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flipperzero-firmware/lib/ST25RFAL002/source/st25r3916/st25r3916.h
あく 389ff92cc1
Naming and coding style convention, new linter tool. (#945) 
* Makefile, Scripts: new linter
* About: remove ID from IC
* Firmware: remove double define for DIVC/DIVR
* Scripts: check folder names too. Docker: replace syntax check with make lint.
* Reformat Sources and Migrate to new file naming convention
* Docker: symlink clang-format-12 to clang-format
* Add coding style guide
2022-01-05 19:10:18 +03:00

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/******************************************************************************
* \attention
*
* <h2><center>&copy; COPYRIGHT 2020 STMicroelectronics</center></h2>
*
* Licensed under ST MYLIBERTY SOFTWARE LICENSE AGREEMENT (the "License");
* You may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* www.st.com/myliberty
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied,
* AND SPECIFICALLY DISCLAIMING THE IMPLIED WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, AND NON-INFRINGEMENT.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/*
* PROJECT: ST25R3916 firmware
* Revision:
* LANGUAGE: ISO C99
*/
/*! \file
*
* \author Gustavo Patricio
*
* \brief ST25R3916 high level interface
*
*
* \addtogroup RFAL
* @{
*
* \addtogroup RFAL-HAL
* \brief RFAL Hardware Abstraction Layer
* @{
*
* \addtogroup ST25R3916
* \brief RFAL ST25R3916 Driver
* @{
*
* \addtogroup ST25R3916_Driver
* \brief RFAL ST25R3916 Driver
* @{
*
*/
#ifndef ST25R3916_H
#define ST25R3916_H
/*
******************************************************************************
* INCLUDES
******************************************************************************
*/
#include "platform.h"
#include "st_errno.h"
#include "st25r3916_com.h"
/*
******************************************************************************
* GLOBAL DATATYPES
******************************************************************************
*/
/*! Struct to represent all regs on ST25R3916 */
typedef struct {
uint8_t RsA[(
ST25R3916_REG_IC_IDENTITY + 1U)]; /*!< Registers contained on ST25R3916 space A (Rs-A) */
uint8_t
RsB[ST25R3916_SPACE_B_REG_LEN]; /*!< Registers contained on ST25R3916 space B (Rs-B) */
} t_st25r3916Regs;
/*! Parameters how the stream mode should work */
struct st25r3916StreamConfig {
uint8_t useBPSK; /*!< 0: subcarrier, 1:BPSK */
uint8_t din; /*!< Divider for the in subcarrier frequency: fc/2^din */
uint8_t dout; /*!< Divider for the in subcarrier frequency fc/2^dout */
uint8_t report_period_length; /*!< Length of the reporting period 2^report_period_length*/
};
/*
******************************************************************************
* GLOBAL DEFINES
******************************************************************************
*/
/* ST25R3916 direct commands */
#define ST25R3916_CMD_SET_DEFAULT \
0xC1U /*!< Puts the chip in default state (same as after power-up) */
#define ST25R3916_CMD_STOP 0xC2U /*!< Stops all activities and clears FIFO */
#define ST25R3916_CMD_TRANSMIT_WITH_CRC \
0xC4U /*!< Transmit with CRC */
#define ST25R3916_CMD_TRANSMIT_WITHOUT_CRC \
0xC5U /*!< Transmit without CRC */
#define ST25R3916_CMD_TRANSMIT_REQA \
0xC6U /*!< Transmit REQA */
#define ST25R3916_CMD_TRANSMIT_WUPA \
0xC7U /*!< Transmit WUPA */
#define ST25R3916_CMD_INITIAL_RF_COLLISION \
0xC8U /*!< NFC transmit with Initial RF Collision Avoidance */
#define ST25R3916_CMD_RESPONSE_RF_COLLISION_N \
0xC9U /*!< NFC transmit with Response RF Collision Avoidance */
#define ST25R3916_CMD_GOTO_SENSE \
0xCDU /*!< Passive target logic to Sense/Idle state */
#define ST25R3916_CMD_GOTO_SLEEP \
