Continue work on Device config

This commit is contained in:
mrumel 2022-06-17 11:35:24 -04:00
parent 4851bfc50a
commit 11deae5454
2 changed files with 273 additions and 222 deletions

3
.gitignore vendored
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@ -5,4 +5,5 @@ build
dist
__pycache__
*.egg-info
_build
_build
.idea

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@ -1,14 +1,15 @@
import ctypes
from enum import Enum
uint8_t = ctypes.c_uint8
uint16_t = ctypes.c_uint16
uint32_t = ctypes.c_uint32
import spidev
class TCAN4550:
def __init__(self, bus:int, device:int) -> None:
def __init__(self, bus: int, device: int) -> None:
# SPI initialization
self.spi = spidev.SpiDev(bus, device)
self.spi.max_speed_hz = 2000000
@ -16,68 +17,104 @@ class TCAN4550:
self.spi.mode = 0b00
self.spi.cshigh = True
# TCAN device initialization
# Begin by clearing any potential SPI errors
self.TCAN_clearSPIerr()
self.dev_ie = TCAN4550_device_interrupt_enable()
self.dev_ie = TCAN4x5x_device_interrupt_enable()
self.dev_ie = 0x0 # Initialize to 0 to all bits are set to 0.
self.TCAN_configure_interrupt_enable(self.dev_ie) # Disable all non-MCAN related interrupts for simplicity
self.dev_ir = TCAN4550_device_interrupt()
self.dev.ir = 0x0 # Setup a new MCAN IR object for easy interrupt checking
self.TCAN_read_interrupts(self.dev_ir) # Request that the struct be updated with current DEVICE (not MCAN) interrupt values
self.dev_ir = TCAN4x5x_Device_Interrupts()
self.dev_ir = 0x0 # Setup a new MCAN IR object for easy interrupt checking
self.TCAN_read_interrupts(
self.dev_ir) # Request that the struct be updated with current DEVICE (not MCAN) interrupt values
if self.dev_ir.b.PWRON:
self.TCAN4x5x_Device_ClearInterrupts(self.dev_ir)
# Configure the CAN bus speeds
self.TCANNomTiming = TCAN4550_MCAN_nominal_timing_simple() # 500k arbitration with a 40 MHz crystal ((40E6 / 2) / (32 + 8) = 500E3)
self.TCANNomTiming = TCAN4x5x_MCAN_Nominal_Timing_Simple() # 500k arbitration with a 40 MHz crystal ((40E6 / 2) / (32 + 8) = 500E3)
self.TCANNomTiming = 0x0
self.TCANNomTiming.NominalBitRatePrescaler = 2
self.TCANNomTiming.NominalTqBeforeSamplePoint = 32
self.TCANNomTiming.NominalTqAfterSamplePoint = 8
self.TCANDataTiming = TCAN4550_MCAN_nominal_timing_simple() # 2 Mbps CAN FD with a 40 MHz crystal (40E6 / (15 + 5) = 2E6)
self.TCANDataTiming = TCAN4x5x_MCAN_Nominal_Timing_Simple() # 2 Mbps CAN FD with a 40 MHz crystal (40E6 / (15 + 5) = 2E6)
self.TCANDataTiming = 0x0
self.TCANDataTiming.DataBitRatePrescaler = 1;
self.TCANDataTiming.DataTqBeforeSamplePoint = 15;
self.TCANDataTiming.DataTqAfterSamplePoint = 5;
self.TCANDataTiming.DataBitRatePrescaler = 1
self.TCANDataTiming.DataTqBeforeSamplePoint = 15
self.TCANDataTiming.DataTqAfterSamplePoint = 5
# Configure the MCAN core settings
self.cccrConfig = TCAN4x5x_MCAN_CCCR_Config()
self.cccrConfig = 0x0 # Remember to initialize to 0, or you'll get random garbage!
