT(ui8Pin < 8); // // Convert from a pin number to a bit position. // ui8Pin = (1 << ui8Pin); // // Get the drive strength for this pin. // ui32Strength = ((HWREG(ui32Port + GPIO_O_DR2R) & ui8Pin) ? 1 : 0); ui32Strength |= ((HWREG(ui32Port + GPIO_O_DR4R) & ui8Pin) ? 2 : 0); ui32Strength |= ((HWREG(ui32Port + GPIO_O_DR8R) & ui8Pin) ? 4 : 0); ui32Strength |= ((HWREG(ui32Port + GPIO_O_SLR) & ui8Pin) ? 8 : 0); ui32Strength |= ((HWREG(ui32Port + GPIO_O_DR12R) & ui8Pin) ? 0x10 : 0); ui32Strength |= (((HWREG(ui32Port + GPIO_O_PC) >> (2 * ui8Pin)) & 0x3) << 5); *pui32Strength = ui32Strength; // // Get the pin type. // ui32PinType = ((HWREG(ui32Port + GPIO_O_ODR) & ui8Pin) ? 1 : 0); ui32PinType |= ((HWREG(ui32Port + GPIO_O_PUR) & ui8Pin) ? 2 : 0); ui32PinType |= ((HWREG(ui32Port + GPIO_O_PDR) & ui8Pin) ? 4 : 0); ui32PinType |= ((HWREG(ui32Port + GPIO_O_DEN) & ui8Pin) ? 8 : 0); if(HWREG(ui32Port + GPIO_O_WAKEPEN) & ui8Pin) { ui32PinType |= ((HWREG(ui32Port + GPIO_O_WAKELVL) & ui8Pin) ? 0x200 : 0x100); } *pui32PinType = ui32PinType; } //***************************************************************************** // //! Enables the specified GPIO interrupts. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui32IntFlags is the bit mask of the interrupt sources to enable. //! //! This function enables the indicated GPIO interrupt sources. Only the //! sources that are enabled can be reflected to the processor interrupt; //! disabled sources have no effect on the processor. //! //! The \e ui32IntFlags parameter is the logical OR of any of the following: //! //! - \b GPIO_INT_PIN_0 - interrupt due to activity on Pin 0. //! - \b GPIO_INT_PIN_1 - interrupt due to activity on Pin 1. //! - \b GPIO_INT_PIN_2 - interrupt due to activity on Pin 2. //! - \b GPIO_INT_PIN_3 - interrupt due to activity on Pin 3. //! - \b GPIO_INT_PIN_4 - interrupt due to activity on Pin 4. //! - \b GPIO_INT_PIN_5 - interrupt due to activity on Pin 5. //! - \b GPIO_INT_PIN_6 - interrupt due to activity on Pin 6. //! - \b GPIO_INT_PIN_7 - interrupt due to activity on Pin 7. //! - \b GPIO_INT_DMA - interrupt due to DMA activity on this GPIO module. //! //! \note If this call is being used to enable summary interrupts on GPIO port //! P or Q (GPIOIntTypeSet() with GPIO_DISCRETE_INT not enabled), then all //! individual interrupts for these ports must be enabled in the GPIO module //! using GPIOIntEnable() and all but the interrupt for pin 0 must be disabled //! in the NVIC using the IntDisable() function. The summary interrupts for //! the ports are routed to the INT_GPIOP0 or INT_GPIOQ0 which must be enabled //! to handle the interrupt. If this is not done then any individual GPIO pin //! interrupts that are left enabled also trigger the individual interrupts. //! //! \return None. // //***************************************************************************** void GPIOIntEnable(uint32_t ui32Port, uint32_t ui32IntFlags) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Enable the interrupts. // HWREG(ui32Port + GPIO_O_IM) |= ui32IntFlags; } //***************************************************************************** // //! Disables the specified GPIO interrupts. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui32IntFlags is the bit mask of the interrupt sources to disable. //! //! This function disables the indicated GPIO interrupt sources. Only the //! sources that are enabled can be reflected to the processor interrupt; //! disabled sources have no effect on the processor. //! //! The \e ui32IntFlags parameter is the logical OR of any of the following: //! //! - \b GPIO_INT_PIN_0 - interrupt due to activity on Pin 0. //! - \b GPIO_INT_PIN_1 - interrupt due to activity on Pin 1. //! - \b GPIO_INT_PIN_2 - interrupt due to activity on Pin 2. //! - \b GPIO_INT_PIN_3 - interrupt due to activity on Pin 3. //! - \b GPIO_INT_PIN_4 - interrupt due to activity on Pin 4. //! - \b GPIO_INT_PIN_5 - interrupt due to activity on Pin 5. //! - \b GPIO_INT_PIN_6 - interrupt due to activity on Pin 6. //! - \b GPIO_INT_PIN_7 - interrupt due to activity on Pin 7. //! - \b GPIO_INT_DMA - interrupt due to DMA activity on this GPIO module. //! //! \return None. // //***************************************************************************** void GPIOIntDisable(uint32_t ui32Port, uint32_t ui32IntFlags) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Disable the interrupts. // HWREG(ui32Port + GPIO_O_IM) &= ~(ui32IntFlags); } //***************************************************************************** // //! Gets interrupt status for the specified GPIO port. //! //! \param ui32Port is the base address of the GPIO port. //! \param bMasked specifies whether masked or raw interrupt status is //! returned. //! //! If \e bMasked is set as \b true, then the masked interrupt status is //! returned; otherwise, the raw interrupt status is returned. //! //! \return Returns the current interrupt status for the specified GPIO module. //! The value returned is the logical OR of the \b GPIO_INT_* values that are //! currently active. // //***************************************************************************** uint32_t GPIOIntStatus(uint32_t ui32Port, bool bMasked) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Return the interrupt status. // if(bMasked) { return(HWREG(ui32Port + GPIO_O_MIS)); } else { return(HWREG(ui32Port + GPIO_O_RIS)); } } //***************************************************************************** // //! Clears the specified interrupt sources. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui32IntFlags is the bit mask of the interrupt sources to disable. //! //! Clears the interrupt for the specified interrupt source(s). //! //! The \e ui32IntFlags parameter is the logical OR of the \b GPIO_INT_* //! values. //! //! \note Because there is a write buffer in the Cortex-M processor, it may //! take several clock cycles before the interrupt source is actually cleared. //! Therefore, it is recommended that the interrupt source be cleared early in //! the interrupt handler (as opposed to the very last action) to avoid //! returning from the interrupt handler before the interrupt source is //! actually cleared. Failure to do so may result in the interrupt handler //! being immediately reentered (because the interrupt controller still sees //! the interrupt source asserted). //! //! \return None. // //***************************************************************************** void GPIOIntClear(uint32_t ui32Port, uint32_t ui32IntFlags) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Clear the interrupts. // HWREG(ui32Port + GPIO_O_ICR) = ui32IntFlags; } //***************************************************************************** // //! Registers an interrupt handler for a GPIO port. //! //! \param ui32Port is the base address of the GPIO port. //! \param pfnIntHandler is a pointer to the GPIO port interrupt handling //! function. //! //! This function ensures that the interrupt handler specified by //! \e pfnIntHandler is called when an interrupt is detected from the selected //! GPIO port. This function also enables the corresponding GPIO interrupt //! in the interrupt controller; individual pin interrupts and interrupt //! sources must be enabled with GPIOIntEnable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void GPIOIntRegister(uint32_t ui32Port, void (*pfnIntHandler)(void)) { uint32_t ui32Int; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Get the interrupt number associated with the specified GPIO. // ui32Int = _GPIOIntNumberGet(ui32Port); ASSERT(ui32Int != 0); // // Register the interrupt handler. // IntRegister(ui32Int, pfnIntHandler); // // Enable the GPIO interrupt. // IntEnable(ui32Int); } //***************************************************************************** // //! Removes an interrupt handler for a GPIO port. //! //! \param ui32Port is the base address of the GPIO port. //! //! This function unregisters the interrupt handler for the specified //! GPIO port. This function also disables the corresponding //! GPIO port interrupt in the interrupt controller; individual GPIO interrupts //! and interrupt sources must be disabled with GPIOIntDisable(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void GPIOIntUnregister(uint32_t ui32Port) { uint32_t ui32Int; // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Get the interrupt number associated with the specified GPIO. // ui32Int = _GPIOIntNumberGet(ui32Port); ASSERT(ui32Int != 0); // // Disable the GPIO interrupt. // IntDisable(ui32Int); // // Unregister the interrupt handler. // IntUnregister(ui32Int); } //***************************************************************************** // //! Reads the values present of the specified pin(s). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The values at the specified pin(s) are read, as specified by \e ui8Pins. //! Values are returned for both input and output pin(s), and the value //! for pin(s) that are not specified by \e ui8Pins are set to 0. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \return Returns a bit-packed byte providing the state of the specified //! pin, where bit 0 of the byte represents GPIO port pin 0, bit 1 represents //! GPIO port pin 1, and so on. Any bit that is not specified by \e ui8Pins //! is returned as a 0. Bits 31:8 should be ignored. // //***************************************************************************** int32_t GPIOPinRead(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Return the pin value(s). // return(HWREG(ui32Port + (GPIO_O_DATA + (ui8Pins << 2)))); } //***************************************************************************** // //! Writes a value to the specified pin(s). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! \param ui8Val is the value to write to the pin(s). //! //! Writes the corresponding bit values to the output pin(s) specified by //! \e ui8Pins. Writing to a pin configured as an input pin has no effect. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \return None. // //***************************************************************************** void GPIOPinWrite(uint32_t ui32Port, uint8_t ui8Pins, uint8_t ui8Val) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Write the pins. // HWREG(ui32Port + (GPIO_O_DATA + (ui8Pins << 2))) = ui8Val; } //***************************************************************************** // //! Configures pin(s) for use as analog-to-digital converter inputs. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The analog-to-digital converter input pins must be properly configured for //! the analog-to-digital peripheral to function correctly. This function //! provides the proper configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an ADC input; it //! only configures an ADC input pin for proper operation. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeADC(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for analog operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_ANALOG); } //***************************************************************************** // //! Configures pin(s) for use as a CAN device. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The CAN pins must be properly configured for the CAN peripherals to //! function correctly. This function provides a typical configuration for //! those pin(s); other configurations may work as well depending upon the //! board setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a CAN pin; it only //! configures a CAN pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the CAN //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeCAN(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as an analog comparator input. