README
¶
procx - cloud agnostic process execution
procx is a small process manager that can wrap around any existing application / process, and integrate with a job queue or data persistence layer to enable autoscaling job executions with no native code integration.
procx is a single compiled binary that can be packaged in your existing job code container, configured with environment variables or command line flags, and started as an entrypoint for any application.
The application will receive the work data agnostic to the data provider, with no need to integrate with the various upstream data sources. Data sources can be changed by simply changing procx's start up variables, and the application remains exactly the same.
Build once, run anywhere.
Execution
procx is started with the path to the process to manage, and either environment variables or a set of command line flags.
# cli args
procx -driver redis-list ... /path/to/process
# or, env vars
export PROCX_DRIVER=redis-list
...
procx /path/to/process
procx will retrieve the next job from the queue and pass it to the process. Upon success (exit code 0), procx will mark the job as complete. Upon failure (exit code != 0), procx will mark the job as failed to be requeued.
By default, the subprocess spawned by procx will not have access to the host environment variables. This can be changed by setting the -hostenv flag.
By default, procx will connect to the data source, consume a single message, and then exit when the spawned process exits. If the -daemon flag is set, procx will connect to the data source and consume messages until the process is killed, or until a job fails.
Payload
By default, procx will export the payload as an environment variable PROCX_PAYLOAD. If -pass-work-as-arg is set, the job payload string will be appended to the process arguments, and if -pass-work-as-stdin is set, the job payload will be piped to stdin of the process. Finally, if the -payload-file flag is set, the payload will be written to the specified file path. procx will clean up the file at the end of the job, unless you pass -keep-payload-file.
If no process is passed to procx, the payload will be printed to stdout.
Relational Driver JSON Parsing
For drivers which are non-structured (ex. fs, aws-s3, redis-list, etc.), procx will pass the payload data as-is to the driver. However for drivers which enforce some relational schema such as SQL-based drivers, you will need to provide a query which will be run to retrieve the data, and optionally queries to run if the work completes successfully or fails. procx will parse the query output into an array of JSON objects and pass it to the process. You can select a specific JSON field by passing the driver's respective -{driver}-retrieve-field flag. You can then use {{mustache}} syntax to extract specific fields from the returned data and use them in your subsequent clear and fail queries. For example:
procx -driver postgres \
... \
-psql-retrieve-query "SELECT id,name,work FROM jobs WHERE status=$1 LIMIT 1" \
-psql-retrieve-params "pending" \
-psql-clear-query "UPDATE jobs SET status=$1 WHERE id=$2" \
-psql-clear-params "complete,{{0.id}}" \
-pass-work-as-stdin \
cat
# the above will print
# [{"id":1,"name":"John Doe","work":"This is my work"}]
# however if we use the -psql-retrieve-field=0.work flag, we can extract the 0'th work field, to just print: "This is my work"
Drivers
Currently, the following drivers are supported:
- ActiveMQ (
activemq) - AWS DynamoDB (
aws-dynamo) - AWS S3 (
aws-s3) - AWS SQS (
aws-sqs) - Cassandra (
cassandra) - Centauri (
centauri) - Cockroach (
cockroach) - Couchbase (
couchbase) - Elasticsearch (
elasticsearch) - Etcd (
etcd) - FS (
fs) - GCP Big Query (
gcp-bq) - GCP Cloud Storage (
gcp-gcs) - GCP Firestore (
gcp-firestore) - GCP Pub/Sub (
gcp-pubsub) - GitHub (
github) - HTTP (
http) - Kafka (
kafka) - PostgreSQL (
postgres) - Pulsar (
pulsar) - MongoDB (
mongodb) - MSSQL (
mssql) - MySQL (
mysql) - NATS (
nats) - NFS (
nfs) - NSQ (
nsq) - RabbitMQ (
rabbitmq) - Redis List (
redis-list) - Redis Pub/Sub (
redis-pubsub) - Redis Stream (
redis-stream) - Scylla (
scylla) - SMB (
smb) - Local (
local)
Plans to add more drivers in the future, and PRs are welcome.
See Driver Examples for more information.
Install
curl -SsL https://raw.githubusercontent.com/robertlestak/procx/main/scripts/install.sh | bash -e
A note on permissions
Depending on the path of INSTALL_DIR and the permissions of the user running the installation script, you may get a Permission Denied error if you are trying to move the binary into a location which your current user does not have access to. This is most often the case when running the script as a non-root user yet trying to install into /usr/local/bin. To fix this, you can either:
Create a $HOME/bin directory in your current user home directory. This will be the default installation directory. Be sure to add this to your $PATH environment variable.
Use sudo to run the installation script, to install into /usr/local/bin
curl -SsL https://raw.githubusercontent.com/robertlestak/procx/main/scripts/install.sh | sudo bash -e
Build From Source
mkdir -p bin
go build -o bin/procx cmd/procx/*.go
Building for a Specific Driver
By default, the procx binary is compiled for all drivers. This is to enable a truly build-once-run-anywhere experience. However some users may want a smaller binary for embedded workloads. To enable this, you can run make listdrivers to get the full list of available drivers, and make slim drivers="driver1 driver2 driver3 ..." - listing each driver separated by a space - to build a slim binary with just the specified driver(s).
While building for a specific driver may seem contrary to the ethos of procx, the decoupling between the job queue and work still enables a write-once-run-anywhere experience, and simply requires DevOps to rebuild the image with your new drivers if you are shifting upstream data sources.
Usage
Usage: procx [options] [process]
-activemq-address string
ActiveMQ STOMP address
-activemq-enable-tls
Enable TLS
-activemq-name string
ActiveMQ name
-activemq-tls-ca-file string
TLS CA
-activemq-tls-cert-file string
TLS cert
-activemq-tls-insecure
Enable TLS insecure
-activemq-tls-key-file string
TLS key
-activemq-type string
ActiveMQ type. Valid values are: topic, queue
-aws-dynamo-clear-query string
AWS DynamoDB clear query
-aws-dynamo-fail-query string
AWS DynamoDB fail query
-aws-dynamo-include-next-token
AWS DynamoDB include next token as _nextToken in response
-aws-dynamo-limit int
AWS DynamoDB limit
-aws-dynamo-next-token string
AWS DynamoDB next token
-aws-dynamo-retrieve-field string
AWS DynamoDB retrieve field
-aws-dynamo-retrieve-query string
AWS DynamoDB retrieve query
-aws-dynamo-unmarshal-json
AWS DynamoDB unmarshal JSON (default true)
-aws-load-config
load AWS config from ~/.aws/config
-aws-region string
AWS region
-aws-role-arn string
AWS role ARN
-aws-s3-bucket string
AWS S3 bucket
-aws-s3-clear-bucket string
AWS S3 clear bucket, if clear op is mv
-aws-s3-clear-key string
AWS S3 clear key, if clear op is mv. default is origional key name.
-aws-s3-clear-key-template string
AWS S3 clear key template, if clear op is mv.
-aws-s3-clear-op string
AWS S3 clear operation. Valid values: mv, rm
-aws-s3-fail-bucket string
AWS S3 fail bucket, if fail op is mv
-aws-s3-fail-key string
AWS S3 fail key, if fail op is mv. default is original key name.
-aws-s3-fail-key-template string
AWS S3 fail key template, if fail op is mv.
-aws-s3-fail-op string
AWS S3 fail operation. Valid values: mv, rm
-aws-s3-key string
AWS S3 key
-aws-s3-key-prefix string
AWS S3 key prefix
-aws-s3-key-regex string
AWS S3 key regex
-aws-sqs-include-id
AWS SQS include ID in response
-aws-sqs-queue-url string
AWS SQS queue URL
-cassandra-clear-params string
Cassandra clear params
-cassandra-clear-query string
Cassandra clear query
-cassandra-consistency string
Cassandra consistency (default "QUORUM")
-cassandra-fail-params string
Cassandra fail params
-cassandra-fail-query string
Cassandra fail query
-cassandra-hosts string
Cassandra hosts
-cassandra-keyspace string
Cassandra keyspace
-cassandra-password string
Cassandra password
-cassandra-retrieve-field string
Cassandra retrieve field. If not set, all fields will be returned as a JSON object
-cassandra-retrieve-params string
Cassandra retrieve params
-cassandra-retrieve-query string
Cassandra retrieve query
-cassandra-user string
Cassandra user
-centauri-channel string
Centauri channel (default "default")
-centauri-key string
Centauri key
-centauri-key-base64 string
Centauri key base64
-centauri-peer-url string
Centauri peer URL
-cockroach-clear-params string
CockroachDB clear params
-cockroach-clear-query string
CockroachDB clear query
-cockroach-database string
CockroachDB database
-cockroach-fail-params string
CockroachDB fail params
-cockroach-fail-query string
CockroachDB fail query
-cockroach-host string
CockroachDB host
-cockroach-password string
CockroachDB password
-cockroach-port string
CockroachDB port (default "26257")
-cockroach-query-key
CockroachDB query returns key as first column and value as second column
-cockroach-retrieve-field string
CockroachDB retrieve field. If not set, all fields will be returned as a JSON object
-cockroach-retrieve-params string
CockroachDB retrieve params
-cockroach-retrieve-query string
CockroachDB retrieve query
-cockroach-routing-id string
CockroachDB routing id
-cockroach-ssl-mode string
CockroachDB SSL mode (default "disable")
-cockroach-tls-cert string
CockroachDB TLS cert
-cockroach-tls-key string
CockroachDB TLS key
-cockroach-tls-root-cert string
CockroachDB SSL root cert
-cockroach-user string
CockroachDB user
-couchbase-address string
Couchbase address
-couchbase-bucket string
Couchbase bucket name
-couchbase-clear-bucket string
Couchbase clear bucket, if op is set or merge. Default to the current bucket.
