# How to enable use TLS proxy Milvus proxy uses TLS two-way and one-way authentication. ## How to create your own certificate. ### 1. Prerequisites Make sure OpenSSL is installed. If you have not installed it, [build and install](https://github.com/openssl/openssl/blob/master/INSTALL.md) OpenSSL first. ```shell openssl version ``` If openssl is not installed. It can be installed like this in Ubuntu. ```shell sudo apt install openssl ``` ### 2. Create openssl.cnf and gen.sh ```shell mkdir cert && cd cert touch openssl.cnf gen.sh ``` Copy the following configurations to the ```openssl.cnf``` and ```gen.sh``` files.
openssl.cnf ```ini # # OpenSSL example configuration file. # This is mostly being used for generation of certificate requests. # # This definition stops the following lines choking if HOME isn't # defined. HOME = . RANDFILE = $ENV::HOME/.rnd # Extra OBJECT IDENTIFIER info: #oid_file = $ENV::HOME/.oid oid_section = new_oids # To use this configuration file with the "-extfile" option of the # "openssl x509" utility, name here the section containing the # X.509v3 extensions to use: # extensions = # (Alternatively, use a configuration file that has only # X.509v3 extensions in its main [= default] section.) [ new_oids ] # We can add new OIDs in here for use by 'ca', 'req' and 'ts'. # Add a simple OID like this: # testoid1=1.2.3.4 # Or use config file substitution like this: # testoid2=${testoid1}.5.6 # Policies used by the TSA examples. tsa_policy1 = 1.2.3.4.1 tsa_policy2 = 1.2.3.4.5.6 tsa_policy3 = 1.2.3.4.5.7 #################################################################### [ ca ] default_ca = CA_default # The default ca section #################################################################### [ CA_default ] dir = ./demoCA # Where everything is kept certs = $dir/certs # Where the issued certs are kept crl_dir = $dir/crl # Where the issued crl are kept database = $dir/index.txt # database index file. #unique_subject = no # Set to 'no' to allow creation of # several ctificates with same subject. new_certs_dir = $dir/newcerts # default place for new certs. certificate = $dir/cacert.pem # The CA certificate serial = $dir/serial # The current serial number crlnumber = $dir/crlnumber # the current crl number # must be commented out to leave a V1 CRL crl = $dir/crl.pem # The current CRL private_key = $dir/private/cakey.pem# The private key RANDFILE = $dir/private/.rand # private random number file x509_extensions = usr_cert # The extentions to add to the cert # Comment out the following two lines for the "traditional" # (and highly broken) format. name_opt = ca_default # Subject Name options cert_opt = ca_default # Certificate field options # Extension copying option: use with caution. copy_extensions = copy # Extensions to add to a CRL. Note: Netscape communicator chokes on V2 CRLs # so this is commented out by default to leave a V1 CRL. # crlnumber must also be commented out to leave a V1 CRL. # crl_extensions = crl_ext default_days = 365 # how long to certify for default_crl_days= 30 # how long before next CRL default_md = default # use public key default MD preserve = no # keep passed DN ordering # A few difference way of specifying how similar the request should look # For type CA, the listed attributes must be the same, and the optional # and supplied fields are just that :-) policy = policy_match # For the CA policy [ policy_match ] countryName = match stateOrProvinceName = match organizationName = match organizationalUnitName = optional commonName = supplied emailAddress = optional # For the 'anything' policy # At this point in time, you must list all acceptable 'object' # types. [ policy_anything ] countryName = optional stateOrProvinceName = optional localityName = optional organizationName = optional organizationalUnitName = optional commonName = supplied emailAddress = optional #################################################################### [ req ] default_bits = 2048 default_keyfile = privkey.pem distinguished_name = req_distinguished_name attributes = req_attributes x509_extensions = v3_ca # The extentions to add to the self signed cert # Passwords for private keys if not present they will be prompted for # input_password = secret # output_password = secret # This sets a mask for permitted string types. There are several options. # default: PrintableString, T61String, BMPString. # pkix : PrintableString, BMPString (PKIX recommendation before 2004) # utf8only: only UTF8Strings (PKIX recommendation after 2004). # nombstr : PrintableString, T61String (no BMPStrings or UTF8Strings). # MASK:XXXX a literal mask value. # WARNING: ancient versions of Netscape crash on BMPStrings or UTF8Strings. string_mask = utf8only req_extensions = v3_req # The extensions to add to a certificate request [ req_distinguished_name ] countryName = Country Name (2 letter code) countryName_default = AU countryName_min = 2 countryName_max = 2 stateOrProvinceName = State or Province Name (full name) stateOrProvinceName_default = Some-State localityName = Locality Name (eg, city) 0.organizationName = Organization Name (eg, company) 0.organizationName_default = Internet Widgits Pty Ltd # we can do this but it is not needed normally :-) #1.organizationName = Second Organization Name (eg, company) #1.organizationName_default = World Wide Web Pty Ltd organizationalUnitName = Organizational Unit Name (eg, section) #organizationalUnitName_default = commonName = Common Name (e.g. server FQDN or YOUR name) commonName_max = 64 emailAddress = Email Address emailAddress_max = 64 # SET-ex3 = SET extension number 3 [ req_attributes ] challengePassword = A challenge password challengePassword_min = 4 challengePassword_max = 20 unstructuredName = An optional company name [ usr_cert ] # These extensions are added when 'ca' signs a request. # This goes against PKIX guidelines but some CAs do it and some software # requires this to avoid interpreting an end user certificate as a CA. basicConstraints=CA:FALSE # Here are some examples of the usage of nsCertType. If it is omitted # the certificate can be used for anything *except* object signing. # This is OK for an SSL server. # nsCertType = server # For an object signing certificate this would be used. # nsCertType = objsign # For normal client use this is typical # nsCertType = client, email # and for everything including object signing: # nsCertType = client, email, objsign # This is typical in keyUsage for a client certificate. # keyUsage = nonRepudiation, digitalSignature, keyEncipherment # This will be displayed in Netscape's comment listbox. nsComment = "OpenSSL Generated Certificate" # PKIX recommendations harmless if included in all certificates. subjectKeyIdentifier=hash authorityKeyIdentifier=keyid,issuer # This stuff is for subjectAltName and issuerAltname. # Import the email address. # subjectAltName=email:copy # An alternative to produce certificates that aren't # deprecated according to PKIX. # subjectAltName=email:move # Copy subject details # issuerAltName=issuer:copy #nsCaRevocationUrl = http://www.domain.dom/ca-crl.pem #nsBaseUrl #nsRevocationUrl #nsRenewalUrl #nsCaPolicyUrl #nsSslServerName # This is required for TSA certificates. # extendedKeyUsage = critical,timeStamping [ v3_req ] # Extensions to add to a certificate request basicConstraints = CA:FALSE keyUsage = nonRepudiation, digitalSignature, keyEncipherment subjectAltName = @alt_names [ alt_names ] DNS.1 = localhost DNS.2 = *.ronething.cn DNS.3 = *.ronething.com [ v3_ca ] # Extensions for a typical CA # PKIX recommendation. subjectKeyIdentifier=hash authorityKeyIdentifier=keyid:always,issuer # This is what PKIX recommends but some broken software chokes on critical # extensions. #basicConstraints = critical,CA:true # So we do this instead. basicConstraints = CA:true # Key usage: this is typical for a CA certificate. However since it will # prevent it being used as an test self-signed certificate it is best # left out by default. # keyUsage = cRLSign, keyCertSign # Some might want this also # nsCertType = sslCA, emailCA # Include email address in subject alt name: another PKIX recommendation # subjectAltName=email:copy # Copy issuer details # issuerAltName=issuer:copy # DER hex encoding of an extension: beware experts only! # obj=DER:02:03 # Where 'obj' is a standard or added object # You can even override a supported extension: # basicConstraints= critical, DER:30:03:01:01:FF [ crl_ext ] # CRL extensions. # Only issuerAltName and