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264 lines
9.7 KiB
Markdown
# How to secure access to MinIO server with TLS [![Slack](https://slack.min.io/slack?type=svg)](https://slack.min.io)
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This guide explains how to configure MinIO Server with TLS certificates on Linux and Windows platforms.
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1. [Install MinIO Server](#install-minio-server)
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2. [Use an Existing Key and Certificate with MinIO](#use-an-existing-key-and-certificate-with-minio)
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3. [Generate and use Self-signed Keys and Certificates with MinIO](#generate-use-self-signed-keys-certificates)
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4. [Install Certificates from Third-party CAs](#install-certificates-from-third-party-cas)
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## <a name="install-minio-server"></a>1. Install MinIO Server
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Install MinIO Server using the instructions in the [MinIO Quickstart Guide](http://docs.min.io/docs/minio-quickstart-guide).
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## <a name="use-an-existing-key-and-certificate-with-minio"></a>2. Use an Existing Key and Certificate with MinIO
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This section describes how to use a private key and public certificate that have been obtained from a certificate authority (CA). If these files have not been obtained, skip to [3. Generate Self-signed Certificates](#generate-use-self-signed-keys-certificates) or generate them with [Let's Encrypt](https://letsencrypt.org) using these instructions: [https://docs.min.io/docs/generate-let-s-encypt-certificate-using-concert-for-minio](https://docs.min.io/docs/).
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Copy the existing private key and public certificate to the `certs` directory. The default certs directory is:
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* **Linux:** `${HOME}/.minio/certs`
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* **Windows:** `%%USERPROFILE%%\.minio\certs`
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**Note:**
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* Location of custom certs directory can be specified using `--certs-dir` command line option.
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* Inside the `certs` directory, the private key must by named `private.key` and the public key must be named `public.crt`.
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* A certificate signed by a CA contains information about the issued identity (e.g. name, expiry, public key) and any intermediate certificates. The root CA is not included.
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## <a name="generate-use-self-signed-keys-certificates"></a>3. Generate and use Self-signed Keys and Certificates with MinIO
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This section describes how to generate a self-signed certificate using various tools:
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* 3.1 [Use generate_cert.go to Generate a Certificate](#using-go)
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* 3.2 [Use OpenSSL to Generate a Certificate](#using-open-ssl)
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* 3.3 [Use OpenSSL (with IP address) to Generate a Certificate](#using-open-ssl-with-ip)
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* 3.4 [Use GnuTLS (for Windows) to Generate a Certificate](#using-gnu-tls)
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**Note:**
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* MinIO only supports keys and certificates in PEM format on Linux and Windows.
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* MinIO doesn't currently support PFX certificates.
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### <a name="using-go"></a>3.1 Use generate_cert.go to Generate a Certificate
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Download [`generate_cert.go`](https://golang.org/src/crypto/tls/generate_cert.go?m=text).
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`generate_cert.go` is a simple *Go* tool to generate self-signed certificates, and provides SAN certificates with DNS and IP entries:
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```sh
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go run generate_cert.go -ca --host "10.10.0.3"
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```
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A response similar to this one should be displayed:
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```
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2018/11/21 10:16:18 wrote cert.pem
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2018/11/21 10:16:18 wrote key.pem
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```
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Rename `cert.pem` to `public.crt` and `key.pem` to `private.key`.
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### <a name="using-open-ssl"></a>3.2 Use OpenSSL to Generate a Certificate
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Use one of the following methods to generate a certificate using `openssl`:
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* 3.2.1 [Generate a private key with ECDSA](#generate-private-key-with-ecdsa)
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* 3.2.2 [Generate a private key with RSA](#generate-private-key-with-rsa)
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* 3.2.3 [Generate a self-signed certificate](#generate-a-self-signed-certificate)
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#### 3.2.1 <a name="generate-private-key-with-ecdsa"></a>Generate a private key with ECDSA.
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Use the following command to generate a private key with ECDSA:
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```sh
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openssl ecparam -genkey -name prime256v1 | openssl ec -out private.key
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```
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A response similar to this one should be displayed:
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```
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read EC key
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writing EC key
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```
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Alternatively, use the following command to generate a private ECDSA key protected by a password:
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```sh
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openssl ecparam -genkey -name prime256v1 | openssl ec -aes256 -out private.key -passout pass:PASSWORD
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```
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**Note:** NIST curves P-384 and P-521 are not currently supported.
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#### 3.2.2 <a name="generate-private-key-with-rsa"></a>Generate a private key with RSA.
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Use the following command to generate a private key with RSA:
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```sh
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openssl genrsa -out private.key 2048
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```
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A response similar to this one should be displayed:
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```
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Generating RSA private key, 2048 bit long modulus
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............................................+++
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...........+++
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e is 65537 (0x10001)
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```
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Alternatively, use the following command to generate a private RSA key protected by a password:
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```sh
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openssl genrsa -aes256 -out private.key 2048 -passout pass:PASSWORD
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```
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**Note:** When using a password-protected private key, the password must be provided through the environment variable `MINIO_CERT_PASSWD` using the following command:
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```sh
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export MINIO_CERT_PASSWD=<PASSWORD>
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```
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The default OpenSSL format for private encrypted keys is PKCS-8, but MinIO only supports PKCS-1. An RSA key that has been formatted with PKCS-8 can be converted to PKCS-1 using the following command:
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```sh
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openssl rsa -in private-pkcs8-key.key -aes256 -passout pass:PASSWORD -out private.key
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```
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#### <a name="generate-a-self-signed-certificate"></a>3.2.3 Generate a self-signed certificate.
