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A utility for connecting securely to your Cloud SQL instances

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Cloud SQL Auth Proxy

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The Cloud SQL Auth Proxy is a utility for ensuring secure connections to your Cloud SQL instances. It provides IAM authorization, allowing you to control who can connect to your instance through IAM permissions, and TLS 1.3 encryption, without having to manage certificates.

See the Connecting Overview page for more information on connecting to a Cloud SQL instance, or the About the Proxy page for details on how the Cloud SQL Proxy works.

The Cloud SQL Auth Proxy has support for:

If you're using Go, Java, or Python, consider using the corresponding Cloud SQL connector which does everything the Proxy does, but in process:

For users migrating from v1, see the Migration Guide. The v1 README is still available.

NOTE: The Proxy does not configure the network between the VM it's running on and the Cloud SQL instance. You MUST ensure the Proxy can reach your Cloud SQL instance, either by deploying it in a VPC that has access to your Private IP instance, or by configuring Public IP.

Installation

Check for the latest version on the releases page and use the following instructions for your OS and CPU architecture.

Linux amd64
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.linux.amd64" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Linux 386
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.linux.386" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Linux arm64
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.linux.arm64" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Linux arm
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.linux.arm" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Mac (Intel)
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.darwin.amd64" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Mac (Apple Silicon)
# see Releases for other versions
URL="https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1"

curl "$URL/cloud-sql-proxy.darwin.arm64" -o cloud-sql-proxy

chmod +x cloud-sql-proxy
Windows x64
# see Releases for other versions
curl https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1/cloud-sql-proxy.x64.exe -o cloud-sql-proxy.exe
Windows x86
# see Releases for other versions
curl https://storage.googleapis.com/cloud-sql-connectors/cloud-sql-proxy/v2.1.1/cloud-sql-proxy.x86.exe -o cloud-sql-proxy.exe

Install from Source

To install from source, ensure you have the latest version of Go installed.

Then, simply run:

go install github.com/GoogleCloudPlatform/cloud-sql-proxy/v2@latest

The cloud-sql-proxy will be placed in $GOPATH/bin or $HOME/go/bin.

Usage

The following examples all reference an INSTANCE_CONNECTION_NAME, which takes the form: myproject:myregion:myinstance.

To find your Cloud SQL instance's INSTANCE_CONNECTION_NAME, visit the detail page of your Cloud SQL instance in the console, or use gcloud with:

gcloud sql instances describe <INSTANCE_NAME> --format='value(connectionName)'

Credentials

The Cloud SQL Proxy uses a Cloud IAM principal to authorize connections against a Cloud SQL instance. The Proxy sources the credentials using Application Default Credentials.

Note: Any IAM principal connecting to a Cloud SQL database will need one of the following IAM roles:

  • Cloud SQL Client (preferred)
  • Cloud SQL Editor
  • Cloud SQL Admin

Or one may manually assign the following IAM permissions:

  • cloudsql.instances.connect
  • cloudsql.instances.get

See Roles and Permissions in Cloud SQL for details.

When the Proxy authenticates under the Compute Engine VM's default service account, the VM must have at least the sqlservice.admin API scope (i.e., "https://www.googleapis.com/auth/sqlservice.admin") and the associated project must have the SQL Admin API enabled. The default service account must also have at least writer or editor privileges to any projects of target SQL instances.

The Proxy also supports three flags related to credentials:

  • --token to use an OAuth2 token
  • --credentials-file to use a service account key file
  • --gcloud-auth to use the Gcloud user's credentials (local development only)

Basic Usage

To start the Proxy, use:

# starts the Proxy listening on localhost with the default database engine port
# For example:
#   MySQL      localhost:3306
#   Postgres   localhost:5432
#   SQL Server localhost:1433
./cloud-sql-proxy <INSTANCE_CONNECTION_NAME>

The Proxy will automatically detect the default database engine's port and start a corresponding listener. Production deployments should use the --port flag to reduce startup time.

The Proxy supports multiple instances:

./cloud-sql-proxy <INSTANCE_CONNECTION_NAME_1> <INSTANCE_CONNECTION_NAME_2>

Configuring Port

To override the port, use the --port flag:

# Starts a listener on localhost:6000
./cloud-sql-proxy --port 6000 <INSTANCE_CONNECTION_NAME>

When specifying multiple instances, the port will increment from the flag value:

# Starts a listener on localhost:6000 for INSTANCE_CONNECTION_1
# and localhost:6001 for INSTANCE_CONNECTION_NAME_2.
./cloud-sql-proxy --port 6000 <INSTANCE_CONNECTION_NAME_1> <INSTANCE_CONNECTION_NAME_2>

To configure ports on a per instance basis, use the port query param:

# Starts a listener on localhost:5000 for the instance called "postgres"
# and starts a listener on localhost:6000 for the instance called "mysql"
./cloud-sql-proxy \
    'myproject:my-region:postgres?port=5000' \
    'myproject:my-region:mysql?port=6000'

Configuring Listening Address

To overide the choice of localhost, use the --address flag:

