5G (4.1)
- Jenni Wallin
- linda wong
- Yeok Hong Ng
If you want to use 5G with HTTP/2 agents, you require a 5G profile configuration. You can select the profile that you configure in the HTTP/2 Server agent configuration.
In the 5G profile configuration, enter the details required to register an NF (Network Function) instance in the NRF (NF Repository Function).
Configuration
The 5G profile consists of two tabs:
General Tab
5G Profile - General tab
| Setting | Description |
|---|---|
| Version Select | Select the version of 3GPP to apply to the 5G Profile. Note!
|
| Enable Custom Specification | Click this to use the custom version of the specification of NRF NFManagement Service. See Custom Specification Enabled for more information. Info! When enabling custom specification, all fields except for OpenAPI Profile and Enable Validation will be disabled. You need to use the Analysis agent or APL Code to create the Custom error handling for 5G during the startup can be configured at APL when the Route to APL option is enabled. See Route Error to APL for more information. |
| OpenAPI Profile | Select OpenAPI profile for specification of NRF NFManagement Service. |
| Enable Validation | Validate the request for NF (Network Function) registration, heartbeat and de-registration against the OpenAPI schema provided from OpenAPI profile. |
| Path | Enter the exact path to where the HTTP request will register, de-register and update the NF profile in the NRF. Example: /nnrf-nfm/v1/nf-instances/ |
| NF Instance name | Enter the name of the NF instance for the NF type that you want to use. This field supports parameterization using ${} syntax, see Profiles(4.1) for more information on how parameterization works. |
| NF type | A list of various NF types is available for selection. The default type is set to CHF (charging function). For more information on each NF type, refer to the specification in 3GPP TS 29.510, https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=3345. |
| Heartbeat timer | Enter the frequency (in seconds) for the NF registration to be updated in the NRF. |
| NF Registration status | Select the registration status that you want to have updated. The following status options are available:
|
| FQDN | Enter the Fully Qualified Domain Name (FQDN) for the NF instance. |
| Support NRF Change | Select this option to allow the NRF server to modify the heartbeat timer provided by the NRF client upon registration. |
| IPv4 Address List | Add the IPv4 address(es) for the NF instance. |
| IPv6 Address List | Add the IPv6 address(es) for the NF instance. |
Note!
You must enter at least an FQDN, an IPv4 address or an IPv6 address, but you are not required to make an entry for all of these fields. In addition, you can enter any combination of the three fields that you require.
Advanced Parameters Tab
5G Profile - Advanced parameters tab
In this tab, you can add settings in a JSON configuration in accordance with 6.2.6.2.3 "Type: NFProfile" as defined in the specification 3GPP TS 29.510, https://portal.3gpp.org/desktopmodules/Specifications/SpecificationDetails.aspx?specificationId=3345. See the example below:
Note!
Values set in the Advanced Parameters tab will override those set in the General tab.
Example - Json configuration of advanced parameter
{
"nfProfileChangesSupportInd": true,
"nfProfileChangesInd": true,
"allowedPlmns": [
{
"mcc":"262-01",
"mnc":"302-720"
}
],
"allowedNfTypes": [
"PCF",
"CHF"
],
"allowedNfDomains": [
"www.domainname.com"
]
}
This field supports parameterization using ${} syntax. For more information on parameterization see Profiles(4.1).
Example - Parameterized Json configuration of advanced parameter
{
"nfProfileChangesSupportInd": true,
"nfProfileChangesInd": true,
"allowedPlmns": [
{
"mcc":"${5g.mcc}",
"mnc":"${5g.mnc}"
}
],
"allowedNfTypes": [
"PCF",
"CHF"
],
"allowedNfDomains": [
"${5g.nfDomains}"
]
}
This example would result in three dynamic fields being generated and configurable per workflow:
5g - mcc
5g - mnc
5g - nfDomains
Custom Specification Enabled
When custom specification is enabled in 5G Profile, HTTP/2 Server agent will not perform registration of NF (Network Function) automatically during the startup of the workflow. The HTTP/2 Server agent will instead, wait to receive the NRFspecificationUDR in order to perform NF registration, heartbeat and de-registration. You can refer to the example below:
Example - HTTP/2 Server agent with 5G custom enabeld
The example workflow consists of HTTP/2 Server Agent with 5G Profile enabled and Analysis Agent to construct the NRFSpecificationUDR. When the workflow starts, the HTTP/2 Server Agent will route the NRFSpecificationUDR to the Analysis agent to construct the NRFSpecificationUDR as shown below. The constructed UDR is then routed back to the HTTP/2 Server Agent in order to perform the NF (Network Function) registration, heartbeat and de-registration.