self.cccrConfig.b.FDOE = 1 # CAN FD mode enable
self.cccrConfig.b.BRSE = 1 # CAN FD Bit rate switch enable
# Configure the default CAN packet filtering settings
self.gfc = TCAN4x5x_MCAN_Global_Filter_Configuration()
self.gfc.b.RRFE = 1 # Reject remote frames (TCAN4x5x doesn't support this)
self.gfc.b.RRFS = 1 # Reject remote frames (TCAN4x5x doesn't support this)
self.gfc.b.ANFE = TCAN4x5x_GFC_NO_MATCH_BEHAVIOR.TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO0.value # Default behavior if incoming message doesn't match a filter is to accept into RXFIO0 for extended ID messages (29 bit IDs)
self.gfc.b.ANFS = TCAN4x5x_GFC_NO_MATCH_BEHAVIOR.TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO0.value # Default behavior if incoming message doesn't match a filter is to accept into RXFIO0 for standard ID messages (11 bit IDs)
'''
In the next configuration block, we will set the MCAN core up to have:
- 1 SID filter element
- 1 XID Filter element
- 5 RX FIFO 0 elements
- RX FIFO 0 supports data payloads up to 64 bytes
- RX FIFO 1 and RX Buffer will not have any elements, but we still set their data payload sizes, even though it's not required
- No TX Event FIFOs
- 2 Transmit buffers supporting up to 64 bytes of data payload
'''
self.MRAMConfiguration = TCAN4x5x_MRAM_Config()
self.MRAMConfiguration = 0x0
self.MRAMConfiguration.XIDNumElements = 1 # Extended ID number of elements, you MUST have a filter written to MRAM for each element defined
self.MRAMConfiguration.SIDNumElements = 1 # Standard ID number of elements, you MUST have a filter written to MRAM for each element defined
self.MRAMConfiguration.Rx0NumElements = 5 # RX0 Number of elements
self.MRAMConfiguration.Rx0ElementSize = TCAN4x5x_MRAM_Element_Data_Size.MRAM_64_Byte_Data # RX0 data payload size
self.MRAMConfiguration.Rx1NumElements = 0 # RX1 number of elements
self.MRAMConfiguration.Rx1ElementSize = TCAN4x5x_MRAM_Element_Data_Size.MRAM_64_Byte_Data # RX1 data payload size
self.MRAMConfiguration.RxBufNumElements = 0 # RX buffer number of elements
self.MRAMConfiguration.RxBufElementSize = TCAN4x5x_MRAM_Element_Data_Size.MRAM_64_Byte_Data # RX buffer data payload size
self.MRAMConfiguration.TxEventFIFONumElements = 0 # TX Event FIFO number of elements
self.MRAMConfiguration.TxBufferNumElements = 2 # TX buffer number of elements
self.MRAMConfiguration.TxBufferElementSize = TCAN4x5x_MRAM_Element_Data_Size.MRAM_64_Byte_Data # TX buffer data payload size
def TCAN4x5x_Device_ClearInterrupts(self, ir):
pass
def TCAN_clearSPIerr(self) -> None:
pass
def TCAN_configure_interrupt_enable(self, ie) -> bool:
return True
def TCAN_read_interrupts(self, ir) -> bool:
return True
def TCAN_write_32(self, address, data) -> None:
pass
def TCAN_write(self, data, address, no_words) -> None:
pass
def TCAN_read_32(self, address, data) -> uint32_t:
return 0
def TCAN_read(self,address, data, no_words) -> uint32_t:
def TCAN_read(self, address, data, no_words) -> uint32_t:
return 0
class TCAN4x5x_GFC_NO_MATCH_BEHAVIOR(Enum): #No Comments provided in original file
class TCAN4x5x_GFC_NO_MATCH_BEHAVIOR(Enum): # No Comments provided in original file
TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO0 = 0,
TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO1 = 1,
TCAN4x5x_GFC_REJECT = 2
class TCAN4x5x_MRAM_Element_Data_Size(Enum):
# 8 bytes of data payload
MRAM_8_Byte_Data = 0,
@ -103,642 +140,655 @@ class TCAN4x5x_MRAM_Element_Data_Size(Enum):
# 64 bytes of data payload
MRAM_64_Byte_Data = 0x7
class TCAN4x5x_MCAN_Data_Timing_Simple(ctypes.Structure):
class TCAN4x5x_MCAN_Data_Timing_Simple(ctypes.Structure):
_fields_ = [
# Prescaler value, interpreted as 1:x
# Valid range is: 1 to 32
("DataBitRatePrescaler", uint8_t, 6),
# DTQBSP: Number of time quanta before sample point
# Valid values are: 2 to 33
("DataTqBeforeSamplePoint", uint8_t, 6),
# DTQASP: Number of time quanta after sample point
# Valid values are: 1 to 16
("DataTqAfterSamplePoint", uint8_t, 5)
]
class TCAN4x5x_MCAN_Data_Timing_Raw(ctypes.Structure):
_fields_= [
_fields_ = [
# DBRP: The prescaler value from the MCAN system clock. Interpreted by MCAN as the value is this field + 1
# Valid range is: 0 to 31
("DataBitRatePrescaler", uint8_t, 5),
# DTSEG1: Data time segment 1 + prop segment value. Interpreted by MCAN as the value in this field + 1
# Valid values are: 0 to 31
("DataTimeSeg1andProp", uint8_t, 5),
# DTSEG2: Data time segment 2. Interpreted by MCAN as the value is this field + 1
# Valid values are: 0 to 15
("DataTimeSeg2", uint8_t, 4),
# DSJW: Data Resynchronization jump width. Interpreted by MCAN as the value is this field + 1
# Valid values are: 0 to 15
("DataSyncJumpWidth", uint8_t, 4),
# TDCO: Transmitter delay compensation offset
# Valid values are 0 to 127 mtq
("TDCOffset", uint8_t, 7),
# TDCFilter: Transmitter delay compensation Filter Window Length
# Valid values are 0 to 127 mtq
("TDCFilter", uint8_t, 7)
]
class TCAN4x5x_MCAN_Nominal_Timing_Simple(ctypes.Structure):
_fields_ = [
# NBRP: The prescaler value from the MCAN system clock. Value interpreted as 1:x
# Valid range is: 1 to 512
("NominalBitRatePrescaler", uint16_t, 10),
# NTQBSP: The total number of time quanta prior to sample point
# Valid values are: 2 to 257
("NominalTqBeforeSamplePoint", uint16_t, 9),
# NTQASP: The total number of time quanta after the sample point
# Valid values are: 2 to 128
("NominalTqAfterSamplePoint", uint8_t, 8)
]
class TCAN4x5x_MCAN_Nominal_Timing_Raw(ctypes.Structure):
_fields_ = [
# NBRP: The prescaler value from the MCAN system clock. Interpreted by MCAN as the value is this field + 1
# Valid range is: 0 to 511
("NominalBitRatePrescaler", uint16_t, 9),
# NTSEG1: Data time segment 1 + prop segment value. Interpreted by MCAN as the value is this field + 1
# Valid values are: 0 to 255
("NominalTimeSeg1andProp", uint8_t, 8),
# NTSEG2: Data time segment 2. Interpreted by MCAN as the value is this field + 1
# Valid values are: 0 to 127
("NominalTimeSeg2", uint8_t, 7),
# NSJW: Nominal time Resynchronization jump width. Interpreted by MCAN as the value is this field + 1
# Valid values are: 0 to 127
("NominalSyncJumpWidth", uint8_t, 7)
]
class TCAN4x5x_MRAM_Config(ctypes.Structure):
_fields_ = [
