Important: This documentation is about an older version. It's relevant only to the release noted, many of the features and functions have been updated or replaced. Please view the current version.
Scalability
When scaling Loki, operators should consider running several Loki processes
partitioned by role (ingester, distributor, querier) rather than a single Loki
process. Grafana Labs’ production setup
contains .libsonnet
files that demonstrates configuring separate components
and scaling for resource usage.
Separate Query Scheduler
The Query frontend has an in-memory queue that can be moved out into a separate process similar to the Grafana Mimir query-scheduler. This allows running multiple query frontends.
To run with the Query Scheduler, the frontend needs to be passed the scheduler’s address via -frontend.scheduler-address
and the querier processes needs to be started with -querier.scheduler-address
set to the same address. Both options can also be defined via the configuration file.
It is not valid to start the querier with both a configured frontend and a scheduler address.
The query scheduler process itself can be started via the -target=query-scheduler
option of the Loki Docker image. For instance, docker run grafana/loki:latest -config.file=/etc/loki/config.yaml -target=query-scheduler -server.http-listen-port=8009 -server.grpc-listen-port=9009
starts the query scheduler listening on ports 8009
and 9009
.
Memory ballast
In compute-constrained environments, garbage collection can become a significant performance factor. Frequently-run garbage collection interferes with running the application by using CPU resources. The use of memory ballast can mitigate the issue. Memory ballast allocates extra, but unused virtual memory in order to inflate the quantity of live heap space. Garbage collection is triggered by the growth of heap space usage. The inflated quantity of heap space reduces the perceived growth, so garbage collection occurs less frequently.
Configure memory ballast using the ballast_bytes configuration option.
Remote rule evaluation
This feature was first proposed in LID-0002
; it contains the design decisions
which informed the implementation.
By default, the ruler
component embeds a query engine to evaluate rules. This generally works fine, except when rules
are complex or have to process a large amount of data regularly. Poor performance of the ruler
manifests as recording rules metrics
with gaps or missed alerts. This situation can be detected by alerting on the cortex_prometheus_rule_group_iterations_missed_total
metric
when it has a non-zero value.
A solution to this problem is to externalize rule evaluation from the ruler
process. The ruler
embedded query engine
is single-threaded, meaning that rules are not split, sharded, or otherwise accelerated like regular Loki queries. The query-frontend
component exists explicitly for this purpose and, when combined with a number of querier
instances, can massively
improve rule evaluation performance and lead to fewer missed iterations.
It is generally recommended to create a separate query-frontend
deployment and querier
pool from your existing one - which handles adhoc
queries via Grafana, logcli
, or the API. Rules should be given priority over adhoc queries because they are used to produce
metrics or alerts which may be crucial to the reliable operation of your service; if you use the same query-frontend
and querier
pool
for both, your rules will be executed with the same priority as adhoc queries which could lead to unpredictable performance.
To enable remote rule evaluation, set the following configuration options:
ruler:
evaluation:
mode: remote
query_frontend:
address: dns:///<query-frontend-service>:<grpc-port>
See here
for further configuration options.
When you enable remote rule evaluation, the ruler
component becomes a gRPC client to the query-frontend
service;
this will result in far lower ruler
resource usage because the majority of the work has been externalized.
The LogQL queries coming from the ruler
will be executed against the given query-frontend
service.
Requests will be load-balanced across all query-frontend
IPs if the dns:///
prefix is used.
Note: Queries that fail to execute are not retried.
Limits & Observability
Remote rule evaluation can be tuned with the following options:
ruler_remote_evaluation_timeout
: maximum allowable execution time for rule evaluationsruler_remote_evaluation_max_response_size
: maximum allowable response size over gRPC connection fromquery-frontend
toruler
Both of these can be specified globally in the limits_config
section
or on a per-tenant basis.
Remote rule evaluation exposes a number of metrics:
loki_ruler_remote_eval_request_duration_seconds
: time taken for rule evaluation (histogram)loki_ruler_remote_eval_response_bytes
: number of bytes in rule evaluation response (histogram)loki_ruler_remote_eval_response_samples
: number of samples in rule evaluation response (histogram)loki_ruler_remote_eval_success_total
: successful rule evaluations (counter)loki_ruler_remote_eval_failure_total
: unsuccessful rule evaluations with reasons (counter)
Each of these metrics are per-tenant, so cardinality must be taken into consideration.