Check Vnf1 IPs
Variable Should Exist ${vnf_id1} msg=VNF1 is not available
- ${rc} ${stdout}= Run and Return RC and Output osm vnf-show ${vnf_id1} --literal | yq '.vdur[0].interfaces[] | select(.name == "${iface1_name}")' | yq '."ip-address"' | tr -d \\"
+ ${rc} ${stdout}= Run and Return RC and Output osm vnf-show ${vnf_id1} --literal | yq '.vdur[0].interfaces[] | select(.name == "${iface1_name}")' | yq -r '."ip-address"'
Should Be Equal As Integers ${rc} ${success_return_code} msg=${stdout} values=False
Should Match Regexp ${stdout} ${datanet1_prefix} msg=${stdout} doesn't match subnet's regexp ${datanet1_prefix}
Set Suite Variable ${vnf1_ip1} ${stdout}
Check Vnf2 IPs
Variable Should Exist ${vnf_id2} msg=VNF2 is not available
- ${rc} ${stdout}= Run and Return RC and Output osm vnf-show ${vnf_id2} --literal | yq '.vdur[0].interfaces[] | select(.name == "${iface1_name}")' | yq '."ip-address"' | tr -d \\"
+ ${rc} ${stdout}= Run and Return RC and Output osm vnf-show ${vnf_id2} --literal | yq '.vdur[0].interfaces[] | select(.name == "${iface1_name}")' | yq -r '."ip-address"'
Should Be Equal As Integers ${rc} ${success_return_code} msg=${stdout} values=False
Should Match Regexp ${stdout} ${datanet1_prefix} msg=${stdout} doesn't match subnet's regexp ${datanet1_prefix}
Set Suite Variable ${vnf2_ip1} ${stdout}
Check that ipv6 address_mode and ra_mode are set
- ${rc} ${vim_info}= Run and Return RC and Output osm vnf-show ${vnf_id1} --literal | yq '.vdur[] | select(."count-index" == 0)' | yq '.vim_info[].interfaces[].vim_info' | tr -d \\"
+ ${rc} ${vim_info}= Run and Return RC and Output osm vnf-show ${vnf_id1} --literal | yq '.vdur[] | select(."count-index" == 0)' | yq -r '.vim_info[].interfaces[].vim_info'
${subnet_id}= Get Regexp Matches ${vim_info} {ip_address: '2001:db8::.*', subnet_id: ([0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12})} 1
${subnet_info}= Get Subnet ${subnet_id}[0]
${json_object}= Convert String to JSON ${subnet_info}