Difference between revisions of "SPP Command Interface"
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|Xid || X identifier where X is F, FP, MI, Q or S for Filter, <br> FastPath, MetaInterface, Queue, or Slice (e.g., FPid) | |Xid || X identifier where X is F, FP, MI, Q or S for Filter, <br> FastPath, MetaInterface, Queue, or Slice (e.g., FPid) | ||
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+ | == Command Interface == | ||
=== Getting Interface Information === | === Getting Interface Information === |
Revision as of 22:41, 3 December 2009
>>>>> WARNING: NOT READY FOR PUBLIC CONSUMPTION <<<<<
Contents
System Resource Manager (SRM) and Resource Manager Proxy (RMP)
The page SPP Control Software described the System Resource Manager (SRM) that runs on the SPP's Control Processor and the Resource Manager Proxy (RMP) that runs on each SPP's GPE. In brief, the SRM coordinates the use of various SPP resources while the RMP provides an interface through which user slices can request and configure resources. The RMP, in turn, may communicate with the Substrate Control Daemons (SCD) in the Line Card and the NPE to configure packet pathways.
User requests are made through an interface provided by the RMP on the user’s assigned GPE. The RMP forwards these requests to the SRM which manages all system level resources, including external port numbers, physical interface bandwidth and NPE resources. For example, a user can request the use of a specific external port number in order to run a server that listens on that port at the user's GPE. Or a user may want to reserve resources in advance (e.g., port bandwidth and NPE fastpath).
SPP Control Software described the programming API provided by the RMP. This page describes the accompanying command line interface which allows users to reserve and configure resources interactively or through a shell script. That command line interface is provided through four programs:
- client
- fltr
- resrv
- create_fp
All of these programs implement their functionallity by calling the RMP library functions. They exist as separate programs for historical reasons. You will notice that there is a small amount of overlap between functions offered by the programs although it is our intent to keep this overlap to a minimum.
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The main API calls are listed below in topical sub-sections, along with a brief description of how each call is used. We use a representation that attempts to informally describe the interface semantics. More precise descriptions are given in the reference manual. We use an abstract interface syntax that has the form “R ← F(A1,…,An)” where F is the function name, Ai is the i-th argument, and R is the return value. Mnemonic names are used to convey usage while data type modifiers have been omitted. The following abbreviations and mnemonics are used in argument names and descriptions:
FP | FastPath |
EP | EndPoint (a logical interface used by a slice and mapped to a physical interface) |
LC | LineCard |
BW | BandWidth |
DB | DataBase |
Xdescr | X description where X is Q, EP or FP for Queue, EndPoint, or FastPath (e.g., FPdescr) |
Xid | X identifier where X is F, FP, MI, Q or S for Filter, FastPath, MetaInterface, Queue, or Slice (e.g., FPid) |
Command Interface
Getting Interface Information
client --cmd get_ifaces
-
Display all interfaces
client --cmd get_ifpeer --ifn N
-
Display the peer of interface num N
client --cmd get_ifattrs --ifn N
-
Display the attributes of interface num N
client --cmd get_ifn --ipaddr A
-
Display the interface associated with IP address A
client --cmd get_endpoint --fpid I --mii I'
-
Display the endpoint associated with (fastpath I, meta-interface I')
Endpoint Management
client --cmd alloc_endpoint --bw K --ipaddr A --port N --proto P
-
Create the K Kbps capacity LC endpoint (A, N, P)
client --cmd free_endpoint --ipaddr A --port N --proto P
-
Remove the K Kbps capacity LC endpoint (A, N, P)
Fastpath Management
client --cmd alloc_udp_tunnel --fpid I --bw K --ipaddr A --port N
-
Add (A, N) as a local end of a UDP tunnel with capacity K Kbps to fastpath I
client --cmd free_udp_tunnel --fpid I --ipaddr A --port N
-
Free (A, N) as a local end of a UDP tunnel
client --cmd alloc_fastpath --copt C --firm K --soft 0 --fltrs N1 --qs N2 --stats N3 --buffs N4 --sram 4096 --dram 0
-
Allocate fastpath resources for code option C:
K Kbps firm bandwidth, N1 filters, N2 queues, N3 stats indices, N4 buffers
client --cmd free_fastpath --fpid I
-
Free the resources for fastpath I
Queue Management
client --cmd get_queue_params --fpid I --qid I'
-
Get the threshold and bandwidth for (fastpath I, queue I')
client --cmd get_queue_len --fpid I --qid I'
-
Get the length (bytes) of (fastpath I, queue I')
client --cmd bind_queue --fpid I --miid I' --qid_list_type 0 --qid_list Q1 --qid_list Q2 ...
-
Bind queues Q1, Q2, ... to (fastpath I, meta-interface I')
client --cmd bind_queue --fpid I --miid I' --qid_list_type 1 --qid_list Q1 --qid_list Q2
-
Bind queues in the range Q1 to Q2-1 inclusive to (fastpath I, meta-interface I')
client --cmd set_queue_params --fpid I --qid I' --threshold B --bw K
-
Set the threshold and bandwidth of (fastpath I, queue I') to B bytes and K Kbps