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The Question: Socket options SO_REUSEADDR and SO_REUSEPORT, how do they differ? Do they mean the same across all major operating systems?

The Answer: http://stackoverflow.com/a/14388707/1681994https://stackoverflow.com/a/14388707/1681994

I've run across this answer several times when working with socket programming; in most cases, it has even been more effective at explaining how socket reuse works than the official documentation.

In the most recent case, I was working with what was essentially a C++ UDP "client/server" program. As the client and server components each needed to be able to both send and receive data, they were effectively both servers (hence the quotes around "client/server"), and couldn't run on the same computer at the same time. I was curious to see if there was a way to connect the two programs on a single port (effectively using it as a broadcast address).

I stumbled across the SO_REUSEADDR and SO_REUSEPORT flags, which looked like what I wanted, but none of the documentation I found was particularly clear on how they worked. When I found this answer, everything made sense; the confusion was due to cross-platform incompatibility, where it seemed every OS had decided to interpret the flags differently.

In addition to a solution to my problem (use a different port for the client; none of the implementations had the feature I was looking for), I discovered that SO_REUSEPORT can be used to load balance between application instances within the network stack in Linux, which may prove useful in a later stage of development.

The Question: Socket options SO_REUSEADDR and SO_REUSEPORT, how do they differ? Do they mean the same across all major operating systems?

The Answer: http://stackoverflow.com/a/14388707/1681994

I've run across this answer several times when working with socket programming; in most cases, it has even been more effective at explaining how socket reuse works than the official documentation.

In the most recent case, I was working with what was essentially a C++ UDP "client/server" program. As the client and server components each needed to be able to both send and receive data, they were effectively both servers (hence the quotes around "client/server"), and couldn't run on the same computer at the same time. I was curious to see if there was a way to connect the two programs on a single port (effectively using it as a broadcast address).

I stumbled across the SO_REUSEADDR and SO_REUSEPORT flags, which looked like what I wanted, but none of the documentation I found was particularly clear on how they worked. When I found this answer, everything made sense; the confusion was due to cross-platform incompatibility, where it seemed every OS had decided to interpret the flags differently.

In addition to a solution to my problem (use a different port for the client; none of the implementations had the feature I was looking for), I discovered that SO_REUSEPORT can be used to load balance between application instances within the network stack in Linux, which may prove useful in a later stage of development.

The Question: Socket options SO_REUSEADDR and SO_REUSEPORT, how do they differ? Do they mean the same across all major operating systems?

The Answer: https://stackoverflow.com/a/14388707/1681994

I've run across this answer several times when working with socket programming; in most cases, it has even been more effective at explaining how socket reuse works than the official documentation.

In the most recent case, I was working with what was essentially a C++ UDP "client/server" program. As the client and server components each needed to be able to both send and receive data, they were effectively both servers (hence the quotes around "client/server"), and couldn't run on the same computer at the same time. I was curious to see if there was a way to connect the two programs on a single port (effectively using it as a broadcast address).

I stumbled across the SO_REUSEADDR and SO_REUSEPORT flags, which looked like what I wanted, but none of the documentation I found was particularly clear on how they worked. When I found this answer, everything made sense; the confusion was due to cross-platform incompatibility, where it seemed every OS had decided to interpret the flags differently.

In addition to a solution to my problem (use a different port for the client; none of the implementations had the feature I was looking for), I discovered that SO_REUSEPORT can be used to load balance between application instances within the network stack in Linux, which may prove useful in a later stage of development.

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Techwolf
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The Question: Socket options SO_REUSEADDR and SO_REUSEPORT, how do they differ? Do they mean the same across all major operating systems?

The Answer: http://stackoverflow.com/a/14388707/1681994

I've run across this answer several times when working with socket programming; in most cases, it has even been more effective at explaining how socket reuse works than the official documentation.

In the most recent case, I was working with what was essentially a C++ UDP "client/server" program. As the client and server components each needed to be able to both send and receive data, they were effectively both servers (hence the quotes around "client/server"), and couldn't run on the same computer at the same time. I was curious to see if there was a way to connect the two programs on a single port (effectively using it as a broadcast address).

I stumbled across the SO_REUSEADDR and SO_REUSEPORT flags, which looked like what I wanted, but none of the documentation I found was particularly clear on how they worked. When I found this answer, everything made sense; the confusion was due to cross-platform incompatibility, where it seemed every OS had decided to interpret the flags differently.

In addition to a solution to my problem (use a different port for the client; none of the implementations had the feature I was looking for), I discovered that SO_REUSEPORT can be used to load balance between application instances within the network stack in Linux, which may prove useful in a later stage of development.