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Merge pull request 'Documentation updates' (#423) from doc-0.8 into main
Reviewed-on: https://git.deuxfleurs.fr/Deuxfleurs/garage/pulls/423
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7fafd14a25
6 changed files with 1416 additions and 11 deletions
306
doc/book/cookbook/monitoring.md
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doc/book/cookbook/monitoring.md
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title = "Monitoring Garage"
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weight = 40
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+++
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Garage exposes some internal metrics in the Prometheus data format.
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This page explains how to exploit these metrics.
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## Setting up monitoring
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### Enabling the Admin API endpoint
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If you have not already enabled the [administration API endpoint](@/documentation/reference-manual/admin-api.md), do so by adding the following lines to your configuration file:
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```toml
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[admin]
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api_bind_addr = "0.0.0.0:3903"
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```
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This will allow anyone to scrape Prometheus metrics by fetching
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`http://localhost:3093/metrics`. If you want to restrict access
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to the exported metrics, set the `metrics_token` configuration value
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to a bearer token to be used when fetching the metrics endpoint.
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### Setting up Prometheus and Grafana
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Add a scrape config to your Prometheus daemon to scrape metrics from
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all of your nodes:
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```yaml
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scrape_configs:
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- job_name: 'garage'
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static_configs:
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- targets:
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- 'node1.mycluster:3903'
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- 'node2.mycluster:3903'
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- 'node3.mycluster:3903'
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```
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If you have set a metrics token in your Garage configuration file,
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add the following lines in your Prometheus scrape config:
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```yaml
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authorization:
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type: Bearer
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credentials: 'your metrics token'
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```
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To visualize the scraped data in Grafana,
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you can either import our [Grafana dashboard for Garage](https://git.deuxfleurs.fr/Deuxfleurs/garage/raw/branch/main/script/telemetry/grafana-garage-dashboard-prometheus.json)
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or make your own.
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We detail below the list of exposed metrics and their meaning.
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## List of exported metrics
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### Metrics of the API endpoints
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#### `api_admin_request_counter` (counter)
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Counts the number of requests to a given endpoint of the administration API. Example:
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```
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api_admin_request_counter{api_endpoint="Metrics"} 127041
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```
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#### `api_admin_request_duration` (histogram)
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Evaluates the duration of API calls to the various administration API endpoint. Example:
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```
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api_admin_request_duration_bucket{api_endpoint="Metrics",le="0.5"} 127041
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api_admin_request_duration_sum{api_endpoint="Metrics"} 605.250344830999
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api_admin_request_duration_count{api_endpoint="Metrics"} 127041
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```
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#### `api_s3_request_counter` (counter)
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Counts the number of requests to a given endpoint of the S3 API. Example:
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```
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api_s3_request_counter{api_endpoint="CreateMultipartUpload"} 1
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```
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#### `api_s3_error_counter` (counter)
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Counts the number of requests to a given endpoint of the S3 API that returned an error. Example:
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```
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api_s3_error_counter{api_endpoint="GetObject",status_code="404"} 39
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```
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#### `api_s3_request_duration` (histogram)
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Evaluates the duration of API calls to the various S3 API endpoints. Example:
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```
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api_s3_request_duration_bucket{api_endpoint="CreateMultipartUpload",le="0.5"} 1
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api_s3_request_duration_sum{api_endpoint="CreateMultipartUpload"} 0.046340762
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api_s3_request_duration_count{api_endpoint="CreateMultipartUpload"} 1
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```
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#### `api_k2v_request_counter` (counter), `api_k2v_error_counter` (counter), `api_k2v_error_duration` (histogram)
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Same as for S3, for the K2V API.
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### Metrics of the Web endpoint
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#### `web_request_counter` (counter)
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Number of requests to the web endpoint
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```
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web_request_counter{method="GET"} 80
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```
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#### `web_request_duration` (histogram)
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Duration of requests to the web endpoint
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```
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web_request_duration_bucket{method="GET",le="0.5"} 80
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web_request_duration_sum{method="GET"} 1.0528433229999998
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web_request_duration_count{method="GET"} 80
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```
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#### `web_error_counter` (counter)
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Number of requests to the web endpoint resulting in errors
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```
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web_error_counter{method="GET",status_code="404 Not Found"} 64
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```
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### Metrics of the data block manager
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#### `block_bytes_read`, `block_bytes_written` (counter)
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Number of bytes read/written to/from disk in the data storage directory.
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```
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block_bytes_read 120586322022
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block_bytes_written 3386618077
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```
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#### `block_read_duration`, `block_write_duration` (histograms)
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Evaluates the duration of the reading/writing of individual data blocks in the data storage directory.
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```
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block_read_duration_bucket{le="0.5"} 169229
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block_read_duration_sum 2761.6902550310056
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block_read_duration_count 169240
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block_write_duration_bucket{le="0.5"} 3559
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block_write_duration_sum 195.59170078500006
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block_write_duration_count 3571
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```
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#### `block_delete_counter` (counter)
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Counts the number of data blocks that have been deleted from storage.
