This wiki is a WIP. Please feel free to modify this page with relevant information
The intention of this wiki is to list the requirements for the monitoring agent as well as the requirements for the metrics and events that should be monitored or collected within the NFVI. In addition to the metrics/events collected about the NFVI, some information about the monitoring process (the process which collects the information and metrics) itself is also required.
This list should be developed in conjunction with the Doctor (Faults) and VES Projects in OPNFV.
This wiki heavily references The ETSI NFV draft specification titled “Network Functions Virtualisation (NFV); Testing; NFVI Compute and Network Metrics Specification” which can be found here: TST008 (please consult the latest version, and leave a comment if this link is broken, ETSI seems to move it frequently).
Monitoring Agent requirements:
Polling vs Event capture for the monitoring agent
In the context of the monitoring agent polling the subsystem it's querying. Both polling and event driven updates should be supported with events driven updates being the preferred model to use. This depends on the subsystem you are monitoring, default would be to leverage event based systems where they exist, but polling should be supported as a configuration option that can be selected by the end user.
In the context of the VIM polling the monitoring Agent:
- Fault events should always use a push model, and the mechanism over which events are sent needs to be reliable.
- Telemetry, can be polled or pushed (could be polled to spread the load on the collection side).
- Network (over)load should be taken into consideration as regards which model to use (push vs pull), you don't want to destabilize the network. push is more scalable overall and preferred for fault management.
Agent configuration
Should be able to dynamically:
- Enable/disable/or restart resource monitoring
- Get values/notifications
- Get capabilities
- Get the list of metrics being collected
- flush the list of metrics
- Set thresholds for resources
- blacklist resources
- support some sort of buffering mechanism, and should be able to configure
- get the timing information for the agent and do aTiming sync if required.
Time stamping support
Events Requirements
Timing:
Events must be detected within a 10ms interval in order to allow for a 40ms failover time.
Metrics/Events Format
It's important to define a common format that can be used for the list of identified metrics and events that should be monitored/collected in the NFVI.
- + Name
- + Where the Metric/Event is collected (e.g., the measurement point, such as Host/Guest/Both)
- + Parameters (input factors or variables)
- + Scope of measurement coverage
- + Unit(s) of measure or associated severities
- Definition
- Method of Measurement
- Sources of Error
- Comments
In addition to the measurement result, items marked "+" should either be available for collection, or reported with the measurement result.
Distinction between metrics and events
For the purposes of Platform Service Assurance, it's important to distinguish between metrics and events as well as how they are measured (from a timing perspective).
A Metric is a (standard) definition of a quantity describing the performance and/or reliability of a monitored function, which has an intended utility and is carefully specified to convey the exact meaning of the measured value. A measured value of a metric is produced in an assessment of a monitored function according to a method of measurement. For example the number of dropped packets for a networking interface is a metric.
An Event is defined as an important state change in a monitored function. The monitor system is notified that an event has occurred using a message with a standard format. The Event notification describes the significant aspects of the event, such as the name and ID of the monitored function, the type of event, and the time the event occurred. For example, an event notification would take place if the link status of a networking device on a compute node suddenly changes from up to down on a node hosting VNFs in an NFV deployment.
Information to be collected in conjunction with NFVI Metrics/Events
It's essential to collect some information about the environment that is being monitored as well as the monitoring process(es) themselves in order to associate the mertrics/events with the relevant host.
Host information:
Each host in a deployment should have a Unique identifier that distinguishes it from all other hosts. A UUID can be used in this case.
Monitoring Process information:
Each monitoring process in a deployment should have a Unique Process identifier.
Each monitoring process in a deployment should support the following events:
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| Heartbeat/ping | Host/Guest (where the monitoring process is running) | ping frequency and size of packet | liveliness check | N/A | Heartbeat/ping to check liveliness of monitoring process | external ping | false alarm for host due to network interruption |
Each monitoring process in a deployment should support the following Metrics:
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| Host/Guest (where the monitoring process is running) | measurement frequency | The monitoring application being used | The number of metrics currently in the write queue. | ||||
| Host/Guest (where the monitoring process is running) | measurement frequency | The monitoring application being used | The number of metrics dropped due to a queue length limitation. | ||||
| Host/Guest (where the monitoring process is running) | measurement frequency | The monitoring application being used | The number of elements in the metric cache | ||||
| CPU utilization | Host/Guest (where the monitoring process is running) | measurement frequency, interrupt frequency, set of execution contexts, time of measurement | The CPUs that are being used by the monitoring application | Nanoseconds or percentage of total CPU utilization | The CPU utilization of the monitoring process | kernel interrupt to read current execution context | short-lived contexts may come and go between interrupts | see section 6 of TST008 |
| Memory Utilization | Host/Guest (where the monitoring process is running) | Time of measurement, total memory available, swap space configured | The Memory that is being used by the monitoring application | Kibibytes | The amount of physical RAM, in kibibytes, used by the monitoring application | memory management reports current values at time of measurement | see section 8 of TST008 |
Timing Information
NFVI Other/Additional Information
BIOS information
NFVI Events
What about entire node and switch failures? In terms of service affecting priority, host and switch failures are at the top as they can affect the most VMs / Containers / VNFs...
