Docker-Provider VS kptop

Compare Docker-Provider vs kptop and see what are their differences.

kptop

CLI tool for Kubernetes that provides pretty monitoring for Nodes, Pods, Containers, and PVCs resources on the terminal through Prometheus metrics (by eslam-gomaa)
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Docker-Provider kptop
1 3
133 270
1.5% -
9.0 4.1
5 days ago about 1 year ago
Ruby Python
GNU General Public License v3.0 or later GNU General Public License v3.0 only
The number of mentions indicates the total number of mentions that we've tracked plus the number of user suggested alternatives.
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.

Docker-Provider

Posts with mentions or reviews of Docker-Provider. We have used some of these posts to build our list of alternatives and similar projects.
  • Enable annotation based scraping in Azure Monitor managed service for Prometheus
    1 project | dev.to | 20 Feb 2023
    kind: ConfigMap apiVersion: v1 data: schema-version: #string.used by agent to parse config. supported versions are {v1}. Configs with other schema versions will be rejected by the agent. v1 config-version: #string.used by customer to keep track of this config file's version in their source control/repository (max allowed 10 chars, other chars will be truncated) ver1 log-data-collection-settings: |- # Log data collection settings # Any errors related to config map settings can be found in the KubeMonAgentEvents table in the Log Analytics workspace that the cluster is sending data to. [log_collection_settings] [log_collection_settings.stdout] # In the absense of this configmap, default value for enabled is true enabled = true # exclude_namespaces setting holds good only if enabled is set to true # kube-system,gatekeeper-system log collection are disabled by default in the absence of 'log_collection_settings.stdout' setting. If you want to enable kube-system,gatekeeper-system, remove them from the following setting. # If you want to continue to disable kube-system,gatekeeper-system log collection keep the namespaces in the following setting and add any other namespace you want to disable log collection to the array. # In the absense of this configmap, default value for exclude_namespaces = ["kube-system","gatekeeper-system"] exclude_namespaces = ["kube-system","gatekeeper-system"] [log_collection_settings.stderr] # Default value for enabled is true enabled = true # exclude_namespaces setting holds good only if enabled is set to true # kube-system,gatekeeper-system log collection are disabled by default in the absence of 'log_collection_settings.stderr' setting. If you want to enable kube-system,gatekeeper-system, remove them from the following setting. # If you want to continue to disable kube-system,gatekeeper-system log collection keep the namespaces in the following setting and add any other namespace you want to disable log collection to the array. # In the absense of this configmap, default value for exclude_namespaces = ["kube-system","gatekeeper-system"] exclude_namespaces = ["kube-system","gatekeeper-system"] [log_collection_settings.env_var] # In the absense of this configmap, default value for enabled is true enabled = true [log_collection_settings.enrich_container_logs] # In the absense of this configmap, default value for enrich_container_logs is false enabled = false # When this is enabled (enabled = true), every container log entry (both stdout & stderr) will be enriched with container Name & container Image [log_collection_settings.collect_all_kube_events] # In the absense of this configmap, default value for collect_all_kube_events is false # When the setting is set to false, only the kube events with !normal event type will be collected enabled = false # When this is enabled (enabled = true), all kube events including normal events will be collected #[log_collection_settings.schema] # In the absence of this configmap, default value for containerlog_schema_version is "v1" # Supported values for this setting are "v1","v2" # See documentation at https://aka.ms/ContainerLogv2 for benefits of v2 schema over v1 schema before opting for "v2" schema # containerlog_schema_version = "v2" #[log_collection_settings.enable_multiline_logs] # fluent-bit based multiline log collection for go (stacktrace), dotnet (stacktrace) # if enabled will also stitch together container logs split by docker/cri due to size limits(16KB per log line) # enabled = "false" prometheus-data-collection-settings: |- # Custom Prometheus metrics data collection settings [prometheus_data_collection_settings.cluster] # Cluster level scrape endpoint(s). These metrics will be scraped from agent's Replicaset (singleton) # Any errors related to prometheus scraping can be found in the KubeMonAgentEvents table in the Log Analytics workspace that the cluster is sending data to. #Interval specifying how often to scrape for metrics. This is duration of time and can be specified for supporting settings by combining an integer value and time unit as a string value. Valid time units are ns, us (or µs), ms, s, m, h. interval = "1m" ## Uncomment the following settings with valid string arrays for prometheus scraping #fieldpass = ["metric_to_pass1", "metric_to_pass12"] #fielddrop = ["metric_to_drop"] # An array of urls to scrape metrics from. # urls = ["http://myurl:9101/metrics"] # An array of Kubernetes services to scrape metrics from. # kubernetes_services = ["http://my-service-dns.my-namespace:9102/metrics"] # When monitor_kubernetes_pods = true, replicaset will scrape Kubernetes pods for the following prometheus annotations: # - prometheus.io/scrape: Enable scraping for this pod # - prometheus.io/scheme: If the metrics endpoint is secured then you will need to # set this to `https` & most likely set the tls config. # - prometheus.io/path: If the metrics path is not /metrics, define it with this annotation. # - prometheus.io/port: If port is not 9102 use this annotation monitor_kubernetes_pods = true ## Restricts Kubernetes monitoring to namespaces for pods that have annotations set and are scraped using the monitor_kubernetes_pods setting. ## This will take effect when monitor_kubernetes_pods is set to true ## ex: monitor_kubernetes_pods_namespaces = ["default1", "default2", "default3"] # monitor_kubernetes_pods_namespaces = ["default1"] ## Label selector to target pods which have the specified label ## This will take effect when monitor_kubernetes_pods is set to true ## Reference the docs at https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/#label-selectors # kubernetes_label_selector = "env=dev,app=nginx" ## Field selector to target pods which have the specified field ## This will take effect when monitor_kubernetes_pods is set to true ## Reference the docs at https://kubernetes.io/docs/concepts/overview/working-with-objects/field-selectors/ ## eg. To scrape pods on a specific node # kubernetes_field_selector = "spec.nodeName=$HOSTNAME" [prometheus_data_collection_settings.node] # Node level scrape endpoint(s). These metrics will be scraped from agent's DaemonSet running in every node in the cluster # Any errors related to prometheus scraping can be found in the KubeMonAgentEvents table in the Log Analytics workspace that the cluster is sending data to. #Interval specifying how often to scrape for metrics. This is duration of time and can be specified for supporting settings by combining an integer value and time unit as a string value. Valid time units are ns, us (or µs), ms, s, m, h. interval = "1m" ## Uncomment the following settings with valid string arrays for prometheus scraping # An array of urls to scrape metrics from. $NODE_IP (all upper case) will substitute of running Node's IP address # urls = ["http://$NODE_IP:9103/metrics"] #fieldpass = ["metric_to_pass1", "metric_to_pass12"] #fielddrop = ["metric_to_drop"] metric_collection_settings: |- # Metrics collection settings for metrics sent to Log Analytics and MDM [metric_collection_settings.collect_kube_system_pv_metrics] # In the absense of this configmap, default value for collect_kube_system_pv_metrics is false # When the setting is set to false, only the persistent volume metrics outside the kube-system namespace will be collected enabled = false # When this is enabled (enabled = true), persistent volume metrics including those in the kube-system namespace will be collected alertable-metrics-configuration-settings: |- # Alertable metrics configuration settings for container resource utilization [alertable_metrics_configuration_settings.container_resource_utilization_thresholds] # The threshold(Type Float) will be rounded off to 2 decimal points # Threshold for container cpu, metric will be sent only when cpu utilization exceeds or becomes equal to the following percentage container_cpu_threshold_percentage = 95.0 # Threshold for container memoryRss, metric will be sent only when memory rss exceeds or becomes