# ************************
# Filter Elements *
# ************************
# ************************
# Filter Elements *
# ************************
# Standard ID Number of Filter Elements: The number of 11-bit filters the user would like
# Valid range is: 0 to 128
("SIDNumElements", uint8_t, 8),
# Extended ID Number of Filter Elements: The number of 29-bit filters the user would like
# Valid range is: 0 to 64
("XIDNumElements", uint8_t, 7),
# /************************
# RX FIFO Elements *
# ************************/
# /************************
# RX FIFO Elements *
# ************************/
# RX FIFO 0 number of elements: The number of elements for the RX FIFO 0
# Valid range is: 0 to 64
("Rx0NumElements", uint8_t, 7),
# RX FIFO 0 element size: The number of bytes for the RX 0 FIFO (data payload)
("Rx0ElementSize", TCAN4x5x_MRAM_Element_Data_Size, 3),
# RX FIFO 1 number of elements: The number of elements for the RX FIFO 1
# Valid range is: 0 to 64
("Rx1NumElements", uint8_t, 7),
# RX FIFO 1 element size: The number of bytes for the RX 1 FIFO (data payload)
("Rx1ElementSize", TCAN4x5x_MRAM_Element_Data_Size, 3),
# RX Buffers number of elements: The number of elements for the RX Buffers (Not the FIFO)
# Valid range is: 0 to 64
("RxBufNumElements", uint8_t, 7),
# RX Buffers element size: The number of bytes for the RX Buffers (data payload), not the FIFO
("RxBufElementSize", TCAN4x5x_MRAM_Element_Data_Size, 3),
# /************************
#TX Buffer Elements *
# TX Buffer Elements *
# ************************/
# TX Event FIFO number of elements: The number of elements for the TX Event FIFO
# Valid range is: 0 to 32
("TxEventFIFONumElements", uint8_t, 6),
# TX Buffers number of elements: The number of elements for the TX Buffers
# Valid range is: 0 to 32
("TxBufferNumElements", uint8_t, 6),
# TX Buffers element size: The number of bytes for the TX Buffers (data payload)
("TxBufferElementSize", TCAN4x5x_MRAM_Element_Data_Size, 3)
]
class TCAN4x5x_MCAN_Interrupt_Enable_bits(ctypes.Structure):
_fields_ = [
# IE[0] RF0NE: Rx FIFO 0 new message
("RF0NE", uint8_t, 1),
# IE[1] RF0WE: Rx FIFO 0 watermark reached
("RF0WE", uint8_t, 1),
# IE[2] RF0FE: Rx FIFO 0 full
("RF0FE", uint8_t, 1),
# IE[3] RF0LE: Rx FIFO 0 message lost
("RF0LE", uint8_t, 1),
# IE[4] RF1NE: Rx FIFO 1 new message
("RF1NE", uint8_t, 1),
# IE[5] RF1WE: RX FIFO 1 watermark reached
("RF1WE", uint8_t, 1),
# IE[6] RF1FE: Rx FIFO 1 full
("RF1FE", uint8_t, 1),
# IE[7] RF1LE: Rx FIFO 1 message lost
("RF1LE", uint8_t, 1),
# IE[8] HPME: High priority message
("HPME", uint8_t, 1),
# IE[9] TCE: Transmission completed
("TCE", uint8_t, 1),
# IE[10] TCFE: Transmission cancellation finished
("TCFE", uint8_t, 1),
# IE[11] TFEE: Tx FIFO Empty
("TFEE", uint8_t, 1),
# IE[12] TEFNE: Tx Event FIFO new entry
("TEFNE", uint8_t, 1),
# IE[13] TEFWE: Tx Event FIFO watermark reached
("TEFWE", uint8_t, 1),
# IE[14] TEFFE: Tx Event FIFO full
("TEFFE", uint8_t, 1),
# IE[15] TEFLE: Tx Event FIFO element lost
("TEFLE", uint8_t, 1),
("TEFLE", uint8_t, 1),
# IE[16] TSWE: Timestamp wraparound
("TSWE", uint8_t, 1),
# IE[17] MRAFE: Message RAM access failure
("MRAFE", uint8_t, 1),
# IE[18] TOOE: Time out occured
("TOOE", uint8_t, 1),
