cde88cabcc
Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
200 lines
6.8 KiB
Plaintext
200 lines
6.8 KiB
Plaintext
#
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# For a description of the syntax of this configuration file,
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# see the file kconfig-language.txt in the NuttX tools repository.
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#
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menuconfig WIRELESS_IEEE802154
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bool "IEEE 802.15.4 Support"
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default n
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select MM_IOB
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depends on WIRELESS
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---help---
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Enables a Media Access Controller for any IEEE802.15.4 radio
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device. This in turn can be used by higher layer entities
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such as 6lowpan.
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if WIRELESS_IEEE802154
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config IEEE802154_PRIMITIVE_PREALLOC
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int "Number of pre-allocated primitive structures"
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default 20
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---help---
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This specifies the total number of preallocated primitive structures.
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A primitive is an abstracted data type that provides service information
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between the MAC layer and the next highest layer. These may be allocated
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from either from tasking logic or from interrupt level logic.
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config IEEE802154_PRIMITIVE_IRQRESERVE
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int "Reserved pre-allocated primitive structures"
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default 0
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depends on EXPERIMENTAL
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---help---
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If primitives can be allocated from interrupt handlers, then this
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specifies the number of pre-allocated meta-data structures that are
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reserved for for use only by interrupt handlers. This may be zero to
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reserve no meta-data structures for interrupt handlers. In that case,
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the allocation will fail if tasking logic has allocated them all.
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Interrupt logic will first attempt to allocate from the general,
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pre-allocated structure pool that will contain up to (size
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CONFIG_IEEE802154_PRIMITIVE_PREALLOC - CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE)
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entries. If that fails, then it will try to take a structure from
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the reserve (size CONFIG_IEEE802154_PRIMITIVE_IRQRESERVE).
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Non-interrupt logic will also first attempt to allocate from the
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general, pre-allocated structure pool. If that fails, it will
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dynamically allocate the primitive with an additional cost in performance.
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NOTE: Currently marked as experimental and with a default of zero
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because there are no interrupt level allocations performed by the
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current IEEE 802.15.4 MAC code.
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config IEEE802154_MAC
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bool "Software MAC layer"
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default n
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---help---
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There are two types of IEEE 802.15.4 radios supported. Those that provide
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all MAC functionality equivalent to the MAC802154 software implementation,
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and radios that provide a lower half to the MAC802154 software layer.
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This option enables the software MAC layer that can interface with
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the lower-half radio drivers.
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if IEEE802154_MAC
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config MAC802154_NTXDESC
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int "Number or TX descriptors"
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default 5
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---help---
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Configured number of Tx descriptors. Default: 3
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When used with 6LoWPAN, the descriptor allocator runs on a work
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and must avoid blocking if possible. Each frame will be provided in
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an IOB and each TX frame will need a TX descriptor. So the safe
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thing to do is set CONFIG_MAC802154_NTXDESC to CONFIG_IOB_NBUFFERS.
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Then there should be the maximum pre-allocated buffers for each
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possible TX frame.
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config MAC802154_NPANDESC
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int "Number of PAN descriptors"
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default 5
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---help---
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Configured number of PAN descriptors Default: 5
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When performing a scan to find a suitable PAN, the MAC must store
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information for all unique beacons received. This is the number of unique
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descriptors that can be held before the scan cancels with LIMIT_REACHED.
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config MAC802154_SFEVENT_VERBOSE
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bool "Verbose logging related to superframe events"
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default n
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depends on DEBUG_WIRELESS_INFO
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---help---
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Enable verbose logging of superframe events Default: false
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config MAC802154_LOCK_VERBOSE
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bool "Verbose logging related to MAC lock management"
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default n
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depends on DEBUG_WIRELESS_INFO
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---help---
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Enable verbose logging of MAC lock management. Default: false
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config IEEE802154_MACDEV
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bool "Character driver for IEEE 802.15.4 MAC layer"
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default n
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depends on WIRELESS_IEEE802154
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---help---
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Enable the device driver to expose the IEEE 802.15.4 MAC layer
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access to user space as IOCTLs
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if IEEE802154_MACDEV
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config IEEE802154_MACDEV_RECVRPRIO
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int "Priority of frame receiver registered with the MAC layer"
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default 0
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---help---
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When the MAC layer receives an incoming data frame, it passes the frame
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to registered receivers, in order of receiver priority, until one of the
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receivers claim the frame.
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An example case would be when 6LoWPAN and the MAC character driver are
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enabled. Both have receivers registered with the MAC. The 6LoWPAN layer
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should get assigned a higher priority than the character driver. In this
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case, the 6LoWPAN receiver will receive the frame first. If the frame is
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a 6LoWPAN frame, it will claim the frame and the MAC will not pass the
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frame to any additional receivers. If it does not claim the frame, the
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MAC layer will call the next highest priority receiver, in this case,
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the MAC character driver (which should always be lowest priority since
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it is a "catch-all" type receiver).
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endif # IEEE802154_MACDEV
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config IEEE802154_NETDEV
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bool "IEEE802154 6LoWPAN Network Device"
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default n
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depends on NET_6LOWPAN || NET_IEEE802154
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select ARCH_HAVE_NETDEV_STATISTICS
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---help---
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Add support for the IEEE802.15.4 6LoWPAN network device built on
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the common IEEE802.15.4 MAC.
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if IEEE802154_NETDEV
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config IEEE802154_NETDEV_RECVRPRIO
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int "Priority of frame receiver registered with the MAC layer"
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default 1
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---help---
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When the MAC layer receives an incoming data frame, it passes the frame
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to registered receivers, in order of receiver priority, until one of the
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receivers claim the frame.
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An example case would be when 6LoWPAN and the MAC character driver are
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enabled. Both have receivers registered with the MAC. The 6LoWPAN layer
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should get assigned a higher priority than the character driver. In this
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case, the 6LoWPAN receiver will receive the frame first. If the frame is
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a 6LoWPAN frame, it will claim the frame and the MAC will not pass the
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frame to any additional receivers. If it does not claim the frame, the
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MAC layer will call the next highest priority receiver, in this case,
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the MAC character driver (which should always be lowest priority since
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it is a "catch-all" type receiver).
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config IEEE802154_NETDEV_DEFAULT_PREFIX_0
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hex "IPv6 Prefix 0"
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default 0xfe80
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---help---
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First section of IPv6 Prefix
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config IEEE802154_NETDEV_DEFAULT_PREFIX_1
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hex "IPv6 Prefix 1"
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default 0x0000
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---help---
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Second section of IPv6 Prefix
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config IEEE802154_NETDEV_DEFAULT_PREFIX_2
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hex "IPv6 Prefix 2"
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default 0x0000
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---help---
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Third section of IPv6 Prefix
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config IEEE802154_NETDEV_DEFAULT_PREFIX_3
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hex "IPv6 Prefix 3"
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default 0x0000
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---help---
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Fourth section of IPv6 Prefix
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endif # IEEE802154_NETDEV
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endif # IEEE802154_MACDEV
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config IEEE802154_LOOPBACK
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bool "IEEE802154 6LoWPAN Loopback"
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default n
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depends on NET_6LOWPAN || NET_IEEE802154
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select ARCH_HAVE_NETDEV_STATISTICS
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---help---
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Add support for the IEEE802.15.4 6LoWPAN Loopback test device.
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if IEEE802154_LOOPBACK
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endif # IEEE802154_LOOPBACK
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endif # WIRELESS_IEEE802154
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