Select words/phrases from the dropdown menus to define the process of sending a message from host A
Fantastic news! We've Found the answer you've been seeking!
Question:
Select words/phrases from the dropdown menus to define the process of sending a message from host A to host D in the diagram below. Each phrase may be used zero or more times.
Description of Network Diagram:
Subnet #1 has the network address 198.137.25.0 / 24. Host A, Host B, and NIC #1 of Router A are connected to Subnet #1.
Host A: 198.137.25.2 and 22:33:44:55:66:77
Host B: 198.137.25.3 and 33:44:55:66:77:88
Subnet #2 has the network address 223.87.156.0 / 24. Host C, Host D, NIC #2 of Router A, and NIC #3 of Router B are connected to Subnet #2.
Host C: 223.87.156.3 and 66:77:88:99:AA:BB
Host D: 223.87.156.4 and 77:88:99:AA:BB:CC
- A finds that D belongs to a different subnet by checking ["A's IP Address", "RouterA's NIC#2 IP address", "A's MAC address", "RouterA's NIC#1 MAC address", "D's MAC address", "RouterA's NIC#2 MAC address", "D's IP address", "RouterA's NIC#1 IP address"] .
- A looks up ["D's MAC address", "A's IP Address", "A's MAC address", "RouterA's NIC#2 MAC address", "RouterA's NIC#1 IP address", "D's IP address", "RouterA's NIC#1 MAC address", "RouterA's NIC#2 IP address"] in its routing table.
- A uses ARP to get ["D's IP address", "A's MAC address", "RouterA's NIC#2 MAC address", "D's MAC address", "RouterA's NIC#1 IP address", "A's IP Address", "RouterA's NIC#1 MAC address", "RouterA's NIC#2 IP address"] .
- A creates frame with ["RouterA's NIC#2 MAC address", "RouterA's NIC#1 IP address", "A's MAC address", "RouterA's NIC#1 MAC address", "D's IP address", "D's MAC address", "A's IP Address", "RouterA's NIC#2 IP address"] as destination. Frame contains IP datagram with ["RouterA's NIC#2 MAC address", "RouterA's NIC#2 IP address", "RouterA's NIC#1 MAC address", "D's MAC address", "D's IP address", "RouterA's NIC#1 IP address", "A's MAC address", "A's IP Address"] as destination.
- A's NIC sends frame and RouterA's NIC receives it.
- RouterA removes IP datagram from frame, learns that its destination is [ Select ] ["RouterA's NIC#1 IP address", "D's MAC address", "RouterA's NIC#2 IP address", "RouterA's NIC#1 MAC address", "A's MAC address", "RouterA's NIC#2 MAC address", "A's IP Address", "D's IP address"] .
- RouterA uses ARP to get ["A's MAC address", "RouterA's NIC#1 IP address", "RouterA's NIC#1 MAC address", "D's IP address", "D's MAC address", "RouterA's NIC#2 IP address", "RouterA's NIC#2 MAC address", "A's IP Address"] .
- RouterA creates frame with ["A's IP Address", "RouterA's NIC#2 MAC address", "RouterA's NIC#1 MAC address", "D's MAC address", "A's MAC address", "RouterA's NIC#2 IP address", "RouterA's NIC#1 IP address", "D's IP address"] as destination. Frame contains IP datagram with ["RouterA's NIC#1 IP address", "D's IP address", "RouterA's NIC#2 IP address", "RouterA's NIC#1 MAC address", "RouterA's NIC#2 MAC address", "A's IP Address", "A's MAC address", "D's MAC address"] as destination.
- RouterA's NIC sends frame and D's NIC receives it.
Related Book For
Posted Date: