The query component implements the Prometheus HTTP v1 API to query data in a Thanos cluster via PromQL.
It gathers the data needed to evaluate the query from underlying StoreAPIs. See here on how to connect querier with desired StoreAPIs.
Querier currently is fully stateless and horizontally scalable.
$ thanos query \
--http-address "0.0.0.0:9090" \
--store "<store-api>:<grpc-port>" \
--store "<store-api2>:<grpc-port>"
The query layer can deduplicate series that were collected from high-availability pairs of data sources such as Prometheus. A fixed replica label must be chosen for the entire cluster and can then be passed to query nodes on startup.
Two or more series that are only distinguished by the given replica label, will be merged into a single time series. This also hides gaps in collection of a single data source. For example:
cluster=1,env=2,replica=A
cluster=1,env=2,replica=B
cluster=2,env=2,replica=A
If we configure Querier like this:
$ thanos query \
--http-address "0.0.0.0:9090" \
--query.replica-label "replica" \
--store "<store-api>:<grpc-port>" \
--store "<store-api2>:<grpc-port>" \
And we query for metric up{job="prometheus",env="2"}
with this option we will get 2 results:
up{job="prometheus",env="2",cluster="1"} 1
up{job="prometheus",env="2",cluster="2"} 1
WITHOUT this replica flag (so deduplication turned off), we will get 3 results:
up{job="prometheus",env="2",cluster="1",replica="A"} 1
up{job="prometheus",env="2",cluster="1",replica="B"} 1
up{job="prometheus",env="2",cluster="2",replica="A"} 1
This logic can also be controlled via parameter on QueryAPI. More details below.
Overall QueryAPI exposed by Thanos is guaranteed to be compatible with Prometheus 2.x.
However, for additional Thanos features, Thanos, on top of Prometheus adds
QueryAPI and StoreAPI has additional behaviour controlled via query parameter called PartialResponseStrategy.
This parameter controls tradeoff between accuracy and availability.
Partial response is a potentially missed result within query against QueryAPI or StoreAPI. This can happen if one of StoreAPIs is returning error or timeout whereas couple of others returns success. It does not mean you are missing data, you might lucky enough that you actually get the correct data as the broken StoreAPI did not have anything for your query.
If partial response happen QueryAPI returns human readable warnings explained here.
NOTE: Having warning does not necessary means partial response (e.g no store matched query warning).
See this on how to control this behaviour.
Querier also allows to configure different timeouts:
--query.timeout
--store.response-timeout
If you prefer availability over accuracy you can set tighter timeout to underlying StoreAPI than overall query timeout. If partial response strategy is NOT abort
, this will “ignore” slower StoreAPIs producing just warning with 200 status code response.
HTTP URL/FORM parameter | Type | Default | Example |
---|---|---|---|
dedup | Boolean | True, but effect depends on query.replica configuration flag. | 1, t, T, TRUE, true, True for “True” |
This controls if query should use replica
label for deduplication or not.
HTTP URL/FORM parameter | Type | Default | Example |
---|---|---|---|
max_source_resolution | Float64/time.Duration/model.Duration | step / 5 or 0 if query.auto-downsampling is false (default: False) | 5m |
Max source resolution is max resolution in seconds we want to use for data we query for. This means that for value:
// TODO(bwplotka): Update. This will change to “strategy” soon as PartialResponseStrategy enum here
HTTP URL/FORM parameter | Type | Default | Example |
---|---|---|---|
partial_response | Boolean | query.partial-response flag (default: True) | 1, t, T, TRUE, true, True for “True” |
If true, then all storeAPIs that will be unavailable (and thus return no data) will not cause query to fail, but instead return warning.
Any additional field does not break compatibility, however there is no guarantee that Grafana or any other client will understand those.
Currently Thanos UI exposed by Thanos understands
type queryData struct {
ResultType promql.ValueType `json:"resultType"`
Result promql.Value `json:"result"`
// Additional Thanos Response field.
Warnings []error `json:"warnings,omitempty"`
}
Additional field is Warnings
that contains every error that occurred that is assumed non critical. partial_response
option controls if storeAPI unavailability is considered critical.
It is possible to expose thanos-query UI and optionally API on a sub-path. The sub-path can be defined either statically or dynamically via an HTTP header. Static path prefix definition follows the pattern used in Prometheus, where web.route-prefix
option defines HTTP request path prefix (endpoints prefix) and web.external-prefix
prefixes the URLs in HTML code and the HTTP redirect responses.
