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Include the following files in your project tree from the µC/TCP-IP source code distribution, as indicated in Figure - µC/TCP-IP Source Code. In this figure, the IP folder only shows the subfolder IPv4 as an example. If you are running with IPv6, please add the IPv6 folder instead or add both IPv4 and IPv6 folders if you want your project to support both IP versions.
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As indicated in the Figure - µC/TCP-IP Source Code, all the files in the Source folder must be added to your project tree. Furthermore, if a TCP/IP port exists for your CPU architecture inside the Ports folder, you can also include it to your project files.
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\Micrium\Software\uC-TCPIP
\Micrium\Software\uC-TCPIP\Dev\WiFi\<device_name>
\Micrium\Software\uC-TCPIP\Dev\WiFi\Manager\Generic
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Next, you need to modify the WiFi device configuration template as needed by your application. Refer to section Memory Configuration and Wireless Interface Configuration for all the details on the parameters to configure.
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As previously mentioned, the µC/TCP-IP static configurations are located in the net_cfg.h file. For this getting started guide, the template file without modification should be enough to get you started. Depending on your Interface device configuration, it is possible that you would need to adjust the µC/TCP-IP queues' configurations as listed in µC/TCP-IP Static Configuration Modifications. Refer to section Static Stack Configuration for more details on the TCP-IP queues' configurations.
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The net_cfg.c file includes the three network task configurations. You will need to defined the priority of each of those tasks. The priorities will depend on the other tasks already present in your application. Refer to section Network Tasks Configuration for all the details on configuring the network tasks and their priority.
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The purpose of this example project is to setup a network host on the target board to allow it to communicate with other hosts on the network. Figure - Example Application Setup shows the project test setup for a target board with a WiFi interface. The target board has WiFi interface that allows the board to connect to a WiFi access point. In this example, a router acts as the access point and allows the PC to be on the same network as the board. The PC’s IP address is set to 10.10.10.111 and the target’s addresses will be configured to 10.10.10.64 as it will be shown in the next section Running the Example Application.
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