consume {
if (instanceOf(input, NRFSpecificationUDR)) {
nrf.NRFSpecificationUDR udr = udrCreate(nrf.NRFSpecificationUDR);
udr.registerCycleUDR = constructRegUdr();
udr.heartbeatCycleUDR = constructHbUDR();
udr.deregisterCycleUDR = constructDeRegUDR();
udr.heartBeatFieldName = "heartBeatTimer";
udr.nfInstanceIdFieldName = "nfInstanceId";
udr.nfTypeFieldName = "nfType";
udr.nfProfileChangesSupportIndFieldName = "nfProfileChangesSupportInd";
udrRoute(udr);
}
}
RequestCycle constructRegUdr() {
// construct register UDR
NFProfile nfUdr = udrCreate(NFProfile);
nfUdr.nfInstanceId = "94d7f196-9d03-11eb-a8b3-0242ac130003";
nfUdr.heartBeatTimer = 5;
nfUdr.fqdn = "domain.my";
nfUdr.nfType = "CHF";
nfUdr.nfStatus = "REGISTERED";
nfUdr.nfProfileChangesSupportInd = false;
list<string> ipv4List = listCreate(string);
listAdd(ipv4List, "10.60.10.111");
list<string> ipv6List = listCreate(string);
listAdd(ipv6List, "2001:db8:85a3::8a2e:370:7334");
nfUdr.ipv4Addresses = ipv4List;
nfUdr.ipv6Addresses = ipv6List;
string jsonString = jsonEncodeUdr(nfUdr);
bytearray ba;
strToBA(ba, jsonString);
http.RequestCycle regUDR = udrCreate(http.RequestCycle);
map<string,list<string>> headersMap = mapCreate(string, list<string>);
list<string> contentList = listCreate(string);
listAdd(contentList, "application/json");
mapSet(headersMap, "Content-Type", contentList);
regUDR.headers = headersMap;
regUDR.method = "PUT";
regUDR.requestTimeout = 10000;
regUDR.body = ba;
regUDR.openAPIUDR = nfUdr;
regUDR.path = "/nnrf-nfm/v1/nf-instances/94d7f196-9d03-11eb-a8b3-0242ac130003";
return regUDR;
}
RequestCycle constructHbUDR() {
// construct heartbeat UDR
PatchItem patchUDR = udrCreate(PatchItem);
patchUDR.op = "replace";
patchUDR.path = "/nfstatus1";
patchUDR.value = "REGISTERED";
string jsonString = "[" + jsonEncodeUdr(patchUDR) + "]";
bytearray ba;
strToBA(ba, jsonString);
http.RequestCycle hbUDR = udrCreate(http.RequestCycle);
map<string,list<string>> hbHeadersMap = mapCreate(string, list<string>);
list<string> hbContentList = listCreate(string);
listAdd(hbContentList, "application/json-patch+json");
mapSet(hbHeadersMap, "Content-Type", hbContentList);
hbUDR.headers = hbHeadersMap;
hbUDR.method = "PATCH";
hbUDR.requestTimeout = 10000;
hbUDR.body = ba;
hbUDR.openAPIUDR = patchUDR;
hbUDR.path = "/nnrf-nfm/v1/nf-instances/94d7f196-9d03-11eb-a8b3-0242ac130003";
return hbUDR;
}
RequestCycle constructDeRegUDR() {
// construct de-registration UDR
http.RequestCycle udr = udrCreate(http.RequestCycle);
udr.method = "DELETE";
udr.requestTimeout = 10000;
udr.path = "/nnrf-nfm/v1/nf-instances/94d7f196-9d03-11eb-a8b3-0242ac130003";
return udr;
}