//***************************************************************************** // // am_hal_gpio.h //! @file //! //! @brief Functions for accessing and configuring the GPIO module. //! //! @addtogroup gpio2 GPIO //! @ingroup apollo2hal //! @{ // //***************************************************************************** //***************************************************************************** // // Copyright (c) 2017, Ambiq Micro // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimer. // // 2. 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. // // 3. Neither the name of the copyright holder 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 HOLDER 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 1.2.11 of the AmbiqSuite Development Package. // //***************************************************************************** #ifndef AM_HAL_GPIO_H #define AM_HAL_GPIO_H // DEVICE ADDRESS IS 8-bits #define AM_HAL_GPIO_DEV_ADDR_8 (0) // DEVICE ADDRESS IS 16-bits #define AM_HAL_GPIO_DEV_ADDR_16 (1) // DEVICE OFFSET IS 8-bits #define AM_HAL_GPIO_DEV_OFFSET_8 (0x00000000) // DEVICE OFFSET IS 16-bits #define AM_HAL_GPIO_DEV_OFFSET_16 (0x00010000) // Maximum number of GPIOs on this device #define AM_HAL_GPIO_MAX_PADS (50) //***************************************************************************** // //! @name GPIO Pin defines //! @brief GPIO Pin defines for use with interrupt functions //! //! These macros may be used to with \e am_hal_gpio_int_x(). //! //! @{ // //***************************************************************************** #define AM_HAL_GPIO_BIT(n) (((uint64_t) 0x1) << n) //! @} // // Helper macros used for unraveling the GPIO configuration value (configval). // // Note that the configval, which is passed into functions such as // am_hal_gpio_pin_config() as well as various helper macros, is a concatenated // value that contains values used in multiple configuration registers. // // The GPIO configuration value fields are arranged as follows: // [ 7: 0] PADREG configuration. // [11: 8] GPIOCFG // [15:12] Unused. // [23:16] ALTPADREG configuration. // // Define macros describing these configval fields. // #define CFGVAL_PADREG_S 0 #define CFGVAL_PADREG_M (0xFF << CFGVAL_PADREG_S) #define CFGVAL_GPIOCFG_S 8 #define CFGVAL_GPIOCFG_M (0x0F << CFGVAL_GPIOCFG_S) #define CFGVAL_ALTPAD_S 16 #define CFGVAL_ALTPAD_M (0xFF << CFGVAL_ALTPAD_S) // // Extraction macros // #define CFGVAL_PADREG_X(x) (((uint32_t)(x) & CFGVAL_PADREG_M) >> \ CFGVAL_PADREG_S) #define CFGVAL_GPIOCFG_X(x) (((uint32_t)(x) & CFGVAL_GPIOCFG_M) >> \ CFGVAL_GPIOCFG_S) #define CFGVAL_ALTPAD_X(x) (((uint32_t)(x) & CFGVAL_ALTPAD_M) >> \ CFGVAL_ALTPAD_S) //***************************************************************************** // // Input options. // //***************************************************************************** #define AM_HAL_GPIO_INPEN (0x02 << CFGVAL_PADREG_S) // Enable input transistors. #define AM_HAL_GPIO_INCFG_RDZERO (0x01 << CFGVAL_GPIOCFG_S) // Disable input read registers. //***************************************************************************** // // Output options (OUTCFG) // //***************************************************************************** #define AM_HAL_GPIO_OUT_DISABLE ((0x0 << 1) << CFGVAL_GPIOCFG_S) #define AM_HAL_GPIO_OUT_PUSHPULL ((0x1 << 1) << CFGVAL_GPIOCFG_S) #define AM_HAL_GPIO_OUT_OPENDRAIN ((0x2 << 1) << CFGVAL_GPIOCFG_S) #define AM_HAL_GPIO_OUT_3STATE ((0x3 << 1) << CFGVAL_GPIOCFG_S) //***************************************************************************** // // Special options for IOM0 and IOM4 clocks. // For 24MHz operation, a