KMIP Reference
The Key Management Interoperability Protocol (KMIP) is a communication protocol that facilitates key management and cryptographic operations on a key management server. This section provides additional user information and specifications applicable to the KMIP interface of CipherTrust Manager.
Setting up a KMIP Client
Here are the prerequisites for allowing KMIP clients to connect to CipherTrust Manager:
The CipherTrust Manager server's KMIP port 5696 should be open from the client.
The CipherTrust Manager server supports the following TLS versions:
TLS version 1.0
TLS version 1.1
TLS version 1.2 (default minimum)
TLS version 1.3
Caution
TLS 1.0 and 1.1 are deprecated and support will be discontinued in a future release.
KMIP Parameter: kmip_enable_hard_delete
This optional parameter enables a hard delete of keys on a "KMIP Destroy" operation. This means that both meta-data and material are removed from CipherTrust Manager for the key being deleted. By default, only key material is removed and meta-data is preserved with the updated key state. This setting applies only to the KMIP interface. Should be set to '1' for enabling this feature or '0' for returning to the default behavior.
KMIP Licensing
The KMIP interface is active for a 90-day trial period after CipherTrust Manager is installed. After the trial period expires, a new purchased KMIP license must be installed to use the KMIP interface. Contact Thales Customer Support for assistance in obtaining a license.
To activate a license using the GUI
Activating a KMIP license requires a license string for the CipherTrust Manager with which the clients will be registered. This string is generated when a license is activated on the Sentinel EMS License Portal.
Refer to Activating a Connector License for details.
After the KMIP license is activated, it state becomes Active on the Features tab of the Licensing page of the CipherTrust Manager GUI. The license is displayed with the feature name KMIP.
KMIP Client Registration
CipherTrust Manager recognizes only registered KMIP clients.
For registering a KMIP client, a certificate is required. The certificate facilitates authentication and communication between CipherTrust Manager and the client.
You can register KMIP clients using following methods:
Using Auto Registration (using an existing certificate)
Auto registration is useful when the clients are having certificates from the Classic KeySecure, or from older versions of CipherTrust Manager, or certificates issued by External CAs.
If you are already having one of the above certificate, you can utilize it to register your KMIP client, or to upgrade to a newer version of CipherTrust Manager. For detailed steps, refer to the section KMIP Client Registration for existing CipherTrust Manager and external CA(s).
Using New Certificate
You can create a new certificate using the local CA on the CipherTrust Manager. You can also register new KMIP client using a certificate signed by an external CA. For detailed steps, refer to the section To Register a new KMIP Client.
Note
CipherTrust Manager 2.2.0 onward, it is mandatory to register the KMIP clients.
Specifying LDAP and Multi-Domain Client Usernames in KMIP Certificates
The connection and/or username can be specified in following formats:
<username>
- A local user in the root domain. For example, joe.<ldap-connection>|<username>
An LDAP user in the root domain. For example, ldap-connection|joe.
<domain-id>|<ldap-connection>|<username>
An LDAP user in a specific domain. For example, domain-id|ldap-connection|joe.
<domain-id>||<username>
A local user in a specific domain. For example, domain-id||joe.
When browsing the GUI, users can be identified from the source property. The user is displayed in either of the formats listed above. A local user is displayed as local|<username>
.
KMIP Client Registration for existing CipherTrust Manager and external CA(s)
Create a registration token to register KMIP clients.
Request
ksctl clientmgmt tokens create --configfile config_example.yaml
Response
{ "id": "dd8289f4-adbe-412f-9191-320bf2bac847", "uri": "kylo:kylo:munshi:tokens:dd8289f4-adbe-412f-9191-320bf2bac847", "account": "kylo:kylo:admin:accounts:kylo", "application": "ncryptify:gemalto:admin:apps:kylo", "devAccount": "ncryptify:gemalto:admin:accounts:gemalto", "createdAt": "2019-12-19T05:52:36.590956451Z", "updatedAt": "2019-12-19T05:52:36.590956451Z", "token": "RwIgd6RfXd7kzri12ydzoeFXsA2R9ju2YDxMv2xM9duQbqAhcKcyMQO2OpqZesti", "valid_until": "0001-01-01T00:00:00Z", "max_clients": -1, "cert_duration": 730, "clients_registered": 0, "ca_id": "713172e0-02be-48c2-be60-6aae964ce943", "label": null }
Update the KMIP Interface for which you want to allow Auto registration of KMIP clients. For auto registration, the client certificate which is to registered should be signed by the trusted CA for the interface. To update the KMIP interface, run the ksctl interfaces modify command with the following parameters.