# IE[19] DRXE: Message stored to dedicated RX buffer
("DRXE", uint8_t, 1),
# IE[20] BECE: MRAM Bit error corrected
("BECE", uint8_t, 1),
# IE[21] BEUE: MRAM Bit error uncorrected
("BEUE", uint8_t, 1),
# IE[22] ELOE: Error logging overflow
("ELOE", uint8_t, 1),
# IE[23] EPE: Error_passive status changed
("EPE", uint8_t, 1),
# IE[24] EWE: Error_warning status changed
("EWE", uint8_t, 1),
# IE[25] BOE: Bus_off status changed
("BOE", uint8_t, 1),
# IE[26] WDIE: MRAM Watchdog Interrupt
("WDIE", uint8_t, 1),
# IE[27] PEAE Protocol Error in arbitration phase (nominal bit time used)
("PEAE", uint8_t, 1),
# IE[28] PEDE: Protocol error in data phase (data bit time is used)
("PEDE", uint8_t, 1),
# IE[29] ARAE: Access to reserved address
("ARAE", uint8_t, 1),
# IE[30:31] Reserved, not writable
("reserved", uint8_t, 2)
]
class TCAN4x5x_MCAN_Interrupt_Enable(ctypes.Union):
_fields_= [("b", TCAN4x5x_MCAN_Interrupt_Enable_bits),
("word", uint32_t)]
class TCAN4x5x_MCAN_Interrupt_Enable(ctypes.Union):
_fields_ = [("b", TCAN4x5x_MCAN_Interrupt_Enable_bits),
("word", uint32_t)]
class TCAN4x5x_MCAN_Interrupts_bits(ctypes.Structure):
_fields_ = [
# IR[0] RF0N: Rx FIFO 0 new message
("RF0N", uint8_t, 1),
# IR[1] RF0W: Rx FIFO 0 watermark reached
("RF0W", uint8_t, 1),
# IR[2] RF0F: Rx FIFO 0 full
("RF0F", uint8_t, 1),
# IR[3] RF0L: Rx FIFO 0 message lost
("RF0L", uint8_t, 1),
# IR[4] RF1N: Rx FIFO 1 new message
("RF1N", uint8_t, 1),
# IR[5] RF1W: RX FIFO 1 watermark reached
("RF1W", uint8_t, 1),
# IR[6] RF1F: Rx FIFO 1 full
("RF1F", uint8_t, 1),
# IR[7] RF1L: Rx FIFO 1 message lost
("RF1L", uint8_t, 1),
# IR[8] HPM: High priority message
("HPM", uint8_t, 1),
# IR[9] TC: Transmission completed
("TC", uint8_t, 1),
# IR[10] TCF: Transmission cancellation finished
("TCF", uint8_t, 1),
# IR[11] TFE: Tx FIFO Empty
("TFE", uint8_t, 1),
# IR[12] TEFN: Tx Event FIFO new entry
("TEFN", uint8_t, 1),
# IR[13] TEFW: Tx Event FIFO water mark reached
("TEFW", uint8_t, 1),
# IR[14] TEFF: Tx Event FIFO full
("TEFF", uint8_t, 1),
# IR[15] TEFL: Tx Event FIFO element lost
("TEFL", uint8_t, 1),
# IR[16] TSW: Timestamp wrapped around
("TSW", uint8_t, 1),
# IR[17] MRAF: Message RAM access failure
("MRAF", uint8_t, 1),
# IR[18] TOO: Time out occurred
("TOO", uint8_t, 1),
# IR[19] DRX: Message stored to dedicated RX buffer
("DRX", uint8_t, 1),
# IR[20] BEC: MRAM Bit error corrected
("BEC", uint8_t, 1),
# IR[21] BEU: MRAM Bit error uncorrected
("BEU", uint8_t, 1),
# IR[22] ELO: Error logging overflow
("ELO", uint8_t, 1),
# IR[23] EP: Error_passive status changed
("EP", uint8_t, 1),
# IR[24] EW: Error_warning status changed
("EW", uint8_t, 1),
# IR[25] BO: Bus_off status changed
("BO", uint8_t, 1),
# IR[26] WDI: MRAM Watchdog Interrupt
("WDI", uint8_t, 1),
# IR[27] PEA Protocol Error in arbitration phase (nominal bit time used)
("PEA", uint8_t, 1),
# IR[28] PED: Protocol error in data phase (data bit time is used)
("PED", uint8_t, 1),
# IR[29] ARA: Access to reserved address
("ARA", uint8_t, 1),
# IR[30:31] Reserved, not writable
("reserved", uint8_t, 1)
("reserved", uint8_t, 1)
]
class TCAN4x5x_MCAN_Interrupts(ctypes.Union):