0xCEU /*!< Passive target logic to Sleep/Halt state */
#define ST25R3916_CMD_MASK_RECEIVE_DATA \
0xD0U /*!< Mask receive data */
#define ST25R3916_CMD_UNMASK_RECEIVE_DATA \
0xD1U /*!< Unmask receive data */
#define ST25R3916_CMD_AM_MOD_STATE_CHANGE \
0xD2U /*!< AM Modulation state change */
#define ST25R3916_CMD_MEASURE_AMPLITUDE \
0xD3U /*!< Measure singal amplitude on RFI inputs */
#define ST25R3916_CMD_RESET_RXGAIN \
0xD5U /*!< Reset RX Gain */
#define ST25R3916_CMD_ADJUST_REGULATORS \
0xD6U /*!< Adjust regulators */
#define ST25R3916_CMD_CALIBRATE_DRIVER_TIMING \
0xD8U /*!< Starts the sequence to adjust the driver timing */
#define ST25R3916_CMD_MEASURE_PHASE \
0xD9U /*!< Measure phase between RFO and RFI signal */
#define ST25R3916_CMD_CLEAR_RSSI \
0xDAU /*!< Clear RSSI bits and restart the measurement */
#define ST25R3916_CMD_CLEAR_FIFO \
0xDBU /*!< Clears FIFO, Collision and IRQ status */
#define ST25R3916_CMD_TRANSPARENT_MODE \
0xDCU /*!< Transparent mode */
#define ST25R3916_CMD_CALIBRATE_C_SENSOR \
0xDDU /*!< Calibrate the capacitive sensor */
#define ST25R3916_CMD_MEASURE_CAPACITANCE \
0xDEU /*!< Measure capacitance */
#define ST25R3916_CMD_MEASURE_VDD \
0xDFU /*!< Measure power supply voltage */
#define ST25R3916_CMD_START_GP_TIMER \
0xE0U /*!< Start the general purpose timer */
#define ST25R3916_CMD_START_WUP_TIMER \
0xE1U /*!< Start the wake-up timer */
#define ST25R3916_CMD_START_MASK_RECEIVE_TIMER \
0xE2U /*!< Start the mask-receive timer */
#define ST25R3916_CMD_START_NO_RESPONSE_TIMER \
0xE3U /*!< Start the no-response timer */
#define ST25R3916_CMD_START_PPON2_TIMER \
0xE4U /*!< Start PPon2 timer */
#define ST25R3916_CMD_STOP_NRT \
0xE8U /*!< Stop No Response Timer */
#define ST25R3916_CMD_SPACE_B_ACCESS \
0xFBU /*!< Enable R/W access to the test registers */
#define ST25R3916_CMD_TEST_ACCESS \
0xFCU /*!< Enable R/W access to the test registers */
#define ST25R3916_THRESHOLD_DO_NOT_SET \
0xFFU /*!< Indicates not to change this Threshold */
#define ST25R3916_BR_DO_NOT_SET \
0xFFU /*!< Indicates not to change this Bit Rate */
#define ST25R3916_BR_106 0x00U /*!< ST25R3916 Bit Rate 106 kbit/s (fc/128) */
#define ST25R3916_BR_212 0x01U /*!< ST25R3916 Bit Rate 212 kbit/s (fc/64) */
#define ST25R3916_BR_424 0x02U /*!< ST25R3916 Bit Rate 424 kbit/s (fc/32) */
#define ST25R3916_BR_848 0x03U /*!< ST25R3916 Bit Rate 848 kbit/s (fc/16) */
#define ST25R3916_BR_1695 0x04U /*!< ST25R3916 Bit Rate 1696 kbit/s (fc/8) */
#define ST25R3916_BR_3390 0x05U /*!< ST25R3916 Bit Rate 3390 kbit/s (fc/4) */
#define ST25R3916_BR_6780 0x07U /*!< ST25R3916 Bit Rate 6780 kbit/s (fc/2) */
#define ST25R3916_FIFO_DEPTH 512U /*!< Depth of FIFO */
#define ST25R3916_TOUT_OSC_STABLE \
10U /*!< Max timeout for Oscillator to get stable DS: 700us */
/*
******************************************************************************
* GLOBAL MACROS
******************************************************************************
*/
/*! Enables the Transmitter (Field On) and Receiver */
#define st25r3916TxRxOn() \
st25r3916SetRegisterBits( \
ST25R3916_REG_OP_CONTROL, \
(ST25R3916_REG_OP_CONTROL_rx_en | ST25R3916_REG_OP_CONTROL_tx_en))
/*! Disables the Transmitter (Field Off) and Receiver */
#define st25r3916TxRxOff() \
st25r3916ClrRegisterBits( \
ST25R3916_REG_OP_CONTROL, \
(ST25R3916_REG_OP_CONTROL_rx_en | ST25R3916_REG_OP_CONTROL_tx_en))
/*! Disables the Transmitter (Field Off) */
#define st25r3916TxOff() \
st25r3916ClrRegisterBits(ST25R3916_REG_OP_CONTROL, ST25R3916_REG_OP_CONTROL_tx_en)
/*! Checks if General Purpose Timer is still running by reading gpt_on flag */
#define st25r3916IsGPTRunning() \
st25r3916CheckReg( \
ST25R3916_REG_NFCIP1_BIT_RATE, \