-a
(true
|false
) is for enabling or disabling auto registration-r
is for providing registration token as input
If
-a
is set totrue
, then providing registration token in-r
is mandatory.Note
A new KMIP interface can also be created with the
-a
and-r
parameters.Note
If the client is auto registered using the
tls-pw-opt
mode, then that certificate cannot be used to connect via the other two modes,tls-cert-pw-opt
andtls-cert-and-pw
.Request to update interface with auto registration on:
ksctl interfaces modify -n kmip -a true -r RwIgd6RfXd7kzri12ydzoeFXsA2R9ju2YDxMv2xM9duQbqAhcKcyMQO2OpqZesti --configfile config_example.yaml
Response
{ "id": "54523325-62d0-40d4-a45e-f45b9e1679e7", "name": "kmip", "mode": "tls-cert-pw-opt", "cert_user_field": "CN", "auto_gen_ca_id": "kylo:kylo:naboo:localca:713172e0-02be-48c2-be60-6aae964ce943", "trusted_cas": { "local": ["kylo:kylo:naboo:localca:713172e0-02be-48c2-be60-6aae964ce943"] }, "createdAt": "2019-12-13T03:27:28.767622Z", "updatedAt": "2019-12-19T05:55:26.362558Z", "default_connection": "local_account", "port": 5696, "network_interface": "all", "interface_type": "kmip", "minimum_tls_version": "tls_1_2", "local_auto_gen_attributes": { "cn": "kmip.keysecure.local", "email_addresses": [ "support@gemalto.com" ], "names": [ { "C": "US", "ST": "MD", "L": "Belcamp", "O": "Gemalto", "OU": "" } ], "generated": false }, "auto_registration": true, "registration_token":"RwIgd6RfXd7kzri12ydzoeFXsA2R9ju2YDxMv2xM9duQbqAhcKcyMQO2OpqZesti" }
Note
cert_user_field
specifies how the user name is extracted from the client certificate. The default value isCN
. This user must already exist. This parameter must be one of the following:CN: common name
OU: organizational unit
SN: surname
E: Email address
UID: User ID
E_ND: Email without domain; the data to the left of the @ sign in the email address is taken as the user name
Connect to the KMIP interface using the client certificate you want to register. It will automatically register the KMIP client corresponding to that certificate.
Note
If the client is mistakenly registered without a username, then you need to manually delete the registered client, before creating a new client. To delete a registered client, log into the console, navigate to KMIP > Registered Clients, and delete the client.
To Register a new KMIP Client
Create a json file for specifying properties to create a KMIP Client Profile. A KMIP client profile contains a set of properties, on basis of which, the KMIP client gets registered. There are two ways to create a profile:
Using csr
Using csr parameter
A detailed explanation of input parameters is provided after the examples.
profile.json: This file is a user input to CLI for providing profile parameters.
Note
The profile.json is just a place holder for name of file, user can choose any name for this file.
Note
To register a KMIP client using a client certificate generated by an external CA, during profile creation, the
cert_user_field
parameter is mandatory; whereas, the csr and csr parameters are not required.To register a KMIP client in a domain, first, authenticate the client in that domain using any of the domain authentication methods.