-couchbase-clear-collection string
Couchbase clear collection, default to the current collection. (default "_default")
-couchbase-clear-doc string
Couchbase clear doc, if op is set or merge
-couchbase-clear-id string
Couchbase clear id, default to the current id.
-couchbase-clear-op string
Couchbase clear op. one of: mv, rm, set, merge
-couchbase-clear-scope string
Couchbase clear scope, default to the current scope. (default "_default")
-couchbase-collection string
Couchbase collection (default "_default")
-couchbase-enable-tls
Enable TLS
-couchbase-fail-bucket string
Couchbase fail bucket, if op is set or merge. Default to the current bucket.
-couchbase-fail-collection string
Couchbase fail collection, default to the current collection. (default "_default")
-couchbase-fail-doc string
Couchbase fail doc, if op is set or merge
-couchbase-fail-id string
Couchbase fail id, default to the current id.
-couchbase-fail-op string
Couchbase fail op. one of: mv, rm, set, merge
-couchbase-fail-scope string
Couchbase fail scope, default to the current scope. (default "_default")
-couchbase-id string
Couchbase id
-couchbase-password string
Couchbase password
-couchbase-retrieve-params string
Couchbase retrieve params
-couchbase-retrieve-query string
Couchbase retrieve query
-couchbase-scope string
Couchbase scope (default "_default")
-couchbase-tls-ca-file string
Couchbase TLS CA file
-couchbase-tls-cert-file string
Couchbase TLS cert file
-couchbase-tls-insecure
Enable TLS insecure
-couchbase-tls-key-file string
Couchbase TLS key file
-couchbase-user string
Couchbase user
-daemon
run as daemon
-daemon-interval int
daemon interval in milliseconds
-driver string
driver to use. (activemq, aws-dynamo, aws-s3, aws-sqs, cassandra, centauri, cockroach, couchbase, elasticsearch, etcd, fs, gcp-bq, gcp-firestore, gcp-gcs, gcp-pubsub, github, http, kafka, local, mongodb, mssql, mysql, nats, nfs, nsq, postgres, pulsar, rabbitmq, redis-list, redis-pubsub, redis-stream, scylla, smb)
-elasticsearch-address string
Elasticsearch address
-elasticsearch-clear-doc string
Elasticsearch clear doc
-elasticsearch-clear-index string
Elasticsearch clear index
-elasticsearch-clear-op string
Elasticsearch clear op. Valid values are: delete, put, merge-put, move
-elasticsearch-enable-tls
Elasticsearch enable TLS
-elasticsearch-fail-doc string
Elasticsearch fail doc
-elasticsearch-fail-index string
Elasticsearch fail index
-elasticsearch-fail-op string
Elasticsearch fail op. Valid values are: delete, put, merge-put, move
-elasticsearch-password string
Elasticsearch password
-elasticsearch-retrieve-index string
Elasticsearch retrieve index
-elasticsearch-retrieve-query string
Elasticsearch retrieve query
-elasticsearch-tls-ca-file string
Elasticsearch TLS CA file
-elasticsearch-tls-cert-file string
Elasticsearch TLS cert file
-elasticsearch-tls-key-file string
Elasticsearch TLS key file
-elasticsearch-tls-skip-verify
Elasticsearch TLS skip verify
-elasticsearch-username string
Elasticsearch username
-etcd-clear-key string
Etcd clear key
-etcd-clear-op string
Etcd clear op. (mv, put, rm)
-etcd-clear-val string
Etcd clear val
-etcd-fail-key string
Etcd fail key
-etcd-fail-op string
Etcd fail op. (mv, put, rm)
-etcd-fail-val string
Etcd fail val
-etcd-hosts string
Etcd hosts
-etcd-password string
Etcd password
-etcd-retrieve-key string
Etcd retrieve key
-etcd-tls-ca string
Etcd TLS ca
-etcd-tls-cert string
Etcd TLS cert
-etcd-tls-enable
Etcd TLS enable
-etcd-tls-insecure
Etcd TLS insecure
-etcd-tls-key string
Etcd TLS key
-etcd-username string
Etcd username
-etcd-with-prefix
Etcd with prefix
-fs-clear-folder string
FS clear folder, if clear op is mv
-fs-clear-key string
FS clear key, if clear op is mv. default is origional key name.
-fs-clear-key-template string
FS clear key template, if clear op is mv.
-fs-clear-op string
FS clear operation. Valid values: mv, rm
-fs-fail-folder string
FS fail folder, if fail op is mv
-fs-fail-key string
FS fail key, if fail op is mv. default is original key name.
-fs-fail-key-template string
FS fail key template, if fail op is mv.
-fs-fail-op string
FS fail operation. Valid values: mv, rm
-fs-folder string
FS folder
-fs-key string
FS key
-fs-key-prefix string
FS key prefix
-fs-key-regex string
FS key regex
-gcp-bq-clear-query string
GCP BQ clear query
-gcp-bq-fail-query string
GCP BQ fail query
-gcp-bq-retrieve-field string
GCP BigQuery retrieve field
-gcp-bq-retrieve-query string
GCP BQ retrieve query
-gcp-firestore-clear-collection string
GCP Firestore clear collection
-gcp-firestore-clear-op string
GCP Firestore clear op. Possible values: 'mv', 'rm', 'update'
-gcp-firestore-clear-update string
GCP Firestore clear update object. Will be merged with document before update or move.
-gcp-firestore-fail-collection string
GCP Firestore fail collection
-gcp-firestore-fail-op string
GCP Firestore fail op. Possible values: 'mv', 'rm', 'update'
-gcp-firestore-fail-update string
GCP Firestore fail update object. Will be merged with document before update or move.
-gcp-firestore-retrieve-collection string
GCP Firestore retrieve collection
-gcp-firestore-retrieve-document string
GCP Firestore retrieve document
-gcp-firestore-retrieve-document-json-key string
GCP Firestore retrieve document JSON key
-gcp-firestore-retrieve-query-op string
GCP Firestore retrieve query op
-gcp-firestore-retrieve-query-order string
GCP Firestore retrieve query order. Valid values: asc, desc
-gcp-firestore-retrieve-query-order-by string
GCP Firestore retrieve query order by key
-gcp-firestore-retrieve-query-path string
GCP Firestore retrieve query path
-gcp-firestore-retrieve-query-value string
GCP Firestore retrieve query value
-gcp-gcs-bucket string
GCP GCS bucket
-gcp-gcs-clear-bucket string
GCP GCS clear bucket, if clear op is mv
-gcp-gcs-clear-key string
GCP GCS clear key, if clear op is mv. default is origional key name.
-gcp-gcs-clear-key-template string
GCP GCS clear key template, if clear op is mv.
-gcp-gcs-clear-op string
GCP GCS clear operation. Valid values: mv, rm
-gcp-gcs-fail-bucket string
GCP GCS fail bucket, if fail op is mv
-gcp-gcs-fail-key string
GCP GCS fail key, if fail op is mv. default is original key name.
-gcp-gcs-fail-key-template string
GCP GCS fail key template, if fail op is mv.
-gcp-gcs-fail-op string
GCP GCS fail operation. Valid values: mv, rm
-gcp-gcs-key string
GCP GCS key
-gcp-gcs-key-prefix string
GCP GCS key prefix
-gcp-gcs-key-regex string
GCP GCS key regex
-gcp-project-id string
GCP project ID
-gcp-pubsub-subscription string
GCP Pub/Sub subscription name
-github-base-branch string
base branch for PR
-github-branch string
branch for PR.
