Tip
This is the documentation for the 24.06 version. Looking for the documentation of the latest version? Have a look here.
RESTCONF Service Setup with Certificate-Based Authentication and NACM¶
Use Case¶
RESTCONF is desirable for its ability to implement changes to TNSR remotely using the API, but allowing remote changes to TNSR also raises security concerns. When using RESTCONF, security is extremely important to protect the integrity of the router against unauthorized changes.
Note
RESTCONF deals in JSON output and input, which is easily parsed by a variety of existing libraries for programming and scripting languages.
Example Scenario¶
In this example, TNSR will be configured to allow access via RESTCONF, but the service will be protected in several key ways:
The RESTCONF service is configured for TLS to encrypt the transport
The RESTCONF service is configured to require a client certificate, which is validated against a private Certificate Authority known to TNSR
NACM determines if the certificate common-name (username) is allowed access to view or make changes via RESTCONF
The service will run in the
hostnamespace so it is exposed to the management network only, and not to public networks.
Item |
Value |
|---|---|
TNSR Hostname |
tnsr.example.com |
RESTCONF Username |
tnsr |
NACM Group Name |
admins |
Additional User |
anotheruser |
Host Interface Address |
198.51.100.2 |
TNSR Setup¶
Current versions of TNSR software setup a default RESTCONF configuration and
a set of basic PKI certificates sufficient to run and access the RESTCONF
daemon at boot time if one does not already exist. This is equivalent to running
the shortcut command below (pki generate-restconf-certs) and adding a
RESTCONF server setup in the host namespace.
This initial setup is good enough for basic RESTCONF purposes but can be customized and improved in several ways as described in the remainder of this recipe.
See also
Administrators who are satisfied with the default setup may want to skip ahead to Example Usage for usage examples or Adding More RESTCONF Users for information on how to allow additional users to access RESTCONF.
Generate Certificates¶
There are two ways to create the necessary PKI structure for the restconf server: Using the shortcut command or creating the PKI certificates manually.
Certificate Shortcut Command¶
The shortcut command generates a basic set of certificates for use with the RESTCONF service, but does not offer as much customization as generating the certificates manually.
See also
tnsr(config)# pki generate-restconf-certs length 4096 subject-alt-names tnsr.example.com 198.51.100.2
Generated new Certificates (and missing Keys - RSA 4096 bits):
CA cert/key : restconf-CA (New RSA key)
server side cert/key : restconf (New RSA key)
client side cert/key : restconf-client (New RSA key)
If this is sufficient, proceed ahead to Setup NACM, or continue reading to learn how to create the certificates manually instead.
Manually Generate Certificates¶
The PKI structure can also be generated manually for more fine-grained control, such as using different CA and certificate names, non-default digest options, different lifetimes, and different CN/SAN values.
Create a self-signed Certificate Authority:
tnsr(config)# pki private-key restconf-CA generate
tnsr(config)# pki signing-request settings clear
tnsr(config)# pki signing-request set common-name restconf-CA
tnsr(config)# pki signing-request set digest sha512
tnsr(config)# pki signing-request restconf-CA generate
tnsr(config)# pki signing-request restconf-CA sign self purpose ca
Create a certificate for the user tnsr, signed by restconf-CA:
tnsr(config)# pki private-key restconf-client generate key-length 4096
tnsr(config)# pki signing-request settings clear
tnsr(config)# pki signing-request set common-name tnsr
tnsr(config)# pki signing-request set digest sha512
tnsr(config)# pki signing-request restconf-client generate
tnsr(config)# pki signing-request restconf-client sign ca-name restconf-CA days-valid 365 digest sha512 purpose client
Create a certificate for the RESTCONF service to use. The common-name should be the hostname of the TNSR router, which should also exist in DNS:
tnsr(config)# pki private-key restconf generate key-length 4096
tnsr(config)# pki signing-request settings clear
tnsr(config)# pki signing-request set common-name tnsr.example.com
tnsr(config)# pki signing-request set subject-alt-names add hostname tnsr.example.com
tnsr(config)# pki signing-request set subject-alt-names add ipv4-address 198.51.100.2
tnsr(config)# pki signing-request set digest sha512
tnsr(config)# pki signing-request restconf generate
tnsr(config)# pki signing-request restconf sign ca-name restconf-CA days-valid 365 digest sha512 purpose server
Setup NACM¶
Disable NACM while making changes, to avoid locking out the account making the changes:
tnsr(config)# nacm disable
Set default policies:
tnsr(config)# nacm exec-default deny
tnsr(config)# nacm read-default deny
tnsr(config)# nacm write-default deny
Setup an admin group containing the default users plus tnsr, which
will match the common-name of the user certificate created above:
tnsr(config)# nacm group admin
tnsr(config-nacm-group)# member root
tnsr(config-nacm-group)# member tnsr
tnsr(config-nacm-group)# exit
Setup rules to permit any action by members of the admin group:
tnsr(config)# nacm rule-list admin-rules
tnsr(config-nacm-rule-list)# group admin
tnsr(config-nacm-rule-list)# rule permit-all
tnsr(config-nacm-rule)# module *
tnsr(config-nacm-rule)# access-operations *
tnsr(config-nacm-rule)# action permit
tnsr(config-nacm-rule)# exit
tnsr(config-nacm-rule-list)# exit
Enable NACM:
tnsr(config)# nacm enable
tnsr(config)# exit
Enable RESTCONF¶
Enable RESTCONF and configure it for TLS on port 443 with client certificate
authentication:
tnsr(config)# restconf
tnsr(config-restconf)# global authentication-type client-certificate
tnsr(config-restconf)# global server-ca-cert-path restconf-CA
tnsr(config-restconf)# global server-certificate restconf
tnsr(config-restconf)# global server-key restconf
tnsr(config-restconf)# server host 198.51.100.2 443 true
tnsr(config-restconf)# enable true
Client Configuration¶
On TNSR, export the CA certificate, user certificate, and user certificate key. This can be done individually or by using a PKCS#12 archive export.