Example 1
{ "cert_user_field": "CN", "csr": "-----BEGIN CERTIFICATE REQUEST-----\nMIIBCDCBjwIBADAQM...T0KnChXGc6JazA==\n-----END CERTIFICATE REQUEST-----\n" }
Example 2
{ "cert_user_field": "CN", "csr_cn": "user1", "csr_org_name": "Thales", "csr_org_unit": "Security", "csr_email": "abc@example.com", "csr_city": "Noida", "csr_state": "UP", "csr_country": "IN" }
** Parameter Explanation**
cert_user_field
: Specifies how the user name is extracted from the client certificate. The default value isCN
. This user must already exist. For more information, click here.Note
After registering the new KMIP client, cert_user_field setting of profile is used instead of the setting present in the interface.
csr: This is certificate signing request. The common name specified in CSR will be used to authenticate KMIP request.
Note
If the user is not present, then profile registration will fail.
Other parameters
If CSR is not provided, then CipherTrust Manager creates CSR using below input parameters from
profile.json
:csr_cn
: Common Name used to create CSR.csr_org_name
: Organization name to be used in CSR.csr_uid
: User ID used to create CSR.csr_org_unit
: Organizational unit to be used in CSR.csr_email
: Email address to be used in CSR.csr_city
: City name to be used in CSR.csr_state
: State name to be used in CSR.csr_country
: Country name to be used in CSR.
(Optional Step) Create a json file (for example,
device_cred.json
) for specifying device credential properties.Note
This step is optional and should be performed only when it is desired to authenticate the KMIP Client using device credentials.
Example 1
All fields in the example are optional, however, at least one field must be specified for a successful authentication using device credentials.
{ "serial_no": "12345", "password": "example_password_123", "device_id": "example_device_ID", "network_id": "sample_Network_ID", "machine_id": "MAC123456789", "media_id": "Media123456789" }
Parameters
serial_no
: Serial number of the device, for example the hardware serial number of the device.password
: Password for the device.device_id
: Device Identifier of the device.network_id
: Network identifier of the device, for example the MAC address for Ethernet connected devices.machine_id
: Machine identifier of the device, for example the client aggregator identifier, such as a tape library aggregating tape drives.media_id
: Media identifer of the device, for example the volume identifier used for a tape cartridge.
Create the KMIP profile using the json file created in step 1.
Request
ksctl kmip createprofile -p kmipprofile1 -c profile.json --configfile config_example.yaml
Note
If using device credentials, use the following request instead:
ksctl kmip createprofile -p kmipprofile1 -c profile.json -d device_cred.json --configfile config_example.yaml
Here,
device_cred.json
is the device credential file created in previous step.Response
{ "account": "kylo:kylo:admin:accounts:kylo", "application": "ncryptify:gemalto:admin:apps:kylo", "createdAt": "2019-12-18T10:19:32.745104774Z", "devAccount": "ncryptify:gemalto:admin:accounts:gemalto", "id": "70d92635-7e9f-4a9b-9161-d7f41b4e0109", "name": "kmipprofile1", "properties": { "csr_cn": "rajesh" }, "updatedAt": "2019-12-18T10:19:32.745104774Z", "uri": "kylo:kylo:nae:kmip_profile:kmipprofile1" }
Create a registration token using the profile created in the previous step.
