TCP Monitor Tool for TCP/IP Traffic

Monitor TCP connections for quality and responsiveness

Discover incoming connections

Discover incoming connections

With the Application Dependencies feature in SolarWinds® Server & Application Monitor (SAM), you can discover relationships between applications and application processes, and connections between applications, application processes, and nodes. When looking for a root cause of a TCP/IP traffic problem, you don’t have to search through many applications, nodes, and component monitors to determine why an application is slow. You can navigate to the incoming connections resource to display application dependencies and quickly pinpoint the source of issues.

Monitor network connections established by applications

Monitor network connections established by applications

When end users experience slow applications, it doesn’t have to be a problem on the systems side. Server & Application Monitor shows you the most important data about TCP connections, like network latency and packet loss. The Connection Details page shows you the entire communication stack from one node to another, which makes it a unique TCP monitoring and troubleshooting tool.

If you want broader visibility, you can easily monitor two or more ports in the same component template with the SAM TCP monitor. You can either create two individual TCP Port Monitors or you can create a Group and add the two component monitors as members.

Comprehensively monitor server hardware health

Comprehensively monitor server hardware health

Get a detailed view of the health status and performance of your multi-vendor server hardware. SAM notifies you before critical TCP server components, such as fan speed, temperature, power supply, CPU, battery, and hard drive status, fail. Quickly identify, resolve, and monitor TCP server hardware issues for Dell PowerEdge, HP ProLiant, IBM eServer xSeries servers, Dell PowerEdge Blade, HP BladeSystem enclosures, Microsoft Windows Server, and VMware vSphere hypervisor.

Keep track of TCP traffic on Linux

Keep track of TCP traffic on Linux

With SAM, it’s possible to have Linux monitor TCP traffic. With SolarWinds TCP port monitoring software, keeping track of TCP connections on Linux is simple.

If you want to monitor systems using the Orion® agent for Linux instead of SNMP, all you have to do is deploy agents to your monitored target nodes and then configure your target systems. If you’re using Orion for Linux, supply the port and the component monitor will test the ability of TCP/IP-based services to accept any incoming sessions.

Get More on TCP Monitor
Do you find yourself asking…
  • What is TCP monitoring?
  • Why is monitoring TCP port connections important?
  • How to monitor TCP performance with SAM
  • Related Features and Tools

  • What is TCP monitoring?

    TCP/IP monitoring is the process of monitoring the TCP/IP communication protocol and its associated traffic to ensure your network connections are functioning properly.

    To understand TCP monitoring, you first need to understand the TCP/IP communication protocols. The protocols are used to facilitate communication over the internet between physically separated computer systems without any compatibility issues. Transmission Control Protocol (TCP) and Internet Protocol (IP) are both effective and popular protocols that work as the layer of abstraction between the routing/switching fabric and applications. They also determine how your packets will be transmitted, addressed, routed, and received at their eventual destinations.

    A TCP monitor ensures this communication process goes off without a hitch. The TCP monitoring process typically consists of three stages:

    1. Discovery: First you need to pull information about your network, devices, and IP addresses to create a clear picture of your network traffic. Tools like Server & Application Monitor can create a visual map of the network.
    2. Monitoring: Next it’s time to start routinely monitoring the network traffic connections established by your applications to discover any performance issues.
    3. Troubleshooting: Finally, it’s time to resolve any issues that come up using the information collected by your TCP monitor.

  • Why is monitoring TCP port connections important?

    Monitoring TCP port connections is important because it helps ensure you don’t have performance issues that interfere with your network communication. Your TCP ports are where the actual communication happens, meaning if there are issues with those ports, you’ll see serious performance degradation as computers and applications can no longer communicate quickly and effectively.

    When your end users experience slow applications, the problem may be with the TCP connections. Latency and packet loss are two problems that can significantly reduce performance and slow down applications. TCP monitors can identify those problems fast no matter what kind of web server you’re using. Plus, when you use a quality TCP monitor on your Windows server or other system, you can identify exactly which port has the issue, so you can direct your troubleshooting accurately and not waste time searching for what could possibly be causing the performance degradation.

