NOTE: A new higher performance Fluent Bit Kinesis Plugin has been released. Check out our official guidance.
A Fluent Bit output plugin for Amazon Kinesis Data Streams.
If you think you’ve found a potential security issue, please do not post it in the Issues. Instead, please follow the instructions here or email AWS security directly at aws-security@amazon.com.
Run make
to build ./bin/kinesis.so
. Then use with Fluent Bit:
./fluent-bit -e ./kinesis.so -i cpu \
-o kinesis \
-p "region=us-west-2" \
-p "stream=test-stream"
For building Windows binaries, we need to install mingw-64w
for cross-compilation. The same can be done using-
sudo apt-get install -y gcc-multilib gcc-mingw-w64
After this step, run make windows-release
. Then use with Fluent Bit on Windows:
./fluent-bit.exe -e ./kinesis.dll -i dummy `
-o kinesis `
-p "region=us-west-2" `
-p "stream=test-stream"
region
: The region which your Kinesis Data Stream is in.stream
: The name of the Kinesis Data Stream that you want log records sent to.partition_key
: A partition key is used to group data by shard within a stream. A Kinesis Data Stream uses the partition key that is associated with each data record to determine which shard a given data record belongs to. For example, if your logs come from Docker containers, you can use container_id as the partition key, and the logs will be grouped and stored on different shards depending upon the id of the container they were generated from. As the data within a shard are coarsely ordered, you will get all your logs from one container in one shard roughly in order. Nested partition key is supported and you can use->
to point to your target key which is nested under another key. For example, yourpartition_key
could bekubernetes->pod_name
. If you don't set a partition key or put an invalid one, a random key will be generated, and the logs will be directed to random shards. If the partition key is invalid, the plugin will print an warning message.data_keys
: By default, the whole log record will be sent to Kinesis. If you specify key name(s) with this option, then only those keys and values will be sent to Kinesis. For example, if you are using the Fluentd Docker log driver, you can specifydata_keys log
and only the log message will be sent to Kinesis. If you specify multiple keys, they should be comma delimited.log_key
: By default, the whole log record will be sent to Kinesis. If you specify a key name with this option, then only the value of that key will be sent to Kinesis. For example, if you are using the Fluentd Docker log driver, you can specifylog_key log
and only the log message will be sent to Kinesis.role_arn
: ARN of an IAM role to assume (for cross account access).endpoint
: Specify a custom endpoint for the Kinesis Streams API.sts_endpoint
: Specify a custom endpoint for the STS API; used to assume your custom role provided withrole_arn
.append_newline
: If you set append_newline as true, a newline will be addded after each log record.time_key
: Add the timestamp to the record under this key. By default the timestamp from Fluent Bit will not be added to records sent to Kinesis. The timestamp inserted comes from the timestamp that Fluent Bit associates with the log record, which is set by the input that collected it. For example, if you are reading a log file with the tail input, then the timestamp for each log line/record can be obtained/parsed by using a Fluent Bit parser on the log line.time_key_format
: strftime compliant format string for the timestamp; for example,%Y-%m-%dT%H:%M:%S%z
. This option is used withtime_key
. You can also use%L
for milliseconds and%f
for microseconds. Remember that thetime_key
option only inserts the timestamp Fluent Bit has for each record into the record. So the record must have been collected with a timestamp with precision in order to use sub-second precision formatters. If you are using ECS FireLens, make sure you are running Amazon ECS Container Agent v1.42.0 or later, otherwise the timestamps associated with your stdout & stderr container logs will only have second precision.experimental_concurrency
: Specify a limit of concurrent go routines for flushing records to kinesis. By defaultexperimental_concurrency
is set to 0 and records are flushed in Fluent Bit's single thread. This means that requests to Kinesis will block the execution of Fluent Bit. If this value is set to4
for example then calls to Flush records from fluentbit will spawn concurrent go routines until the limit of4
concurrent go routines are running. Once theexperimental_concurrency
limit is reached calls to Flush will return a retry code. The upper limit of theexperimental_concurrency
option is10
. WARNING: Enablingexperimental_concurrency
can lead to data loss if the retry count is reached. Enabling concurrency will increase resource usage (memory and CPU).experimental_concurrency_retries
: Specify a limit to the number of retries concurrent goroutines will attempt. By default4
retries will be attempted before records are dropped.aggregation
: Settingaggregation
totrue
will enable KPL aggregation of records sent to Kinesis. This feature changes the behavior of thepartition_key
feature. See the KPL aggregation section below for more details.compression
: Specify an algorithm for compression of each record. Supported compression algorithms arezlib
andgzip
. By default this feature is disabled and records are not compressed.replace_dots
: Replace dot characters in key names with the value of this option. For example, if you addreplace_dots _
in your config then all occurrences of.
will be replaced with an underscore. By default, dots will not be replaced.http_request_timeout
: Specify a timeout (in seconds) for the underlying AWS SDK Go HTTP call when sending records to Kinesis. By default, a timeout of0
is used, indicating no timeout. Note that even with no timeout, the default behavior of the AWS SDK Go library may still lead to an eventual timeout.
The plugin requires kinesis:PutRecords
permissions.
This plugin uses the AWS SDK Go, and uses its default credential provider chain. If you are using the plugin on Amazon EC2 or Amazon ECS or Amazon EKS, the plugin will use your EC2 instance role or ECS Task role permissions or EKS IAM Roles for Service Accounts for pods. The plugin can also retrieve credentials from a shared credentials file, or from the standard AWS_ACCESS_KEY_ID
, AWS_SECRET_ACCESS_KEY
, AWS_SESSION_TOKEN
environment variables.