If client registration is through local CA:
Request
ksctl kmip createkmipregtoken –p kmipprofile1 --configfile config_example.yaml
Note
The
profile_name
is required and must be present in the system before creating a registration token.Response
{ "id": "6b8f5397-b738-4160-8c39-7979bae280aa", "uri": "kylo:kylo:munshi:tokens:6b8f5397-b738-4160-8c39-7979bae280aa", "account": "kylo:kylo:admin:accounts:kylo", "application": "ncryptify:gemalto:admin:apps:kylo", "devAccount": "ncryptify:gemalto:admin:accounts:gemalto", "createdAt": "2019-12-18T10:29:26.701363932Z", "updatedAt": "2019-12-18T10:29:26.701363932Z", "token": "LW0heyZNXHE9sEKmu7B0zVqnwHns42tahMVWJYUkP6I5CI67RQLS0EDkZ96UiocI", "valid_until": "0001-01-01T00:00:00Z", "max_clients": -1, "cert_duration": 730, "clients_registered": 0, "ca_id": "efe1d302-7ff4-46ca-a2a4-c4d9236cc0f8", "label": { "KmipClientProfile": "kmipprofile1" } }
If client registration is through external CA:
Request
ksctl kmip createkmipregtoken –p kmipprofile1 --configfile <config_example.yaml> --ca_id <CA-Id-of-the-External-CA>
Note
To register a client using external CA, make sure to upload the external CA to CipherTrust Manager, and the
ca_id
parameter must be set to the ID of the uploaded external CA.Response
{ "id": "6b8f5397-b738-4160-8c39-7979bae280aa", "uri": "kylo:kylo:munshi:tokens:6b8f5397-b738-4160-8c39-7979bae280aa", "account": "kylo:kylo:admin:accounts:kylo", "application": "ncryptify:gemalto:admin:apps:kylo", "devAccount": "ncryptify:gemalto:admin:accounts:gemalto", "createdAt": "2019-12-18T10:29:26.701363932Z", "updatedAt": "2019-12-18T10:29:26.701363932Z", "token": "LW0heyZNXHE9sEKmu7B0zVqnwHns42tahMVWJYUkP6I5CI67RQLS0EDkZ96UiocI", "valid_until": "0001-01-01T00:00:00Z", "max_clients": -1, "cert_duration": 730, "clients_registered": 0, "ca_id": "efe1d302-7ff4-46ca-a2a4-c4d9236cc0f8", "label": { "KmipClientProfile": "kmipprofile1" } }
Register the new KMIP client using the registration token generated in the previous step.
If client registration is through local CA:
Request
ksctl kmip register -n KmipClient2 -t LW0heyZNXHE9sEKmu7B0zVqnwHns42tahMVWJYUkP6I5CI67RQLS0EDkZ96UiocI --kmipCertOutFile ClientCert.pem --kmipKeyOutFile ClientKey.pem --configfile config_example.yaml
Response
{ "cert": "-----BEGIN CERTIFICATE-----4xq+8sZ6PuwxePopPD2HWB+uxjLjdaKbO1wz5AEk...- N3e2ajOow/ZC2FxtkipCIyYdlTJ7P\n-----END CERTIFICATE-----\n", "client_ca": "-----BEGIN CERTIFICATE-----\kXLCgQWnp2Kp445v2ZAyf3CUwWnBBUzLZdpDkUkQpaloJaMkNXU2KFVxjyDT7cXM... v5jwHaYfqXImDs0bC/UZyEo+bnwFlA==\n-----END CERTIFICATE-----\n", "client_id": "ac8c7131-7dc4-4b1e-ab42-3529b4c4a497", "csr": "-----BEGIN CERTIFICATE REQUEST-----\nwSnPtpvJZU9kac0...2LfMJxmbnmAug2YM/\n-----END CERTIFICATE REQUEST-----\n", "key": "-----BEGIN RSA PRIVATE KEY-----zMTurUlUu9S9dc89ajkKJ...TlkMA/Gx0IOkpH1zMbJLf6NEgaOZbC1tCLjxB6YjQIgHfrTqupc=\n-----END RSA PRIVATE KEY-----\n" }
If client registration is through external CA:
Request
ksctl kmip register -n KmipClient2 -t LW0heyZNXHE9sEKmu7B0zVqnwHns42tahMVWJYUkP6I5CI67RQLS0EDkZ96UiocI --configfile config_example.yaml --cert <Path-to-External-Client-Certificate>
Response
{ "cert": "-----BEGIN CERTIFICATE-----4xq+8sZ6PuwxePopPD2HWB+uxjLjdaKbO1wz5AEk...- N3e2ajOow/ZC2FxtkipCIyYdlTJ7P\n-----END CERTIFICATE-----\n", "client_ca": "-----BEGIN CERTIFICATE-----\kXLCgQWnp2Kp445v2ZAyf3CUwWnBBUzLZdpDkUkQpaloJaMkNXU2KFVxjyDT7cXM... v5jwHaYfqXImDs0bC/UZyEo+bnwFlA==\n-----END CERTIFICATE-----\n", "client_id": "ac8c7131-7dc4-4b1e-ab42-3529b4c4a497", "csr": "", "key": "" }
Note
To register a client using an external CA, the
cert
parameter should specify the path of the client certificate.Use Client Certificate and Client Private Key to connect with the server.
