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TARGET_NCS36510/TOOLCHAIN_GCC_ARM/objects.h
- Committer:
- AnnaBridge
- Date:
- 2019-02-20
- Revision:
- 172:65be27845400
- Parent:
- 171:3a7713b1edbc
File content as of revision 172:65be27845400:
/** ****************************************************************************** * @file Objects.h * @brief Implements an assertion. * @internal * @author ON Semiconductor * $Rev: 0.1 $ * $Date: 2015-11-06 $ ****************************************************************************** * Copyright 2016 Semiconductor Components Industries LLC (d/b/a ON Semiconductor). * All rights reserved. This software and/or documentation is licensed by ON Semiconductor * under limited terms and conditions. The terms and conditions pertaining to the software * and/or documentation are available at http://www.onsemi.com/site/pdf/ONSEMI_T&C.pdf * (ON Semiconductor Standard Terms and Conditions of Sale, Section 8 Software) and * if applicable the software license agreement. Do not use this software and/or * documentation unless you have carefully read and you agree to the limited terms and * conditions. By using this software and/or documentation, you agree to the limited * terms and conditions. * * THIS SOFTWARE IS PROVIDED "AS IS". NO WARRANTIES, WHETHER EXPRESS, IMPLIED * OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE. * ON SEMICONDUCTOR SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, * INCIDENTAL, OR CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER. * @endinternal * * @ingroup debug */ #ifndef OBJECTS_H_ #define OBJECTS_H_ #ifdef __cplusplus extern "C" { #endif #include "gpio_map.h" #include "uart_16c550_map.h" #include "PinNames.h" #include "PortNames.h" #include "PeripheralNames.h" #include "target_config.h" #include "spi.h" typedef enum { FlowControlNone_1, FlowControlRTS_1, FlowControlCTS_1, FlowControlRTSCTS_1 } FlowControl_1; struct serial_s { Uart16C550Reg_pt UARTREG; FlowControl_1 FlowCtrl; IRQn_Type IRQType; int index; }; typedef struct _gpio_t { GpioReg_pt GPIOMEMBASE; PinName gpioPin; uint32_t gpioMask; } gpio_t; /* TODO: This is currently a dummy structure; implementation will be done along * with the sleep API implementation */ typedef struct sleep_s { uint32_t timeToSleep; /* 0: Use sleep type variable to select low power mode; Noz-zero: Selects sleep type based on timeToSleep duration using table 1. sleep below */ uint8_t SleepType; /* 0: Sleep; 1: DeepSleep; 2: Coma */ } sleep_t; /* Table 1. Sleep ___________________________________________________________________________________ | Sleep duration | Sleep Type | |-------------------------------------------------------------------|---------------| | > Zero AND <= SLEEP_DURATION_SLEEP_MAX | sleep | | > SLEEP_DURATION_SLEEP_MAX AND <= SLEEP_DURATION_DEEPSLEEP_MAX | deepsleep | | > SLEEP_DURATION_DEEPSLEEP_MAX | coma | |___________________________________________________________________|_______________| */ struct gpio_irq_s { uint32_t pin; uint32_t pinMask; GpioReg_pt GPIOMEMBASE; }; typedef struct { /* options to configure the ADC */ uint8_t interruptConfig; /**< 1= interrupt Enable 0=Interrupt Disable */ uint8_t PrescaleVal; /**< Prescaler: Sets the converter clock frequency. Fclk = 32 MHz/(prescaler + 1) where prescaler is the value of this register segment. The minimum tested value is 07 (4 MHz clock) */ uint8_t measurementType; /**< 1= Absolute 0= Differential */ uint8_t mode; /**< 1= Continuous Conversion 0= Single Shot */ uint8_t referenceCh; /**< Selects 1 to 8 channels for reference channel */ uint8_t convCh; /**< Selects 1 or 8 channels to do a conversion on.