# Starts a listener on all interfaces at port 5432
./cloud-sql-proxy --address 0.0.0.0 <INSTANCE_CONNECTION_NAME>

To override address on a per-instance basis, use the address query param:

# Starts a listener on 0.0.0.0 for "postgres" at port 5432
# and a listener on 10.0.0.1:3306 for "mysql"
./cloud-sql-proxy \
    'myproject:my-region:postgres?address=0.0.0.0' \
    'myproject:my-region:mysql?address=10.0.0.1"

Configuring Private IP

By default, the Proxy attempts to connect to an instance's public IP. To enable private IP, use:

# Starts a listener connected to the private IP of the Cloud SQL instance.
# Note: there must be a network path present for this to work.
./cloud-sql-proxy --private-ip <INSTANCE_CONNECTION_NAME>

NOTE: The Proxy does not configure the network. You MUST ensure the Proxy can reach your Cloud SQL instance, either by deploying it in a VPC that has access to your Private IP instance, or by configuring Public IP.

Configuring Unix domain sockets

The Proxy also supports Unix domain sockets. To start the Proxy with Unix sockets, run:

# Uses the directory "/mycooldir" to create a Unix socket
# For example, the following directory would be created:
#   /mycooldir/myproject:myregion:myinstance
./cloud-sql-proxy --unix-socket /mycooldir <INSTANCE_CONNECTION_NAME>

To configure a Unix domain socket on a per-instance basis, use the unix-socket query param:

# Starts a TCP listener on localhost:5432 for "postgres"
# and creates a Unix domain socket for "mysql":
#     /cloudsql/myproject:my-region:mysql
./cloud-sql-proxy \
    myproject:my-region:postgres \
    'myproject:my-region:mysql?unix-socket=/cloudsql'

NOTE: The Proxy supports Unix domain sockets on recent versions of Windows, but replaces colons with periods:

# Starts a Unix domain socket at the path:
#    C:\cloudsql\myproject.my-region.mysql
./cloud-sql-proxy --unix-socket C:\cloudsql myproject:my-region:mysql

Additional flags

To see a full list of flags, use:

./cloud-sql-proxy --help

Container Images

There are containerized versions of the Proxy available from the following Google Cloud Container Registry repositories:

  • gcr.io/cloud-sql-connectors/cloud-sql-proxy
  • us.gcr.io/cloud-sql-connectors/cloud-sql-proxy
  • eu.gcr.io/cloud-sql-connectors/cloud-sql-proxy
  • asia.gcr.io/cloud-sql-connectors/cloud-sql-proxy

Each image is tagged with the associated Proxy version. The following tags are currently supported:

  • $VERSION (default)
  • $VERSION-alpine
  • $VERSION-buster
  • $VERSION-bullseye

The $VERSION is the Proxy version without the leading "v" (e.g., 2.0.0).

For example, to pull a particular version, use a command like:

# $VERSION is 2.0.0
docker pull gcr.io/cloud-sql-connectors/cloud-sql-proxy:2.0.0

We recommend pinning to a specific version tag and using automation with a CI pipeline to update regularly.

The default container image uses distroless with a non-root user. If you need a shell or related tools, use the Alpine or Buster images listed above.

Running as a Kubernetes Sidecar

See the example here as well as Connecting from Google Kubernetes Engine.

Running behind a Socks5 proxy

The Cloud SQL Auth Proxy includes support for sending requests through a SOCKS5 proxy. If a SOCKS5 proxy is running on localhost:8000, the command to start the Cloud SQL Auth Proxy would look like:

ALL_PROXY=socks5://localhost:8000 \
HTTPS_PROXY=socks5://localhost:8000 \
    cloud-sql-proxy <INSTANCE_CONNECTION_NAME>

The ALL_PROXY environment variable specifies the proxy for all TCP traffic to and from a Cloud SQL instance. The ALL_PROXY environment variable supports socks5 and socks5h protocols. To route DNS lookups through a proxy, use the socks5h protocol.

The HTTPS_PROXY (or HTTP_PROXY) specifies the proxy for all HTTP(S) traffic to the SQL Admin API. Specifying HTTPS_PROXY or HTTP_PROXY is only necessary when you want to proxy this traffic. Otherwise, it is optional. See http.ProxyFromEnvironment for possible values.

Support for Metrics and Tracing

The Proxy supports Cloud Monitoring, Cloud Trace, and Prometheus.

Supported metrics include:

  • cloudsqlconn/dial_latency: The distribution of dialer latencies (ms)
  • cloudsqlconn/open_connections: The current number of open Cloud SQL connections
  • cloudsqlconn/dial_failure_count: The number of failed dial attempts
  • cloudsqlconn/refresh_success_count: The number of successful certificate refresh operations
  • cloudsqlconn/refresh_failure_count: The number of failed refresh operations.