While the status of switches and hosts might be the domain of services that have a system-wide view, a host-resident component might be part of the monitoring functionality.
Compute
At a minimum the following events should be monitored:
- Machine check exceptions (System, Processor, Memory...) [TODO: Break this down further]
- DIMM corrected and uncorrected Errors
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| MCEs | Host | Memory, CPU, IO | Machine Check Exception | using mcelog | ||||
| PCIe Errors | Host |
Networking
At a minimum the following events should be monitored for a Networking interface:
- Link Status
- Dropped Receive Packets – An increasing count could indicate the failure or service interruption of an upstream processes.
vSwitch liveliness
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| Link Status | ||||||||
| vSwitch Status (liveliness) | ||||||||
| Packet Processing Core Status |
Storage
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
NFVI Metrics
Compute
At a minimum the following metrics should be collected:
- CPU utilization TODO: Break this down further]
- vCPU utilization TODO: Break this down further]
- Memory utilization TODO: Break this down further]
- vMemory utilization TODO: Break this down further]
- Cache utilization
- Hits
- Misses
- Instructions per clock (IPC)
- Last level cache utilization
- Memory Bandwidth utilization
- Platform Metrics (thermals, fan-speed) [TODO: Break this down further]
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| cpu_idle | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time the host CPU spends idle. | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_nice | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time the host CPU spent running user space processes that have been niced. The priority level a user space process can be tweaked by adjusting its niceness. | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_interrupt | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time the CPU has spent servicing (hardware) interrupts. | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_softirq | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time spent handling interrupts that are synthesized, and almost as important as Hardware interrupts (above). "In current kernels there are ten softirq vectors defined; two for tasklet processing, two for networking, two for the block layer, two for timers, and one each for the scheduler and read-copy-update processing. The kernel maintains a per-CPU bitmask indicating which softirqs need processing at any given time." [Ref] | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_steal | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | CPU steal is a measure of the fraction of time that a machine is in a state of “involuntary wait.” It is time for which the kernel cannot otherwise account in one of the traditional classifications like user, system, or idle. It is time that went missing, from the perspective of the kernel. | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_system | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time that the CPU spent running the kernel. | see CPU Utilization above, and section 6 of TST008 | |||
| cpu_user | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | Time CPU spends running un-niced user space processes.
| see CPU Utilization above, and section 6 of TST008 | |||
| cpu_wait | Host | The host CPUs, individually or total usage summed across all CPUs | nanoseconds or percentage | The time the CPU spends idle while waiting for an I/O operation to complete | see CPU Utilization above, and section 6 of TST008 | |||
| total_vcpu_utilization | Host | The host CPUs used by a guest, total usage summed across all CPUs | nanoseconds or percentage | The total utilization summed across all execution contexts (except Idle) and all CPUs in Scope. | see CPU Utilization above, and section 6 of TST008 |
Networking
[TODO] Add a note on the vSwitch and add vSwitch specific metrics
At a minimum the following metrics should be collected for a Networking interface:
- Total Packets received and transmitted
- Total Octets (TX and RX)
- Dropped packets (TX and RX)
- Error frames (TX and RX) [TODO: Break this down further – just tried to do that...]
- Frame Check Sequence Errors or CRC Errors
- Runts (frames <64 octets in length)
- Giants (frames >6000 octets in length)
- Broadcast Packets (TX and RX)
- Multicast Packets (TX and RX)
Other Metrics that should be collected for a Networking interface (if possible):
- Average bitrate
- Average latency
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
| Total Packets received | see section 7 of TST008 | |||||||
| Total Packets transmitted | see section 7 of TST008 | |||||||
| Total Octets received | see section 7 of TST008 | |||||||
| Total Octets transmitted | see section 7 of TST008 | |||||||
| Total Error frames received | see section 7 of TST008 | |||||||
| Total Errors when attempting to transmit a frame | see section 7 of TST008 | |||||||
| Broadcast Packets | ||||||||
| Multicast Packet | ||||||||
Average bitrate | ||||||||
| Average latency |
Storage
Disk Utilization
Name | Collection location | Parameters | Scope of coverage | Unit(s) of measure | Definition | Method of Measurement | Sources of Error | Comments |
|---|---|---|---|---|---|---|---|---|
The host CPUs, individually or total usage summed across all CPUs