authorityKeyIdentifier make any sense in a CRL. # issuerAltName=issuer:copy authorityKeyIdentifier=keyid:always [ proxy_cert_ext ] # These extensions should be added when creating a proxy certificate # This goes against PKIX guidelines but some CAs do it and some software # requires this to avoid interpreting an end user certificate as a CA. basicConstraints=CA:FALSE # Here are some examples of the usage of nsCertType. If it is omitted # the certificate can be used for anything *except* object signing. # This is OK for an SSL server. # nsCertType = server # For an object signing certificate this would be used. # nsCertType = objsign # For normal client use this is typical # nsCertType = client, email # and for everything including object signing: # nsCertType = client, email, objsign # This is typical in keyUsage for a client certificate. # keyUsage = nonRepudiation, digitalSignature, keyEncipherment # This will be displayed in Netscape's comment listbox. nsComment = "OpenSSL Generated Certificate" # PKIX recommendations harmless if included in all certificates. subjectKeyIdentifier=hash authorityKeyIdentifier=keyid,issuer # This stuff is for subjectAltName and issuerAltname. # Import the email address. # subjectAltName=email:copy # An alternative to produce certificates that aren't # deprecated according to PKIX. # subjectAltName=email:move # Copy subject details # issuerAltName=issuer:copy #nsCaRevocationUrl = http://www.domain.dom/ca-crl.pem #nsBaseUrl #nsRevocationUrl #nsRenewalUrl #nsCaPolicyUrl #nsSslServerName # This really needs to be in place for it to be a proxy certificate. proxyCertInfo=critical,language:id-ppl-anyLanguage,pathlen:3,policy:foo #################################################################### [ tsa ] default_tsa = tsa_config1 # the default TSA section [ tsa_config1 ] # These are used by the TSA reply generation only. dir = ./demoCA # TSA root directory serial = $dir/tsaserial # The current serial number (mandatory) crypto_device = builtin # OpenSSL engine to use for signing signer_cert = $dir/tsacert.pem # The TSA signing certificate # (optional) certs = $dir/cacert.pem # Certificate chain to include in reply # (optional) signer_key = $dir/private/tsakey.pem # The TSA private key (optional) default_policy = tsa_policy1 # Policy if request did not specify it # (optional) other_policies = tsa_policy2, tsa_policy3 # acceptable policies (optional) digests = md5, sha1 # Acceptable message digests (mandatory) accuracy = secs:1, millisecs:500, microsecs:100 # (optional) clock_precision_digits = 0 # number of digits after dot. (optional) ordering = yes # Is ordering defined for timestamps? # (optional, default: no) tsa_name = yes # Must the TSA name be included in the reply? # (optional, default: no) ess_cert_id_chain = no # Must the ESS cert id chain be included? # (optional, default: no) ```
gen.sh ```shell #!/usr/bin/env sh # your variables Country="CN" State="Shanghai" Location="Shanghai" Organization="milvus" OrganizationUnit="milvus" CommonName="localhost" echo "generate ca.key" openssl genpkey -algorithm RSA -out ca.key echo "generate ca.pem" openssl req -new -x509 -key ca.key -out ca.pem -days 3650 -subj "/C=$Country/ST=$State/L=$Location/O=$Organization/OU=$OrganizationUnit/CN=$CommonName" echo "generate server SAN certificate" openssl genpkey -algorithm RSA -out server.key openssl req -new -nodes -key server.key -out server.csr -days 3650 -subj "/C=$Country/O=$Organization/OU=$OrganizationUnit/CN=$CommonName" -config ./openssl.cnf -extensions v3_req openssl x509 -req -days 3650 -in server.csr -out server.pem -CA ca.pem -CAkey ca.key -CAcreateserial -extfile ./openssl.cnf -extensions v3_req echo "generate client SAN certificate" openssl genpkey -algorithm RSA -out client.key openssl req -new -nodes -key client.key -out client.csr -days 3650 -subj "/C=$Country/O=$Organization/OU=$OrganizationUnit/CN=$CommonName" -config ./openssl.cnf -extensions v3_req openssl x509 -req -days 3650 -in client.csr -out client.pem -CA ca.pem -CAkey ca.key -CAcreateserial -extfile ./openssl.cnf -extensions v3_req ```