-github-clear-location string
clear operation location, if op is mv
-github-clear-op string
clear operation. One of: [mv, rm]
-github-commit-email string
commit email
-github-commit-message string
commit message
-github-commit-name string
commit name
-github-fail-location string
fail operation location, if op is mv
-github-fail-op string
fail operation. One of: [mv, rm]
-github-file string
GitHub file
-github-file-prefix string
GitHub file prefix
-github-file-regex string
GitHub file regex
-github-open-pr
open PR on changes. Default: false
-github-owner string
GitHub owner
-github-pr-body string
PR body
-github-pr-title string
PR title
-github-ref string
GitHub ref
-github-repo string
GitHub repo
-github-token string
GitHub token
-hostenv
use host environment
-http-clear-body string
HTTP clear body
-http-clear-body-file string
HTTP clear body file
-http-clear-content-type string
HTTP clear content type
-http-clear-headers string
HTTP clear headers
-http-clear-method string
HTTP clear method (default "GET")
-http-clear-successful-status-codes string
HTTP clear successful status codes
-http-clear-url string
HTTP clear url
-http-enable-tls
HTTP enable tls
-http-fail-body string
HTTP fail body
-http-fail-body-file string
HTTP fail body file
-http-fail-content-type string
HTTP fail content type
-http-fail-headers string
HTTP fail headers
-http-fail-method string
HTTP fail method (default "GET")
-http-fail-successful-status-codes string
HTTP fail successful status codes
-http-fail-url string
HTTP fail url
-http-retrieve-body string
HTTP retrieve body
-http-retrieve-body-file string
HTTP retrieve body file
-http-retrieve-content-type string
HTTP retrieve content type
-http-retrieve-headers string
HTTP retrieve headers
-http-retrieve-key-json-selector string
HTTP retrieve key json selector
-http-retrieve-method string
HTTP retrieve method (default "GET")
-http-retrieve-successful-status-codes string
HTTP retrieve successful status codes
-http-retrieve-url string
HTTP retrieve url
-http-retrieve-work-json-selector string
HTTP retrieve work json selector
-http-tls-ca-file string
HTTP tls ca file
-http-tls-cert-file string
HTTP tls cert file
-http-tls-insecure
HTTP tls insecure
-http-tls-key-file string
HTTP tls key file
-kafka-brokers string
Kafka brokers, comma separated
-kafka-enable-sasl
Enable SASL
-kafka-enable-tls
Enable TLS
-kafka-group string
Kafka group
-kafka-sasl-password string
Kafka SASL password
-kafka-sasl-type string
Kafka SASL type. Can be either 'scram' or 'plain'
-kafka-sasl-username string
Kafka SASL user
-kafka-tls-ca-file string
Kafka TLS CA file
-kafka-tls-cert-file string
Kafka TLS cert file
-kafka-tls-insecure
Enable TLS insecure
-kafka-tls-key-file string
Kafka TLS key file
-kafka-topic string
Kafka topic
-keep-payload-file
keep payload file after processing
-mongo-auth-source string
MongoDB auth source
-mongo-clear-query string
MongoDB clear query
-mongo-collection string
MongoDB collection
-mongo-database string
MongoDB database
-mongo-enable-tls
Enable TLS
-mongo-fail-query string
MongoDB fail query
-mongo-host string
MongoDB host
-mongo-limit int
MongoDB limit
-mongo-password string
MongoDB password
-mongo-port string
MongoDB port (default "27017")
-mongo-retrieve-query string
MongoDB retrieve query
-mongo-tls-ca-file string
Mongo TLS CA file
-mongo-tls-cert-file string
Mongo TLS cert file
-mongo-tls-insecure
Enable TLS insecure
-mongo-tls-key-file string
Mongo TLS key file
-mongo-user string
MongoDB user
-mssql-clear-params string
MSSQL clear params
-mssql-clear-query string
MSSQL clear query
-mssql-database string
MSSQL database
-mssql-fail-params string
MSSQL fail params
-mssql-fail-query string
MSSQL fail query
-mssql-host string
MSSQL host
-mssql-password string
MSSQL password
-mssql-port string
MSSQL port (default "1433")
-mssql-retrieve-field string
MSSQL retrieve field. If not set, all fields will be returned as a JSON object
-mssql-retrieve-params string
MSSQL retrieve params
-mssql-retrieve-query string
MSSQL retrieve query
-mssql-user string
MSSQL user
-mysql-clear-params string
MySQL clear params
-mysql-clear-query string
MySQL clear query
-mysql-database string
MySQL database
-mysql-fail-params string
MySQL fail params
-mysql-fail-query string
MySQL fail query
-mysql-host string
MySQL host
-mysql-password string
MySQL password
-mysql-port string
MySQL port (default "3306")
-mysql-retrieve-field string
MySQL retrieve field. If not set, all fields will be returned as a JSON object
-mysql-retrieve-params string
MySQL retrieve params
-mysql-retrieve-query string
MySQL retrieve query
-mysql-user string
MySQL user
-nats-clear-response string
NATS clear response
-nats-creds-file string
NATS creds file
-nats-enable-tls
NATS enable TLS
-nats-fail-response string
NATS fail response
-nats-jwt-file string
NATS JWT file
-nats-nkey-file string
NATS NKey file
-nats-password string
NATS password
-nats-queue-group string
NATS queue group
-nats-subject string
NATS subject
-nats-tls-ca-file string
NATS TLS CA file
-nats-tls-cert-file string
NATS TLS cert file
-nats-tls-insecure
NATS TLS insecure
-nats-tls-key-file string
NATS TLS key file
-nats-token string
NATS token
-nats-url string
NATS URL
-nats-username string
NATS username
-nfs-clear-folder string
NFS clear folder, if clear op is mv
-nfs-clear-key string
NFS clear key, if clear op is mv. default is origional key name.
-nfs-clear-key-template string
NFS clear key template, if clear op is mv.
-nfs-clear-op string
NFS clear operation. Valid values: mv, rm
-nfs-fail-folder string
NFS fail folder, if fail op is mv
-nfs-fail-key string
NFS fail key, if fail op is mv. default is original key name.
-nfs-fail-key-template string
NFS fail key template, if fail op is mv.
-nfs-fail-op string
NFS fail operation. Valid values: mv, rm
-nfs-folder string
NFS folder
-nfs-host string
NFS host
-nfs-key string
NFS key
-nfs-key-prefix string
NFS key prefix
-nfs-key-regex string
NFS key regex
-nfs-target string
NFS target
-nsq-channel string
NSQ channel
-nsq-enable-tls
Enable TLS
-nsq-nsqd-address string
NSQ nsqd address
-nsq-nsqlookupd-address string
NSQ nsqlookupd address
-nsq-tls-ca-file string
NSQ TLS CA file
-nsq-tls-cert-file string
NSQ TLS cert file
-nsq-tls-key-file string
NSQ TLS key file
-nsq-tls-skip-verify
NSQ TLS skip verify
-nsq-topic string
NSQ topic
-pass-work-as-arg
pass work as an argument
-pass-work-as-stdin
pass work as stdin
-payload-file string
file to write payload to
-psql-clear-params string
PostgreSQL clear params
-psql-clear-query string
PostgreSQL clear query
-psql-database string
PostgreSQL database
-psql-fail-params string
PostgreSQL fail params
-psql-fail-query string
PostgreSQL fail query
-psql-host string
PostgreSQL host
-psql-password string
PostgreSQL password
-psql-port string
PostgreSQL port (default "5432")
-psql-query-key
PostgreSQL query returns key as first column and value as second column
-psql-retrieve-field string
PostgreSQL retrieve field. If not set, all fields will be returned as a JSON object
-psql-retrieve-params string
PostgreSQL retrieve params
-psql-retrieve-query string
PostgreSQL retrieve query
-psql-ssl-mode string
PostgreSQL SSL mode (default "disable")
-psql-tls-cert string
PostgreSQL TLS cert
-psql-tls-key string
PostgreSQL TLS key
-psql-tls-root-cert string
PostgreSQL SSL root cert
-psql-user string
PostgreSQL user
-pulsar-address string
Pulsar address
-pulsar-auth-cert-file string
Pulsar auth cert file
-pulsar-auth-key-file string
Pulsar auth key file
-pulsar-auth-oauth-params string
Pulsar auth oauth params
-pulsar-auth-token string
Pulsar auth token
-pulsar-auth-token-file string
Pulsar auth token file
-pulsar-subscription string
Pulsar subscription name
-pulsar-tls-allow-insecure-connection
Pulsar TLS allow insecure connection
-pulsar-tls-trust-certs-file string
Pulsar TLS trust certs file path
-pulsar-tls-validate-hostname
Pulsar TLS validate hostname
-pulsar-topic string
Pulsar topic
-pulsar-topics string
Pulsar topics, comma separated
-pulsar-topics-pattern string
Pulsar topics pattern
-rabbitmq-queue string
RabbitMQ queue
-rabbitmq-url string
RabbitMQ URL
-redis-enable-tls
Enable TLS
-redis-host string
Redis host
-redis-key string
Redis key
-redis-password string
Redis password
-redis-port string
Redis port (default "6379")
-redis-steam-consumer-name string
Redis consumer name. Default is a random UUID
-redis-stream-clear-op string
Redis clear operation. Valid values are 'ack' and 'del'.
-redis-stream-consumer-group string
Redis consumer group
-redis-stream-fail-op string
Redis fail operation. Valid values are 'ack' and 'del'.
-redis-stream-value-keys string
Redis stream value keys to select. Comma separated, default all.
-redis-tls-ca-file string
Redis TLS CA file
-redis-tls-cert-file string
Redis TLS cert file
-redis-tls-key-file string
Redis TLS key file
-redis-tls-skip-verify
Redis TLS skip verify
-scylla-clear-params string
Scylla clear params
-scylla-clear-query string
Scylla clear query
-scylla-consistency string
Scylla consistency (default "QUORUM")
-scylla-fail-params string
Scylla fail params
-scylla-fail-query string
Scylla fail query
-scylla-hosts string
Scylla hosts
-scylla-keyspace string
Scylla keyspace
-scylla-local-dc string
Scylla local dc
-scylla-password string
Scylla password
-scylla-retrieve-field string
Scylla retrieve field. If not set, all fields will be returned as a JSON object
-scylla-retrieve-params string
Scylla retrieve params
-scylla-retrieve-query string
Scylla retrieve query
-scylla-user string
Scylla user
-smb-clear-key string
SMB clear key, if clear op is mv. default is origional key name.
-smb-clear-key-template string
SMB clear key template, if clear op is mv.
-smb-clear-op string
SMB clear operation. Valid values: mv, rm
-smb-fail-key string
SMB fail key, if fail op is mv. default is original key name.
-smb-fail-key-template string
SMB fail key template, if fail op is mv.