Exporting separate CA, client certificate, and client key files¶
When exporting these entries, place the resulting files in a secure place on a
client system, in a directory with appropriate permissions, readable only by the
user. Additionally, the private key file must only be readable by the user. For
this example, the files will be placed in ~/tnsr/.
First, export the CA certificate. Copy and paste this into a local file, named
tnsr-restconf-CA.crt:
tnsr# pki ca restconf-CA get
-----BEGIN CERTIFICATE-----
[...]
-----END CERTIFICATE-----
Next, export the user certificate, copy and paste it and save in a local file
named tnsr-restconf-client.crt:
tnsr# pki certificate restconf-client get
-----BEGIN CERTIFICATE-----
[...]
-----END CERTIFICATE-----
Finally, export the user certificate private key, copy and paste it and save in
a local file named tnsr-restconf-client.key. Remember to protect this file
so it is only readable by this user:
tnsr# pki private-key restconf-client get
-----BEGIN PRIVATE KEY-----
[...]
-----END PRIVATE KEY-----
This example uses curl to access RESTCONF, so ensure it is installed and
available on the client computer.
Exporting a PKCS#12 archive¶
As an alternative to using the certificate and key separately, it’s also possible to export a PKCS#12 archive (PKCS#12 Archives) which contains the CA, client certificate, and client key. cURL and other utilities can utilize this archive for client certificate authentication.
When exporting the PKCS#12 archive, place the resulting file in a secure place on a client system, in a directory with appropriate permissions, readable only by the user. The archive bundle must be password-protected, but it’s still a best practice to ensure only the user has access to read the archive since it contains private key data.
Warning
Read through PKCS#12 Archives thoroughly and be aware of client platform requirements when choosing the algorithms used for encryption and hashing the archive. This recipe assumes the client is capable of using strong encryption.
To export an archive for the restconf-client certificate and key signed by
the CA restconf-CA, use the following command (all on one line):
tnsr# pki pkcs12 restconf-client generate export-password abc12345 ca-name restconf-CA
key-pbe-algorithm AES-256-CBC certificate-pbe-algorithm AES-256-CBC mac-algorithm sha256
The command will create a password-protected archive using the given password
(minimum 8 characters) and it will write the archive out to a file both in the
TNSR PKI store and in the current directory of the TNSR CLI client (e.g. the
tnsr user home directory, /home/tnsr/):
P12 restconf-client stored in /etc/pki/tls/tnsr/certs, copied to
./restconf-client-20231026152004.p12
Copy the .p12 file off TNSR using scp or another program capable of
using SCP, such as FileZilla. Then copy the file to the client, changing its
name if necessary. For example, to make it easier to use with cURL, rename it to
restconf-client.p12
Example Usage¶
This simple example shows fetching the contents of an ACL from RESTCONF as well as adding a new ACL entry. There are numerous possibilities here, for more details see the REST API documentation.
In this example, there is an existing ACL named blockbadhosts. It contains
several entries including a default allow rule with a sequence number of
5000.
These examples are all run from the client configured above.
Note
This is a simple demonstration using cURL and shell commands. This makes it easy to demonstrate how the service works, and how RESTCONF URLs are formed, but does not make for a good practical example.
In real-world cases these types of queries would be handled by a program or script that interacts with RESTCONF, manipulating data directly and a lot of the details will be handled by RESTCONF and JSON programming libraries.
cURL Differences for CA+Certificate files vs PKCS#12 Archive¶
The cURL syntax in the examples will vary depending on the client certificate export format.