The ```openssl.cnf``` file is a default OpenSSL configuration file. See [manual page](https://www.openssl.org/docs/manmaster/man5/config.html) for more information. The ```gen.sh``` file generates relevant certificate files. You can modify the gen.sh file for different purposes such as changing the validity period of the certificate file, the length of the certificate key or the certificate file names. These variables in the ```gen.sh``` file are crucial to the process of creating a certificate signing request file. The first five variables are the basic signing information, including country, state, location, organization, organization unit. Caution is needed when configuring CommonName as it will be verified during client-server communication. ### 3. Run gen.sh to generate certificate. ```shell chmod +x gen.sh ./gen.sh ``` Finally, the following nine files will be created: ca.key, ca.pem, ca.srl, server.key, server.pem, server.csr, client.key, client.pem, client.csr. ### 4. Get the detail of generating certificate files The implementation of SSL or TSL mutual authentication involves a client, a server, and a certificate authority (CA). A CA is used to ensure that the certificate between a client and a server is legal. > Tips: Run ```man openssl``` or see [the openssl manual page](https://www.openssl.org/docs/) for more information about using the OpenSSL command. - Generate an RSA private key for the ca. ```shell openssl genpkey -algorithm RSA -out ca.key ``` - Request to generate a CA certificate. You need to provide the basic information about the CA in this step. And you can get a ca.pem file , a CA certificate that can be used to generate client-server certificates. Choose the x509 option to skip the request and directly generate a self-signing certificate. ```shell openssl req -new -x509 -key ca.key -out ca.pem -days 3650 -subj "/C=$Country/ST=$State/L=$Location/O=$Organization/OU=$Organizational/CN=$CommonName" ``` Generating a server certificate involves three steps and is similar to generating a client certificate. - Generate a server private key. You will get a ```server.key``` file. ```shell openssl genpkey -algorithm RSA -out server.key ``` - Generate a certificate signing request file, and provide the required information about the server. After running the following command, you will get a ```server.csr``` file. ```shell openssl req -new -nodes -key server.key -out server.csr -days 3650 -subj "/C=$Country/O=$Organization/OU=$Organizational/CN=$CommonName" -config ./openssl.cnf -extensions v3_req ``` - Open the ```server.csr```, the ```ca.key``` and the ```ca.pem``` files to sign the certificate. The ```CAcreateserial``` command option is used to create a CA serial number file if it does not exist. You will get ```aca.srl``` file after choosing this command option. ```shell openssl x509 -req -days 3650 -in server.csr -out server.pem -CA ca.pem -CAkey ca.key -CAcreateserial -extfile ./openssl.cnf -extensions v3_req ``` ## Modify Milvus Server config Modify tlsEnabled to true and the file path in config/milvus.yaml. The ```server.pem```, ```server.key```, and ```ca.pem``` files for the server need to be configured. ```yaml tls: serverPemPath: configs/cert/server.pem serverKeyPath: configs/cert/server.key caPemPath: configs/cert/ca.pem common: security: tlsMode: 2 ``` ### One-way authentication Server need server.pem and server.key. Client-side need server.pem. ### Two-way authentication Server-side need server.pem, server.key and ca.pem. Client-side need client.pem, client.key, ca.pem. ## Connect to the Milvus server with TLS You should note the file paths of ```client.pem```, ```client.key```, and ```ca.pem``` files for the client when using the Milvus SDK. The following example uses the Milvus Python SDK. ```python3 from pymilvus import connections _HOST = '127.0.0.1' _PORT = '19530' print(f"\nCreate connection...") connections.connect(host=_HOST, port=_PORT, secure=True, client_pem_path="cert/client.pem", client_key_path="cert/client.key", ca_pem_path="cert/ca.pem", server_name="localhost") print(f"\nList connections:") print(connections.list_connections()) ``` If you want to know more details of this case, please refer to [example_tls1.py](https://github.com/milvus-io/pymilvus/blob/master/examples/example_tls1.py) and [example_tls2.py](https://github.com/milvus-io/pymilvus/blob/master/examples/example_tls2.py).