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The analog comparator input pins must be properly configured for the analog //! comparator to function correctly. This function provides the proper //! configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an analog //! comparator input; it only configures an analog comparator pin for proper //! operation. Note that a GPIOPinConfigure() function call is also required //! to properly configure a pin for the analog comparator function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeComparator(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for analog operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_ANALOG); } //***************************************************************************** // //! Configures pin(s) for use by the external peripheral interface. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The external peripheral interface pins must be properly configured for the //! external peripheral interface to function correctly. This function //! provides a typical configuration for those pin(s); other configurations may //! work as well depending upon the board setup (for example, using the on-chip //! pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an external //! peripheral interface pin; it only configures an external peripheral //! interface pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the //! external peripheral interface function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeEPI(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the Ethernet peripheral as LED signals. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The Ethernet peripheral provides four signals that can be used to drive //! an LED (for example, for link status/activity). This function provides a //! typical configuration for the pins. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an Ethernet LED //! pin; it only configures an Ethernet LED pin for proper operation. Note //! that a GPIOPinConfigure() function call is also required to properly //! configure the pin for the Ethernet LED function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeEthernetLED(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the Ethernet peripheral as MII signals. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The Ethernet peripheral on some parts provides a set of MII signals that //! are used to connect to an external PHY. This function provides a typical //! configuration for the pins. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an Ethernet MII //! pin; it only configures an Ethernet MII pin for proper operation. Note //! that a GPIOPinConfigure() function call is also required to properly //! configure the pin for the Ethernet MII function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeEthernetMII(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as GPIO inputs. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! GPIO inputs. This function provides the proper configuration for those //! pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeGPIOInput(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as GPIO outputs. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! GPIO outputs. This function provides the proper configuration for those //! pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeGPIOOutput(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); // // Make the pin(s) be outputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_OUT); } //***************************************************************************** // //! Configures pin(s) for use as GPIO open drain outputs. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! GPIO outputs. This function provides the proper configuration for those //! pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeGPIOOutputOD(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_OD); // // Make the pin(s) be outputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_OUT); } //***************************************************************************** // //! Configures pin for use as SDA by the I2C peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin. //! //! The I2C pins must be properly configured for the I2C peripheral to function //! correctly. This function provides the proper configuration for the SDA //! pin. //! //! The pin is specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an I2C SDA pin; it //! only configures an I2C SDA pin for proper operation. Note that a //! GPIOPinConfigure() function call is also required to properly configure a //! pin for the I2C SDA function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeI2C(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for open-drain operation with a weak pull-up. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_OD); } //***************************************************************************** // //! Configures pin for use as SCL by the I2C peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin. //! //! The I2C pins must be properly configured for the I2C peripheral to function //! correctly. This function provides the proper configuration for the SCL //! pin. //! //! The pin is specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an I2C SCL pin; it //! only configures an I2C SCL pin for proper operation. Note that a //! GPIOPinConfigure() function call is also required to properly configure a //! pin for the I2C SCL function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeI2CSCL(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the LCD Controller. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The LCD controller pins must be properly configured for the LCD controller //! to function correctly. This function provides a typical configuration for //! those pin(s); other configurations may work as well depending upon the //! board setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an LCD pin; it only //! configures an LCD pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the LCD //! controller function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeLCD(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation and beefed up drive. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the LPC module. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The LPC pins must be properly configured for the LPC module to function //! correctly. This function provides a typical configuration for those //! pin(s); other configurations may work as well depending upon the board //! setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an LPC pin; it only //! configures an LPC pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the LPC //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeLPC(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures a pin for receive use by the PECI module. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The PECI receive pin must be properly configured for the PECI module to //! function correctly. This function provides a typical configuration for //! that pin. //! //! The pin is specified using a bit-packed byte, where each bit that is set //! identifies the pin to be accessed, and where bit 0 of the byte represents //! GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a PECI receive pin; //! it only configures a PECI receive pin for proper operation. Note that a //! GPIOPinConfigure() function call is also required to properly configure a //! pin for the PECI receive function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypePECIRx(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for analog operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_ANALOG); } //***************************************************************************** // //! Configures a pin for transmit use by the PECI module. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The PECI transmit pin must be properly configured for the PECI module to //! function correctly. This function provides a typical configuration for //! that pin. //! //! The pin is specified using a bit-packed byte, where each bit that is set //! identifies the pin to be accessed, and where bit 0 of the byte represents //! GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a PECI transmit //! pin; it only configures a PECI transmit pin for proper operation. Note //! that a GPIOPinConfigure() function call is also required to properly //! configure the pin for the PECI transmit function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypePECITx(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for analog operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the PWM peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The PWM pins must be properly configured for the PWM peripheral to function //! correctly. This function provides a typical configuration for those //! pin(s); other configurations may work as well depending upon the board //! setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a PWM pin; it only //! configures a PWM pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the PWM //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypePWM(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the QEI peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The QEI pins must be properly configured for the QEI peripheral to function //! correctly. This function provides a typical configuration for those //! pin(s); other configurations may work as well depending upon the board //! setup (for example, not using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a QEI pin; it only //! configures a QEI pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the QEI //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeQEI(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation with a weak pull-up. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD_WPU); } //***************************************************************************** // //! Configures pin(s) for use by the SSI peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The SSI pins must be properly configured for the SSI peripheral to function //! correctly. This function provides a typical configuration for those //! pin(s); other configurations may work as well depending upon the board //! setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a SSI pin; it only //! configures a SSI pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the SSI //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeSSI(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the Timer peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The CCP pins must be properly configured for the timer peripheral to //! function correctly. This function provides a typical configuration for //! those pin(s); other configurations may work as well depending upon the //! board setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a timer pin; it //! only configures a timer pin for proper operation. Note that a //! GPIOPinConfigure() function call is also required to properly configure a //! pin for the CCP function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeTimer(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the UART peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The UART pins must be properly configured for the UART peripheral to //! function correctly. This function provides a typical configuration for //! those pin(s); other configurations may work as well depending upon the //! board setup (for example, using the on-chip pull-ups). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a UART pin; it //! only configures a UART pin for proper operation. Note that a //! GPIOPinConfigure() function call is also required to properly configure a //! pin for the UART function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeUART(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use by the USB peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! USB analog pins must be properly configured for the USB peripheral to //! function correctly. This function provides the proper configuration for //! any USB analog pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a USB pin; it only //! configures a USB pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the USB //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeUSBAnalog(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for analog operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_ANALOG); } //***************************************************************************** // //! Configures pin(s) for use by the USB peripheral. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! USB digital pins must be properly configured for the USB peripheral to //! function correctly. This function provides a typical configuration for //! the digital USB pin(s); other configurations may work as well depending //! upon the board setup (for example, using the on-chip pull-ups). //! //! This function should only be used with EPEN and PFAULT pins as all other //! USB pins are analog in nature or are not used in devices without OTG //! functionality. //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a USB pin; it only //! configures a USB pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the USB //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeUSBDigital(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as a hibernate wake-on-high source. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! hibernate wake-high inputs. This function provides the proper //! configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeWakeHigh(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for wake-high operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_WAKE_HIGH); } //***************************************************************************** // //! Configures pin(s) for use as a hibernate wake-on-low source. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! hibernate wake-low inputs. This function provides the proper //! configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeWakeLow(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) inputs. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_IN); // // Set the pad(s) for wake-high operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_WAKE_LOW); } //***************************************************************************** // //! Configures pin(s) for use as scan matrix keyboard rows (outputs). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! scan matrix keyboard outputs. This function provides the proper //! configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a scan matrix //! keyboard row pin; it only configures a scan matrix keyboard row pin for //! proper operation. Note that a GPIOPinConfigure() function call is also //! required to properly configure a pin for the scan matrix keyboard //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeKBRow(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for push/pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as scan matrix keyboard columns (inputs). //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! scan matrix keyboard inputs. This function provides the proper //! configuration for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a scan matrix //! keyboard column pin; it only configures a scan matrix keyboard column pin //! for proper operation. Note that a GPIOPinConfigure() function call is also //! required to properly configure a pin for the scan matrix keyboard //! function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeKBColumn(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD_WPU); } //***************************************************************************** // //! Configures pin(s) for use as an LED sequencer output. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! LED sequencers. This function provides the proper configuration for those //! pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into an LED sequencer //! output pin; it only configures an LED sequencer output pin for proper //! operation. Note that a GPIOPinConfigure() function call is also //! required to properly configure a pin for the LED sequencer function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeLEDSeq(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for push/pull operation and 8mA strength. The external // hardware should be set up such that we sink current when the LED is // turned on, hence the 8mA configuration choice. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_8MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Configures pin(s) for use as Consumer Infrared inputs or outputs. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! The GPIO pins must be properly configured in order to function correctly as //! Consumer Infrared pins. This function provides the proper configuration //! for those pin(s). //! //! The pin(s) are specified using a bit-packed byte, where each bit that is //! set identifies the pin to be accessed, and where bit 0 of the byte //! represents GPIO port pin 0, bit 1 represents GPIO port pin 1, and so on. //! //! \note This function cannot be used to turn any pin into a CIR pin; it only //! configures a CIR pin for proper operation. Note that a GPIOPinConfigure() //! function call is also required to properly configure a pin for the //! Consumer Infrared function. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return None. // //***************************************************************************** void GPIOPinTypeCIR(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Make the pin(s) be peripheral controlled. // GPIODirModeSet(ui32Port, ui8Pins, GPIO_DIR_MODE_HW); // // Set the pad(s) for standard push-pull operation. // GPIOPadConfigSet(ui32Port, ui8Pins, GPIO_STRENGTH_2MA, GPIO_PIN_TYPE_STD); } //***************************************************************************** // //! Retrieves the wake pins status. //! //! \param ui32Port is the base address of the GPIO port. //! //! This function returns the GPIO wake pin status values. The returned //! bitfield shows low or high pin state via a value of 0 or 1. //! //! \note This function is not available on all devices, consult the data sheet //! to ensure that the device you are using supports GPIO wake pins. //! //! \note A subset of GPIO pins on Tiva devices, notably those used by the //! JTAG/SWD interface and any pin capable of acting as an NMI input, are //! locked against inadvertent reconfiguration. These pins must be unlocked //! using direct register writes to the relevant GPIO_O_LOCK and GPIO_O_CR //! registers before this function can be called. Please see the ``gpio_jtag'' //! example application for the mechanism required and consult your part //! datasheet for information on affected pins. //! //! \return Returns the wake pin status. // //***************************************************************************** uint32_t GPIOPinWakeStatus(uint32_t ui32Port) { return(ui32Port + GPIO_O_WAKESTAT); } //***************************************************************************** // //! Configures the alternate function of a GPIO pin. //! //! \param ui32PinConfig is the pin configuration value, specified as only one //! of the \b GPIO_P??