-smb-fail-op string
SMB fail operation. Valid values: mv, rm
-smb-host string
SMB host
-smb-key string
SMB key
-smb-key-glob string
SMB key glob
-smb-pass string
SMB pass
-smb-port int
SMB port (default 445)
-smb-share string
SMB share
-smb-user string
SMB user
Environment Variables
AWS_REGIONAWS_SDK_LOAD_CONFIGLOG_LEVELNSQ_LOG_LEVELPROCX_PAYLOADPROCX_ACTIVEMQ_ADDRESSPROCX_ACTIVEMQ_ENABLE_TLSPROCX_ACTIVEMQ_NAMEPROCX_ACTIVEMQ_TLS_CA_FILEPROCX_ACTIVEMQ_TLS_CERT_FILEPROCX_ACTIVEMQ_TLS_INSECUREPROCX_ACTIVEMQ_TLS_KEY_FILEPROCX_ACTIVEMQ_TYPEPROCX_AWS_DYNAMO_CLEAR_QUERYPROCX_AWS_DYNAMO_FAIL_QUERYPROCX_AWS_DYNAMO_INCLUDE_NEXT_TOKENPROCX_AWS_DYNAMO_LIMITPROCX_AWS_DYNAMO_NEXT_TOKENPROCX_AWS_DYNAMO_RETRIEVE_FIELDPROCX_AWS_DYNAMO_RETRIEVE_QUERYPROCX_AWS_DYNAMO_UNMARSHAL_JSONPROCX_AWS_LOAD_CONFIGPROCX_AWS_REGIONPROCX_AWS_ROLE_ARNPROCX_AWS_S3_BUCKETPROCX_AWS_S3_CLEAR_BUCKETPROCX_AWS_S3_CLEAR_KEYPROCX_AWS_S3_CLEAR_KEY_TEMPLATEPROCX_AWS_S3_CLEAR_OPPROCX_AWS_S3_FAIL_BUCKETPROCX_AWS_S3_FAIL_KEYPROCX_AWS_S3_FAIL_KEY_TEMPLATEPROCX_AWS_S3_FAIL_OPPROCX_AWS_S3_KEYPROCX_AWS_S3_KEY_PREFIXPROCX_AWS_S3_KEY_REGEXPROCX_AWS_SQS_INCLUDE_IDPROCX_AWS_SQS_QUEUE_URLPROCX_AWS_SQS_ROLE_ARNPROCX_CASSANDRA_CLEAR_PARAMSPROCX_CASSANDRA_CLEAR_QUERYPROCX_CASSANDRA_CONSISTENCYPROCX_CASSANDRA_FAIL_PARAMSPROCX_CASSANDRA_FAIL_QUERYPROCX_CASSANDRA_HOSTSPROCX_CASSANDRA_KEYSPACEPROCX_CASSANDRA_PASSWORDPROCX_CASSANDRA_RETRIEVE_FIELDPROCX_CASSANDRA_RETRIEVE_PARAMSPROCX_CASSANDRA_RETRIEVE_QUERYPROCX_CASSANDRA_USERPROCX_CENTAURI_CHANNELPROCX_CENTAURI_KEYPROCX_CENTAURI_KEY_BASE64PROCX_CENTAURI_PEER_URLPROCX_COCKROACH_CLEAR_PARAMSPROCX_COCKROACH_CLEAR_QUERYPROCX_COCKROACH_DATABASEPROCX_COCKROACH_FAIL_PARAMSPROCX_COCKROACH_FAIL_QUERYPROCX_COCKROACH_HOSTPROCX_COCKROACH_PASSWORDPROCX_COCKROACH_PORTPROCX_COCKROACH_RETRIEVE_FIELDPROCX_COCKROACH_RETRIEVE_PARAMSPROCX_COCKROACH_RETRIEVE_QUERYPROCX_COCKROACH_ROUTING_IDPROCX_COCKROACH_SSL_MODEPROCX_COCKROACH_TLS_CERTPROCX_COCKROACH_TLS_KEYPROCX_COCKROACH_TLS_ROOT_CERTPROCX_COCKROACH_USERPROCX_COUCHBASE_BUCKET_NAMEPROCX_COUCHBASE_CLEAR_BUCKETPROCX_COUCHBASE_CLEAR_COLLECTIONPROCX_COUCHBASE_CLEAR_DOCPROCX_COUCHBASE_CLEAR_IDPROCX_COUCHBASE_CLEAR_OPPROCX_COUCHBASE_CLEAR_SCOPEPROCX_COUCHBASE_COLLECTIONPROCX_COUCHBASE_ENABLE_TLSPROCX_COUCHBASE_FAIL_BUCKETPROCX_COUCHBASE_FAIL_COLLECTIONPROCX_COUCHBASE_FAIL_DOCPROCX_COUCHBASE_FAIL_IDPROCX_COUCHBASE_FAIL_OPPROCX_COUCHBASE_FAIL_SCOPEPROCX_COUCHBASE_IDPROCX_COUCHBASE_PASSWORDPROCX_COUCHBASE_RETRIEVE_PARAMSPROCX_COUCHBASE_RETRIEVE_QUERYPROCX_COUCHBASE_SCOPEPROCX_COUCHBASE_TLS_CA_FILEPROCX_COUCHBASE_TLS_CERT_FILEPROCX_COUCHBASE_TLS_INSECUREPROCX_COUCHBASE_TLS_KEY_FILEPROCX_COUCHBASE_USERPROCX_DAEMONPROCX_DAEMON_INTERVALPROCX_DRIVERPROCX_ELASTICSEARCH_ADDRESSPROCX_ELASTICSEARCH_CLEAR_DOCPROCX_ELASTICSEARCH_CLEAR_INDEXPROCX_ELASTICSEARCH_CLEAR_OPPROCX_ELASTICSEARCH_ENABLE_TLSPROCX_ELASTICSEARCH_FAIL_DOCPROCX_ELASTICSEARCH_FAIL_INDEXPROCX_ELASTICSEARCH_FAIL_OPPROCX_ELASTICSEARCH_PASSWORDPROCX_ELASTICSEARCH_RETRIEVE_INDEXPROCX_ELASTICSEARCH_RETRIEVE_QUERYPROCX_ELASTICSEARCH_TLS_CA_FILEPROCX_ELASTICSEARCH_TLS_CERT_FILEPROCX_ELASTICSEARCH_TLS_KEY_FILEPROCX_ELASTICSEARCH_TLS_SKIP_VERIFYPROCX_ELASTICSEARCH_USERNAMEPROCX_ETCD_CLEAR_KEYPROCX_ETCD_CLEAR_OPPROCX_ETCD_CLEAR_VALPROCX_ETCD_FAIL_KEYPROCX_ETCD_FAIL_OPPROCX_ETCD_FAIL_VALPROCX_ETCD_HOSTSPROCX_ETCD_PASSWORDPROCX_ETCD_RETRIEVE_KEYPROCX_ETCD_TLS_CAPROCX_ETCD_TLS_CERTPROCX_ETCD_TLS_ENABLEPROCX_ETCD_TLS_INSECUREPROCX_ETCD_TLS_KEYPROCX_ETCD_USERNAMEPROCX_ETCD_WITH_PREFIXPROCX_FS_CLEAR_FOLDERPROCX_FS_CLEAR_KEYPROCX_FS_CLEAR_KEY_TEMPLATEPROCX_FS_CLEAR_OPPROCX_FS_FAIL_FOLDERPROCX_FS_FAIL_KEYPROCX_FS_FAIL_KEY_TEMPLATEPROCX_FS_FAIL_OPPROCX_FS_FOLDERPROCX_FS_KEYPROCX_FS_KEY_PREFIXPROCX_FS_KEY_REGEXPROCX_GCP_BQ_CLEAR_QUERYPROCX_GCP_BQ_FAIL_QUERYPROCX_GCP_BQ_RETRIEVE_FIELDPROCX_GCP_BQ_RETRIEVE_QUERYPROCX_GCP_FIRESTORE_CLEAR_COLLECTIONPROCX_GCP_FIRESTORE_CLEAR_OPPROCX_GCP_FIRESTORE_CLEAR_UPDATEPROCX_GCP_FIRESTORE_FAIL_COLLECTIONPROCX_GCP_FIRESTORE_FAIL_OPPROCX_GCP_FIRESTORE_FAIL_UPDATEPROCX_GCP_FIRESTORE_RETRIEVE_COLLECTIONPROCX_GCP_FIRESTORE_RETRIEVE_DOCUMENTPROCX_GCP_FIRESTORE_RETRIEVE_DOCUMENT_JSON_KEYPROCX_GCP_FIRESTORE_RETRIEVE_LIMITPROCX_GCP_FIRESTORE_RETRIEVE_QUERY_OPPROCX_GCP_FIRESTORE_RETRIEVE_QUERY_ORDERPROCX_GCP_FIRESTORE_RETRIEVE_QUERY_ORDER_BYPROCX_GCP_FIRESTORE_RETRIEVE_QUERY_PATHPROCX_GCP_FIRESTORE_RETRIEVE_QUERY_VALUEPROCX_GCP_GCS_BUCKETPROCX_GCP_GCS_CLEAR_BUCKETPROCX_GCP_GCS_CLEAR_KEYPROCX_GCP_GCS_CLEAR_KEY_TEMPLATEPROCX_GCP_GCS_CLEAR_OPPROCX_GCP_GCS_FAIL_BUCKETPROCX_GCP_GCS_FAIL_KEYPROCX_GCP_GCS_FAIL_KEY_TEMPLATEPROCX_GCP_GCS_FAIL_OPPROCX_GCP_GCS_KEYPROCX_GCP_GCS_KEY_PREFIXPROCX_GCP_GCS_KEY_REGEXPROCX_GCP_PROJECT_IDPROCX_GCP_SUBSCRIPTIONPROCX_GITHUB_BASE_BRANCHPROCX_GITHUB_BRANCHPROCX_GITHUB_CLEAR_OPPROCX_GITHUB_CLEAR_OP_LOCATIONPROCX_GITHUB_COMMIT_EMAILPROCX_GITHUB_COMMIT_MESSAGEPROCX_GITHUB_COMMIT_NAMEPROCX_GITHUB_FAIL