*/ uint8_t inputScale; /**< Sets the input scale, 000 ? 1.0, 001 ? 0.6923, 010 ? 0.5294, 011 ? 0.4286, 100 ? 0.3600, 101 ? 0.3103, 110 ? 0.2728, 111 ? 0.2432 */ uint8_t samplingTime; /**< Sample Time. Sets the measure time in units of PCLKperiod * (Prescale + 1).*/ uint8_t WarmUpTime; /**< The number of converter clock cycles that the state machine dwells in the warm or warm_meas state */ uint16_t samplingRate; /**< Sets the sample rate in units of PCLKperiod * (Prescale + 1). */ } analog_config_s; struct analogin_s { analog_config_s *adcConf; AdcReg_pt adcReg; PinName pin; uint8_t pinFlag; uint32_t ADC_Offset_Value; }; struct pwmout_s { PwmReg_pt pwmReg; }; struct port_s { GpioReg_pt GPIOMEMBASE; PortName port; uint32_t mask; }; typedef enum { littleEndian = 0, bigEndian } spi_ipc7207_endian_t, *spi_ipc7207_endian_pt; /** Type for the clock polarity. */ typedef enum { activeLow = 0, activeHigh } spi_clockPolarity_t, *spi_clockPolarity_pt; /** Type for the clock phase. */ typedef enum { risingEdge = 0, fallingEdge } spi_clockPhase_t, *spi_clockPhase_pt; struct spi_s { SpiIpc7207Reg_pt membase; /* Register address */ IRQn_Type irq; /* IRQ number of the IRQ associated to the device. */ uint8_t irqEnable; /* IRQ enables for 8 IRQ sources: * - bit 7 = Receive FIFO Full * - bit 6 = Receive FIFO 'Half' Full (watermark level) * - bit 5 = Receive FIFO Not Empty * - bit 4 = Transmit FIFO Not Full * - bit 3 = Transmit FIFO 'Half' Empty (watermark level) * - bit 2 = Transmit FIFO Empty * - bit 1 = Transfer Error * - bit 0 = ssIn (conditionally inverted and synchronized to PCLK) * (unused option in current implementation / irq 6 and 7 used) */ uint8_t slaveSelectEnable; /* Slave Select enables (x4): * - 0 (x4) = Slave select enable * - 1 (x4) = Slave select disable */ uint8_t slaveSelectBurst; /* Slave Select burst mode: * - NO_BURST_MODE = Burst mode disable * - BURST_MODE = Burst mode enable */ uint8_t slaveSelectPolarity; /* Slave Select polarity (x4) for up to 4 slaves: * - 0 (x4) = Slave select is active low * - 1 (x4) = Slave select is active high */ uint8_t txWatermark; /* Transmit FIFO Watermark: Defines level of RX Half Full Flag * - Value between 1 and 15 * (unused option in current implementation / not txWatermark irq used) */ uint8_t rxWatermark; /* Receive FIFO Watermark: Defines level of TX Half Full Flag: * - Value between 1 and 15 * * (unused option in current implementation / rxWatermark fixed to 1) */ spi_ipc7207_endian_t endian; /* Bits endianness: * - LITTLE_ENDIAN = LSB first * - BIG_ENDIAN = MSB first */ uint8_t samplingEdge; /* SDI sampling edge (relative to SDO sampling edge): * - 0 = opposite to SDO sampling edge * - 1 = same as SDO sampling edge */ uint32_t baudrate; /* The expected baud rate. */ spi_clockPolarity_t clockPolarity; /* The clock polarity (active high or low). */ spi_clockPhase_t clockPhase; /* The clock phase (sample on rising or falling edge). */ uint8_t wordSize; /* The size word size in number of bits. */ uint8_t Mode; uint32_t event; }; struct i2c_s { uint32_t baudrate; /**< The expected baud rate. */ uint32_t I2cStatusFromInt; uint8_t ClockSource; /**< I2C clock source, 0 clkI2C pin, 1 PCLK */ uint8_t irqEnable; /**< IRQs to be enabled */ I2cIpc7208Reg_pt membase; /**< The memory base for the device's registers. */ IRQn_Type irq; /**< The IRQ number of the IRQ associated to the device. */ //queue_pt rxQueue; /**< The receive queue for the device instance. */ }; struct trng_s { RandReg_pt membase; /**< The memory base for the device's registers. */ }; #ifdef __cplusplus } #endif #endif //OBJECTS_H_