run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address after device bind"
+ # Sadly, the kernel allows binding a socket to a device and then
+ # binding to an address not on the device. So this test passes
+ # when it really should not
a=${NSA_LO_IP6}
log_start
- show_hint "Should fail with 'Cannot assign requested address'"
+ show_hint "Tecnically should fail since address is not on device but kernel allows"
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
- log_test_addr ${a} $? 1 "TCP socket bind to out of scope local address"
+ log_test_addr ${a} $? 0 "TCP socket bind to out of scope local address"
}
ipv6_addr_bind_vrf()
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
log_test_addr ${a} $? 0 "TCP socket bind to local address with device bind"
+ # Sadly, the kernel allows binding a socket to a device and then
+ # binding to an address not on the device. The only restriction
+ # is that the address is valid in the L3 domain. So this test
+ # passes when it really should not
a=${VRF_IP6}
log_start
+ show_hint "Tecnically should fail since address is not on device but kernel allows"
run_cmd nettest -6 -s -l ${a} -I ${NSA_DEV} -t1 -b
- log_test_addr ${a} $? 1 "TCP socket bind to VRF address with device bind"
+ log_test_addr ${a} $? 0 "TCP socket bind to VRF address with device bind"
a=${NSA_LO_IP6}
log_start