_??? values. //! //! This function configures the pin mux that selects the peripheral function //! associated with a particular GPIO pin. Only one peripheral function at a //! time can be associated with a GPIO pin, and each peripheral function should //! only be associated with a single GPIO pin at a time (despite the fact that //! many of them can be associated with more than one GPIO pin). To fully //! configure a pin, a GPIOPinType*() function should also be called. //! //! The available mappings are supplied on a per-device basis in //! pin_map.h. The \b PART_ defines controls which set of //! defines are included so that they match the device that is being used. //! For example, \b PART_TM4C129XNCZAD must be defined in order to get the //! correct pin mappings for the TM4C129XNCZAD device. //! //! \note If the same signal is assigned to two different GPIO port //! pins, the signal is assigned to the port with the lowest letter and the //! assignment to the higher letter port is ignored. //! //! \return None. // //***************************************************************************** void GPIOPinConfigure(uint32_t ui32PinConfig) { uint32_t ui32Base, ui32Shift; // // Check the argument. // ASSERT(((ui32PinConfig >> 16) & 0xff) < 15); ASSERT(((ui32PinConfig >> 8) & 0xe3) == 0); // // Extract the base address index from the input value. // ui32Base = (ui32PinConfig >> 16) & 0xff; // // Get the base address of the GPIO module, selecting either the APB or the // AHB aperture as appropriate. // if(HWREG(SYSCTL_GPIOHBCTL) & (1 << ui32Base)) { ui32Base = g_pui32GPIOBaseAddrs[(ui32Base << 1) + 1]; } else { ui32Base = g_pui32GPIOBaseAddrs[ui32Base << 1]; } // // Extract the shift from the input value. // ui32Shift = (ui32PinConfig >> 8) & 0xff; // // Write the requested pin muxing value for this GPIO pin. // HWREG(ui32Base + GPIO_O_PCTL) = ((HWREG(ui32Base + GPIO_O_PCTL) & ~(0xf << ui32Shift)) | ((ui32PinConfig & 0xf) << ui32Shift)); } //***************************************************************************** // //! Enables a GPIO pin as a trigger to start a DMA transaction. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! This function enables a GPIO pin to be used as a trigger to start a uDMA //! transaction. Any GPIO pin can be configured to be an external trigger for //! the uDMA. The GPIO pin still generates interrupts if the interrupt is //! enabled for the selected pin. //! //! \return None. // //***************************************************************************** void GPIODMATriggerEnable(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pin as a DMA trigger. // HWREG(ui32Port + GPIO_O_DMACTL) |= ui8Pins; } //***************************************************************************** // //! Disables a GPIO pin as a trigger to start a DMA transaction. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! This function disables a GPIO pin from being used as a trigger to start a //! uDMA transaction. This function can be used to disable this feature if it //! was enabled via a call to GPIODMATriggerEnable(). //! //! \return None. // //***************************************************************************** void GPIODMATriggerDisable(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pin as a DMA trigger. // HWREG(ui32Port + GPIO_O_DMACTL) &= (~ui8Pins); } //***************************************************************************** // //! Enables a GPIO pin as a trigger to start an ADC capture. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! This function enables a GPIO pin to be used as a trigger to start an ADC //! sequence. Any GPIO pin can be configured to be an external trigger for an //! ADC sequence. The GPIO pin still generates interrupts if the interrupt is //! enabled for the selected pin. To enable the use of a GPIO pin to trigger //! the ADC module, the ADCSequenceConfigure() function must be called with the //! \b ADC_TRIGGER_EXTERNAL parameter. //! //! \return None. // //***************************************************************************** void GPIOADCTriggerEnable(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pin as a DMA trigger. // HWREG(ui32Port + GPIO_O_ADCCTL) |= ui8Pins; } //***************************************************************************** // //! Disable a GPIO pin as a trigger to start an ADC capture. //! //! \param ui32Port is the base address of the GPIO port. //! \param ui8Pins is the bit-packed representation of the pin(s). //! //! This function disables a GPIO pin to be used as a trigger to start an ADC //! sequence. This function can be used to disable this feature if it was //! enabled via a call to GPIOADCTriggerEnable(). //! //! \return None. // //***************************************************************************** void GPIOADCTriggerDisable(uint32_t ui32Port, uint8_t ui8Pins) { // // Check the arguments. // ASSERT(_GPIOBaseValid(ui32Port)); // // Set the pin as a DMA trigger. // HWREG(ui32Port + GPIO_O_ADCCTL) &= (~ui8Pins); } //***************************************************************************** // // Close the Doxygen group. //! @} // //*****************************************************************************