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Identifying and Troubleshooting Common TCP Issues with Wireshark.md

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Identifying and Troubleshooting Common TCP Issues with Wireshark

How to identify the problem using Wireshark logs and suggest potential resolutions.

1. Connection Establishment Issues

Scenario: Clients are unable to establish a connection to the server.

Symptoms: SYN packets sent by the client do not receive SYN-ACK responses from the server.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
1       0.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460
2       1.000000    192.168.1.2     192.168.1.1     TCP      60     [TCP Retransmission] 49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460
3       2.000000    192.168.1.2     192.168.1.1     TCP      60     [TCP Retransmission] 49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460

Explanation:

  • Packet 1: The client (192.168.1.2) sends a SYN packet to the server (192.168.1.1).
  • Packets 2 & 3: The client retransmits the SYN packet because it did not receive a SYN-ACK response.

Resolution:

  • Verify Server Availability: Ensure the server is up and running.
  • Check Firewall Settings: Confirm that there are no firewall rules blocking the connection.
  • Network Configuration: Check for any network misconfigurations or issues with routing.

2. Retransmissions and Timeouts

Scenario: Delays in data transmission, leading to retransmitted packets.

Symptoms: Packets are retransmitted due to timeouts.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
10      3.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [PSH, ACK] Seq=1 Ack=1 Win=64240 Len=50
11      3.100000    192.168.1.1     192.168.1.2     TCP      60     [TCP Dup ACK 10#1] 80 → 49716 [ACK] Seq=1 Ack=1 Win=64240 Len=0
12      4.000000    192.168.1.2     192.168.1.1     TCP      60     [TCP Retransmission] 49716 → 80 [PSH, ACK] Seq=1 Ack=1 Win=64240 Len=50

Explanation:

  • Packet 10: The client sends data (PSH, ACK) to the server.
  • Packet 11: The server sends a duplicate ACK, indicating it didn't receive the expected data.
  • Packet 12: The client retransmits the data.

Resolution:

  • Network Stability: Ensure that the network is stable and free from high latency.
  • Packet Loss: Check for packet loss and resolve any underlying issues causing it (e.g., faulty hardware, congested links).

3. Duplicate ACKs and Fast Retransmits

Scenario: Multiple duplicate ACKs received, leading to fast retransmits.

Symptoms: Multiple duplicate ACKs and fast retransmissions occur.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
20      5.000000    192.168.1.1     192.168.1.2     TCP      60     [TCP Dup ACK 19#1] 80 → 49716 [ACK] Seq=1 Ack=51 Win=64240 Len=0
21      5.000500    192.168.1.1     192.168.1.2     TCP      60     [TCP Dup ACK 19#2] 80 → 49716 [ACK] Seq=1 Ack=51 Win=64240 Len=0
22      5.001000    192.168.1.2     192.168.1.1     TCP      60     [TCP Fast Retransmission] 49716 → 80 [PSH, ACK] Seq=51 Ack=1 Win=64240 Len=50

Explanation:

  • Packets 20 & 21: The server sends duplicate ACKs for the same sequence number, indicating a missing segment.
  • Packet 22: The client performs a fast retransmission of the missing segment.

Resolution:

  • Network Reliability: Improve network reliability to reduce the chances of packet drops.
  • Hardware Issues: Replace or repair any faulty network hardware that may be causing packet corruption or loss.

4. TCP Window Size Problems

Scenario: Reduced throughput due to small TCP window size.

Symptoms: Slow data transfer rates.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
30      6.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [ACK] Seq=101 Ack=101 Win=256 Len=0
31      6.100000    192.168.1.1     192.168.1.2     TCP      60     80 → 49716 [PSH, ACK] Seq=101 Ack=101 Win=256 Len=50

Explanation:

  • Packets 30 & 31: The TCP window size is set to a small value (256), limiting the amount of data that can be sent before waiting for an acknowledgment.

Resolution:

  • Window Size Adjustment: Adjust TCP window size settings on the endpoints to a suitable value to maximize throughput.
  • Network Latency: Ensure that network latency is minimized to allow for larger window sizes to be effective.

5. TCP Reset (RST) Issues

Scenario: Unexpected termination of connections.

Symptoms: TCP connections are reset unexpectedly.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
40      7.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [RST, ACK] Seq=151 Ack=151 Win=0 Len=0

Explanation:

  • Packet 40: The client sends a TCP reset (RST) packet, terminating the connection.

