=============== Perf counters =============== The perf counters provide generic internal infrastructure for gauges and counters. The counted values can be both integer and float. There is also an "average" type (normally float) that combines a sum and num counter which can be divided to provide an average. The intention is that this data will be collected and aggregated by a tool like ``collectd`` or ``statsd`` and fed into a tool like ``graphite`` for graphing and analysis. Also, note the :doc:`../mgr/prometheus` and the :doc:`../mgr/telemetry`. Users and developers can also access perf counter data locally to check a cluster's overall health, identify workload patterns, monitor cluster performance by daemon types, and troubleshoot issues with latency, throttling, memory management, etc. (see :ref:`Access`) .. _Access: Access ------ The perf counter data is accessed via the admin socket. For example:: ceph daemon osd.0 perf schema ceph daemon osd.0 perf dump Collections ----------- The values are grouped into named collections, normally representing a subsystem or an instance of a subsystem. For example, the internal ``throttle`` mechanism reports statistics on how it is throttling, and each instance is named something like:: throttle-msgr_dispatch_throttler-hbserver throttle-msgr_dispatch_throttler-client throttle-filestore_bytes ... Schema ------ The ``perf schema`` command dumps a json description of which values are available, and what their type is. Each named value as a ``type`` bitfield, with the following bits defined. +------+-------------------------------------+ | bit | meaning | +======+=====================================+ | 1 | floating point value | +------+-------------------------------------+ | 2 | unsigned 64-bit integer value | +------+-------------------------------------+ | 4 | average (sum + count pair), where | +------+-------------------------------------+ | 8 | counter (vs gauge) | +------+-------------------------------------+ Every value will have either bit 1 or 2 set to indicate the type (float or integer). If bit 8 is set (counter), the value is monotonically increasing and the reader may want to subtract off the previously read value to get the delta during the previous interval. If bit 4 is set (average), there will be two values to read, a sum and a count. If it is a counter, the average for the previous interval would be sum delta (since the previous read) divided by the count delta. Alternatively, dividing the values outright would provide the lifetime average value. Normally these are used to measure latencies (number of requests and a sum of request latencies), and the average for the previous interval is what is interesting. Instead of interpreting the bit fields, the ``metric type`` has a value of either ``gauge`` or ``counter``, and the ``value type`` property will be one of ``real``, ``integer``, ``real-integer-pair`` (for a sum + real count pair), or ``integer-integer-pair`` (for a sum + integer count pair). Here is an example of the schema output:: { "throttle-bluestore_throttle_bytes": { "val": { "type": 2, "metric_type": "gauge", "value_type": "integer", "description": "Currently available throttle", "nick": "" }, "max": { "type": 2, "metric_type": "gauge", "value_type": "integer", "description": "Max value for throttle", "nick": "" }, "get_started": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Number of get calls, increased before wait", "nick": "" }, "get": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Gets", "nick": "" }, "get_sum": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Got data", "nick": "" }, "get_or_fail_fail": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Get blocked during get_or_fail", "nick": "" }, "get_or_fail_success": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Successful get during get_or_fail", "nick": "" }, "take": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Takes", "nick": "" }, "take_sum": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Taken data", "nick": "" }, "put": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Puts", "nick": "" }, "put_sum": { "type": 10, "metric_type": "counter", "value_type": "integer", "description": "Put data", "nick": "" }, "wait": { "type": 5, "metric_type": "gauge", "value_type": "real-integer-pair", "description": "Waiting latency", "nick": "" } } Dump ---- The actual dump is similar to the schema, except that average values are grouped. For example:: { "throttle-msgr_dispatch_throttler-hbserver" : { "get_or_fail_fail" : 0, "get_sum" : 0, "max" : 104857600, "put" : 0, "val" : 0, "take" : 0, "get_or_fail_success" : 0, "wait" : { "avgcount" : 0, "sum" : 0 }, "get" : 0, "take_sum" : 0, "put_sum" : 0 }, "throttle-msgr_dispatch_throttler-client" : { "get_or_fail_fail" : 0, "get_sum" : 82760, "max" : 104857600, "put" : 2637, "val" : 0, "take" : 0, "get_or_fail_success" : 0, "wait" : { "avgcount" : 0, "sum" : 0 }, "get" : 2637, "take_sum" : 0, "put_sum" : 82760 } }