Supported Objects, Operations, and Attributes
The following KMIP Objects Types, Attributes, and Operations supported on CipherTrust Manager are in accordance with KMIP Specification Version 1.4.
Supported Object Types
Object | Object | Object |
---|---|---|
Symmetric Key | Public Key | Private Key |
Secret Data | Opaque Object | Certificate |
Supported Operations
Operation | Operation | Operation | Operation |
---|---|---|---|
Activate | Delete Attribute | Get Attributes List | Register |
Add Attribute | Destroy | Locate | Re-key |
Check | Discover Versions | MAC | Re-key Key Pair |
Create | Encrypt | MACV | Revoke |
Create Key Pair | Get | Modify Attribute | Sign |
Decrypt | Get Attributes | Query | SignV |
Note
CipherTrust Manager supports Wrapping and Unwrapping of Keys for Get and Register operations. To read more, go to Wrap/Unwrap support in KMIP for details.
Supported Attributes
Attribute | Attribute | Attribute |
---|---|---|
Unique Identifier | Name | Object Type |
Cryptographic Algorithm | Cryptographic Length | Cryptographic Parameters |
Cryptographic Domain Parameters | Cryptographic Usage Mask | Digital Signature |
State | Initial Date | Activation Date |
Process Start Date | Protect Stop Date | Deactivation Date |
Destroy Date | Compromise Occurrence Date | Compromise Date |
Revocation Reason | Link | Application Specific Information |
Contact Information | Object Group | Custom Attribute |
Fresh Attribute | Alternate Name | Digest Attribute |
Certificate Type | Certificate Length | X.509 Certificate Identifier |
X.509 Certificate Subject | X.509 Certificate Issuer | Certificate Identifier |
Certificate Subject | Certificate Issuer |
Note
For information on the above listed object Types, Operations, and Attributes, refer to the OASIS KMIP Documentation.
Note
Fresh Attribute
, Custom Attribute
, Application Specific Information
, and Digest Attribute
are stored in the Key Meta.
Note
If you are creating a key through UI, use Alias (KMIP Name) available in the Key Properties section to specify the KMIP key name.
Example 1
If a custom attribute (for example, AttributeName : x-attribute1, AttributeValue: value1
) is added to the key k1, then the attribute is stored in Key Meta as:
{
"kmip":{
"custom":[
{
"type":"TextString",
"x-attribute1":"Value1"
}
]
},
"ownerId":"local|261d8e87-73bb-4106-aa3d-06ed92e2f010",
"permissions":{
}
}
Example 2
If an application specific attribute (for example, application_data": "data", "application_namespace": "TestASi"
) is added to a key, then the attribute is stored in Key Meta as:
{
"kmip":{
"app_specific_info":[
{
"application_data":"data",
"application_namespace":"TestASi"
}
]
},
"ownerId":"local|261d8e87-73bb-4106-aa3d-06ed92e2f010",
"permissions":{
}
}
Wrap/Unwrap support in KMIP
Key wrapping is used for encrypting data keys. This provides an additional layer of security in protecting keys when they are at rest or are being transmitted over insecure networks. A variety of key wrapping algorithms can be used to encrypt the data keys. Similarly, unwrap mechanisms are used to decrypting the data keys.
CipherTrust Manager supports wrapping/unwrapping of keys under Get and Register operations.
Note
Only Symmetric and Private keys can be wrapped/unwrapped in KMIP.
Supported wrapping methods are:
Encrypt
MACSign
Note
For Encrypt Wrapping Method:
Only AES and RSA keys can be used to wrap the symmetric keys.