_fields_ = [("b", TCAN4x5x_MCAN_Interrupts_bits),
("words", uint32_t)]
class TCAN4x5x_MCAN_RX_Header(ctypes.Structure):
_fields_ = [
# CAN ID received
("ID", uint32_t, 29),
# Remote Transmission Request flag
("RTR", uint8_t, 1),
# Extended Identifier flag
("XTD", uint8_t, 1),
# Error state indicator flag
("ESI", uint8_t, 1),
# Receive time stamp
("RXTS", uint16_t, 16),
# Data length code
("DLC", uint8_t, 4),
# Bit rate switch used flag
("BRS", uint8_t, 1),
# CAN FD Format flag
("FDF", uint8_t, 1),
# Reserved (0)
("reserved", uint8_t, 2),
# Filter index that this message matched
("FIDX", uint8_t, 7),
# Accepted non matching frame flag
("ANMF", uint8_t, 1)
]
class TCAN4x5x_Device_Interrupts_bits(ctypes.Structure):
_fields_ = {
# DEV_IR[0] VTWD: Global Voltage, Temp, or Watchdog (if equipped) Interrupt
("VTWD", uint8_t, 1),
# DEV_IR[1] M_CAN_INT: There are MCAN interrupts pending
("M_CAN_INT", uint8_t, 1),
# DEV_IR[2] : Selective Wake Error (If equipped)
("SWERR", uint8_t, 1),
# DEV_IR[3] : SPI Error
("SPIERR", uint8_t, 1),
# DEV_IR[4] : CBF, CAN Bus Fault
("CBF", uint8_t, 1),
# DEV_IR[5] : CANERR, CAN Error
("CANERR", uint8_t, 1),
# DEV_IR[6] : WKRQ, Wake Request
("WKRQ", uint8_t, 1),
# DEV_IR[7] : GLOBALERR, Global Error. Is the OR output of all interrupts
("GLOBALERR", uint8_t, 1),
# DEV_IR[8] : CANDOM, Can bus stuck dominant
("CANDOM", uint8_t, 1),
# DEV_IR[9] : RESERVED
("RESERVED", uint8_t, 1),
# DEV_IR[10] : CANTO, CAN Timeout
("CANTO", uint8_t, 1),
# DEV_IR[11] : RESERVED
("RESERVED2", uint8_t, 1),
# DEV_IR[12] : FRAME_OVF, Frame Error Overflow (If Selective Wake is equipped)
("FRAME_OVF", uint8_t, 1),
# DEV_IR[13] : WKERR, Wake Error
("WKERR", uint8_t, 1),
# DEV_IR[14] : LWU, Local Wake Up
("LWU", uint8_t, 1),
# DEV_IR[15] : CANINT, CAN Bus Wake Up Interrupt
("CANINT", uint8_t, 1),
# DEV_IR[16] : ECCERR, MRAM ECC Error
("ECCERR", uint8_t, 1),
# DEV_IR[17] : Reserved
("RESERVED3", uint8_t, 1),
# DEV_IR[18] : WDTO, Watchdog Time Out
("WDTO", uint8_t, 1),
# DEV_IR[19] : TSD, Thermal Shut Down
("TSD", uint8_t, 1),
# DEV_IR[20] : PWRON, Power On Interrupt
("PWRON", uint8_t, 1),
# DEV_IR[21] : UVIO, Undervoltage on UVIO
("UVIO", uint8_t, 1),
# DEV_IR[22] : UVSUP, Undervoltage on VSUP and VCCOUT
("UVSUP", uint8_t, 1),
# DEV_IR[23] : SMS, Sleep Mode Status Flag. Set when sleep mode is entered due to WKERR, UVIO, or TSD faults
("SMS", uint8_t, 1),
# DEV_IR[24] : CANBUSBAT, CAN Shorted to VBAT
("CANBUSBAT", uint8_t, 1),
# DEV_IR[25] : CANBUSGND, CAN Shorted to GND
("CANBUSGND", uint8_t, 1),
# DEV_IR[26] : CANBUSOPEN, CAN Open fault
("CANBUSOPEN", uint8_t, 1),
# DEV_IR[27] : CANLGND, CANL GND
("CANLGND", uint8_t, 1),
# DEV_IR[28] : CANHBAT, CANH to VBAT
("CANHBAT", uint8_t, 1),
# DEV_IR[29] : CANHCANL, CANH and CANL shorted
("CANHCANL", uint8_t, 1)
# DEV_IR[30] : CANBUSTERMOPEN, CAN Bus has termination point open
("CANBUSTERMOPEN", uint8_t, 1)
# DEV_IR[31] : CANBUSNOM, CAN Bus is normal flag
("CANBUSNORM", uint8_t, 1)
}
class TCAN4x5x_Device_Interrupts(ctypes.Union):
_fields_ = [("b", TCAN4x5x_Device_Interrupts_bits),
("word", uint32_t)]
("word", uint32_t)]
class TCAN4x5x_MCAN_CCCR_Config_bits(ctypes.Structure):