  • How to monitor TCP performance with SAM

    When it comes to monitoring TCP performance with SAM, there are a few steps you need to complete to set up a component monitor. From there, the tool will monitor for you, sending automated alerts whenever there’s an issue.

    To monitor TCP performance with SAM, follow these steps:

    1. Start by logging into the Orion web console
    2. Then navigate to Settings, All Settings, then SAM Settings, and Create New Template
    3. Give the template a unique name you can identify
    4. Add a component monitor to the template
    5. Next, add the TCP port monitor and then configure the port number
    6. Finally, click the submit button at the bottom of the page

    Once you’ve set up SAM TCP monitoring, you can also use the tool to discover incoming connections and map relationships between applications, application processes, and nodes, comprehensively monitor server hardware health, and more.

  • Related Features and Tools

    Other SolarWinds tools to help monitor TCP port:


    Related resources:

What is TCP monitoring?

TCP/IP monitoring is the process of monitoring the TCP/IP communication protocol and its associated traffic to ensure your network connections are functioning properly.

To understand TCP monitoring, you first need to understand the TCP/IP communication protocols. The protocols are used to facilitate communication over the internet between physically separated computer systems without any compatibility issues. Transmission Control Protocol (TCP) and Internet Protocol (IP) are both effective and popular protocols that work as the layer of abstraction between the routing/switching fabric and applications. They also determine how your packets will be transmitted, addressed, routed, and received at their eventual destinations.

A TCP monitor ensures this communication process goes off without a hitch. The TCP monitoring process typically consists of three stages:

  1. Discovery: First you need to pull information about your network, devices, and IP addresses to create a clear picture of your network traffic. Tools like Server & Application Monitor can create a visual map of the network.
  2. Monitoring: Next it’s time to start routinely monitoring the network traffic connections established by your applications to discover any performance issues.
  3. Troubleshooting: Finally, it’s time to resolve any issues that come up using the information collected by your TCP monitor.

Close
Why is monitoring TCP port connections important?

Monitoring TCP port connections is important because it helps ensure you don’t have performance issues that interfere with your network communication. Your TCP ports are where the actual communication happens, meaning if there are issues with those ports, you’ll see serious performance degradation as computers and applications can no longer communicate quickly and effectively.

When your end users experience slow applications, the problem may be with the TCP connections. Latency and packet loss are two problems that can significantly reduce performance and slow down applications. TCP monitors can identify those problems fast no matter what kind of web server you’re using. Plus, when you use a quality TCP monitor on your Windows server or other system, you can identify exactly which port has the issue, so you can direct your troubleshooting accurately and not waste time searching for what could possibly be causing the performance degradation.

Close
How to monitor TCP performance with SAM

When it comes to monitoring TCP performance with SAM, there are a few steps you need to complete to set up a component monitor. From there, the tool will monitor for you, sending automated alerts whenever there’s an issue.

To monitor TCP performance with SAM, follow these steps:

  1. Start by logging into the Orion web console
  2. Then navigate to Settings, All Settings, then SAM Settings, and Create New Template
  3. Give the template a unique name you can identify
  4. Add a component monitor to the template
  5. Next, add the TCP port monitor and then configure the port number
  6. Finally, click the submit button at the bottom of the page

Once you’ve set up SAM TCP monitoring, you can also use the tool to discover incoming connections and map relationships between applications, application processes, and nodes, comprehensively monitor server hardware health, and more.

Close
Related Features and Tools

Other SolarWinds tools to help monitor TCP port:


Related resources:

Close
"A properly configured SAM can take the task of watching your servers like a hawk off your shoulders. It's very reliable, and lets you know when it sees a problem. It allows your team to focus on the thousand other tasks your team has to work on."
Dan Lepinski
Systems Engineer
NativeX

Monitor all TCP/IP traffic connections of your applications and nodes

Server & Application Monitor

  • Automatic discovery of all application dependencies

  • Monitoring valuable TCP connection metrics, such as latency and packet loss

  • Asset inventory, hardware, operating system, virtualization, application, and database monitoring from one tool

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