let grpcPort = 19090; queryPort = 9090; minioPort = 9000; pushgwPort = 9091; s3 = { accessKey = "BKIKJAA5BMMU2RHO6IBB"; secretKey = "V7f1CwQqAcwo80UEIJEjc5gVQUSSx5ohQ9GSrr12"; }; objstore.config = { type = "S3"; config = { bucket = "thanos-bucket"; endpoint = "s3:${toString minioPort}"; region = "us-east-1"; access_key = s3.accessKey; secret_key = s3.secretKey; insecure = true; signature_version2 = false; put_user_metadata = {}; http_config = { idle_conn_timeout = "0s"; insecure_skip_verify = false; }; trace = { enable = false; }; }; }; in import ./make-test-python.nix { name = "prometheus"; nodes = { prometheus = { pkgs, ... }: { virtualisation.diskSize = 2 * 1024; virtualisation.memorySize = 2048; environment.systemPackages = [ pkgs.jq ]; networking.firewall.allowedTCPPorts = [ grpcPort ]; services.prometheus = { enable = true; scrapeConfigs = [ { job_name = "prometheus"; static_configs = [ { targets = [ "127.0.0.1:${toString queryPort}" ]; labels = { instance = "localhost"; }; } ]; } { job_name = "pushgateway"; scrape_interval = "1s"; static_configs = [ { targets = [ "127.0.0.1:${toString pushgwPort}" ]; } ]; } ]; rules = [ '' groups: - name: test rules: - record: testrule expr: count(up{job="prometheus"}) '' ]; globalConfig = { external_labels = { some_label = "required by thanos"; }; }; extraFlags = [ # Required by thanos "--storage.tsdb.min-block-duration=5s" "--storage.tsdb.max-block-duration=5s" ]; }; services.prometheus.pushgateway = { enable = true; web.listen-address = ":${toString pushgwPort}"; persistMetrics = true; persistence.interval = "1s"; stateDir = "prometheus-pushgateway"; }; services.thanos = { sidecar = { enable = true; grpc-address = "0.0.0.0:${toString grpcPort}"; inherit objstore; }; # TODO: Add some tests for these services: #rule = { # enable = true; # http-address = "0.0.0.0:19194"; # grpc-address = "0.0.0.0:19193"; # query.addresses = [ # "localhost:19191" # ]; # labels = { # just = "some"; # nice = "labels"; # }; #}; # #receive = { # http-address = "0.0.0.0:19195"; # enable = true; # labels = { # just = "some"; # nice = "labels"; # }; #}; }; }; query = { pkgs, ... }: { environment.systemPackages = [ pkgs.jq ]; services.thanos.query = { enable = true; http-address = "0.0.0.0:${toString queryPort}"; store.addresses = [ "prometheus:${toString grpcPort}" ]; }; }; store = { pkgs, ... }: { virtualisation.diskSize = 2 * 1024; virtualisation.memorySize = 2048; environment.systemPackages = with pkgs; [ jq thanos ]; services.thanos.store = { enable = true; http-address = "0.0.0.0:10902"; grpc-address = "0.0.0.0:${toString grpcPort}"; inherit objstore; sync-block-duration = "1s"; }; services.thanos.compact = { enable = true; http-address = "0.0.0.0:10903"; inherit objstore; consistency-delay = "5s"; }; services.thanos.query = { enable = true; http-address = "0.0.0.0:${toString queryPort}"; store.addresses = [ "localhost:${toString grpcPort}" ]; }; }; s3 = { pkgs, ... } : { # Minio requires at least 1GiB of free disk space to run. virtualisation = { diskSize = 2 * 1024; memorySize = 1024; }; networking.firewall.allowedTCPPorts = [ minioPort ]; services.minio = { enable = true; inherit (s3) accessKey secretKey; }; environment.systemPackages = [ pkgs.minio-client ]; }; }; testScript = { nodes, ... } : '' # Before starting the other machines we first make sure that our S3 service is online # and has a bucket added for thanos: s3.start() s3.wait_for_unit("minio.service") s3.wait_for_open_port(${toString minioPort}) s3.succeed( "mc config host add minio " + "http://localhost:${toString minioPort} " + "${s3.accessKey} ${s3.secretKey} --api s3v4", "mc mb minio/thanos-bucket", ) # Now that s3 has started we can start the other machines: for machine in prometheus, query, store: machine.start() # Check if prometheus responds to requests: prometheus.wait_for_unit("prometheus.service") prometheus.wait_for_open_port(${toString queryPort}) prometheus.succeed("curl -sf http://127.0.0.1:${toString queryPort}/metrics") # Let's test if pushing a metric to the pushgateway succeeds: prometheus.wait_for_unit("pushgateway.service") prometheus.succeed( "echo 'some_metric 3.14' | " + "curl -f --data-binary \@- " + "http://127.0.0.1:${toString pushgwPort}/metrics/job/some_job" ) # Now check whether that metric gets ingested by prometheus. # Since we'll check for the metric several times on different machines # we abstract the test using the following function: # Function to check if the metric "some_metric" has been received and returns the correct value. def wait_for_metric(machine): return machine.wait_until_succeeds( "curl -sf 'http://127.0.0.1:${toString queryPort}/api/v1/query?query=some_metric' | " + "jq '.data.result[0].value[1]' | grep '\"3.14\"'" ) wait_for_metric(prometheus) # Let's test if the pushgateway persists metrics to the configured location. prometheus.wait_until_succeeds("test -e /var/lib/prometheus-pushgateway/metrics") # Test thanos prometheus.wait_for_unit("thanos-sidecar.service") # Test if the Thanos query service can correctly retrieve the metric that was send above. query.wait_for_unit("thanos-query.service") wait_for_metric(query) # Test if the Thanos sidecar has correctly uploaded its TSDB to S3, if the # Thanos storage service has correctly downloaded it from S3 and if the Thanos # query service running on $store can correctly retrieve the metric: store.wait_for_unit("thanos-store.service") wait_for_metric(store) store.wait_for_unit("thanos-compact.service") # Test if the Thanos bucket command is able to retrieve blocks from the S3 bucket # and check if the blocks have the correct labels: store.succeed( "thanos tools bucket ls " + "--objstore.config-file=${nodes.store.config.services.thanos.store.objstore.config-file} " + "--output=json | " + "jq .thanos.labels.some_label | " + "grep 'required by thanos'" ) ''; }