Supported traces include:

  • cloud.google.com/go/cloudsqlconn.Dial: The dial operation including refreshing an ephemeral certificate and connecting the instance
  • cloud.google.com/go/cloudsqlconn/internal.InstanceInfo: The call to retrieve instance metadata (e.g., database engine type, IP address, etc)
  • cloud.google.com/go/cloudsqlconn/internal.Connect: The connection attempt using the ephemeral certificate
  • SQL Admin API client operations

To enable Cloud Monitoring and Cloud Trace, use the --telemetry-project flag with the project where you want to view metrics and traces. To configure the metrics prefix used by Cloud Monitoring, use the --telemetry-prefix flag. When enabling telementry, both Cloud Monitoring and Cloud Trace are enabled. To disable Cloud Monitoring, use --disable-metrics. To disable Cloud Trace, use --disable-traces.

To enable Prometheus, use the --prometheus flag. This will start an HTTP server on localhost with a /metrics endpoint. The Prometheus namespace may optionally be set with --prometheus-namespace.

Localhost Admin Server

The Proxy includes support for an admin server on localhost. By default, the the admin server is not enabled. To enable the server, pass the --debug or --quitquitquit flag. This will start the server on localhost at port 9091. To change the port, use the --admin-port flag.

When --debug is set, the admin server enables Go's profiler available at /debug/pprof/.

See the documentation on pprof for details on how to use the profiler.

When --quitquitquit is set, the admin server adds an endpoint at /quitquitquit. The admin server exits gracefully when it receives a POST request at /quitquitquit.

Frequently Asked Questions

Why would I use the Proxy?

The Proxy is a convenient way to control access to your database using IAM permissions while ensuring a secure connection to your Cloud SQL instance. When using the Proxy, you do not have to manage database client certificates, configured Authorized Networks, or ensure clients connect securely. The Proxy handles all of this for you.

How should I use the Proxy?

The Proxy is a gateway to your Cloud SQL instance. Clients connect to the Proxy over an unencrypted connection and are authorized using the environment's IAM principal. The Proxy then encrypts the connection to your Cloud SQL instance.

Because client connections are not encrypted and authorized using the environment's IAM principal, we recommend running the Proxy on the same VM or Kubernetes pod as your application and using the Proxy's default behavior of allowing connections from only the local network interface. This is the most secure configuration: unencrypted traffic does not leave the VM, and only connections from applications on the VM are allowed.

Here are some common examples of how to run the Proxy in different environments:

Why can't the Proxy connect to my private IP instance?

The Proxy does not configure the network between the VM it's running on and the Cloud SQL instance. You MUST ensure the Proxy can reach your Cloud SQL instance, either by deploying it in a VPC that has access to your Private IP instance, or by configuring Public IP.

Is there a library version of the Proxy that I can use?

Yes. Cloud SQL supports three language connectors:

The connectors for Go, Java, and Python offer the best experience when you are writing an application in those languages. Use the Proxy when your application uses another language.

Should I use the Proxy for large deployments?

We recommend deploying the Proxy on the host machines that are running the application. However, large deployments may exceed the request quota for the SQL Admin API . If your Proxy reports request quota errors, we recommend deploying the Proxy with a connection pooler like pgbouncer or ProxySQL. For details, see Running the Cloud SQL Proxy as a Service.

Can I share the Proxy across mulitple applications?

Instead of using a single Proxy across multiple applications, we recommend using one Proxy instance for every application process. The Proxy uses the context's IAM principal and so have a 1-to-1 mapping between application and IAM principal is best. If multiple applications use the same Proxy instance, then it becomes unclear from an IAM perspective which principal is doing what.

How do I verify the shasum of a downloaded Proxy binary?

After downloading a binary from the releases page, copy the sha256sum value that corresponds with the binary you chose.

Then run this command (make sure to add the asterix before the file name):

echo '<RELEASE_PAGE_SHA_HERE> *<NAME_OF_FILE_HERE>' | shasum -c

For example, after downloading the v2.1.0 release of the Linux AMD64 Proxy, you would run:

$ echo "547b24faf0dfe5e3d16bbc9f751dfa6b34dfd5e83f618f43a2988283de5208f2 *cloud-sql-proxy" | shasum -c
cloud-sql-proxy: OK

If you see OK, the binary is a verified match.

Reference Documentation

Support policy

Major version lifecycle

This project uses semantic versioning, and uses the following lifecycle regarding support for a major version:

  • Active - Active versions get all new features and security fixes (that wouldn’t otherwise introduce a breaking change). New major versions are guaranteed to be "active" for a minimum of 1 year.

  • Deprecated - Deprecated versions continue to receive security and critical bug fixes, but do not receive new features. Deprecated versions will be publicly supported for 1 year.

  • Unsupported - Any major version that has been deprecated for >=1 year is considered publicly unsupported.

Release cadence

The Cloud SQL Auth Proxy aims for a minimum monthly release cadence. If no new features or fixes have been added, a new PATCH version with the latest dependencies is released.

We support releases for 1 year from the release date.

Contributing

Contributions are welcome. Please, see the CONTRIBUTING document for details.

Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms. See Contributor Code of Conduct for more information.

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