special enable must be selected. The 24MHZ select is // selected via bit0 of OUTCFG (which is, in a way,an alias of OUT_PUSHPULL). // //***************************************************************************** #define AM_HAL_GPIO_24MHZ_ENABLE ((0x1 << 1) << CFGVAL_GPIOCFG_S) //***************************************************************************** // // Pad configuration options. // (Configuration value bits 7:0.) // //***************************************************************************** #define AM_HAL_GPIO_HIGH_DRIVE (0x04 << CFGVAL_PADREG_S) #define AM_HAL_GPIO_LOW_DRIVE (0x00 << CFGVAL_PADREG_S) #define AM_HAL_GPIO_PULLUP (0x01 << CFGVAL_PADREG_S) #define AM_HAL_GPIO_PULL1_5K ( (0x01 << CFGVAL_PADREG_S) | \ AM_HAL_GPIO_PULLUP ) #define AM_HAL_GPIO_PULL6K ( (0x40 << CFGVAL_PADREG_S) | \ AM_HAL_GPIO_PULLUP ) #define AM_HAL_GPIO_PULL12K ( (0x80 << CFGVAL_PADREG_S) | \ AM_HAL_GPIO_PULLUP ) #define AM_HAL_GPIO_PULL24K ( (0xC0 << CFGVAL_PADREG_S) | \ AM_HAL_GPIO_PULLUP ) // POWER SWITCH is available on selected pins #define AM_HAL_GPIO_POWER (0x80 << CFGVAL_PADREG_S) //***************************************************************************** // //! ALTPADREG configuration options. //! (Configuration value bits 23:16.) //! //! All Apollo2 GPIO pins can be configured for 2mA or 4mA. //! AM_HAL_GPIO_DRIVE_2MA = 2mA configuration. //! AM_HAL_GPIO_DRIVE_4MA = 4mA configuration. //! //! Certain Apollo2 GPIO pins can be configured to drive up to 12mA. //! AM_HAL_GPIO_DRIVE_8MA = 8mA configuration. //! AM_HAL_GPIO_DRIVE_12MA = 12mA configuration. //! //! Notes: //! - Always consult the Apollo2 data sheet for the latest details. //! - The higher drive GPIOxx pads generally include: //! 0-2,5,7-8,10,12-13,22-23,26-29,38-39,42,44-48. //! - GPIOxx pads that do not support the higher drive: //! 3-4,6,9,11,14-21,24-25,30-37,40-41,43,49. //! - User is responsible for ensuring that the selected pin actually supports //! the higher drive (8mA or 12mA) capabilities. See the Apollo2 data sheet. //! - Attempting to set the higher drive (8mA or 12mA) configuration on a //! non-supporting pad will actually set the pad for 4mA drive strength, //! regardless of the lower bit setting. // //***************************************************************************** #define AM_HAL_GPIO_DRIVE_2MA ( 0 ) #define AM_HAL_GPIO_DRIVE_4MA AM_HAL_GPIO_HIGH_DRIVE #define AM_HAL_GPIO_DRIVE_8MA ( 0x01 << CFGVAL_ALTPAD_S ) #define AM_HAL_GPIO_DRIVE_12MA ( (0x01 << CFGVAL_ALTPAD_S) | \ AM_HAL_GPIO_HIGH_DRIVE ) #define AM_HAL_GPIO_SLEWRATE ( 0x10 << CFGVAL_ALTPAD_S ) //***************************************************************************** // // Interrupt polarity // These values can be used directly in the configval. // //***************************************************************************** #define AM_HAL_GPIOCFGVAL_FALLING ((1 << 2) << CFGVAL_GPIOCFG_S) #define AM_HAL_GPIOCFGVAL_RISING ((0 << 2) << CFGVAL_GPIOCFG_S) //***************************************************************************** // // Pad function select // This macro represents the 3 bit function select field in the PADREG byte. // //***************************************************************************** #define AM_HAL_GPIO_FUNC(x) ((x & 0x7) << 3) //***************************************************************************** // //! Interrupt polarity //! //! Important: //! These values are to be used with am_hal_gpio_int_polarity_bit_set(). // They are not intended to be used as part of the GPIO configval. // //***************************************************************************** #define AM_HAL_GPIO_FALLING 0x00000001 #define