Only AES-256 keys can be used to wrap private keys.
Note
For MACSign Wrapping Method:
Only HMAC keys can be used for MAC request.
Only RSA keys can be used for Sign request.
Encrypt Wrapping Method
Symmetric Data Keys | Symmetric Data Keys | Private Data Keys |
---|---|---|
Supported BlockCipher Modes for AES wrap keys | Supported padding methods for RSA wrap keys | Supported BlockCipher Mode for AES wrap keys |
• NISTKeyWrap (RFC-3394) • AESKeyWrapPadding (RFC-5649) | • PKCS1V1_5 • OAEP Supported Hash Algorithms for OAEP padding method: • SHA_1 • SHA_256 • SHA_384 • SHA_512 | • AESKeyWrapPadding (RFC-5649) |
MACSign Wrapping Method for Symmetric and Private Keys
MAC Request | Sign Request | Sign Request |
---|---|---|
Supported HMAC algorithms for HMAC wrap keys | Supported padding methods for RSA wrap keys | Supported DigitalSignatureAlgorithms for RSA wrap keys |
• HMAC_SHA_1 • HMAC_SHA_256 • HMAC_SHA_384 • HMAC_SHA_512 | • PKCS1V1_5 (Default) • PSS Supported Hash Algorithms for above padding methods: • SHA_1 • SHA_256 • SHA_384 • SHA_512 | • SHA_1WithRSAEncryption • SHA_256WithRSAEncryption • SHA_384WithRSAEncryption • SHA_512WithRSAEncryption |
Supported Encodings
NoEncoding
TTLVEncoding
For more information, visit OASIS Key Management Interoperability Protocol Documentation.
Cryptographic Operations for KMIP
Using KMIP interface, you can perform following cryptographic operations:
Operations | Algorithms | Modes | Padding |
---|---|---|---|
Encrypt/Decrypt | AES | • ECB (default) • CBC • GCM • PKCS5 (default) • None | |
Encrypt/Decrypt | TDES | • ECB (default) • CBC | • PKCS5 (default) • None |
Encrypt/Decrypt | RSA | not applicable | • PKCS1V1_5 (default) • OAEP |
MAC/MACV | HMAC_SHA1 | not applicable | not applicable |
MAC/MACV | HMAC_SHA256 | not applicable | not applicable |
MAC/MACV | HMAC_SHA384 | not applicable | not applicable |
MAC/MACV | HMAC_SHA512 | not applicable | not applicable |
KMIP Interface Mode
The "interface mode" configuration parameter specifies the KMIP Interface mode, and must be one of the following:
tls-pw-opt: TLS, allow anonymous logins.
Username is not extracted from the client certificate.
If authentication request is sent in KMIP request, Username will be the owner of the key.
If authentication request is not sent in KMIP request, the Key Owner will be the ‘global’ user.
tls-cert-pw-opt: TLS, user name taken from client cert, auth request is optional.
Username is extracted from the registered client's Common Name specified during client's registration.
If authentication request is sent in KMIP request, then the Username in the authentication request will be the owner of the key.
tls-cert-and-pw: TLS, password is needed, user name specified during client's registration must match user name in authentication request.
Username is extracted from the registered client's Common Name specified during client's registration.
The inclusion of the authentication request in KMIP request is mandatory.
The Username in the authentication request must match with the registered client's Common Name specified during client's registration.
Tip
The interface mode can be changed using the API or the CLI "ksctl interfaces modify" command.
KMIP Interface mode mapping
Following table provides a mapping between the KMIP interfaces mode from SafeNet KeySecure Classic and CipherTrust Manager.