ST25R3916_REG_NFCIP1_BIT_RATE_gpt_on, \
ST25R3916_REG_NFCIP1_BIT_RATE_gpt_on)
/*! Checks if External Filed is detected by reading ST25R3916 External Field Detector output */
#define st25r3916IsExtFieldOn() \
st25r3916CheckReg( \
ST25R3916_REG_AUX_DISPLAY, \
ST25R3916_REG_AUX_DISPLAY_efd_o, \
ST25R3916_REG_AUX_DISPLAY_efd_o)
/*! Checks if Transmitter is enabled (Field On) */
#define st25r3916IsTxEnabled() \
st25r3916CheckReg( \
ST25R3916_REG_OP_CONTROL, ST25R3916_REG_OP_CONTROL_tx_en, ST25R3916_REG_OP_CONTROL_tx_en)
/*! Checks if NRT is in EMV mode */
#define st25r3916IsNRTinEMV() \
st25r3916CheckReg( \
ST25R3916_REG_TIMER_EMV_CONTROL, \
ST25R3916_REG_TIMER_EMV_CONTROL_nrt_emv, \
ST25R3916_REG_TIMER_EMV_CONTROL_nrt_emv_on)
/*! Checks if last FIFO byte is complete */
#define st25r3916IsLastFIFOComplete() \
st25r3916CheckReg(ST25R3916_REG_FIFO_STATUS2, ST25R3916_REG_FIFO_STATUS2_fifo_lb_mask, 0)
/*! Checks if the Oscillator is enabled */
#define st25r3916IsOscOn() \
st25r3916CheckReg( \
ST25R3916_REG_OP_CONTROL, ST25R3916_REG_OP_CONTROL_en, ST25R3916_REG_OP_CONTROL_en)
/*
******************************************************************************
* GLOBAL FUNCTION PROTOTYPES
******************************************************************************
*/
/*!
*****************************************************************************
* \brief Initialise ST25R3916 driver
*
* This function initialises the ST25R3916 driver.
*
* \return ERR_NONE : Operation successful
* \return ERR_HW_MISMATCH : Expected HW do not match or communication error
* \return ERR_IO : Error during communication selftest. Check communication interface
* \return ERR_TIMEOUT : Timeout during IRQ selftest. Check IRQ handling
* \return ERR_SYSTEM : Failure during oscillator activation or timer error
*
*****************************************************************************
*/
ReturnCode st25r3916Initialize(void);
/*!
*****************************************************************************
* \brief Deinitialize ST25R3916 driver
*
* Calling this function deinitializes the ST25R3916 driver.
*
*****************************************************************************
*/
void st25r3916Deinitialize(void);
/*!
*****************************************************************************
* \brief Turn on Oscillator and Regulator
*
* This function turn on oscillator and regulator and waits for the
* oscillator to become stable
*
* \return ERR_SYSTEM : Failure dusring Oscillator activation
* \return ERR_NONE : No error, Oscillator is active and stable, Regulator is on
*
*****************************************************************************
*/
ReturnCode st25r3916OscOn(void);
/*!
*****************************************************************************
* \brief Sets the bitrate
*
* This function sets the bitrates for rx and tx
*
* \param txrate : speed is 2^txrate * 106 kb/s
* 0xff : don't set txrate (ST25R3916_BR_DO_NOT_SET)
* \param rxrate : speed is 2^rxrate * 106 kb/s
* 0xff : don't set rxrate (ST25R3916_BR_DO_NOT_SET)
*
* \return ERR_PARAM: At least one bit rate was invalid
* \return ERR_NONE : No error, both bit rates were set
*
*****************************************************************************
*/
ReturnCode st25r3916SetBitrate(uint8_t txrate, uint8_t rxrate);
/*!
*****************************************************************************
* \brief Adjusts supply regulators according to the current supply voltage
*
* This function the power level is measured in maximum load conditions and
* the regulated voltage reference is set to 250mV below this level.
* Execution of this function lasts arround 5ms.
