nuttx/drivers/can/Kconfig

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#
# For a description of the syntax of this configuration file,
# see the file kconfig-language.txt in the NuttX tools repository.
#
config ARCH_HAVE_CAN_ERRORS
bool
default n
menuconfig CAN
bool "CAN Driver Support"
default n
---help---
This selection enables building of the "upper-half" CAN driver.
See include/nuttx/can/can.h for further CAN driver information.
if CAN
config CAN_EXTID
bool "CAN extended IDs"
default n
---help---
Enables support for the 29-bit extended ID. Default Standard 11-bit
IDs.
config CAN_ERRORS
bool "CAN error reporting"
default n
depends on ARCH_HAVE_CAN_ERRORS
---help---
Support CAN error reporting. If this option is selected then CAN
error reporting is enabled. In the event of an error, the ch_error
bit will be set in the CAN message and the following message payload
will include a more detailed description of certain errors.
config CAN_FD
bool "CAN FD"
default n
---help---
Enables support for the CAN_FD mode.
config CAN_FIFOSIZE
int "CAN driver I/O buffer size"
default 8
---help---
The size of the circular buffer of CAN messages. Default: 8
config CAN_NPENDINGRTR
int "Number of pending RTRs"
default 4
---help---
The size of the list of pending RTR requests. Default: 4
config CAN_TXREADY
bool "can_txready interface"
default n
---help---
This selection enables the can_txready() interface. This interface
is needed only for CAN hardware that supports queueing of outgoing
messages in a H/W FIFO.
The CAN upper half driver also supports a queue of output messages
in a S/W FIFO. Messages are added to that queue when when
can_write() is called and removed from the queue in can_txdone()
when each TX message is complete.
After each message is added to the S/W FIFO, the CAN upper half
driver will attempt to send the message by calling into the lower
half driver. That send will not be performed if the lower half
driver is busy, i.e., if dev_txready() returns false. In that
case, the number of messages in the S/W FIFO can grow. If the
S/W FIFO becomes full, then can_write() will wait for space in
the S/W FIFO.
If the CAN hardware does not support a H/W FIFO then busy means
that the hardware is actively sending the message and is
guaranteed to become non busy (i.e, dev_txready()) when the
send transfer completes and can_txdone() is called. So the call
to can_txdone() means that the transfer has completed and also
that the hardware is ready to accept another transfer.
If the CAN hardware supports a H/W FIFO, can_txdone() is not
called when the transfer is complete, but rather when the
transfer is queued in the H/W FIFO. When the H/W FIFO becomes
full, then dev_txready() will report false and the number of
queued messages in the S/W FIFO will grow.
There is no mechanism in this case to inform the upper half
driver when the hardware is again available, when there is
again space in the H/W FIFO. can_txdone() will not be called
again. If the S/W FIFO becomes full, then the upper half
driver will wait for space to become available, but there is
no event to awaken it and the driver will hang.
Enabling this feature adds support for the can_txready()
interface. This function is called from the lower half
driver's CAN interrupt handler each time a TX transfer
completes. This is a sure indication that the H/W FIFO is
no longer full. can_txready() will then awaken the
can_write() logic and the hang condition is avoided.
choice
prompt "TX Ready Work Queue"
default CAN_TXREADY_HIPRI
depends on CAN_TXREADY
config CAN_TXREADY_LOPRI
bool "Low-priority work queue"
select SCHED_LPWORK
config CAN_TXREADY_HIPRI
bool "High-priority work queue"
select SCHED_HPWORK
endchoice # TX Ready Work Queue
config CAN_LOOPBACK
bool "CAN loopback mode"
default n
---help---
A CAN driver may or may not support a loopback mode for testing. If the
driver does support loopback mode, the setting will enable it. (If the
driver does not, this setting will have no effect).
config CAN_NPOLLWAITERS
int "Number of poll waiters"
default 2
---help---
The maximum number of threads that may be waiting on the
poll method.
config CAN_USE_RTR
bool "Include RTR in CAN header"
default n
---help---
This selection includes RTR bitfield in the CAN header.
comment "CAN Bus Controllers:"
config CAN_MCP2515
bool "Microchip MCP2515 CAN Bus Controller over SPI"
default n
depends on SPI
select ARCH_HAVE_CAN_ERRORS
---help---
Enable driver support for Microchip MCP2515.
if CAN_MCP2515
config MCP2515_BITRATE
int "MCP2515 bitrate"
default 500000
---help---
MCP2515 bitrate in bits per second.
config MCP2515_PROPSEG
int "MCP2515 Propagation Segment TQ"
default 2
range 1 8
---help---
The length of the bit time is Tquanta * (SyncSeg + PropSeg + PhaseSeg1 + PhaseSeg2).
config MCP2515_PHASESEG1
int "MCP2515 Phase Segment 1"
default 2
range 1 8
---help---
The length of the bit time is Tquanta * (SyncSeg + PropSeg + PhaseSeg1 + PhaseSeg2).
config MCP2515_PHASESEG2
int "MCP2515 Phase Segment 2"
default 3
range 2 8
---help---
The length of the bit time is Tquanta * (SyncSeg + PropSeg + PhaseSeg1 + PhaseSeg2).
config MCP2515_SJW
int "MCP2515 Synchronization Jump Width"
default 1
range 1 4
---help---
The duration of a synchronization jump is SJW.
config MCP2515_CLK_FREQUENCY
int "MCP2515 on-board clock frequency"
default 8000000
range 1 25000000
config MCP2515_SPI_SCK_FREQUENCY
int "MCP2515 SPI SCK Frequency"
default 1000000
range 100000 10000000
endif # CAN_MCP2515
menuconfig CAN_SJA1000
tristate "Philips/NXP SJA1000 devices"
if CAN_SJA1000
config CAN_SJA1000_BITRATE
int "SJA1000 bitrate"
default 1000000
---help---
SJA1000 bit rate.
config CAN_SJA1000_SJW
int "SJA1000 Synchronization Jump Width"
default 1
range 1 4
---help---
The duration of a synchronization jump is SJW.
config CAN_SJA1000_SAM
bool "The CAN bus is sampled 3 times"
default false
---help---
Recommended for low to medium speed buses
to filter spikes on the bus-line.
config CAN_SJA1000_SAMPLEP
int "SJA1000 CAN sample point (Percentage)"
default 87
range 0 100
config CANBUS_REGDEBUG
bool "CAN BUS register debug enable."
default false
config CAN_SJA1000_DEBUG
bool "SJA1000 CAN BUS trace debug enable."
default false
endif # CAN_SJA1000
endif # CAN