_OPPROCX_GITHUB_FAIL_OP_LOCATIONPROCX_GITHUB_FILEPROCX_GITHUB_FILE_PREFIXPROCX_GITHUB_FILE_REGEXPROCX_GITHUB_OPEN_PRPROCX_GITHUB_OWNERPROCX_GITHUB_PR_BODYPROCX_GITHUB_PR_TITLEPROCX_GITHUB_REFPROCX_GITHUB_REPOPROCX_GITHUB_TOKENPROCX_HOSTENVPROCX_HTTP_CLEAR_BODYPROCX_HTTP_CLEAR_BODY_FILEPROCX_HTTP_CLEAR_CONTENT_TYPEPROCX_HTTP_CLEAR_HEADERSPROCX_HTTP_CLEAR_METHODPROCX_HTTP_CLEAR_SUCCESSFUL_STATUS_CODESPROCX_HTTP_CLEAR_URLPROCX_HTTP_ENABLE_TLSPROCX_HTTP_FAIL_BODYPROCX_HTTP_FAIL_BODY_FILEPROCX_HTTP_FAIL_CONTENT_TYPEPROCX_HTTP_FAIL_HEADERSPROCX_HTTP_FAIL_METHODPROCX_HTTP_FAIL_SUCCESSFUL_STATUS_CODESPROCX_HTTP_FAIL_URLPROCX_HTTP_RETRIEVE_BODYPROCX_HTTP_RETRIEVE_BODY_FILEPROCX_HTTP_RETRIEVE_CONTENT_TYPEPROCX_HTTP_RETRIEVE_HEADERSPROCX_HTTP_RETRIEVE_KEY_JSON_SELECTORPROCX_HTTP_RETRIEVE_METHODPROCX_HTTP_RETRIEVE_SUCCESSFUL_STATUS_CODESPROCX_HTTP_RETRIEVE_URLPROCX_HTTP_RETRIEVE_WORK_JSON_SELECTORPROCX_HTTP_TLS_CA_FILEPROCX_HTTP_TLS_CERT_FILEPROCX_HTTP_TLS_KEY_FILEPROCX_KAFKA_BROKERSPROCX_KAFKA_ENABLE_SASLPROCX_KAFKA_ENABLE_TLSPROCX_KAFKA_GROUPPROCX_KAFKA_SASL_PASSWORDPROCX_KAFKA_SASL_TYPEPROCX_KAFKA_SASL_USERNAMEPROCX_KAFKA_TLS_CA_FILEPROCX_KAFKA_TLS_CERT_FILEPROCX_KAFKA_TLS_INSECUREPROCX_KAFKA_TLS_KEY_FILEPROCX_KAFKA_TOPICPROCX_KEEP_PAYLOAD_FILEPROCX_MONGO_AUTH_SOURCEPROCX_MONGO_CLEAR_QUERYPROCX_MONGO_COLLECTIONPROCX_MONGO_DATABASEPROCX_MONGO_ENABLE_TLSPROCX_MONGO_FAIL_QUERYPROCX_MONGO_HOSTPROCX_MONGO_LIMITPROCX_MONGO_PASSWORDPROCX_MONGO_PORTPROCX_MONGO_RETRIEVE_QUERYPROCX_MONGO_TLS_CA_FILEPROCX_MONGO_TLS_CERT_FILEPROCX_MONGO_TLS_INSECUREPROCX_MONGO_TLS_KEY_FILEPROCX_MONGO_USERPROCX_MSSQL_CLEAR_PARAMSPROCX_MSSQL_CLEAR_QUERYPROCX_MSSQL_DATABASEPROCX_MSSQL_FAIL_PARAMSPROCX_MSSQL_FAIL_QUERYPROCX_MSSQL_HOSTPROCX_MSSQL_PASSWORDPROCX_MSSQL_PORTPROCX_MSSQL_RETRIEVE_FIELDPROCX_MSSQL_RETRIEVE_PARAMSPROCX_MSSQL_RETRIEVE_QUERYPROCX_MSSQL_USERPROCX_MYSQL_CLEAR_PARAMSPROCX_MYSQL_CLEAR_QUERYPROCX_MYSQL_DATABASEPROCX_MYSQL_FAIL_PARAMSPROCX_MYSQL_FAIL_QUERYPROCX_MYSQL_HOSTPROCX_MYSQL_PASSWORDPROCX_MYSQL_PORTPROCX_MYSQL_RETRIEVE_FIELDPROCX_MYSQL_RETRIEVE_PARAMSPROCX_MYSQL_RETRIEVE_QUERYPROCX_MYSQL_USERPROCX_NATS_CLEAR_RESPONSEPROCX_NATS_CREDS_FILEPROCX_NATS_ENABLE_TLSPROCX_NATS_FAIL_RESPONSEPROCX_NATS_JWT_FILEPROCX_NATS_NKEY_FILEPROCX_NATS_PASSWORDPROCX_NATS_QUEUE_GROUPPROCX_NATS_SUBJECTPROCX_NATS_TLS_CA_FILEPROCX_NATS_TLS_CERT_FILEPROCX_NATS_TLS_INSECUREPROCX_NATS_TLS_KEY_FILEPROCX_NATS_TOKENPROCX_NATS_URLPROCX_NATS_USERNAMEPROCX_NFS_CLEAR_FOLDERPROCX_NFS_CLEAR_KEYPROCX_NFS_CLEAR_KEY_TEMPLATEPROCX_NFS_CLEAR_OPPROCX_NFS_FAIL_FOLDERPROCX_NFS_FAIL_KEYPROCX_NFS_FAIL_KEY_TEMPLATEPROCX_NFS_FAIL_OPPROCX_NFS_FOLDERPROCX_NFS_HOSTPROCX_NFS_KEYPROCX_NFS_KEY_PREFIXPROCX_NFS_KEY_REGEXPROCX_NFS_TARGETPROCX_NSQ_CHANNELPROCX_NSQ_ENABLE_TLSPROCX_NSQ_NSQD_ADDRESSPROCX_NSQ_NSQLOOKUPD_ADDRESSPROCX_NSQ_TLS_CA_FILEPROCX_NSQ_TLS_CERT_FILEPROCX_NSQ_TLS_INSECUREPROCX_NSQ_TLS_KEY_FILEPROCX_NSQ_TOPICPROCX_PASS_WORK_AS_ARGPROCX_PASS_WORK_AS_STDINPROCX_PAYLOAD_FILEPROCX_PSQL_CLEAR_PARAMSPROCX_PSQL_CLEAR_QUERYPROCX_PSQL_DATABASEPROCX_PSQL_FAIL_PARAMSPROCX_PSQL_FAIL_QUERYPROCX_PSQL_HOSTPROCX_PSQL_PASSWORDPROCX_PSQL_PORTPROCX_PSQL_RETRIEVE_FIELDPROCX_PSQL_RETRIEVE_PARAMSPROCX_PSQL_RETRIEVE_QUERYPROCX_PSQL_SSL_MODEPROCX_PSQL_TLS_CERTPROCX_PSQL_TLS_KEYPROCX_PSQL_TLS_ROOT_CERTPROCX_PSQL_USERPROCX_PULSAR_ADDRESSPROCX_PULSAR_AUTH_CERT_FILEPROCX_PULSAR_AUTH_KEY_FILEPROCX_PULSAR_AUTH_OAUTH_PARAMSPROCX_PULSAR_AUTH_TOKENPROCX_PULSAR_AUTH_TOKEN_FILEPROCX_PULSAR_SUBSCRIPTIONPROCX_PULSAR_TLS_ALLOW_INSECURE_CONNECTIONPROCX_PULSAR_TLS_TRUST_CERTS_FILEPROCX_PULSAR_TLS_VALIDATE_HOSTNAMEPROCX_PULSAR_TOPICPROCX_PULSAR_TOPICSPROCX_PULSAR_TOPICS_PATTERNPROCX_RABBITMQ_QUEUEPROCX_RABBITMQ_URLPROCX_REDIS_ENABLE_TLSPROCX_REDIS_HOSTPROCX_REDIS_KEYPROCX_REDIS_PASSWORDPROCX_REDIS_PORTPROCX_REDIS_STREAM_CLEAR_OPPROCX_REDIS_STREAM_CONSUMER_GROUPPROCX_REDIS_STREAM_CONSUMER_NAMEPROCX_REDIS_STREAM_FAIL_OPPROCX_REDIS_STREAM_VALUE_KEYSPROCX_REDIS_TLS_CA_FILEPROCX_REDIS_TLS_CERT_FILEPROCX_REDIS_TLS_INSECUREPROCX_REDIS_TLS_KEY_FILEPROCX_SCYLLA_CLEAR_PARAMSPROCX_SCYLLA_CLEAR_QUERYPROCX_SCYLLA_CONSISTENCYPROCX_SCYLLA_FAIL_PARAMSPROCX_SCYLLA_FAIL_QUERYPROCX_SCYLLA_HOSTSPROCX_SCYLLA_KEYSPACEPROCX_SCYLLA_LOCAL_DCPROCX_SCYLLA_PASSWORDPROCX_SCYLLA_RETRIEVE_FIELDPROCX_SCYLLA_RETRIEVE_PARAMSPROCX_SCYLLA_RETRIEVE_QUERYPROCX_SCYLLA_USERPROCX_SMB_CLEAR_KEYPROCX_SMB_CLEAR_KEY_TEMPLATEPROCX_SMB_CLEAR_OPPROCX_SMB_FAIL_KEYPROCX_SMB_FAIL_KEY_TEMPLATEPROCX_SMB_FAIL_OPPROCX_SMB_HOSTPROCX_SMB_KEYPROCX_SMB_KEY_GLOBPROCX_SMB_PASSPROCX_SMB_PORTPROCX_SMB_SHAREPROCX_SMB_USER
Driver Examples
ActiveMQ
The ActiveMQ driver will connect to the specified STOMP address and retrieve the next message from the specified queue or topic. If the message is successfully retrieved, the message will be deleted from the queue, otherwise it will be nacked. TLS is optional and shown below, if not used the flags are not required.
