Provided by: nfstest_3.2-2_all
NAME
packet.transport.ib - InfiniBand module
DESCRIPTION
Decode InfiniBand layer. Reference: IB Specification Vol 1-Release-1.3-2015-03-03.pdf
CLASSES
class AETH(baseobj.BaseObj) ACK EXTENDED TRANSPORT HEADER (AETH) - 4 BYTES ACK Extended Transport Header contains the additional transport fields for ACK packets. The AETH is only in Acknowledge, RDMA READ Response First, RDMA READ Response Last, and RDMA READ Response Only packets as indicated by the Base Transport Header OpCode field. AETH( syndrome = int, # Syndrome indicates if this is an ACK or NAK # packet plus additional information about the # ACK or NAK msn = int, # Message Sequence Number indicates the sequence # number of the last message completed at the # responder ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class AtomicAckETH(baseobj.BaseObj) ATOMIC ACKNOWLEDGE EXTENDED TRANSPORT HEADER (ATOMICACKETH) - 8 BYTES Atomic ACK Extended Transport Header contains the additional transport fields for AtomicACK packets. The AtomicAckETH is only in Atomic Acknowledge packets as indicated by the Base Transport Header OpCode field. AtomicAckETH( orig_rem_dt = int, # Original Remote Data is the return operand # in atomic operations and contains the data # in the remote memory location before the # atomic operation ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class AtomicETH(baseobj.BaseObj) ATOMIC EXTENDED TRANSPORT HEADER (ATOMICETH) - 28 BYTES Atomic Extended Transport Header contains the additional transport fields for Atomic packets. The AtomicETH is only in Atomic packets as indicated by the Base Transport Header OpCode field. AtomicETH( va = int, # Virtual Address: the remote virtual address r_key = int, # Remote Key that authorizes access to the remote # virtual address swap_dt = int, # Swap/Add Data is an operand in atomic operations cmp_dt = int, # Compare Data is an operand in CmpSwap atomic # operation ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class BTH(baseobj.BaseObj) BASE TRANSPORT HEADER (BTH) - 12 BYTES Base Transport Header contains the fields for IBA transports. The presence of BTH is indicated by the Next Header field of the last previous header (i.e., either LRH:lnh or GRH:nxthdr depending on which was the last previous header). BTH( opcode = int, # OpCode indicates the IBA packet type. It also # specifies which extension headers follow the BTH se = int, # Solicited Event, this bit indicates that an event # should be generated by the responder migreq = int, # This bit is used to communicate migration state padcnt = int, # Pad Count indicates how many extra bytes are added # to the payload to align to a 4 byte boundary tver = int, # Transport Header Version indicates the version of # the IBA Transport Headers pkey = int, # Partition Key indicates which logical Partition is # associated with this packet destqp = int, # Destination QP indicates the Work Queue Pair Number # (QP) at the destination ackreq = int, # Acknowledge Request, this bit is used to indicate # that an acknowledge (for this packet) should be # scheduled by the responder psn = int, # Packet Sequence Number is used to detect a missing # or duplicate Packet ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class DETH(baseobj.BaseObj) DATAGRAM EXTENDED TRANSPORT HEADER (DETH) - 8 BYTES Datagram Extended Transport Header contains the additional transport fields for datagram service. The DETH is only in datagram packets if indicated by the Base Transport Header OpCode field. DETH( q_key = int, # Queue Key is required to authorize access to the # receive queue src_qp = int, # Source QP indicates the Work Queue Pair Number (QP) # at the source. ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class GRH(baseobj.BaseObj) GLOBAL ROUTE HEADER (GRH) - 40 BYTES Global Route Header contains fields for routing the packet between subnets. The presence of the GRH is indicated by the Link Next Header (LNH) field in the LRH. The layout of the GRH is the same as the IPv6 Header defined in RFC 2460. Note, however, that IBA does not define a relationship between a device GID and IPv6 address (i.e., there is no defined mapping between GID and IPv6 address for any IB device or port). GRH( ipver = int, # IP Version indicates version of the GRH tclass = int, # Traffic Class is used by IBA to communicate # global service level flabel = int, # Flow Label identifies sequences of packets # requiring special handling paylen = int, # Payload length specifies the number of bytes # starting from the first byte after the GRH, # up to and including the last byte of the ICRC nxthdr = int, # Next Header identifies the header following the # GRH. This field is included for compatibility with # IPV6 headers. It should indicate IBA transport hoplmt = int, # Hop Limit sets a strict bound on the number of # hops between subnets a packet can make before # being discarded. This is enforced only by routers sgid = IPv6Addr, # Source GID identifies the Global Identifier # (GID) for the port which injected the packet # into the network dgid = IPv6Addr, # Destination GID identifies the GID for the port # which will consume the packet from the network ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class