AM_HAL_GPIO_RISING 0x00000000 //***************************************************************************** // // A few common pin configurations. // //***************************************************************************** #define AM_HAL_GPIO_DISABLE \ (AM_HAL_GPIO_FUNC(3)) #define AM_HAL_GPIO_INPUT \ (AM_HAL_GPIO_FUNC(3) | AM_HAL_GPIO_INPEN) #define AM_HAL_GPIO_OUTPUT \ (AM_HAL_GPIO_FUNC(3) | AM_HAL_GPIO_OUT_PUSHPULL) #define AM_HAL_GPIO_OPENDRAIN \ (AM_HAL_GPIO_FUNC(3) | AM_HAL_GPIO_OUT_OPENDRAIN | AM_HAL_GPIO_INPEN) #define AM_HAL_GPIO_3STATE \ (AM_HAL_GPIO_FUNC(3) | AM_HAL_GPIO_OUT_3STATE) //***************************************************************************** // // PADREG helper macros. // //***************************************************************************** #define AM_HAL_GPIO_PADREG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_PADREGA_O + (n & 0xFC)) #define AM_HAL_GPIO_PADREG_S(n) \ (((uint32_t)(n) % 4) << 3) #define AM_HAL_GPIO_PADREG_M(n) \ ((uint32_t) 0xFF << AM_HAL_GPIO_PADREG_S(n)) #define AM_HAL_GPIO_PADREG_FIELD(n, configval) \ (((uint32_t)(configval) & CFGVAL_PADREG_M) << AM_HAL_GPIO_PADREG_S(n)) #define AM_HAL_GPIO_PADREG_W(n, configval) \ AM_REGVAL(AM_HAL_GPIO_PADREG(n)) = \ (AM_HAL_GPIO_PADREG_FIELD(n, configval) | \ (AM_REGVAL(AM_HAL_GPIO_PADREG(n)) & ~AM_HAL_GPIO_PADREG_M(n))) #define AM_HAL_GPIO_PADREG_R(n) \ ((AM_REGVAL(AM_HAL_GPIO_PADREG(n)) & AM_HAL_GPIO_PADREG_M(n)) >> \ AM_HAL_GPIO_PADREG_S(n)) //***************************************************************************** // // ALTPADCFG helper macros. // The ALTPADCFG bits are located in [23:16] of the configval. // //***************************************************************************** #define AM_HAL_GPIO_ALTPADREG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_ALTPADCFGA_O + (n & 0xFC)) #define AM_HAL_GPIO_ALTPADREG_S(n) \ (((uint32_t)(n) % 4) << 3) #define AM_HAL_GPIO_ALTPADREG_M(n) \ ((uint32_t) 0xFF << AM_HAL_GPIO_ALTPADREG_S(n)) #define AM_HAL_GPIO_ALTPADREG_FIELD(n, configval) \ (CFGVAL_ALTPAD_X(configval) << AM_HAL_GPIO_ALTPADREG_S(n)) #define AM_HAL_GPIO_ALTPADREG_W(n, configval) \ AM_REGVAL(AM_HAL_GPIO_ALTPADREG(n)) = \ (AM_HAL_GPIO_ALTPADREG_FIELD(n, configval) | \ (AM_REGVAL(AM_HAL_GPIO_ALTPADREG(n)) & ~AM_HAL_GPIO_ALTPADREG_M(n))) #define AM_HAL_GPIO_ALTPADREG_R(n) \ ((AM_REGVAL(AM_HAL_GPIO_ALTPADREG(n)) & AM_HAL_GPIO_ALTPADREG_M(n)) >> \ AM_HAL_GPIO_ALTPADREG_S(n)) //***************************************************************************** // // CFG helper macros. // //***************************************************************************** #define AM_HAL_GPIO_CFG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_CFGA_O + ((n & 0xF8) >> 1)) #define AM_HAL_GPIO_CFG_S(n) \ (((uint32_t)(n) % 8) << 2) #define AM_HAL_GPIO_CFG_M(n) \ ((uint32_t) 0x7 << AM_HAL_GPIO_CFG_S(n)) #define AM_HAL_GPIO_CFG_FIELD(n, configval) \ ((((uint32_t)(configval) & 0x700) >> 8) << AM_HAL_GPIO_CFG_S(n)) #define AM_HAL_GPIO_CFG_W(n, configval) \ AM_REGVAL(AM_HAL_GPIO_CFG(n)) = \ (AM_HAL_GPIO_CFG_FIELD(n, configval) | \ (AM_REGVAL(AM_HAL_GPIO_CFG(n)) & ~AM_HAL_GPIO_CFG_M(n))) #define AM_HAL_GPIO_CFG_R(n) \ ((AM_REGVAL(AM_HAL_GPIO_CFG(n)) & AM_HAL_GPIO_CFG_M(n)) >> \ AM_HAL_GPIO_CFG_S(n)) //***************************************************************************** // // Polarity helper macros. // //***************************************************************************** #define AM_HAL_GPIO_POL_S(n) \ ((((uint32_t)(n) % 8) << 2) + 3) #define AM_HAL_GPIO_POL_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_POL_S(n)) #define AM_HAL_GPIO_POL_FIELD(n, polarity) \ (((uint32_t)(polarity) & 0x1) << AM_HAL_GPIO_POL_S(n)) #define AM_HAL_GPIO_POL_W(n, polarity) \ AM_REGVAL(AM_HAL_GPIO_CFG(n)) = \ (AM_HAL_GPIO_POL_FIELD(n, polarity) | \ (AM_REGVAL(AM_HAL_GPIO_CFG(n)) & ~AM_HAL_GPIO_POL_M(n))) //***************************************************************************** // // RD helper macros. // //***************************************************************************** #define AM_HAL_GPIO_RD_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_RDA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_RD_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_RD_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_RD_S(n)) #define AM_HAL_GPIO_RD(n) \ AM_REGVAL(AM_HAL_GPIO_RD_REG(n)) //***************************************************************************** // // WT helper macros. // //***************************************************************************** #define AM_HAL_GPIO_WT_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_WTA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_WT_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_WT_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_WT_S(n)) #define AM_HAL_GPIO_WT(n) \ AM_REGVAL(AM_HAL_GPIO_WT_REG(n)) //***************************************************************************** // // WTS helper macros. // //***************************************************************************** #define AM_HAL_GPIO_WTS_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_WTSA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_WTS_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_WTS_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_WTS_S(n)) #define AM_HAL_GPIO_WTS(n) \ AM_REGVAL(AM_HAL_GPIO_WTS_REG(n)) //***************************************************************************** // // WTC helper macros. // //***************************************************************************** #define AM_HAL_GPIO_WTC_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_WTCA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_WTC_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_WTC_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_WTC_S(n)) #define AM_HAL_GPIO_WTC(n) \ AM_REGVAL(AM_HAL_GPIO_WTC_REG(n)) //***************************************************************************** // // EN helper macros. // //***************************************************************************** #define AM_HAL_GPIO_EN_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_ENA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_EN_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_EN_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_EN_S(n)) #define AM_HAL_GPIO_EN(n) \ AM_REGVAL(AM_HAL_GPIO_EN_REG(n)) //***************************************************************************** // // ENS helper macros. // //***************************************************************************** #define AM_HAL_GPIO_ENS_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_ENSA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_ENS_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_ENS_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_ENS_S(n)) #define AM_HAL_GPIO_ENS(n) \ AM_REGVAL(AM_HAL_GPIO_ENS_REG(n)) //***************************************************************************** // // ENC helper macros. // //***************************************************************************** #define AM_HAL_GPIO_ENC_REG(n) \ (AM_REG_GPIOn(0) + AM_REG_GPIO_ENCA_O + (((uint32_t)(n) & 0x20) >> 3)) #define AM_HAL_GPIO_ENC_S(n) \ ((uint32_t)(n) % 32) #define AM_HAL_GPIO_ENC_M(n) \ ((uint32_t) 0x1 << AM_HAL_GPIO_ENC_S(n)) #define AM_HAL_GPIO_ENC(n) \ AM_REGVAL(AM_HAL_GPIO_ENC_REG(n)) //***************************************************************************** // //! @brief Configure the GPIO PAD MUX & GPIO PIN Configurations //! //! @param ui32PinNumber - GPIO pin number. //! @param ui32Config - Configuration options. //! //! This function applies the settings for a single GPIO. For a list of valid //! options please see the top of this file (am_hal_gpio.h) and am_hal_pin.h. //! //! Usage examples: //! am_hal_gpio_pin_config(11, AM_HAL_GPIO_INPUT); //! am_hal_gpio_pin_config(10, AM_HAL_GPIO_OUTPUT); //! am_hal_gpio_pin_config(14, AM_HAL_GPIO_OUTPUT | AM_HAL_GPIO_SLEWRATE); //! am_hal_gpio_pin_config(15, AM_HAL_GPIO_OUTPUT | AM_HAL_GPIO_HIGHDRIVESTR); // //***************************************************************************** #define am_hal_gpio_pin_config(ui32PinNumber, ui32Config) \ if ( (uint32_t)(ui32PinNumber) < AM_HAL_GPIO_MAX_PADS ) \ { \ AM_CRITICAL_BEGIN_ASM \ \ AM_REGn(GPIO, 0, PADKEY) = AM_REG_GPIO_PADKEY_KEYVAL; \ \ AM_HAL_GPIO_CFG_W(ui32PinNumber, ui32Config); \ AM_HAL_GPIO_PADREG_W(ui32PinNumber, ui32Config); \ AM_HAL_GPIO_ALTPADREG_W(ui32PinNumber, ui32Config); \ \ AM_REGn(GPIO, 0, PADKEY) = 0; \ \ AM_CRITICAL_END_ASM \ } //***************************************************************************** // //! @brief Set the state of one GPIO polarity bit. //! //! @param ui32BitNum - GPIO number. //! @param ui32Polarity - Desired state. //! //! This function sets the state of one GPIO polarity bit to a supplied value. //! The ui32Polarity parameter should be one of the following values: //! //! AM_HAL_GPIO_FALLING //! AM_HAL_GPIO_RISING //! //! @return None. // //***************************************************************************** #define am_hal_gpio_int_polarity_bit_set(ui32BitNum, ui32Polarity) \ if ( (uint32_t)(ui32BitNum) < AM_HAL_GPIO_MAX_PADS ) \ { \ AM_CRITICAL_BEGIN_ASM \ \ AM_REGn(GPIO, 0, PADKEY) = AM_REG_GPIO_PADKEY_KEYVAL; \ AM_HAL_GPIO_POL_W(ui32BitNum, ui32Polarity); \ AM_REGn(GPIO, 0, PADKEY) = 0; \ \ AM_CRITICAL_END_ASM \ } //***************************************************************************** // //! @brief Get the state of one GPIO from the INPUT READ REGISTER. //! //! @param ui32BitNum - GPIO number. //! //! This function retrieves the state of one GPIO from the INPUT READ //! REGISTER. //! //! @return the state for the requested GPIO. // //***************************************************************************** #define am_hal_gpio_input_bit_read(ui32BitNum) \ ((AM_HAL_GPIO_RD(ui32BitNum) & AM_HAL_GPIO_RD_M(ui32BitNum)) != 0) //***************************************************************************** // //! @brief Get the state of one GPIO in the DATA OUTPUT REGISTER //! //! @param ui32BitNum - GPIO number. //! //! This function retrieves the state of one GPIO in the DATA OUTPUT REGISTER. //! //! @return the state for the requested GPIO or -1 for error. // //***************************************************************************** #define am_hal_gpio_out_bit_read(ui32BitNum) \ ((AM_HAL_GPIO_WT(ui32BitNum) & AM_HAL_GPIO_WT_M(ui32BitNum)) != 0) //***************************************************************************** // //! @brief Set the output state high for one GPIO. //! //! @param ui32BitNum - GPIO number. //! //! This function sets the output state to high for one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_bit_set(ui32BitNum) \ AM_HAL_GPIO_WTS(ui32BitNum) = AM_HAL_GPIO_WTS_M(ui32BitNum) //***************************************************************************** // //! @brief Sets the output state to low