equal to the following percentage container_memory_rss_threshold_percentage = 95.0 # Threshold for container memoryWorkingSet, metric will be sent only when memory working set exceeds or becomes equal to the following percentage container_memory_working_set_threshold_percentage = 95.0 # Alertable metrics configuration settings for persistent volume utilization [alertable_metrics_configuration_settings.pv_utilization_thresholds] # Threshold for persistent volume usage bytes, metric will be sent only when persistent volume utilization exceeds or becomes equal to the following percentage pv_usage_threshold_percentage = 60.0 # Alertable metrics configuration settings for completed jobs count [alertable_metrics_configuration_settings.job_completion_threshold] # Threshold for completed job count , metric will be sent only for those jobs which were completed earlier than the following threshold job_completion_threshold_time_minutes = 360 integrations: |- [integrations.azure_network_policy_manager] collect_basic_metrics = false collect_advanced_metrics = false [integrations.azure_subnet_ip_usage] enabled = false # Doc - https://github.com/microsoft/Docker-Provider/blob/ci_prod/Documentation/AgentSettings/ReadMe.md agent-settings: |- # prometheus scrape fluent bit settings for high scale # buffer size should be greater than or equal to chunk size else we set it to chunk size. # settings scoped to prometheus sidecar container. all values in mb [agent_settings.prometheus_fbit_settings] tcp_listener_chunk_size = 10 tcp_listener_buffer_size = 10 tcp_listener_mem_buf_limit = 200 # prometheus scrape fluent bit settings for high scale # buffer size should be greater than or equal to chunk size else we set it to chunk size. # settings scoped to daemonset container. all values in mb # [agent_settings.node_prometheus_fbit_settings] # tcp_listener_chunk_size = 1 # tcp_listener_buffer_size = 1 # tcp_listener_mem_buf_limit = 10 # prometheus scrape fluent bit settings for high scale # buffer size should be greater than or equal to chunk size else we set it to chunk size. # settings scoped to replicaset container. all values in mb # [agent_settings.cluster_prometheus_fbit_settings] # tcp_listener_chunk_size = 1 # tcp_listener_buffer_size = 1 # tcp_listener_mem_buf_limit = 10 # The following settings are "undocumented", we don't recommend uncommenting them unless directed by Microsoft. # They increase the maximum stdout/stderr log collection rate but will also cause higher cpu/memory usage. ## Ref for more details about Ignore_Older - https://docs.fluentbit.io/manual/v/1.7/pipeline/inputs/tail # [agent_settings.fbit_config] # log_flush_interval_secs = "1" # default value is 15 # tail_mem_buf_limit_megabytes = "10" # default value is 10 # tail_buf_chunksize_megabytes = "1" # default value is 32kb (comment out this line for default) # tail_buf_maxsize_megabytes = "1" # default value is 32kb (comment out this line for default) # tail_ignore_older = "5m" # default value same as fluent-bit default i.e.0m # On both AKS & Arc K8s enviornments, if Cluster has configured with Forward Proxy then Proxy settings automatically applied and used for the agent # Certain configurations, proxy config should be ignored for example Cluster with AMPLS + Proxy # in such scenarios, use the following config to ignore proxy settings # [agent_settings.proxy_config] # ignore_proxy_settings = "true" # if this is not applied, default value is false metadata: name: container-azm-ms-agentconfig namespace: kube-system

kptop

Posts with mentions or reviews of kptop. We have used some of these posts to build our list of alternatives and similar projects. The last one was on 2022-12-26.

What are some alternatives?

When comparing Docker-Provider and kptop you can also consider the following projects:

chkdfront - Check Domain Fronting (chkdfront) - It checks if your domain fronting is working

krr - Prometheus-based Kubernetes Resource Recommendations

pixie - Instant Kubernetes-Native Application Observability

k8dash - Simple Kubernetes real-time dashboard and management.

manageiq - ManageIQ Open-Source Management Platform

prometheus-enhanced-snmp-exporter - Enhanced prometheus SNMP exporter with multithreading support and variable SNMP pooling interval

k9s - 🐶 Kubernetes CLI To Manage Your Clusters In Style!

robusta - Kubernetes observability and automation, with an awesome Prometheus integration

devtron - Tool integration platform for Kubernetes