*
* The regulated voltages will be set to the result of Adjust Regulators
*
* \param [out] result_mV : Result of calibration in milliVolts
*
* \return ERR_IO : Error during communication with ST25R3916
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916AdjustRegulators(uint16_t* result_mV);
/*!
*****************************************************************************
* \brief Measure Amplitude
*
* This function measured the amplitude on the RFI inputs and stores the
* result in parameter \a result.
*
* \param[out] result: result of RF measurement.
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916MeasureAmplitude(uint8_t* result);
/*!
*****************************************************************************
* \brief Measure Power Supply
*
* This function executes Measure Power Supply and returns the raw value
*
* \param[in] mpsv : one of ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_rf
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_a
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_d
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_am
*
* \return the measured voltage in raw format.
*
*****************************************************************************
*/
uint8_t st25r3916MeasurePowerSupply(uint8_t mpsv);
/*!
*****************************************************************************
* \brief Measure Voltage
*
* This function measures the voltage on one of VDD and VDD_* and returns
* the result in mV
*
* \param[in] mpsv : one of ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_rf
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_a
* ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_d
* or ST25R3916_REG_REGULATOR_CONTROL_mpsv_vdd_am
*
* \return the measured voltage in mV
*
*****************************************************************************
*/
uint16_t st25r3916MeasureVoltage(uint8_t mpsv);
/*!
*****************************************************************************
* \brief Measure Phase
*
* This function performs a Phase measurement.
* The result is stored in the \a result parameter.
*
* \param[out] result: 8 bit long result of the measurement.
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916MeasurePhase(uint8_t* result);
/*!
*****************************************************************************
* \brief Measure Capacitance
*
* This function performs the capacitance measurement and stores the
* result in parameter \a result.
*
* \param[out] result: 8 bit long result of RF measurement.
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916MeasureCapacitance(uint8_t* result);
/*!
*****************************************************************************
* \brief Calibrates Capacitive Sensor
*
* This function performs automatic calibration of the capacitive sensor
* and stores the result in parameter \a result.
*
* \warning To avoid interference with Xtal oscillator and reader magnetic
* field, it is strongly recommended to perform calibration
* in Power-down mode only.
* This method does not modify the Oscillator nor transmitter state,
* these should be configured before by user.
*
* \param[out] result: 5 bit long result of the calibration.
* Binary weighted, step 0.1 pF, max 3.1 pF
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_IO : The calibration was not successful
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916CalibrateCapacitiveSensor(uint8_t* result);
/*!
*****************************************************************************
* \brief Get NRT time
*
* This returns the last value set on the NRT
*
* \warning it does not read chip register, just the sw var that contains the
* last value set before
*
* \return the value of the NRT in 64/fc
*/
uint32_t st25r3916GetNoResponseTime(void);
/*!
*****************************************************************************
* \brief Set NRT time
*
* This function sets the No Response Time with the given value
*
* \param [in] nrt_64fcs : no response time in steps of 64/fc (4.72us)
*
* \return ERR_PARAM : Invalid parameter (time is too large)
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916SetNoResponseTime(uint32_t nrt_64fcs);
/*!
*****************************************************************************
* \brief Set and Start NRT
*
* This function sets the No Response Time with the given value and
* immediately starts it
* Used when needs to add more time before timeout without performing Tx
*
* \param [in] nrt_64fcs : no response time in steps of 64/fc (4.72us)
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916SetStartNoResponseTimer(uint32_t nrt_64fcs);
/*!
*****************************************************************************
* \brief Set GPT time
*
* This function sets the General Purpose Timer time registers
*
* \param [in] gpt_8fcs : general purpose timer timeout in steps of 8/fc (590ns)
*
*****************************************************************************
*/
void st25r3916SetGPTime(uint16_t gpt_8fcs);
/*!
*****************************************************************************
* \brief Set and Start GPT
*
* This function sets the General Purpose Timer with the given timeout and
* immediately starts it ONLY if the trigger source is not set to none.
*
* \param [in] gpt_8fcs : general purpose timer timeout in steps of8/fc (590ns)
* \param [in] trigger_source : no trigger, start of Rx, end of Rx, end of Tx in NFC mode
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916SetStartGPTimer(uint16_t gpt_8fcs, uint8_t trigger_source);
/*!
*****************************************************************************
* \brief Sets the number Tx Bits
*
* Sets ST25R3916 internal registers with correct number of complete bytes and
* bits to be sent
*
* \param [in] nBits : number of bits to be set/transmitted
*
*****************************************************************************
*/
void st25r3916SetNumTxBits(uint16_t nBits);
/*!