_fields_ = [
# Reserved (0)
("reserved", uint8_t, 2),
# ASM: Restricted Operation Mode. The device can only listen to CAN traffic and acknowledge, but not send anything.
("ASM", uint8_t, 1),
# Reserved (0)
("reserved2", uint8_t, 1),
# CSR: Clock stop request
("CSR", uint8_t, 1),
# MON: Bus monitoring mode. The device may only listen to CAN traffic, and is not allowed to acknowledge or send error frames.
("MON", uint8_t, 1),
# DAR: Disable automatic retransmission. If a transmission errors, gets a NACK, or loses arbitration, the MCAN controller will NOT try to transmit again
("DAR", uint8_t, 1),
# TEST: MCAN Test mode enable
("TEST", uint8_t, 1),
# FDOE: Can FD mode enabled, master enable for CAN FD support
("FDOE", uint8_t, 1),
# BRSE: Bit rate switch enabled for can FD. Master enable for bit rate switching support
("BRSE", uint8_t, 1),
# Reserved (0)
("reserved3", uint8_t, 1),
# PXHD: Protocol exception handling disable
# 0 = Protocol exception handling enabled [default]
# 1 = protocol exception handling disabled
("PXHD", uint8_t, 1),
# EFBI: Edge filtering during bus integration. 0 Disables this [default]
("EFBI", uint8_t, 1),
# TXP: Transmit Pause Enable: Pause for 2 can bit times before next transmission
("TXP", uint8_t, 1),
# NSIO: Non Iso Operation
# 0: CAN FD frame format according to ISO 11898-1:2015 [default]
# 1: CAN FD frame format according to Bosch CAN FD Spec v1
("NISO", uint8_t, 1)
]
class TCAN4x5x_MCAN_CCCR_Config(ctypes.Union):
_fields_ = [("b", TCAN4x5x_MCAN_CCCR_Config_bits),
("word", uint32_t)]
_fields_ = [("b", TCAN4x5x_MCAN_CCCR_Config_bits),
("word", uint32_t)]
class TCAN4x5x_MCAN_Global_Filter_Configuration_bits(ctypes.Structure):
_fields_ = [
# GFC[0] : Reject Remote Frames for Extended IDs
("RRFE", uint8_t, 1)
# GFC[1] : Reject Remote Frames for Standard IDs
("RRFS", uint8_t, 1),
# GFC[3:2] : Accept Non-matching Frames Extended
# Valid values:
# TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO0 : Accept into RXFIFO0
# TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO1 : Accept into RXFIFO1
# TCAN4x5x_GFC_REJECT : Reject
("ANFE", TCAN4x5x_GFC_NO_MATCH_BEHAVIOR, 2),
# GFC[5:4] : Accept Non-matching Frames Standard
# Valid values:
# TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO0 : Accept into RXFIFO0
# TCAN4x5x_GFC_ACCEPT_INTO_RXFIFO1 : Accept into RXFIFO1
# TCAN4x5x_GFC_REJECT : Reject
("ANFS", TCAN4x5x_GFC_NO_MATCH_BEHAVIOR, 2),
# Reserved
("reserved", uint32_t, 26)
]
class TCAN4x5x_MCAN_Global_Filter_Configuration(ctypes.Union):
_fields_ = [("b", TCAN4x5x_MCAN_Global_Filter_Configuration_bits),
("word", uint32_t)]
class TCAN4x5x_device_interrupt_enable_bits(ctypes.BigEndianStructure):
_fields_ = [
# @brief DEV_IE[0:7] : RESERVED
("RESERVED1", uint8_t , 8),