for one GPIO. //! //! @param ui32BitNum - GPIO number. //! //! This function sets the output state to low for one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_bit_clear(ui32BitNum) \ AM_HAL_GPIO_WTC(ui32BitNum) = AM_HAL_GPIO_WTC_M(ui32BitNum) //***************************************************************************** // //! @brief Sets the output state to ui32Value for one GPIO. //! //! @param ui32BitNum - GPIO number. //! @param ui32Value - Desired output state. //! //! This function sets the output state to ui32Value for one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_bit_replace(ui32BitNum, ui32Value) \ if ( ui32Value ) \ { \ AM_HAL_GPIO_WTS(ui32BitNum) = AM_HAL_GPIO_WTS_M(ui32BitNum); \ } \ else \ { \ AM_HAL_GPIO_WTC(ui32BitNum) = AM_HAL_GPIO_WTC_M(ui32BitNum); \ } //***************************************************************************** // //! @brief Toggle the output state of one GPIO. //! //! @param ui32BitNum - GPIO number. //! //! This function toggles the output state of one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_bit_toggle(ui32BitNum) \ if ( 1 ) \ { \ AM_CRITICAL_BEGIN_ASM \ AM_HAL_GPIO_WT(ui32BitNum) ^= AM_HAL_GPIO_WT_M(ui32BitNum); \ AM_CRITICAL_END_ASM \ } //***************************************************************************** // //! @brief Sets the output enable for one GPIO. //! //! @param ui32BitNum - GPIO number. //! //! This function sets the output enable for one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_enable_bit_set(ui32BitNum) \ AM_HAL_GPIO_ENS(ui32BitNum) = AM_HAL_GPIO_ENS_M(ui32BitNum) //***************************************************************************** // //! @brief Clears the output enable for one GPIO. //! //! @param ui32BitNum - GPIO number. //! //! This function clears the output enable for one GPIO. //! //! @return None. // //***************************************************************************** #define am_hal_gpio_out_enable_bit_clear(ui32BitNum) \ AM_HAL_GPIO_ENC(ui32BitNum) = AM_HAL_GPIO_ENC_M(ui32BitNum) //***************************************************************************** // // Function pointer type for GPIO interrupt handlers. // //***************************************************************************** typedef void (*am_hal_gpio_handler_t)(void); //***************************************************************************** // // External function prototypes // //***************************************************************************** #ifdef __cplusplus extern "C" { #endif extern uint32_t am_hal_gpio_pin_config_read(uint32_t ui32PinNumber); extern uint64_t am_hal_gpio_input_read(void); extern uint64_t am_hal_gpio_out_read(void); extern uint32_t am_hal_gpio_out_enable_bit_get(uint32_t ui32BitNum); extern uint64_t am_hal_gpio_out_enable_get(void); extern void am_hal_gpio_int_enable(uint64_t ui64InterruptMask); extern uint64_t am_hal_gpio_int_enable_get(void); extern void am_hal_gpio_int_disable(uint64_t ui64InterruptMask); extern void am_hal_gpio_int_clear(uint64_t ui64InterruptMask); extern void am_hal_gpio_int_set(uint64_t ui64InterruptMask); extern uint64_t am_hal_gpio_int_status_get(bool bEnabledOnly); extern void am_hal_gpio_int_service(uint64_t ui64Status); extern void am_hal_gpio_int_register(uint32_t ui32GPIONumber, am_hal_gpio_handler_t pfnHandler); extern bool am_hal_gpio_int_polarity_bit_get(uint32_t ui32BitNum); #ifdef __cplusplus } #endif #endif // AM_HAL_GPIO_H //***************************************************************************** // // End Doxygen group. //! @} // //*****************************************************************************