IB(baseobj.BaseObj) InfiniBand (IB) object Usage: from packet.transport.ib import IB x = IB(pktt) Object definition: IB( lrh = LRH, # Local Route Header grh = GRH, # Global Route Header bth = BTH, # Base Transport Header rdeth = RDETH, # Reliable Datagram Extended Transport Header deth = DETH, # Datagram Extended Transport Header xrceth = XRCETH, # XRC Extended Transport Header reth = RETH, # RDMA Extended Transport Header atomiceth = AtomicETH, # Atomic Extended Transport Header aeth = AETH, # ACK Extended Transport Header atomicacketh = AtomicAckETH, # Atomic Acknowledge Extended Transport Header immdt = ImmDt, # Immediate Extended Transport Header ieth = IETH, # Invalidate Extended Transport Header psize = int, # Payload data size icrc = int, # Invariant CRC vcrc = int, # Variant CRC ) Methods defined here: --------------------- __bool__(self) Truth value testing for the built-in operation bool() __init__(self, pktt) Constructor Initialize object's private data. pktt: Packet trace object (packet.pktt.Pktt) so this layer has access to the parent layers. class IETH(baseobj.BaseObj) INVALIDATE EXTENDED TRANSPORT HEADER (IETH) - 4 BYTES The Invalidate Extended Transport Header contains an R_Key field which is used by the responder to invalidate a memory region or memory window once it receives and executes the SEND with Invalidate request. IETH( r_key = int, # The SEND with Invalidate operation carries with it # an R_Key field. This R_Key is used by the responder # to invalidate a memory region or memory window once # it receives and executes the SEND with Invalidate # request ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class ImmDt(baseobj.BaseObj) IMMEDIATE DATA EXTENDED TRANSPORT HEADER (IMMDT) - 4 BYTES Immediate DataExtended Transport Header contains the additional data that is placed in the receive Completion Queue Element (CQE). The ImmDt is only in Send or RDMA-Write packets with Immediate Data if indicated by the Base Transport Header OpCode. Note, the terms Immediate Data Extended Transport Header and Immediate Data Header are used synonymously in the specification. ImmDt( imm_dt = int, # Immediate Data contains data that is placed in the # receive Completion Queue Element (CQE). The ImmDt is # only allowed in SEND or RDMA WRITE packets with # Immediate Data ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class LRH(baseobj.BaseObj) LOCAL ROUTE HEADER (LRH) - 8 BYTES The Local Routing Header contains fields used for local routing by switches within a IBA subnet. LRH( vl = int, # Virtual Lane that the packet is using lver = int, # Link Version of LRH sl = int, # Service Level the packet is requesting within the subnet lnh = int, # Link Next Header identifies the headers following the LRH dlid = int, # Destination Local ID identifies the destination port # and path (data sink) on the local subnet plen = int, # Packet Length identifies the size of the packet in # four-byte words. This field includes the first byte of # LRH to the last byte before the variant CRC slid = int, # Source Local ID identifies the source port # (injection point) on the local subnet ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class OpCode(builtins.int) OpCode object, this is an integer in which its informal string representation is given as the OpCode name Methods defined here: --------------------- __str__(self) Return str(self). class RDETH(baseobj.BaseObj) RELIABLE DATAGRAM EXTENDED TRANSPORT HEADER (RDETH) - 4 BYTES Reliable Datagram Extended Transport Header contains the additional transport fields for reliable datagram service. The RDETH is only in Reliable Datagram packets as indicated by the Base Transport Header OpCode field. RDETH( ee_context = int, # EE-Context indicates which End-to-End Context # should be used for this Reliable Datagram packet ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class RETH(baseobj.BaseObj) RDMA EXTENDED TRANSPORT HEADER (RETH) - 16 BYTES RDMA Extended Transport Header contains the additional transport fields for RDMA operations. The RETH is present in only the first (or only) packet of an RDMA Request as indicated by the Base Transport Header OpCode field. RETH( va = int, # Virtual Address of the RDMA operation r_key = int, # Remote Key that authorizes access for the RDMA # operation dma_len = int, # DMA Length indicates the length (in Bytes) of # the DMA operation. ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both. class XRCETH(baseobj.BaseObj) XRC EXTENDED TRANSPORT HEADER (XRCETH) XRC Extended Transport Header contains the Destination XRC SRQ identifier. XRCETH( xrcsrq = int, # XRC Shared Receive Queue indicates the XRC Shared # Receive Queue number to be used by the responder # for this packet ) Methods defined here: --------------------- __init__(self, unpack) Constructor Initialize object's private data according to the arguments given. Arguments can be given as positional, named arguments or a combination of both.
SEE ALSO
baseobj(3), packet.application.rpc(3), packet.application.rpcordma(3), packet.application.rpcordma_const(3), packet.internet.ipv6addr(3), packet.unpack(3), packet.utils(3)
BUGS
No known bugs.
AUTHOR
Jorge Mora (mora@netapp.com)