("RESERVED1", uint8_t, 8),
# @brief DEV_IE[8] : CANDOM, Can bus stuck dominant
("CANDOMEN", uint8_t , 1),
("CANDOMEN", uint8_t, 1),
# @brief DEV_IE[9] : RESERVED
("RESERVED2", uint8_t , 1),
("RESERVED2", uint8_t, 1),
# @brief DEV_IE[10] : CANTO, CAN Timeout
("CANTOEN", uint8_t , 1),
("CANTOEN", uint8_t, 1),
# @brief DEV_IE[11] : RESERVED
("RESERVED3", uint8_t , 1),
("RESERVED3", uint8_t, 1),
# @brief DEV_IE[12] : FRAME_OVF, Frame Error Overflow (If Selective Wake is equipped)
("FRAME_OVFEN", uint8_t , 1),
("FRAME_OVFEN", uint8_t, 1),
# @brief DEV_IE[13] : WKERR, Wake Error
("WKERREN", uint8_t , 1),
("WKERREN", uint8_t, 1),
# @brief DEV_IE[14] : LWU, Local Wake Up
("LWUEN", uint8_t , 1),
("LWUEN", uint8_t, 1),
# @brief DEV_IE[15] : CANINT, CAN Bus Wake Up Interrupt
("CANINTEN", uint8_t , 1),
("CANINTEN", uint8_t, 1),
# @brief DEV_IE[16] : ECCERR, MRAM ECC Error
("ECCERREN", uint8_t , 1),
("ECCERREN", uint8_t, 1),
# @brief DEV_IE[17] : Reserved
("RESERVED4", uint8_t , 1),
("RESERVED4", uint8_t, 1),
# @brief DEV_IE[18] : WDTO, Watchdog Time Out
("WDTOEN", uint8_t , 1),
("WDTOEN", uint8_t, 1),
# @brief DEV_IE[19] : TSD, Thermal Shut Down
("TSDEN", uint8_t , 1),
("TSDEN", uint8_t, 1),
# @brief DEV_IE[20] : PWRON, Power On Interrupt
("PWRONEN", uint8_t , 1),
("PWRONEN", uint8_t, 1),
# @brief DEV_IE[21] : UVIO, Undervoltage on UVIO
("UVIOEN", uint8_t , 1),
("UVIOEN", uint8_t, 1),
# @brief DEV_IE[22] : UVSUP, Undervoltage on VSUP and VCCOUT
("UVSUPEN", uint8_t , 1),
("UVSUPEN", uint8_t, 1),
# @brief DEV_IE[23] : SMS, Sleep Mode Status Flag. Set when sleep mode is entered due to WKERR, UVIO, or TSD faults
("SMSEN", uint8_t , 1),
("SMSEN", uint8_t, 1),
# @brief DEV_IE[24] : CANBUSBAT, CAN Shorted to VBAT
("CANBUSBATEN", uint8_t , 1),
("CANBUSBATEN", uint8_t, 1),
# @brief DEV_IE[25] : CANBUSGND, CAN Shorted to GND
("CANBUSGNDEN", uint8_t , 1),
("CANBUSGNDEN", uint8_t, 1),
# @brief DEV_IE[26] : CANBUSOPEN, CAN Open fault
("CANBUSOPENEN", uint8_t , 1),
("CANBUSOPENEN", uint8_t, 1),
# @brief DEV_IE[27] : CANLGND, CANL GND
("CANLGNDEN", uint8_t , 1),
("CANLGNDEN", uint8_t, 1),
# @brief DEV_IE[28] : CANHBAT, CANH to VBAT
("CANHBATEN", uint8_t , 1),
("CANHBATEN", uint8_t, 1),
# @brief DEV_IE[29] : CANHCANL, CANH and CANL shorted
("CANHCANLEN", uint8_t , 1),
("CANHCANLEN", uint8_t, 1),
# @brief DEV_IE[30] : CANBUSTERMOPEN, CAN Bus has termination point open
("CANBUSTERMOPENEN", uint8_t , 1),
("CANBUSTERMOPENEN", uint8_t, 1),
# @brief DEV_IE[31] : CANBUSNOM, CAN Bus is normal flag
("CANBUSNORMEN", uint8_t , 1)
("CANBUSNORMEN", uint8_t, 1)
]
class TCAN4x5x_device_interrupt_enable(ctypes.Union):
_fields_ = [("b", TCAN4x5x_device_interrupt_enable_bits),
("word", uint32_t)]
("word", uint32_t)]