Resolution:

  • Application Errors: Check for application errors or misconfigurations that may be causing the connection to reset.
  • Protocol Violations: Ensure that there are no protocol violations causing the reset.

6. Throughput Analysis

Scenario: Low data transfer rates affecting application performance.

Symptoms: Data transfer rates are significantly lower than expected.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
50      8.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [ACK] Seq=201 Ack=201 Win=64240 Len=1000
51      8.100000    192.168.1.1     192.168.1.2     TCP      60     80 → 49716 [ACK] Seq=201 Ack=1201 Win=64240 Len=0
52      8.200000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [ACK] Seq=1201 Ack=201 Win=64240 Len=1000

Explanation:

  • Packets 50 & 52: The client sends data segments of 1000 bytes each.
  • Packet 51: The server acknowledges the data received.

Resolution:

  • Bottleneck Identification: Identify and resolve any bottlenecks in the network path.
  • Network Optimization: Optimize network settings and configurations to improve data transfer rates.

7. Using Statistics and Graphs

Wireshark provides powerful statistical tools:

  • TCP Stream Graphs: Statistics > TCP Stream Graphs
    • Time-Sequence Graphs: Visualize sequence numbers over time.
    • Round-Trip Time Graphs: Analyze round-trip times for packets.
    • Throughput Graphs: Measure data transfer rates.
  • IO Graphs: Statistics > IO Graphs for visualizing overall traffic patterns and identifying spikes or drops in traffic.

8. Saving and Exporting Logs

  • Save Capture: File > Save As... to save your captured traffic for later analysis.
  • Export Specific Packets: File > Export Specified Packets... to export filtered packets of interest.

9. Practical Examples and Case Studies

Example 1: Slow Website Load

Scenario: Users report that a website is loading slowly.

Capture: Filter HTTP traffic using tcp.port == 80.

Analysis:

  1. Check TCP Handshake: Ensure that the handshake completes successfully without delays.
  2. Look for Retransmissions: Identify any retransmitted packets that may be causing delays.
  3. Analyze Throughput: Use throughput graphs to see if data transfer rates are lower than expected.

Resolution:

  • Server Performance: Ensure that the server has sufficient resources and is not overloaded.
  • Network Congestion: Investigate and mitigate any network congestion issues.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
1       0.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460
2       0.001000    192.168.1.1     192.168.1.2     TCP      60     80 → 49716 [SYN, ACK] Seq=0 Ack=1 Win=64240 Len=0 MSS=1460
3       0.002000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [ACK] Seq=1 Ack=1 Win=64240 Len=0
4       0.010000    192.168.1.2     192.168.1.1     HTTP     500    GET /index.html HTTP/1.1
5       0.100000    192.168.1.1     192.168.1.2     TCP      60     [TCP Retransmission] 80 → 49716 [PSH, ACK] Seq=1 Ack=1 Win=64240 Len=50
6       0.200000    192.168.1.1     192.168.1.2     HTTP     1000   HTTP/1.1 200 OK

Example 2: Intermittent Connectivity

Scenario: Users experience intermittent connectivity to a service.

Capture: Filter traffic from affected clients.

Analysis:

  1. Check for Resets: Look for TCP reset packets indicating connection drops.
  2. Identify Timeouts: Identify any packets that are retransmitted due to timeouts.

Resolution:

  • Hardware Issues: Check for and replace any faulty network hardware.
  • Network Configuration: Ensure there are no misconfigurations causing intermittent drops.

Sample Log:

No.     Time        Source          Destination     Protocol Length Info
1       0.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460
2       0.001000    192.168.1.1     192.168.1.2     TCP      60     80 → 49716 [SYN, ACK] Seq=0 Ack=1 Win=64240 Len=0 MSS=1460
3       0.002000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [ACK] Seq=1 Ack=1 Win=64240 Len=0
4       5.000000    192.168.1.2     192.168.1.1     TCP      60     49716 → 80 [RST, ACK] Seq=1001 Ack=1001 Win=0 Len=0
5       5.100000    192.168.1.2     192.168.1.1     TCP      60     [TCP Retransmission] 49716 → 80 [SYN] Seq=0 Win=64240 Len=0 MSS=1460

If you have any suggestions, improvements, or additional examples that you would like to share, please help to contibute.