procx \
-driver activemq \
-activemq-address localhost:61613 \
-activemq-type queue \
-activemq-name my-queue \
-activemq-enable-tls \
-activemq-tls-ca-file /path/to/ca.pem \
-activemq-tls-cert-file /path/to/cert.pem \
-activemq-tls-key-file /path/to/key.pem \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
AWS DynamoDB
The AWS DynamoDB driver will execute the provided PartiQL query and return the matched results. An optional JSON path can be passed in the -aws-dynamo-retrieve-field flag, if this is provided it will be used to extract the value from the returned data before passing to the process, otherwise the full array of Dynamo JSON documents is passed. Similar to other SQL-based drivers, you can use gjson syntax to extract values from the data which can be used in subsequent clear and fail handling queries. The -aws-dynamo-next-token can be provided to continue querying from a previous result, and -aws-dynamo-include-next-token can be set to pass the _nextToken in the response payload. By default, the Dynamo JSON objects are unmarshalled, however this can be disabled with -aws-dynamo-unmarshal-json=false.
procx \
-driver aws-dynamo \
-aws-dynamo-retrieve-query "SELECT id,job,status FROM my-table WHERE status = 'pending'" \
-aws-dynamo-limit 1 \
-aws-dynamo-clear-query "UPDATE my-table SET status='complete' WHERE id = '{{0.id}}'" \
-aws-dynamo-fail-query "UPDATE my-table SET status='failed' WHERE id = '{{0.id}}'" \
-aws-region us-east-1 \
-aws-role-arn arn:aws:iam::123456789012:role/my-role \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
AWS S3
The S3 driver will retrieve the first object which matches the specified input within the bucket. If -aws-s3-key is provided, this exact key will be retrieved. If -aws-s3-key-prefix is provided, this will be used as a prefix to select the first matching object. Finally, if -aws-s3-key-regex is provided, this will be used as a regular expression to select the first matching object.
Upon completion of the work, the object can either be deleted from the bucket, or moved to a different bucket, with -aws-s3-clear-op=[mv|rm] and -aws-s3-clear-bucket flags. Similarly for failed executions, the object can either be deleted from the bucket, or moved to a different bucket, with -aws-s3-fail-op=[mv|rm] and -aws-s3-fail-bucket flags.
By default, if the object is moved the key will be the same as the source key, this can be overridden with the -aws-s3-clear-key and -aws-s3-fail-key flags. You can also provide a -aws-s3-clear-key-template and/or -aws-s3-fail-key-template flag to use a templated key - this is useful if you have used the prefix or regex selector and want to retain the object key but rename the file.
procx \
-driver aws-s3 \
-payload-file my-payload.json \
-aws-s3-bucket my-bucket \
-aws-s3-key-regex 'jobs-.*?[a-z]' \
-aws-s3-clear-op=mv \
-aws-s3-clear-bucket my-bucket-completed \
-aws-s3-clear-key-template 'success/{{key}}' \
-aws-s3-fail-op=mv \
-aws-s3-fail-bucket my-bucket-completed \
-aws-s3-fail-key-template 'fail/{{key}}' \
bash -c 'echo the payload is: $(cat my-payload.json)'
AWS SQS
The SQS driver will retrieve the next message from the specified queue, and pass it to the process. Upon successful completion of the process, it will delete the message from the queue.
For cross-account access, you must provide the ARN of the role that has access to the queue, and the identity running procx must be able to assume the target identity.
If running on a developer workstation, you will most likely want to pass your ~/.aws/config identity. To do so, pass the -aws-load-config flag.
procx \
-aws-sqs-queue-url https://sqs.us-east-1.amazonaws.com/123456789012/my-queue \
-aws-role-arn arn:aws:iam::123456789012:role/my-role \
-aws-region us-east-1 \
-driver aws-sqs \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Cassandra
The Cassandra driver will retrieve the specified rows from the specified keyspace table, and pass it to the process. Upon successful completion of the process, it will execute the specified query to update / remove the work from the table.
procx \
-cassandra-keyspace mykeyspace \
-cassandra-consistency QUORUM \
-cassandra-clear-query "DELETE FROM mykeyspace.mytable WHERE id = ?" \
-cassandra-clear-params "{{0.id}}" \
-cassandra-hosts "localhost:9042,another:9042" \
-cassandra-fail-query "UPDATE mykeyspace.mytable SET status = 'failed' WHERE id = ?" \
-cassandra-fail-params "{{0.id}}" \
-cassandra-retrieve-field work \
-cassandra-retrieve-query "SELECT id, work FROM mykeyspace.mytable LIMIT 1" \
-driver cassandra \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Centauri
The centauri driver integrates with a Centauri network to retrieve the next message from the specified channel, and pass it to the process. Upon successful completion of the process, it will delete the message from the network. You can provide your private key either as -centauri-key, or as -centauri-key-base64.
procx \
-centauri-channel my-channel \
-centauri-key "$(</path/to/private.key)" \
-centauri-peer-url https://api.test-peer1.centauri.sh \
-driver centauri \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Cockroach
The CockroachDB driver will retrieve the data from the specified table, and pass it to the process.
procx \
-cockroach-host localhost \
-cockroach-port 26257 \
-cockroach-database mydb \
-cockroach-user myuser \
-cockroach-password mypassword \
-cockroach-retrieve-query "SELECT id, work from mytable where queue = $1 and status = $2 LIMIT 1" \
-cockroach-retrieve-params "myqueue,pending" \
-cockroach-clear-query "UPDATE mytable SET status = $1 where queue = $2 and id = $3" \
-cockroach-clear-params "cleared,myqueue,{{0.id}}" \
-cockroach-fail-query "UPDATE mytable SET failure_count = failure_count + 1 where queue = $1 and id = $2" \
-cockroach-fail-params "myqueue,{{0.id}}" \
-driver cockroach \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Couchbase
The Couchbase driver will retrieve the specified document from the bucket and pass it to the process. If -couchbase-id is specified, this document will be retrieved. Alternatively, you can use -couchbase-retrieve-query and -couchbase-retrieve-params to retrieve a document with a N1QL query. Upon completion of the work, the document can be moved (mv) to a different bucket/collection, deleted (rm) from the bucket, updated in place with a new document (set), or merged with a new document (merge). If moving the document, you can also provide a document which will be merged with the document before it is moved. You can use gjson selectors and mustache syntax to template the new document before it is merged.
procx \
-couchbase-bucket my-bucket \
-couchbase-collection my-collection \
-couchbase-retrieve-query "SELECT id, jobName, work, status from my-collection where status = $1 LIMIT 1" \
-couchbase-retrieve-params "pending" \
-couchbase-clear-op=mv \
-couchbase-clear-doc '{"status": "cleared"}' \
-couchbase-clear-bucket my-bucket-cleared \
-couchbase-clear-collection my-collection-cleared \
-couchbase-fail-op=merge \
-couchbase-fail-doc '{"status": "failed"}' \
-driver couchbase \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Elasticsearch
The Elasticsearch driver will retrieve the next message from the specified index, and pass it to the process. Upon successful completion of the process, it will execute the specified query to either update, move, or delete the document from the index.
procx \
-elasticsearch-address https://localhost:9200 \
-elasticsearch-username elastic \
-elasticsearch-password elastic \
-elasticsearch-tls-skip-verify \
-elasticsearch-retrieve-query '{
"size": 1,
"query": {
"term": {
"hello": "world"
}
}
}' \
-elasticsearch-retrieve-index my-index \
-elasticsearch-clear-op merge-put \
-elasticsearch-index my-index \
-elasticsearch-clear-doc '{"status": "completed"}' \
-elasticsearch-fail-op move \
-elasticsearch-fail-index my-index-failed \
-driver elasticsearch \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Etcd
The Etcd driver will retrieve the specified key from the etcd cluster, and pass it to the process. Upon successful completion of the process, it will either delete the key (rm), update the value (put), or move the document to a new key (mv).
procx \
-etcd-hosts localhost:2379,another:2379 \
-etcd-retrieve-key my-key \
-etcd-clear-op rm \
-etcd-fail-op put \
-etcd-fail-value '{"hello": "{{hello}}", "status": "failed"}' \
-driver etcd \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
FS
The fs driver will traverse the specified locally mounted directory, and retrieve the first file which matches the specified key. Similar to the AWS S3 and NFS drivers, the FS driver supports -fs-key, -fs-key-prefix, and -fs-key-regex selection flags.
