Failed router. Discards all incoming traffic and generates nothing. Its interface (gates, parameters) is fully compatible with the RSVP_LSR router and node failures may thus be simulated by replacing the RSVP_LSR with FAILED_LSR.
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Name | Type | Default value | Description |
---|---|---|---|
holdTime | double | 15s | |
helloInterval | double | 5s | |
namid | int | ||
peers | string | ||
routerId | string | "auto" | |
routingFile | string | "" |
Name | Direction | Size | Description |
---|---|---|---|
pppg [ ] | inout |
// // Failed router. Discards all incoming traffic and generates nothing. Its // interface (gates, parameters) is fully compatible with the RSVP_LSR router // and node failures may thus be simulated by replacing the RSVP_LSR // with \FAILED_LSR. // module LDP_FAILED { parameters: double holdTime @unit("s") = default(15s); double helloInterval @unit("s") = default(5s); int namid; string peers; string routerId = default("auto"); string routingFile = default(""); gates: inout pppg[]; submodules: dummy: Dummy { gates: in[sizeof(pppg)]; out[sizeof(pppg)]; } connections allowunconnected: for i=0..sizeof(pppg)-1 { pppg$i[i] --> dummy.in[i]; dummy.out[i] --> pppg$o[i]; } }