FLB_LOG_LEVEL
: Set the log level for the plugin. Valid values are:debug
,info
, anderror
(case insensitive). Default isinfo
. Note: Setting log level in the Fluent Bit Configuration file using the Service key will not affect the plugin log level (because the plugin is external).SEND_FAILURE_TIMEOUT
: Allows you to configure a timeout if the plugin can not send logs to Kinesis Streams. The timeout is specified as a Golang duration, for example:5m30s
. If the plugin has failed to make any progress for the given period of time, then it will exit and kill Fluent Bit. This is useful in scenarios where you want your logging solution to fail fast if it has been misconfigured (i.e. network or credentials have not been set up to allow it to send to Kinesis Streams).
This plugin has been tested with Fluent Bit 1.2.0+. It may not work with older Fluent Bit versions. We recommend using the latest version of Fluent Bit as it will contain the newest features and bug fixes.
[INPUT]
Name forward
Listen 0.0.0.0
Port 24224
[OUTPUT]
Name kinesis
Match *
region us-west-2
stream my-kinesis-stream-name
partition_key container_id
append_newline true
replace_dots _
We distribute a container image with Fluent Bit and this plugin.
github.com/aws/aws-for-fluent-bit
Our images are available in Amazon ECR Public Gallery. You can download images with different tags by following command:
docker pull public.ecr.aws/aws-observability/aws-for-fluent-bit:<tag>
For example, you can pull the image with latest version by:
docker pull public.ecr.aws/aws-observability/aws-for-fluent-bit:latest
If you see errors for image pull limits, try log into public ECR with your AWS credentials:
aws ecr-public get-login-password --region us-east-1 | docker login --username AWS --password-stdin public.ecr.aws
You can check the Amazon ECR Public official doc for more details.
You can use our SSM Public Parameters to find the Amazon ECR image URI in your region:
aws ssm get-parameters-by-path --path /aws/service/aws-for-fluent-bit/
For more see our docs.
KPL aggregation can be enabled by setting the aggregation
parameter to true
(default is false). With aggregation enabled each Record in the PutRecords request can contain multiple serialized records in the KCL protobuf structure. This batch of records will only count as a single record towards the Kinesis records per second limit (currently 1000 records/sec per shard).
The advantages of enabling KPL aggregation are:
- Increased throughput, and decreased Kinesis costs for smaller records (records less than 1K).
- Less overhead in error checking PutRecords results (fewer PutRecords results to verify).
- Firehose will de-aggregate the records automatically (free de-aggregation if Firehose is leveraged).
The disadvantages are:
- The flush time (or buffer size) will need to be tuned to take advantage of aggregation (more on that below).
- You must use the KCL library to read data from kinesis to de-aggregate the protobuf serialization (if Firehose isn't the consumer).
- The
partition_key
feature isn't fully compatible with aggregation given multiple records are in each PutRecord structure. Thepartition_key
value of the first record in the batch will be used to route the entire batch to a given shard. Given this limitation, using bothpartition_key
andaggregation
simultaneously requires careful consideration. In most container log use cases, all logs from a single container/pod are sent in the same stream, thus if you use the pod/container as the partition key, it should still work as expected since all records in an aggregated batch can use the same partition key. In other use cases, aggregation will cause records that should have had different partition keys to have the same partition key.
KPL Aggregated Record Reference: https://github.com/awslabs/amazon-kinesis-producer/blob/master/aggregation-format.md
When using aggregation
the buffers and flush time may need to be tuned. For low volume use cases a longer flush time maybe preferable to take full advantage of the aggregation cost savings.
More specifically, increasing the flush value will ensure the most records are aggregated taking full advantage of the cost savings.
[SERVICE]
Flush 20
[SERVICE]
Flush 20
[INPUT]
Name forward
Listen 0.0.0.0
Port 24224
[OUTPUT]
Name kinesis
Match *
region us-west-2
stream my-kinesis-stream-name
aggregation true
append_newline true
Enabling zlib
compression will compress each record individually reducing the network bandwidth required to send logs. Using this feature in conjunction with aggregation
can greatly reduce the number of Kinesis shards required.
Compression Advantages:
- Reduces network bandwidth required
- Reduces Kinesis shard count in some scenarios
Compression Disadvantages:
- Fluentbit will require more CPU and memory to send records
- A consumer must decompress the records
Example config:
[SERVICE]
Flush 20
[INPUT]
Name forward
Listen 0.0.0.0
Port 24224
[OUTPUT]
Name kinesis
Match *
region us-west-2
stream my-kinesis-stream-name
compression zlib
append_newline true
We have released a new higher performance Kinesis Streams plugin named kinesis_streams
.
That plugin has many of the features of this older, lower performance and less efficient plugin. Please compare this document with its documentation for an up to date feature set comparison between the two plugins.
This plugin will continue to be supported. However, we are pausing development on it and will focus on the high performance version instead.
If the features of the higher performance plugin are sufficient for your use cases, please use it. It can achieve higher throughput and will consume less CPU and memory.
As time goes on we expect new features to be added to the C plugin only, however, this is determined on a case by case basis. There is some feature gap between the two plugins. Please consult the C plugin documentation and this document for the features offered by each plugin.
For many users, you can simply replace the plugin name kinesis
with the new name kinesis_streams
.
Yes. The high performance plugin is written in C, and this plugin is written in Golang. We understand that Go is an easier language for amateur contributors to write code in- that is one of the primary reasons we are continuing to maintain this repo.
However, if you can write code in C, please consider contributing new features to the higher performance plugin.