Upon completion, the file can either be moved to a different folder, or it can be deleted, with the -fs-clear-op and -fs-fail-op flags (mv or rm). You can specify the target folder with the -fs-clear-folder and -fs-fail-folder flags, and the -fs-clear-key and -fs-fail-key flags let you rename the file on move. You can also use the -fs-clear-key-template and -fs-fail-key-template flags to specify a template for the key, which will be replaced with the key.
procx \
-fs-folder /path/to/folder \
-fs-key-prefix "my-prefix" \
-fs-clear-op mv \
-fs-clear-folder /path/to/cleared \
-fs-clear-key-template "cleared_{{key}}" \
-fs-fail-op mv \
-fs-fail-folder /path/to/failed \
-fs-fail-key-template "failed_{{key}}" \
-driver fs \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
GCP BQ
The gcp-bq driver will retrieve the next message from the specified BigQuery table, and pass it to the process. Upon successful completion of the process, it will execute the specified query to update / remove the work from the table. By default, the row data will be returned as a JSON object, unless -gcp-bq-retrieve-field is specified, in which case only the specifed field will be returned.
export GOOGLE_APPLICATION_CREDENTIALS="/path/to/credentials.json"
procx \
-gcp-project-id my-project \
-gcp-bq-dataset my-dataset \
-gcp-bq-table my-table \
-gcp-bq-retrieve-query "SELECT id, work FROM mydatatest.mytable LIMIT 1" \
-gcp-bq-clear-query "DELETE FROM my-table WHERE id = '{{0.id}}'" \
-gcp-bq-fail-query "UPDATE my-table SET status = 'failed' WHERE id = '{{0.id}}'" \
-driver gcp-bq \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
GCP GCS
The GCS driver will retrieve the first object which matches the specified input within the bucket. If -gcp-gcs-key is provided, this exact key will be retrieved. If -gcp-gcs-key-prefix is provided, this will be used as a prefix to select the first matching object. Finally, if -gcp-gcs-key-regex is provided, this will be used as a regular expression to select the first matching object.
Upon completion of the work, the object can either be deleted from the bucket, or moved to a different bucket, with -gcp-gcs-clear-op=[mv|rm] and -gcp-gcs-clear-bucket flags. Similarly for failed executions, the object can either be deleted from the bucket, or moved to a different bucket, with -gcp-gcs-fail-op=[mv|rm] and -gcp-gcs-fail-bucket flags.
By default, if the object is moved the key will be the same as the source key, this can be overridden with the -gcp-gcs-clear-key and -gcp-gcs-fail-key flags. You can also provide a -gcp-gcs-clear-key-template and/or -gcp-gcs-fail-key-template flag to use a templated key - this is useful if you have used the prefix or regex selector and want to retain the object key but rename the file.
export GOOGLE_APPLICATION_CREDENTIALS=/path/to/credentials.json
procx \
-driver gcp-gcs \
-gcp-project-id my-project \
-payload-file my-payload.json \
-gcp-gcs-bucket my-bucket \
-gcp-gcs-key-regex 'jobs-.*?[a-z]' \
-gcp-gcs-clear-op=rm \
-gcp-gcs-fail-op=mv \
-gcp-gcs-fail-bucket my-bucket-completed \
-gcp-gcs-fail-key-template 'fail/{{key}}' \
bash -c 'echo the payload is: $(cat my-payload.json)'
GCP Firestore
The GCP Firestore driver will retrieve the documents in the collection -gcp-firestore-retrieve-collection which matches the specified input query. If -gcp-firestore-retrieve-document is specified, this exact document ID will be retrieved. If -gcp-firestore-retrieve-query-path is specified, it will be used with -gcp-firestore-retrieve-query-op and -gcp-firestore-retrieve-query-value to construct a select query. To order the documents before selecting the first response, -gcp-firestore-retrieve-query-order-by and -gcp-firestore-retrieve-query-order can be used. The documents will be returned to the process as a []map[string]interface{} JSON array. If neither document nor query is specified, the first document in the collection will be retrieved. If -gcp-firestore-retrieve-document-json-key is provided, it will be used to select a single field in the JSON repsonse to pass to the process. Upon completion, the document can either be moved to a new collection, updated, or deleted. If updating, the new fields can be provided as a JSON string which will be merged with the object.
procx \
-driver gcp-firestore \
-gcp-project-id my-project \
-gcp-firestore-retrieve-collection my-collection \
-gcp-firestore-retrieve-query-path 'status' \
-gcp-firestore-retrieve-query-op '==' \
-gcp-firestore-retrieve-query-value 'pending' \
-gcp-firestore-retrieve-query-order-by 'created_at' \
-gcp-firestore-retrieve-query-order 'desc' \
-gcp-firestore-retrieve-document-json-key 'work' \
-gcp-firestore-clear-op=mv \
-gcp-firestore-clear-update '{"status": "completed"}' \
-gcp-firestore-clear-collection my-collection-completed \
-gcp-firestore-fail-op=mv \
-gcp-firestore-fail-update '{"status": "failed"}' \
-gcp-firestore-fail-collection my-collection-failed \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
GCP Pub/Sub
The GCP Pub/Sub driver will retrieve the next message from the specified subscription, and pass it to the process. Upon successful completion of the process, it will acknowledge the message.
export GOOGLE_APPLICATION_CREDENTIALS=/path/to/credentials.json
procx \
-gcp-project-id my-project \
-gcp-pubsub-subscription my-subscription \
-driver gcp-pubsub \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
GitHub
The GitHub driver will retrieve the specified object (-github-file, -github-file-prefix, or -github-file-regex) from a GitHub repository (-github-repo) and pass it to the process. This mirrors other file-system drivers and supports both regex and prefix selection in addition to explicit key selection. Upon completion or failure, the object can either be deleted (rm) or moved (mv) in the repository. This can be done either on the same branch (-github-ref or -github-base-branch), or a new branch (-github-branch). If on a new branch, a pull request can be opened with -github-open-pr. If opening a new PR without a branch specified, a new branch name will be generated.
procx \
-driver github \
-github-repo my-repo \
-github-owner my-owner \
-github-branch my-new-branch \
-github-base-branch main \
-github-file-regex 'pending/jobs-.*?[a-z]' \
-github-token my-token \
-github-open-pr \
-github-commit-name my-commit-name \
-github-commit-email my-commit-email \
-github-commit-message my-commit-message \
-github-pr-title my-pr-title \
-github-pr-body my-pr-body \
-github-clear-op rm \
-github-fail-op mv \
-github-fail-location 'failed/{{key}}' \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
HTTP
The HTTP driver will connect to any HTTP(s) endpoint, retrieve the content from the endpoint, and return it to the process. If the upstream returns a JSON payload, the -http-retrieve-work-json-selector flag can be used to select a specific value from the JSON response, and similarly the -http-retrieve-key-json-selector flag can be used to select a value from the JSON response which can then be used to replace any instances of {{key}} in either the clear or failure URL or payload. If using internal PKI, mTLS, or disabling TLS validation, pass the -http-enable-tls flag and the corresponding TLS flags.
procx \
-http-retrieve-url https://example.com/jobs \
-http-retrieve-work-json-selector '0.work' \
-http-retrieve-key-json-selector '0.id' \
-http-retrieve-headers 'ExampleToken:foobar,ExampleHeader:barfoo' \
-http-clear-url 'https://example.com/jobs/{{key}}' \
-http-clear-method DELETE \
-http-clear-headers 'ExampleToken:foobar,ExampleHeader:barfoo' \
-http-fail-url 'https://example.com/jobs/{{key}}' \
-http-fail-method POST \
-http-fail-headers 'ExampleToken:foobar,ExampleHeader:barfoo' \
-http-fail-body '{"id": "{{key}}", "status": "failed"}' \
-driver http \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Kafka
The Kafka driver will retrieve the next message from the specified topic, and pass it to the process. If a group is passed, this will be used to ensure that the message is only retrieved from the topic once across distributed workers and subsequent executions. Similar to the Pub/Sub drivers, if there are no messages in the topic when the process starts, it will wait for the first message. TLS and SASL authentication are optional.
procx \
-kafka-brokers localhost:9092 \
-kafka-topic my-topic \
-kafka-group my-group \
-kafka-enable-tls \
-kafka-tls-ca-file /path/to/ca.pem \
-kafka-tls-cert-file /path/to/cert.pem \
-kafka-tls-key-file /path/to/key.pem \
-kafka-enable-sasl \
-kafka-sasl-type plain \
-kafka-sasl-username my-username \
-kafka-sasl-password my-password \
-driver kafka \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
MongoDB
The MongoDB driver will retrieve the documents from the specified collection, and pass it to the process. Upon successful completion of the process, it will run the specified mongo command.
procx \
-mongo-collection my-collection \
-mongo-database my-database \
-mongo-host localhost \
-mongo-port 27017 \
-mongo-user my-user \
-mongo-password my-password \
-mongo-retrieve-query '{"status": "pending"}' \
-mongo-limit 1 \
-mongo-clear-query '{"delete": "my-collection", "deletes": [{"q": {"_id": {"$oid": "{{0._id}}"}}, "limit": 1}]}' \
-mongo-fail-query '{"update":"my-collection","updates":[{"q":{"_id":{"$oid":"{{0._id}}"}},"u":{"$set": {"failed":true}}}]}' \
-driver mongodb \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
MSSQL
The MSSQL driver will retrieve the messages from the specified Microsoft SQL Server, and pass it to the process.
procx \
-mssql-host localhost \
-mssql-port 1433 \
-mssql-database mydb \
-mssql-user sa \
-mssql-password 'mypassword!' \
-mssql-retrieve-query "SET ROWCOUNT 1 SELECT id, work from mytable where queue = ? and status = ?" \
-mssql-retrieve-params "myqueue,pending" \
-mssql-clear-query "UPDATE mytable SET status = ? where queue = ? and id = ?" \
-mssql-clear-params "cleared,myqueue,{{0.id}}" \
-mssql-fail-query "UPDATE mytable SET failure_count = failure_count + 1 where queue = ? and id = ?" \
-mssql-fail-params "myqueue,{{0.id}}" \
-driver mssql \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
MySQL
The MySQL driver will retrieve the messages from the specified database, and pass it to the process.