Additionally, Thanos supports dynamic prefix configuration, which is not yet implemented by Prometheus. Dynamic prefixing simplifies setup when thanos query
is exposed on a sub-path behind a reverse proxy, for example, via a Kubernetes ingress controller Traefik or nginx. If PathPrefixStrip: /some-path
option or traefik.frontend.rule.type: PathPrefixStrip
Kubernetes Ingress annotation is set, then Traefik
writes the stripped prefix into X-Forwarded-Prefix header. Then, thanos query --web.prefix-header=X-Forwarded-Prefix
will serve correct HTTP redirects and links prefixed by the stripped path.
usage: thanos query [<flags>]
query node exposing PromQL enabled Query API with data retrieved from multiple
store nodes
Flags:
-h, --help Show context-sensitive help (also try
--help-long and --help-man).
--version Show application version.
--log.level=info Log filtering level.
--log.format=logfmt Log format to use.
--tracing.config-file=<tracing.config-yaml-path>
Path to YAML file that contains tracing
configuration.
--tracing.config=<tracing.config-yaml>
Alternative to 'tracing.config-file' flag.
Tracing configuration in YAML.
--http-address="0.0.0.0:10902"
Listen host:port for HTTP endpoints.
--grpc-address="0.0.0.0:10901"
Listen ip:port address for gRPC endpoints
(StoreAPI). Make sure this address is routable
from other components.
--grpc-server-tls-cert="" TLS Certificate for gRPC server, leave blank to
disable TLS
--grpc-server-tls-key="" TLS Key for the gRPC server, leave blank to
disable TLS
--grpc-server-tls-client-ca=""
TLS CA to verify clients against. If no client
CA is specified, there is no client
verification on server side. (tls.NoClientCert)
--grpc-client-tls-secure Use TLS when talking to the gRPC server
--grpc-client-tls-cert="" TLS Certificates to use to identify this client
to the server
--grpc-client-tls-key="" TLS Key for the client's certificate
--grpc-client-tls-ca="" TLS CA Certificates to use to verify gRPC
servers
--grpc-client-server-name=""
Server name to verify the hostname on the
returned gRPC certificates. See
https://tools.ietf.org/html/rfc4366#section-3.1
--web.route-prefix="" Prefix for API and UI endpoints. This allows
thanos UI to be served on a sub-path. This
option is analogous to --web.route-prefix of
Promethus.
--web.external-prefix="" Static prefix for all HTML links and redirect
URLs in the UI query web interface. Actual
endpoints are still served on / or the
web.route-prefix. This allows thanos UI to be
served behind a reverse proxy that strips a URL
sub-path.
--web.prefix-header="" Name of HTTP request header used for dynamic
prefixing of UI links and redirects. This
option is ignored if web.external-prefix
argument is set. Security risk: enable this
option only if a reverse proxy in front of
thanos is resetting the header. The
--web.prefix-header=X-Forwarded-Prefix option
can be useful, for example, if Thanos UI is
served via Traefik reverse proxy with
PathPrefixStrip option enabled, which sends the
stripped prefix value in X-Forwarded-Prefix
header. This allows thanos UI to be served on a
sub-path.
--query.timeout=2m Maximum time to process query by query node.
--query.max-concurrent=20 Maximum number of queries processed
concurrently by query node.
--query.replica-label=QUERY.REPLICA-LABEL
Label to treat as a replica indicator along
which data is deduplicated. Still you will be
able to query without deduplication using
'dedup=false' parameter.
--selector-label=<name>="<value>" ...
Query selector labels that will be exposed in
info endpoint (repeated).
--store=<store> ... Addresses of statically configured store API
servers (repeatable). The scheme may be
prefixed with 'dns+' or 'dnssrv+' to detect
store API servers through respective DNS
lookups.
--store.sd-files=<path> ...
Path to files that contain addresses of store
API servers. The path can be a glob pattern
(repeatable).
--store.sd-interval=5m Refresh interval to re-read file SD files. It
is used as a resync fallback.
--store.sd-dns-interval=30s
Interval between DNS resolutions.
--store.unhealthy-timeout=5m
Timeout before an unhealthy store is cleaned
from the store UI page.
--query.auto-downsampling Enable automatic adjustment (step / 5) to what
source of data should be used in store gateways
if no max_source_resolution param is specified.
--query.partial-response Enable partial response for queries if no
partial_response param is specified.
--query.default-evaluation-interval=1m
Set default evaluation interval for sub
queries.
--store.response-timeout=0ms
If a Store doesn't send any data in this
specified duration then a Store will be ignored
and partial data will be returned if it's
enabled. 0 disables timeout.