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Léo-Paul Géneau
gitlab-ce
Commits
790c6868
Commit
790c6868
authored
Jan 18, 2016
by
Yorick Peterse
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Added documentation for GitLab Metrics
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@@ -49,6 +49,13 @@
-
[
Test Clojure applications
](
ci/examples/test-clojure-application.md
)
-
Help your favorite programming language and GitLab by sending a merge request with a guide for that language.
## GitLab Metrics
-
[
Introduction
](
metrics/introduction.md
)
-
[
GitLab Configuration
](
metrics/gitlab_configuration.md
)
-
[
InfluxDB Configuration
](
metrics/influxdb_configuration.md
)
-
[
InfluxDB Schema
](
metrics/influxdb_schema.md
)
## Administrator documentation
-
[
Custom git hooks
](
hooks/custom_hooks.md
)
Custom git hooks (on the filesystem) for when web hooks aren't enough.
...
...
doc/metrics/gitlab_configuration.md
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# GitLab Configuration
By default GitLab Metrics is disabled. To enable GitLab Metrics and change any
of its settings open a web browser and navigate to
`http://YOUR_GITLAB_HOST/admin/application_settings`
, the settings can be found
in the "Metrics" section. A restart of all GitLab processes is required for any
changes to take effect.
## Pending Migrations
When any migrations are pending the metrics are disabled until the migrations
have been performed.
doc/metrics/influxdb_configuration.md
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# InfluxDB Configuration
The default settings provided by InfluxDB are not sufficient for a high traffic
GitLab environment. The settings discussed in this document are based on the
settings GitLab uses for GitLab.com, depending on your own needs you may need to
further adjust them.
## Requirements
*
InfluxDB 0.9 or newer
*
A fairly modern version of Linux
*
At least 4GB of RAM
*
At least 10GB of storage for InfluxDB data
Note that the RAM and storage requirements can differ greatly depending on the
amount of data received/stored. To limit the amount of stored data users can
look into
[
InfluxDB Retention Policies
][
influxdb-retention
]
.
## InfluxDB Server Settings
Since InfluxDB has many settings that users may wish to customize themselves
(e.g. what port to run InfluxDB on) we'll only cover the essentials.
### Storage Engine
InfluxDB comes with different storage engines and as of InfluxDB 0.9 a new
storage engine is available called "tsm1". All users _must_ use the new tsm1
storage engine (this will be the default engine in upcoming InfluxDB engines).
### Admin Panel
Production environments should have the InfluxDB admin panel _disabled_. This
feature can be disabled by adding the following to your InfluxDB configuration
file:
[admin]
enabled = false
### HTTP
HTTP is required when using the InfluxDB CLI or other tools such as Grafana,
thus it should be enabled. When enabling make sure to _also_ enable
authentication:
[http]
enabled = true
auth-enabled = true
### UDP
GitLab writes data to InfluxDB via UDP and thus this must be enabled. Enabling
UDP can be done using the following settings:
[udp]
enabled = true
bind-address = ":8089"
database = "gitlab"
batch-size = 1000
batch-pending = 5
batch-timeout = 1s
read-buffer = 209715200
This does the following:
1.
Enable UDP and bind it to port 8089 for all addresses.
2.
Store any data received in the "gitlab" database.
3.
Define a batch of points to be 1000 points in size and allow a maximum of
5 batches _or_ flush them automatically after 1 second.
4.
Define a UDP read buffer size of 200 MB.
One of the most important settings here is the UDP read buffer size as if this
value is set too low packets will be dropped. You must also make sure the OS
buffer size is set to the same value, the default value is almost never enough.
To set the OS buffer size to 200 MB on Linux you can run the following command:
sysctl -w net.core.rmem_max=209715200
To make this permanent, add the following to
`/etc/sysctl.conf`
and restart the
server:
net.core.rmem_max=209715200
It is
**very important**
to make sure the buffer sizes are large enough to
handle all data sent to InfluxDB as otherwise you _will_ lose data. The above
buffer sizes are based on the traffic for GitLab.com. Depending on the amount of
traffic users may be able to use a smaller buffer size, but we highly recommend
using _at least_ 100 MB.
When enabling UDP users should take care to not expose the port to the public as
doing so will allow anybody to write data into your InfluxDB database (as
InfluxDB's UDP protocol doesn't support authentication). We recommend either
whitelisting the allowed IP addresses/ranges, or setting up a VLAN and only
allowing traffic from members of said VLAN.