For CA and certificate files exported separately, use this style:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
[...]
Replace the filenames as needed.
For a PKCS#12 archive, use the following style:
$ curl -f --cert-type P12 --cert ~/tnsr/restconf-client.p12:'abc12345' \
[...]
Replace the filename and password as needed.
The examples below use the separate file style syntax, but both methods work.
Retrive a specific ACL¶
Retrieve the entire contents of the blockbadhosts ACL:
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-X GET \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts
Output:
{
"netgate-acl:acl-list": [
{
"acl-name": "blockbadhosts",
"acl-description": "Block bad hosts",
"acl-rules": {
"acl-rule": [
{
"sequence": 1,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.14/32"
},
{
"sequence": 2,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.15/32"
},
{
"sequence": 555,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "5.5.5.5/32"
},
{
"sequence": 5000,
"acl-rule-description": "Default Permit",
"action": "permit",
"ip-version": "ipv4"
}
]
}
}
]
}
The cURL parameters and RESTCONF URL can be dissected as follows:
Item |
Value |
|---|---|
cURL Client Certificate |
|
cURL Client Certificate Key |
|
cURL CA Cert to validate TLS |
|
Request type (GET) |
|
RESTCONF Server protocol/host |
|
RESTCONF API location: |
|
ACL config area (prefix:name) |
|
ACL table |
|
ACL List, with restriction |
|
Note
Lists of items with a unique key can be restricted as shown above. The API
documentation also calls this out as well, showing an optional ={name} in
the query.
Retrieve a specific rule of a specific ACL¶
View only the default permit rule of the ACL:
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-X GET \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts/acl-rules/acl-rule=5000
Output:
{
"netgate-acl:acl-rule": [
{
"sequence": 5000,
"acl-rule-description": "Default Permit",
"action": "permit",
"ip-version": "ipv4"
}
]
}
The query is nearly identical to the previous one, with the following additional components:
Item |
Value |
|---|---|
ACL rules list |
acl-rules/ |
ACL rule, with restriction |
acl-rule=5000 |
Add a new rule to an existing ACL¶
Insert a new ACL rule entry with the following parameters:
Item |
Value |
|---|---|
Request Type |
|
Content Type |
|
ACL Name |
blockbadhosts |
ACL Rule Sequence |
10 |
ACL Rule Action |
deny |
ACL Rule Source Address |
10.222.111.222/32 |
The new data passed in the -d parameter is JSON but with all whitespace
removed so it can be more easily expressed on a command line.
Warning
The Content-Type header must be set when performing a write operation
such as PUT or PATCH. The value of the header must reflect the type
of data being sent. These examples use JSON, so the header is set to
application/yang-data+json. When submitting XML, it would be
application/yang-data+xml
The URL is the same as if the query is retrieving the rule in question.
Warning
Note the presence of the sequence number in both the supplied JSON data and in the URL. This must match.
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-H "Content-Type: application/yang-data+json" \
-X PUT \
-d '{"netgate-acl:acl-rule":[{"sequence": 10,"action":"deny","ip-version":"ipv4","src-ip-prefix":"10.222.111.222/32"}]}' \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts/acl-rules/acl-rule=10
Output: This command has no output when it works successfully.
Retrieve the contents of the ACL again to see that the new rule is now present:
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-X GET \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts
Output:
{
"netgate-acl:acl-list": [
{
"acl-name": "blockbadhosts",
"acl-description": "Block bad hosts",
"acl-rules": {
"acl-rule": [
{
"sequence": 1,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.14/32"
},
{
"sequence": 2,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.15/32"
},
{
"sequence": 10,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "10.222.111.222/32"
},
{
"sequence": 555,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "5.5.5.5/32"
},
{
"sequence": 5000,
"acl-rule-description": "Default Permit",
"action": "permit",
"ip-version": "ipv4"
}
]
}
}
]
}
Use PATCH to update data¶
When using the PUT method, the client must supply all data in an entry to be
replaced, even when only changing one small part. This makes it difficult to
change, for example, the description of an ACL without sending the content of
the ACL back in the request.
The PATCH method allows individual values to be replaced without requiring
all of the data to be sent. With PATCH, the client need only send the
modified values in a query, along with enough information to uniquely identify
the entry.
For example, to update the description of the blockbadhosts ACL using
PATCH, the client must only include the name of the ACL and the new
description. It does not need to include the entire content of the ACL and its
rules as it would with a PUT request.
Item |
Value |
|---|---|
Request Type |
|
Content Type |
|
ACL Name |
|
ACL Description |
|
The command is formatted in a similar manner to the PUT request in the
previous example.