*****************************************************************************
* \brief Get amount of bytes in FIFO
*
* Gets the number of bytes currently in the FIFO
*
* \return the number of bytes currently in the FIFO
*
*****************************************************************************
*/
uint16_t st25r3916GetNumFIFOBytes(void);
/*!
*****************************************************************************
* \brief Get amount of bits of the last FIFO byte if incomplete
*
* Gets the number of bits of the last FIFO byte if incomplete
*
* \return the number of bits of the last FIFO byte if incomplete, 0 if
* the last byte is complete
*
*****************************************************************************
*/
uint8_t st25r3916GetNumFIFOLastBits(void);
/*!
*****************************************************************************
* \brief Perform Collision Avoidance
*
* Performs Collision Avoidance with the given threshold and with the
* n number of TRFW
*
* \param[in] FieldONCmd : Field ON command to be executed ST25R3916_CMD_INITIAL_RF_COLLISION
* or ST25R3916_CMD_RESPONSE_RF_COLLISION_N
* \param[in] pdThreshold : Peer Detection Threshold (ST25R3916_REG_FIELD_THRESHOLD_trg_xx)
* 0xff : don't set Threshold (ST25R3916_THRESHOLD_DO_NOT_SET)
* \param[in] caThreshold : Collision Avoidance Threshold (ST25R3916_REG_FIELD_THRESHOLD_rfe_xx)
* 0xff : don't set Threshold (ST25R3916_THRESHOLD_DO_NOT_SET)
* \param[in] nTRFW : Number of TRFW
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_RF_COLLISION : Collision detected
* \return ERR_NONE : No collision detected
*
*****************************************************************************
*/
ReturnCode st25r3916PerformCollisionAvoidance(
uint8_t FieldONCmd,
uint8_t pdThreshold,
uint8_t caThreshold,
uint8_t nTRFW);
/*!
*****************************************************************************
* \brief Check Identity
*
* Checks if the chip ID is as expected.
*
* 5 bit IC type code for ST25R3916: 00101
* The 3 lsb contain the IC revision code
*
* \param[out] rev : the IC revision code
*
* \return true when IC type is as expected
* \return false otherwise
*/
bool st25r3916CheckChipID(uint8_t* rev);
/*!
*****************************************************************************
* \brief Retrieves all internal registers from ST25R3916
*
* \param[out] regDump : pointer to the struct/buffer where the reg dump
* will be written
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*****************************************************************************
*/
ReturnCode st25r3916GetRegsDump(t_st25r3916Regs* regDump);
/*!
*****************************************************************************
* \brief Check if command is valid
*
* Checks if the given command is a valid ST25R3916 command
*
* \param[in] cmd: Command to check
*
* \return true if is a valid command
* \return false otherwise
*
*****************************************************************************
*/
bool st25r3916IsCmdValid(uint8_t cmd);
/*!
*****************************************************************************
* \brief Configure the stream mode of ST25R3916
*
* This function initializes the stream with the given parameters
*
* \param[in] config : all settings for bitrates, type, etc.
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error, stream mode driver initialized
*
*****************************************************************************
*/
ReturnCode st25r3916StreamConfigure(const struct st25r3916StreamConfig* config);
/*!
*****************************************************************************
* \brief Executes a direct command and returns the result
*
* This function executes the direct command given by \a cmd waits for
* \a sleeptime for I_dct and returns the result read from register \a resreg.
* The value of cmd is not checked.
*
* \param[in] cmd : direct command to execute
* \param[in] resReg: address of the register containing the result
* \param[in] tout : time in milliseconds to wait before reading the result
* \param[out] result: result
*
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode
st25r3916ExecuteCommandAndGetResult(uint8_t cmd, uint8_t resReg, uint8_t tout, uint8_t* result);
/*!
*****************************************************************************
* \brief Gets the RSSI values
*
* This function gets the RSSI value of the previous reception taking into
* account the gain reductions that were used.
* RSSI value for both AM and PM channel can be retrieved.
*
* \param[out] amRssi: the RSSI on the AM channel expressed in mV
* \param[out] pmRssi: the RSSI on the PM channel expressed in mV
*
* \return ERR_PARAM : Invalid parameter
* \return ERR_NONE : No error
*
*****************************************************************************
*/
ReturnCode st25r3916GetRSSI(uint16_t* amRssi, uint16_t* pmRssi);
#endif /* ST25R3916_H */
/**
* @}
*
* @}
*
* @}
*
* @}
*/
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