[
influxdb-retention
]:
https://docs.influxdata.com/influxdb/v0.9/query_language/database_management/#retention-policy-management
doc/metrics/influxdb_schema.md
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# InfluxDB Schema
The following measurements are currently stored in InfluxDB:
*
`PROCESS_file_descriptors`
*
`PROCESS_gc_statistics`
*
`PROCESS_memory_usage`
*
`PROCESS_method_calls`
*
`PROCESS_object_counts`
*
`PROCESS_transactions`
*
`PROCESS_views`
Here
`PROCESS`
is replaced with either "rails" or "sidekiq" depending on the
process type. In all series any form of duration is stored in milliseconds.
## PROCESS_file_descriptors
This measurement contains the number of open file descriptors over time. The
value field
`value`
contains the number of descriptors.
## PROCESS_gc_statistics
This measurement contains Ruby garbage collection statistics such as the amount
of minor/major GC runs (relative to the last sampling interval), the time spent
in garbage collection cycles, and all fields/values returned by
`GC.stat`
.
## PROCESS_memory_usage
This measurement contains the process' memory usage (in bytes) over time. The
value field
`value`
contains the number of bytes.
## PROCESS_method_calls
This measurement contains the methods called during a transaction along with
their durations and a name of the transaction action that invoked the method (if
available). The method call duration is stored in the value field
`duration`
while the method name is stored in the tag
`method`
. The tag
`action`
contains
the full name of the transaction action. Both the
`method`
and
`action`
fields
are in the following format:
ClassName#method_name
For example, a method called by the
`show`
method in the
`UsersController`
class
would have
`action`
set to
`UsersController#show`
.
## PROCESS_object_counts
This measurement is used to store retained Ruby objects (per class) and the
amount of retained objects. The number of objects is stored in the
`count`
value
field while the class name is stored in the
`type`
tag.
## PROCESS_transactions
This measurement is used to store basic transaction details such as the time it
took to complete a transaction, how much time was spent in SQL queries, etc. The
following value fields are available:
*
`duration`
: the total duration of the transaction.
*
`allocated_memory`
: the amount of bytes allocated while the transaction was
running. This value is only reliable when using single-threaded application
servers.
*
`method_duration`
: the total time spent in method calls.
*
`sql_duration`
: the total time spent in SQL queries.
*
`view_duration`
: the total time spent in views.
## PROCESS_views
This measurement is used to store view rendering timings for a transaction. The
following value fields are available:
*
`duration`
: the rendering time of the view.
*
`view`
: the path of the view, relative to the application's root directory.
The
`action`
tag contains the action name of the transaction that rendered the
view.
doc/metrics/introduction.md
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# Introduction to GitLab Metrics
GitLab comes with its own application performance measuring system as of GitLab
8.
4, simply called "GitLab Metrics". GitLab Metrics is available in both the
Community and Enterprise editions.
GitLab Metrics makes it possible to measure a wide variety of statistics
including (but not limited to):
*
The time it took to complete a transaction (a web request or Sidekiq job).
*
The time spent in running SQL queries and rendering HAML views.
*
The time spent executing (instrumented) Ruby methods.
*
Ruby object allocations, and retained objects in particular.
*
System statistics such as the process' memory usage and open file descriptors.
*
Ruby garbage collection statistics.
Metrics data is written to
[
InfluxDB
][
influxdb
]
over
[
UDP
](
influxdb-udp
)
. Stored
data can be visualized using
[
Grafana
][
grafana
]
or any other application that
supports reading data from InfluxDB. Alternatively data can be queried using the
InfluxDB CLI.
## Metric Types
Two types of metrics are collected:
1.
Transaction specific metrics.
2.
Sampled metrics, collected at a certain interval in a separate thread.
### Transaction Metrics
Transaction metrics are metrics that can be associated with a single
transaction. This includes statistics such as the transaction duration, timings
of any executed SQL queries, time spent rendering HAML views, etc. These metrics
are collected for every Rack request and Sidekiq job processed.
### Sampled Metrics
Sampled metrics are metrics that can't be associated with a single transaction.
Examples include garbage collection statistics and retained Ruby objects. These
metrics are collected at a regular interval. This interval is made up out of two
parts:
1.
A user defined interval.
2.
A randomly generated offset added on top of the interval, the same offset
can't be used twice in a row.
The actual interval can be anywhere between a half of the defined interval and a
half above the interval. For example, for a user defined interval of 15 seconds
the actual interval can be anywhere between 7.5 and 22.5. The interval is
re-generated for every sampling run instead of being generated once and re-used
for the duration of the process' lifetime.
[
influxdb
]:
https://influxdata.com/time-series-platform/influxdb/
[
influxdb-udp
]:
https://docs.influxdata.com/influxdb/v0.9/write_protocols/udp/
[
grafana
]:
http://grafana.org/
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