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Use the following command to generate a self-signed certificate and enter a passphrase when prompted:
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```sh
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openssl req -new -x509 -days 3650 -key private.key -out public.crt -subj "/C=US/ST=state/L=location/O=organization/CN=<domain.com>"
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```
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**Note:** Replace `<domain.com>` with the development domain name.
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Alternatively, use the command below to generate a self-signed wildcard certificate that is valid for all subdomains under `<domain.com>`. Wildcard certificates are useful for deploying distributed MinIO instances, where each instance runs on a subdomain under a single parent domain.
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```sh
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openssl req -new -x509 -days 3650 -key private.key -out public.crt -subj "/C=US/ST=state/L=location/O=organization/CN=<*.domain.com>"
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```
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### <a name="using-open-ssl-with-ip"></a>3.3 Use OpenSSL (with IP address) to Generate a Certificate
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This section describes how to specify an IP address to `openssl` when generating a certificate.
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#### 3.3.1 Create a configuration file.
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Create a file named `openssl.conf` with the content below. Change `IP.1` to point to the correct IP address:
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```sh
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[req]
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distinguished_name = req_distinguished_name
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x509_extensions = v3_req
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prompt = no
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[req_distinguished_name]
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C = US
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ST = VA
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L = Somewhere
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O = MyOrg
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OU = MyOU
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CN = MyServerName
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[v3_req]
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subjectAltName = @alt_names
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[alt_names]
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IP.1 = 127.0.0.1
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```
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#### 3.3.2 Run `openssl` and specify the configuration file:
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```sh
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openssl req -x509 -nodes -days 730 -newkey rsa:2048 -keyout private.key -out public.crt -config openssl.conf
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```
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### <a name="using-gnu-tls"></a>3.4 Use GnuTLS (for Windows) to Generate a Certificate
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This section describes how to use GnuTLS on Windows to generate a certificate.
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#### 3.4.1 Install and configure GnuTLS.
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Download and decompress the Windows version of GnuTLS from [here](http://www.gnutls.org/download.html).
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Use PowerShell to add the path of the extracted GnuTLS binary to the system path:
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```
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setx path "%path%;C:\Users\MyUser\Downloads\gnutls-3.4.9-w64\bin"
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```
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**Note:** PowerShell may need to be restarted for this change to take effect.
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#### 3.4.2 Generate a private key:
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Run the following command to generate a private `.key` file:
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```
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certtool.exe --generate-privkey --outfile private.key
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```
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A response similar to this one should be displayed:
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```
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Generating a 3072 bit RSA private key...
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```
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####3.4.3 Generate a public certificate:
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Create a file called `cert.cnf` with the content below. This file contains all of the information necessary to generate a certificate using `certtool.exe`:
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```
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# X.509 Certificate options
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#
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# DN options
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# The organization of the subject.
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organization = "Example Inc."
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# The organizational unit of the subject.
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#unit = "sleeping dept."
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# The state of the certificate owner.
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state = "Example"
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# The country of the subject. Two letter code.
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country = "EX"
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# The common name of the certificate owner.
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cn = "Sally Certowner"
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# In how many days, counting from today, this certificate will expire.
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expiration_days = 365
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# X.509 v3 extensions
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# DNS name(s) of the server
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dns_name = "localhost"
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# (Optional) Server IP address
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ip_address = "127.0.0.1"
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# Whether this certificate will be used for a TLS server
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tls_www_server
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# Whether this certificate will be used to encrypt data (needed
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# in TLS RSA cipher suites). Note that it is preferred to use different
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# keys for encryption and signing.
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encryption_key
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```
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Run `certtool.exe` and specify the configuration file to generate a certificate:
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```
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certtool.exe --generate-self-signed --load-privkey private.key --template cert.cnf --outfile public.crt
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```
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## <a name="install-certificates-from-third-party-cas"></a>4. Install Certificates from Third-party CAs
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MinIO can connect to other servers, including MinIO nodes or other server types such as NATs and Redis. If these servers use certificates that were not registered with a known CA, add trust for these certificates to MinIO Server by placing these certificates under one of the following MinIO configuration paths:
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* **Linux:** `~/.minio/certs/CAs/`
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* **Windows**: `C:\Users\<Username>\.minio\certs\CAs`
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# Explore Further
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* [TLS Configuration for MinIO server on Kubernetes](https://github.com/minio/minio/tree/master/docs/tls/kubernetes)
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* [MinIO Client Complete Guide](https://docs.min.io/docs/minio-client-complete-guide)
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* [Generate Let's Encrypt Certificate](https://docs.min.io/docs/generate-let-s-encypt-certificate-using-concert-for-minio)
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* [Setup nginx Proxy with MinIO Server](https://docs.min.io/docs/setup-nginx-proxy-with-minio)
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