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```
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block_delete_counter 122
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```
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#### `block_resync_counter` (counter), `block_resync_duration` (histogram)
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Counts the number of resync operations the node has executed, and evaluates their duration.
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```
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block_resync_counter 308897
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block_resync_duration_bucket{le="0.5"} 308892
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block_resync_duration_sum 139.64204196100016
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block_resync_duration_count 308897
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```
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#### `block_resync_queue_length` (gauge)
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The number of block hashes currently queued for a resync.
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This is normal to be nonzero for long periods of time.
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```
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block_resync_queue_length 0
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```
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#### `block_resync_errored_blocks` (gauge)
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The number of block hashes that we were unable to resync last time we tried.
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**THIS SHOULD BE ZERO, OR FALL BACK TO ZERO RAPIDLY, IN A HEALTHY CLUSTER.**
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Persistent nonzero values indicate that some data is likely to be lost.
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```
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block_resync_errored_blocks 0
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```
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### Metrics related to RPCs (remote procedure calls) between nodes
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#### `rpc_netapp_request_counter` (counter)
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Number of RPC requests emitted
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```
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rpc_request_counter{from="<this node>",rpc_endpoint="garage_block/manager.rs/Rpc",to="<remote node>"} 176
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```
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#### `rpc_netapp_error_counter` (counter)
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Number of communication errors (errors in the Netapp library, generally due to disconnected nodes)
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```
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rpc_netapp_error_counter{from="<this node>",rpc_endpoint="garage_block/manager.rs/Rpc",to="<remote node>"} 354
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```
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#### `rpc_timeout_counter` (counter)
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Number of RPC timeouts, should be close to zero in a healthy cluster.
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```
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rpc_timeout_counter{from="<this node>",rpc_endpoint="garage_rpc/membership.rs/SystemRpc",to="<remote node>"} 1
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```
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#### `rpc_duration` (histogram)
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The duration of internal RPC calls between Garage nodes.
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```
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rpc_duration_bucket{from="<this node>",rpc_endpoint="garage_block/manager.rs/Rpc",to="<remote node>",le="0.5"} 166
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rpc_duration_sum{from="<this node>",rpc_endpoint="garage_block/manager.rs/Rpc",to="<remote node>"} 35.172253716
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rpc_duration_count{from="<this node>",rpc_endpoint="garage_block/manager.rs/Rpc",to="<remote node>"} 174
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```
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### Metrics of the metadata table manager
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#### `table_gc_todo_queue_length` (gauge)
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Table garbage collector TODO queue length
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```
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table_gc_todo_queue_length{table_name="block_ref"} 0
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```
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#### `table_get_request_counter` (counter), `table_get_request_duration` (histogram)
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Number of get/get_range requests internally made on each table, and their duration.
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```
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table_get_request_counter{table_name="bucket_alias"} 315
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table_get_request_duration_bucket{table_name="bucket_alias",le="0.5"} 315
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table_get_request_duration_sum{table_name="bucket_alias"} 0.048509778000000024
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table_get_request_duration_count{table_name="bucket_alias"} 315
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```
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#### `table_put_request_counter` (counter), `table_put_request_duration` (histogram)
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Number of insert/insert_many requests internally made on this table, and their duration
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```
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table_put_request_counter{table_name="block_ref"} 677
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table_put_request_duration_bucket{table_name="block_ref",le="0.5"} 677
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table_put_request_duration_sum{table_name="block_ref"} 61.617528636
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table_put_request_duration_count{table_name="block_ref"} 677
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```
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#### `table_internal_delete_counter` (counter)
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Number of value deletions in the tree (due to GC or repartitioning)
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```
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table_internal_delete_counter{table_name="block_ref"} 2296
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```
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#### `table_internal_update_counter` (counter)
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Number of value updates where the value actually changes (includes creation of new key and update of existing key)
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```
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table_internal_update_counter{table_name="block_ref"} 5996
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```
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#### `table_merkle_updater_todo_queue_length` (gauge)
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Merkle tree updater TODO queue length (should fall to zero rapidly)
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```
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table_merkle_updater_todo_queue_length{table_name="block_ref"} 0
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```
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#### `table_sync_items_received`, `table_sync_items_sent` (counters)
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Number of data items sent to/recieved from other nodes during resync procedures
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```
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table_sync_items_received{from="<remote node>",table_name="bucket_v2"} 3
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table_sync_items_sent{table_name="block_ref",to="<remote node>"} 2
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```
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@ -11,8 +11,9 @@ We recommend first following the [quick start guide](@/documentation/quick-start
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to get familiar with Garage's command line and usage patterns.
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## Preparing your environment
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## Prerequisites
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### Prerequisites
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To run a real-world deployment, make sure the following conditions are met:
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- Each machine has a public IP address which is reachable by other machines.
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Running behind a NAT is likely to be possible but hasn't been tested for the latest version (TODO).
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- Ideally, each machine should have a SSD available in addition to the HDD you are dedicating
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to Garage. This will allow for faster access to metadata and has the potential
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to significantly reduce Garage's response times.
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- This guide will assume you are using Docker containers to deploy Garage on each node.
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Garage can also be run independently, for instance as a [Systemd service](@/documentation/cookbook/systemd.md).
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You can also use an orchestrator such as Nomad or Kubernetes to automatically manage
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@ -49,6 +46,42 @@ available in the different locations of your cluster is roughly the same.
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For instance, here, the Mercury node could be moved to Brussels; this would allow the cluster
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to store 2 TB of data in total.
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### Best practices
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- If you have fast dedicated networking between all your nodes, and are planing to store
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very large files, bump the `block_size` configuration parameter to 10 MB
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(`block_size = 10485760`).
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- Garage stores its files in two locations: it uses a metadata directory to store frequently-accessed
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small metadata items, and a data directory to store data blocks of uploaded objects.
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Ideally, the metadata directory would be stored on an SSD (smaller but faster),
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and the data directory would be stored on an HDD (larger but slower).
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- For the data directory, Garage already does checksumming and integrity verification,
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so there is no need to use a filesystem such as BTRFS or ZFS that does it.
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We recommend using XFS for the data partition, as it has the best performance.
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EXT4 is not recommended as it has more strict limitations on the number of inodes,
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which might cause issues with Garage when large numbers of objects are stored.
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- If you only have an HDD and no SSD, it's fine to put your metadata alongside the data
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on the same drive. Having lots of RAM for your kernel to cache the metadata will
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help a lot with performance. Make sure to use the LMDB database engine,
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instead of Sled, which suffers from quite bad performance degradation on HDDs.
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Sled is still the default for legacy reasons, but is not recommended anymore.
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- For the metadata storage, Garage does not do checksumming and integrity
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verification on its own. If you are afraid of bitrot/data corruption,
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put your metadata directory on a BTRFS partition. Otherwise, just use regular
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EXT4 or XFS.
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- Having a single server with several storage drives is currently not very well
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supported in Garage ([#218](https://git.deuxfleurs.fr/Deuxfleurs/garage/issues/218)).
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For an easy setup, just put all your drives in a RAID0 or a ZFS RAIDZ array.
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If you're adventurous, you can try to format each of your disk as
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a separate XFS partition, and then run one `garage` daemon per disk drive,
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or use something like [`mergerfs`](https://github.com/trapexit/mergerfs) to merge
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all your disks in a single union filesystem that spreads load over them.
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## Get a Docker image
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Our docker image is currently named `dxflrs/garage` and is stored on the [Docker Hub](https://hub.docker.com/r/dxflrs/garage/tags?page=1&ordering=last_updated).
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@ -81,6 +114,7 @@ A valid `/etc/garage/garage.toml` for our cluster would look as follows:
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```toml
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metadata_dir = "/var/lib/garage/meta"
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data_dir = "/var/lib/garage/data"
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db_engine = "lmdb"
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replication_mode = "3"
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@ -90,8 +124,6 @@ rpc_bind_addr = "[::]:3901"
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rpc_public_addr = "<this node's public IP>:3901"
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rpc_secret = "<RPC secret>"
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bootstrap_peers = []
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[s3_api]
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s3_region = "garage"
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api_bind_addr = "[::]:3900"
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@ -132,6 +164,21 @@ It should be restarted automatically at each reboot.
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Please note that we use host networking as otherwise Docker containers
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can not communicate with IPv6.
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If you want to use `docker-compose`, you may use the following `docker-compose.yml` file as a reference:
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```yaml
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version: "3"
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services:
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garage:
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image: dxflrs/garage:v0.8.0
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network_mode: "host"
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restart: unless-stopped
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volumes:
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- /etc/garage.toml:/etc/garage.toml
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- /var/lib/garage/meta:/var/lib/garage/meta
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- /var/lib/garage/data:/var/lib/garage/data
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```
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Upgrading between Garage versions should be supported transparently,
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but please check the relase notes before doing so!
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To upgrade, simply stop and remove this container and
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|
|
|
@ -1,6 +1,6 @@
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+++
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title = "Recovering from failures"
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weight = 35
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weight = 50
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+++
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||||
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Garage is meant to work on old, second-hand hardware.
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|
|
|
@ -1,6 +1,6 @@
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|||
+++
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title = "Upgrading Garage"
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weight = 40
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weight = 60
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+++
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||||
|
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Garage is a stateful clustered application, where all nodes are communicating together and share data structures.
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|
|
|
@ -54,6 +54,7 @@ to generate unique and private secrets for security reasons:
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cat > garage.toml <<EOF
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metadata_dir = "/tmp/meta"
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data_dir = "/tmp/data"
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db_engine = "lmdb"
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replication_mode = "none"
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@ -61,8 +62,6 @@ rpc_bind_addr = "[::]:3901"
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rpc_public_addr = "127.0.0.1:3901"
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rpc_secret = "$(openssl rand -hex 32)"
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bootstrap_peers = []
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[s3_api]
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s3_region = "garage"
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api_bind_addr = "[::]:3900"
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|
|
1053
script/telemetry/grafana-garage-dashboard-prometheus.json
Normal file
1053
script/telemetry/grafana-garage-dashboard-prometheus.json
Normal file
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