oD1Y | Linux embarqué avec Yocto |
Les travaux pratiques sont effectués sur une carte ARM QEMU | ||
Nous utilisons une version récente de "Kernel" | ||
Nous utilisons une version récente de Yocto |
Exercise : | Creating a toolchain with crosstool-ng |
Exercise : | Booting the board on NFS, using pre-existing images |
Exercise : | Configuring and compiling a target kernel for the target board |
Exercise : | Configuring and compiling Busybox and Dropbear | |
Exercise : | Creating a minimal root file system using busybox and dropbear |
Exercise : | Boot Linux automatically starts a user application |
Exercise : | Building an initrd root file system |
Exercise : | Building a root file system using Yocto | |
Exercise : | Use bitbake commands to build package & images | |
Exercise : | Building a root file system using Yocto | |
Exercise : | Build an extensible SDK for the generated image | |
Exercise : | Deploy the generated image |
Exercise : | Adding a new layer |
Exercise : | Writing a recipe for a local user-maintained package | |
Exercise : | Writing and debugging a package recipe for an autotools-based package | |
Exercise : | Starting a program at boot (systemd) |
Exercise : | Adding patches and dependencies to a community package | |
Exercise : | Adding a rootfsinstall task to directly copy the output of a user package in the rootfs image |
Exercise : | Create a class to generalize the “rootfsinstall” task |
Exercise : | Writing and building an image recipe | |
Exercise : | Add new users to the image | |
Exercise : | Create an image with package support for OTA deployment | |
Exercise : | Test OTA update on the generated image |