Safenet KeySecure Classic | CipherTrust Manager |
---|---|
Password authentication: Not Used Client cert authentication: SSL only | tls-pw-opt TLS, allow anonymous logins, verify client cert |
Password authentication: Optional Client cert authentication: SSL only | tls-pw-opt TLS, allow anonymous logins, verify client cert |
Password authentication: Required Client cert authentication: SSL only | tls-pw-req |
Password authentication: Not Used Client cert authentication: SSL with CN | tls-cert-pw-opt Verify client cert, user name taken from client cert, auth request is optional |
Password authentication: Optional Client cert authentication: SSL with CN | tls-cert-pw-opt Verify client cert, user name taken from client cert, auth request is optional |
Password authentication: Required Client cert authentication: SSL with CN | tls-cert-and-pw Verify client cert, password is needed, user name in cert must match user name in authentication request |
Managing KMIP Interface
You can add, remove, or modify KMIP interfaces.
To create a new KMIP interface
Example
ksctl interfaces create -o 5697 -y kmip
Response
{
"id": "90b3b131-d6d8-4985-abdd-539162c136c3",
"name": "kmip_all_5697",
"mode": "tls-cert-pw-opt",
"cert_user_field": "CN",
"auto_gen_ca_id": "kylo:kylo:naboo:localca:c729ffe0-f6ad-49ad-8558-2db435b112c7",
"trusted_cas": {
"local": [
"kylo:kylo:naboo:localca:c729ffe0-f6ad-49ad-8558-2db435b112c7"
]
},
"createdAt": "2019-08-22T10:10:28.05794Z",
"updatedAt": "2019-08-22T10:10:28.05794Z",
"default_connection": "local_account",
"port": 5697,
"network_interface": "all",
"interface_type": "kmip"
}
Note
Interface can only be created in Root domain. To use interfaces in other domains, add the domain certificate to the Local Trusted CA of the domain.
To modify TLS version of an interface:
ksctl interfaces modify -n -e
Here:
<interface name>
is KMIP interface name.<minimum tls version>
can betls_1_0
,tls_1_1
, ortls_1_2
.tls_1_1
andtls_1_0
are deprecated and will be discontinued in a future release.
Example
ksctl interfaces modify -n kmip_all_5697 -e tls_1_2
Response
{
"id": "6199c8d1-f59a-4bd1-8dfd-cf4d43900264",
"name": "kmip_all_5697",
"mode": "tls-cert-and-pw",
"cert_user_field": "CN",
"auto_gen_ca_id": "kylo:kylo:naboo:localca:afdebde8-a5ff-4cbd-9bb2-6dc5186e4c03",
"trusted_cas": {
"local": [
"kylo:kylo:naboo:localca:0a4bf97b-1294-41d2-93cd-d19e6290cfa3",
"kylo:kylo:naboo:localca:b7860db1-b7d1-4163-996e-22b14090d55a",
"kylo:kylo:naboo:localca:afdebde8-a5ff-4cbd-9bb2-6dc5186e4c03"
]
},
"createdAt": "2019-08-28T05:21:05.36768Z",
"updatedAt": "2019-08-28T07:41:38.62511Z",
"default_connection": "local_account",
"port": 5697,
"network_interface": "all",
"interface_type": "kmip",
"kmip_enable_hard_delete": 0,
"minimum_tls_version": "tls_1_2"
}
Viewing and Setting Log Level
You can view or change the log level of KMIP service using the "ksctl" CLI tool.
There are two subcommands in the logs command:
getlevel
: used for viewing the current log level of a servicesetlevel
: used for setting log level of a service
Using getlevel
To view the current log level for KMIP service, use the following request in CLI:
Request
ksctl logs getlevel --service kmip
Response
{
"level": "INF",
"service": "kmip"
}
Using setlevel
To set current log level to debug for KMIP service, use the following request in CLI:
*Request:
ksctl logs setlevel --service kmip --level debug
Response
{
"level": "DBG",
"service": "kmip"
}
Supported levels are:
error
orERR
info
orINF
debug
orDBG
Note
To view the logs, go to
/opt/keysecure/logs
directory on appliance.To download the logs, use ksctl logs download command.
Only users with administrator privileges can change or set the log level.
When the log level is set to
debug
, sensitive data fromdebug
logs is masked.
Note
Any ssl
connection related error message can be filtered from the log file based on ERR
and tls
tags.