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Diffstat (limited to 'docs/requirements/01-intro.rst')
-rw-r--r-- | docs/requirements/01-intro.rst | 54 |
1 files changed, 22 insertions, 32 deletions
diff --git a/docs/requirements/01-intro.rst b/docs/requirements/01-intro.rst index 2616f934..56a41336 100644 --- a/docs/requirements/01-intro.rst +++ b/docs/requirements/01-intro.rst @@ -79,6 +79,9 @@ The DPDK interface/API will be updated to support: * Exposure of NIC MAC/PHY Level Counters * Interface for Time stamp on RX * Interface for Time stamp on TX +* Exposure of DPDK events + +collectd will be updated to support the exposure of DPDK metrics and events. Specific testing and integration will be carried out to cover: @@ -89,24 +92,16 @@ The following list of features and functionality will be developed: * DPDK APIs and functions for latency and interface monitoring * A sample application to demonstrate usage +* collectd plugins -The scope of the project is limited to the DPDK APIs and a sample application to -demonstrate usage. - -.. Figure:: telcokpis_update.png - - Architecture overview (showing provided functionality in green) - -In the figure above, the interfaces 1, 2, 3 are implemented along with a sample -application. The sample application will support monitoring of NIC -counters/status and will also support measurement of packet latency using DPDK -provided interfaces. +The scope of the project involves developing the relavant DPDK APIs, OVS APIs, +sample applications, as well as the utilities in collectd to export all the +relavent information to a telemetry and events consumer. VNF specific processing, Traffic Monitoring, Performance Monitoring and -Management Agent are out of scope. The scope is limited to Intel 10G Niantic -support. +Management Agent are out of scope. -The Proposed MAC/PHY Interface Counters include: +The Proposed Interface counters include: * Packet RX * Packet TX @@ -115,34 +110,29 @@ The Proposed MAC/PHY Interface Counters include: The Proposed Packet Latency Monitor include: -* Cycle accurate ‘stamping’ on ingress +* Cycle accurate stamping on ingress * Supports latency measurements on egress -Support for additional types of Network Interfaces can be added in the future. - Support for failover of DPDK enabled cores is also out of scope of the current proposal. However, this is an important requirement and must-have functionality for any DPDK enabled framework in the NFVI. To that end, a second phase of this -project will be to implement DPDK “Keep Alive” functionality that would address +project will be to implement DPDK Keep Alive functionality that would address this and would report to a VNF-level Failover and High Availability mechanism that would then determine what actions, including failover, may be triggered. Consumption Models =================== -Fig 3.1 shows how a sample application will be provided to demonstrate -usage. In reality many VNFs will have an existing performance or traffic -monitoring utility used to monitor VNF behavior and report statistics, counters, -etc. - -To consume the performance and traffic related information provided within the -scope of this project should in most cases be a logical extension of any -existing VNF performance or traffic monitoring utility, in most cases it should -not require a new utility to be developed. We do not see the Software Fastpath -Service Quality Metrics data as major additional effort for VNFs to consume, -this project would be sympathetic to existing VNF architecture constructs. The -intention is that this project represents a lower level interface for network -interface monitoring to be used by higher level fault management entities (see -below). +In reality many VNFs will have an existing performance or traffic monitoring +utility used to monitor VNF behavior and report statistics, counters, etc. + +The consumption of performance and traffic related information/events provided +by this project should be a logical extension of any existing VNF monitoring +utility. It should not require a new utility to be developed. We do not see the +Software Fastpath Service Quality Metrics data as major additional effort for +VNFs to consume; this project would be sympathetic to existing VNF architecture +constructs. The intention is that this project represents a lower level +interface for network interface monitoring to be used +by higher level fault management entities (see below). Allowing the Software Fastpath Service Quality Metrics data to be handled within existing VNF performance or traffic monitoring utilities also makes it simpler |