procx \
-mysql-host localhost \
-mysql-port 3306 \
-mysql-database mydb \
-mysql-user myuser \
-mysql-password mypassword \
-mysql-retrieve-query "SELECT id, work from mytable where queue = ? and status = ? LIMIT 1" \
-mysql-retrieve-params "myqueue,pending" \
-mysql-clear-query "UPDATE mytable SET status = ? where queue = ? and id = ?" \
-mysql-clear-params "cleared,myqueue,{{0.id}}" \
-mysql-fail-query "UPDATE mytable SET failure_count = failure_count + 1 where queue = ? and id = ?" \
-mysql-fail-params "myqueue,{{0.id}}" \
-driver mysql \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
NATS
The NATS driver will retrieve the next message from the specified subject, and pass it to the process. If the received message type is a request, the message will be replied to with the result of the process (0 or 1 for success or failure, respectively). You can optionally provide a -nats-clear-response and -nats-fail-response flag to send a custom response on completion. You can optionally provide -nats-queue-group to namespace the queue group worker subscriptions.
procx \
-nats-subject my-subject \
-nats-url localhost:4222 \
-nats-username my-user \
-nats-password my-password \
-nats-clear-response "OK" \
-nats-fail-response "FAIL" \
-nats-queue-group my-group \
-nats-enable-tls \
-nats-tls-ca-file /path/to/ca.pem \
-nats-tls-cert-file /path/to/cert.pem \
-nats-tls-key-file /path/to/key.pem \
-driver nats \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
NFS
The nfs driver will mount the specified NFS directory, and retrieve the first file which matches the specified key. Similar to the AWS S3 driver, the NFS driver supports -nfs-key, -nfs-key-prefix, and -nfs-key-regex selection flags.
Upon completion, the file can either be moved to a different folder in the NFS, or it can be deleted, with the -nfs-clear-op and -nfs-fail-op flags (mv or rm). You can specify the target folder with the -nfs-clear-folder and -nfs-fail-folder flags, and the -nfs-clear-key and -nfs-fail-key flags let you rename the file on move. You can also use the -nfs-clear-key-template and -nfs-fail-key-template flags to specify a template for the key, which will be replaced with the key.
procx \
-nfs-host nfs.example.com \
-nfs-target /path/to/nfs \
-nfs-key-prefix "my-prefix" \
-nfs-clear-op mv \
-nfs-clear-folder cleared \
-nfs-clear-key-template "cleared_{{key}}" \
-nfs-fail-op mv \
-nfs-fail-folder failed \
-nfs-fail-key-template "failed_{{key}}" \
-driver nfs \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
NSQ
The NSQ driver will connect to the specified nsqlookupd or nsqd endpoint, retrieve the next message from the specified topic, and pass it to the process.
procx \
-nsq-nsqlookupd-address localhost:4161 \
-nsq-topic my-topic \
-nsq-channel my-channel \
-driver nsq \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
PostgreSQL
The PostgreSQL driver will retrieve the messages from the specified queue, and pass it to the process.
procx \
-psql-host localhost \
-psql-port 5432 \
-psql-database mydb \
-psql-user myuser \
-psql-password mypassword \
-psql-retrieve-query "SELECT id, work from mytable where queue = $1 and status = $2" \
-psql-retrieve-params "myqueue,pending" \
-psql-clear-query "UPDATE mytable SET status = $1 where queue = $2 and id = $3" \
-psql-clear-params "cleared,myqueue,{{0.id}}" \
-psql-fail-query "UPDATE mytable SET failure_count = failure_count + 1 where queue = $1 and id = $2" \
-psql-fail-params "myqueue,{{0.id}}" \
-driver postgres \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Pulsar
The Pulsar driver will connect to the specified comma-separated Pulsar endpoint(s) and retrieve the next message from the specified topic, and pass it to the process. An ack will be sent on success, and a nack will be sent on failure. Clients can subscribe to either a specific topic, a set of topics (comma separated), or a regex pattern. Token and TLS auth methods are supported.
procx \
-pulsar-address localhost:6650,localhost:6651 \
-pulsar-topic my-topic \
-pulsar-subscription my-subscription \
-pulsar-auth-cert-file /path/to/cert.pem \
-pulsar-auth-key-file /path/to/key.pem \
-pulsar-tls-trust-certs-file /path/to/trusted.pem \
-driver pulsar \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
RabbitMQ
The RabbitMQ driver will connect to the specified queue AMQP endpoint and retrieve the next message from the specified queue.
procx \
-rabbitmq-url amqp://guest:guest@localhost:5672 \
-rabbitmq-queue my-queue \
-driver rabbitmq \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Redis List
The Redis List driver will connect to the specified Redis server and retrieve the next message from the specified list.
procx \
-redis-host localhost \
-redis-port 6379 \
-redis-key my-list \
-driver redis-list \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Redis Pub/Sub
The Redis Pub/Sub driver will connect to the specified Redis server and retrieve the next message from the specified subscription.
procx \
-redis-host localhost \
-redis-port 6379 \
-redis-key my-subscription \
-driver redis-pubsub \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Redis Stream
The Redis Stream driver will connect to the specified Redis server and retrieve the next message from the specified stream. The message contents will be returned as a JSON object. You can optionally select a subset of keys with the -redis-stream-value-keys flag, providing a comma-separated list of keys to include in the payload. By default, the newest message will be read from the stream. You can control worker namespacing with the -redis-stream-consumer-group flag. You can either ack or del the message with the -redis-stream-clear-op and -redis-stream-fail-op flags.
procx \
-redis-host localhost \
-redis-port 6379 \
-redis-key my-stream \
-redis-stream-consumer-group my-group \
-redis-stream-value-keys "key1,key2" \
-redis-stream-clear-op del \
-redis-stream-fail-op ack \
-driver redis-stream \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Scylla
The Scylla driver will retrieve the specified rows from the specified keyspace table, and pass it to the process. Upon successful completion of the process, it will execute the specified query to update / remove the work from the table.
procx \
-scylla-keyspace mykeyspace \
-scylla-consistency QUORUM \
-scylla-clear-query "DELETE FROM mykeyspace.mytable WHERE id = ?" \
-scylla-clear-params "{{0.id}}" \
-scylla-hosts "localhost:9042,another:9042" \
-scylla-fail-query "UPDATE mykeyspace.mytable SET status = 'failed' WHERE id = ?" \
-scylla-fail-params "{{0.id}}" \
-scylla-retrieve-field work \
-scylla-retrieve-query "SELECT id, work FROM mykeyspace.mytable LIMIT 1" \
-driver scylla \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
SMB
The SMB driver will connect to the specified SMB endpoint and retrieve the specified file -smb-key, however the first file which matches a glob -smb-key-glob can also be used. Similar to the NFS driver, on clear / faiure, the file can be moved (mv) or deleted (rm) with the -smb-clear-op and -smb-fail-op flags. The -smb-clear-key and -smb-fail-key flags can be used to specify the new path, and -smb-clear-key-template and -smb-fail-key-template can be used to specify a template for the new path, where {{key}} is replaced with the original key base name.
procx \
-smb-host localhost \
-smb-port 445 \
-smb-share myshare \
-smb-key-glob "jobs/job-*" \
-smb-clear-op mv \
-smb-clear-key-template "cleared/cleared_{{key}}" \
-smb-fail-op mv \
-smb-fail-key-template "failed/failed_{{key}}" \
-driver smb \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Local
The local driver is a simple wrapper around the process to execute, primarily for local testing. It does not communicate with any queue, and expects the job payload to be manually defined by the operator as a PROCX_PAYLOAD environment variable.
This can also be used to read in a file, or to shim in a local pipe for testing.
PROCX_PAYLOAD="$(</path/to/payload.txt)" \
procx \
-driver local \
bash -c 'echo the payload is: $PROCX_PAYLOAD'
Orchestration
procx is solely focused on the worker-side consumption and clearing of work, and intentionally has no scope to the scheduling or management of work.
This allows you to plug in any scheduling or management system you want, and have procx consume the work from that system.
If you are running in Kubernetes, the procx-operator is a simple operator that will manage ProcX workloads on top of Kubernetes and KEDA.
Deployment
You will need to install procx in the container which will be used to run your job. You can either compile procx from source, or use the latest precompiled binaries available.
Example Dockerfile
FROM node:17
RUN apt-get update && apt-get install -y \
curl
RUN curl -LO https://github.com/robertlestak/procx/releases/latest/download/procx_linux && \
chmod +x procx_linux && \
mv procx_linux /usr/local/bin/procx
RUN echo "console.log('the payload is:', process.env.PROCX_PAYLOAD)" > app.js
CMD ["node", "app.js"]
ENTRYPOINT ["/usr/local/bin/procx"]
docker build -t procx .
docker run --rm -it \
-v ~/.aws:/root/.aws \
-e PROCX_AWS_REGION=us-east-1 \
-e PROCX_AWS_SQS_QUEUE_URL=https://sqs.us-east-1.amazonaws.com/123456789012/my-queue \
-e PROCX_AWS_ROLE_ARN=arn:aws:iam::123456789012:role/my-role \
-e PROCX_DRIVER=aws-sqs \
-e AWS_SDK_LOAD_CONFIG=1 \
procx
Directories