Warning
The Content-Type header must be set when performing a write operation
such as PUT or PATCH. The value of the header must reflect the type
of data being sent. These examples use JSON, so the header is set to
application/yang-data+json. When submitting XML, it would be
application/yang-data+xml
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-H "Content-Type: application/yang-data+json" \
-X PATCH \
-d '{"netgate-acl:acl-list":[{"acl-name": "blockbadhosts","acl-description": "Block packets from bad hosts"}]}' \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts/
Output: This command has no output when it works successfully.
Retrieve the contents of the ACL again to see that the new description is now present:
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-X GET \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts
Output:
{
"netgate-acl:acl-list": [
{
"acl-name": "blockbadhosts",
"acl-description": "Block packets from bad hosts",
"acl-rules": {
"acl-rule": [
{
"sequence": 1,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.14/32"
},
{
"sequence": 2,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "203.0.113.15/32"
},
{
"sequence": 10,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "10.222.111.222/32"
},
{
"sequence": 555,
"action": "deny",
"ip-version": "ipv4",
"src-ip-prefix": "5.5.5.5/32"
},
{
"sequence": 5000,
"acl-rule-description": "Default Permit",
"action": "permit",
"ip-version": "ipv4"
}
]
}
}
]
}
Remove a specific rule from an ACL¶
Say that entry is no longer needed and it is safe to remove. That can be done
with a DELETE request for the URL corresponding to its sequence number:
Command:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-X DELETE \
https://tnsr.example.com/restconf/data/netgate-acl:acl-config/acl-table/acl-list=blockbadhosts/acl-rules/acl-rule=10
Output: This does not produce any output if it completed successfully.
Retrieve the contents of the ACL again to confirm it was removed.
Use POST to retrieve data from endpoints which require parameters¶
There are API endpoints that return state, configuration, or similar data which
require parameters to control the output. In these cases, rather than using
GET, the request type is POST.
For example, there is an endpoint to retrieve BGP status but it also has several parameters to change or filter the output.
Item |
Value |
|---|---|
Request Type |
|
Content Type |
|
RESTCONF API location |
|
Parameter Namespace |
|
Parameter: |
|
Parameter: |
|
Parameter: |
|
Assemble these parameters into a query with cURL or similar tools:
$ curl -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-H "Content-Type: application/yang-data+json" \
-X POST \
-d '{"netgate-bgp:input":[{"request":"neighbors","family":"ipv4","vrf-id":"default"}]}' \
https://tnsr.example.com/restconf/operations/netgate-bgp:bgp-show
Output (trimmed for brevity):
{
"netgate-bgp:output": {
"stdout": "BGP neighbor is 10.2.222.2[...]"
}
}
Handling shell output in RESTCONF responses¶
The previous example output from BGP status has output that is formatted for a terminal and not broken up into separate JSON fields. To improve handling of these types of responses, extract the data from the response and process it separately.
One way to accomplish this is with a JSON processing utility such as jq:
$ curl -s -f --cert ~/tnsr/tnsr-restconf-client.crt \
--key ~/tnsr/tnsr-restconf-client.key \
--cacert ~/tnsr/tnsr-restconf-CA.crt \
-H "Content-Type: application/yang-data+json" \
-X POST \
-d '{"netgate-bgp:input":[{"request":"neighbors","family":"ipv4","vrf-id":"default"}]}' \
https://tnsr.example.com/restconf/operations/netgate-bgp:bgp-show | \
jq -r '."netgate-bgp:output" .stdout' | \
grep 'BGP state'
After processing through jq and selecting the output node from the JSON
response it is returned to typical terminal style output without the JSON
encoding. At that point it can be run through typical shell utilities such as
grep, as in the example above.
The output from this command is a single line indicating the state of one BGP peer:
BGP state = Established, up for 00:14:12
Adding More RESTCONF Users¶
To create additional RESTCONF users, only two actions are required on TNSR:
Generate a certificate for the new user, and then add the user to NACM. This
example adds a new user named anotheruser.
Generate a new user certificate:
tnsr(config)# pki private-key anotheruser generate key-length 4096
tnsr(config)# pki signing-request settings clear
tnsr(config)# pki signing-request set common-name anotheruser
tnsr(config)# pki signing-request set digest sha512
tnsr(config)# pki signing-request anotheruser generate
tnsr(config)# pki signing-request anotheruser sign ca-name restconf-CA days-valid 365 digest sha512 purpose client
Add this user to the NACM admin group:
tnsr(config)# nacm group admin
tnsr(config-nacm-group)# member anotheruser
tnsr(config-nacm-group)# exit
Then, the user certificate can be exported and copied to a new client and used as explained previously.
See Also¶
Additional TNSR RESTCONF resources: