# Getting started ## Insane unsafe host super fast quickstart cd kernel_module ./make-host.sh If the compilation of any of the C files fails, e.g. because of kernel or toolchain differences that we don't control on the host, just rename it to remove the `.c` extension and try again: mv broken.c broken.c~ ./build_host Once you manage to compile, try it out with: sudo insmod hello.ko # Our module is there. sudo lsmod | grep hello # Last message should be: hello init dmest -T sudo rmmod hello # Last message should be: hello exit dmesg -T # Not present anymore sudo lsmod | grep hello Why this is very bad and you should be ashamed: - bugs can easily break you system. E.g.: - segfaults can trivially lead to a kernel crash, and require a reboot - your disk could get erased. Yes, this can also happen with `sudo` from userland. But you should not use `sudo` when developing newbie programs. And for the kernel you don't have the choice not to use `sudo` - even more subtle system corruption such as [not being able to rmmod](https://unix.stackexchange.com/questions/78858/cannot-remove-or-reinsert-kernel-module-after-error-while-inserting-it-without-r) - can't control which kernel version and build options to use. So some of the modules may simply not compile because of kernel API changes, since [the Linux kernel does not have a stable kernel module API](https://stackoverflow.com/questions/37098482/how-to-build-a-linux-kernel-module-so-that-it-is-compatible-with-all-kernel-rele/45429681#45429681). - can't control which hardware is used, notably the CPU architecture - can't step debug it with GDB easily The only advantage of using your host machine is that you don't have to wait some minutes / hours for the first build and waste a few Gigs of disk space. But you will soon find out that this is a very reasonable price to pay. ## Do the right thing and use a virtual machine Reserve 12Gb of disk: git clone --recursive https://github.com/cirosantilli/linux-kernel-module-cheat cd linux-kernel-module-cheat ./configure ./build ./run The first build will take a while ([GCC](https://stackoverflow.com/questions/10833672/buildroot-environment-with-host-toolchain), Linux kernel), e.g.: - 2 hours on a mid end 2012 laptop - 30 minutes on a high end 2017 desktop QEMU opens up, and you can run: root insmod /hello.ko insmod /hello2.ko rmmod hello rmmod hello2 This should print to the screen: hello init hello2 init hello cleanup hello2 cleanup which are `printk` messages from `init` and `cleanup` methods of those modules. Each module comes from a C file under `kernel_module/`. For module usage see: head kernel_module/modulename.c Also have a look for the userland test scripts / executables that may be present in the host with the same name as the module: /modulename.sh /modulename.out ## Rebuild If you make changes to the kernel modules or most configurations tracked on this repository, you can just use again: ./build ./run and the modified files will be rebuilt. If you change any package besides `kernel_module`, you must also request those packages to be reconfigured or rebuilt with extra targets, e.g.: ./build -t linux-reconfigure -t host-qemu-reconfigure Those aren't turned on by default because they take quite a few seconds. ## Filesystem persistency The root filesystem is persistent across: ./run date >f sync poweroff then: ./run cat f This is particularly useful to re-run shell commands from the history of a previous session with `Ctrl + R`. However, when you do: ./build the disk image gets overwritten by a fresh filesystem and you lose all changes. Remember that if you forcibly turn QEMU off without `sync` or `poweroff` from inside the VM, e.g. by closing the QEMU window, disk changes may not be saved. ## Message control We use `printk` a lot, and it shows on the QEMU terminal by default. If that annoys you (e.g. you want to see stdout separately), do: dmesg -n 1 See also: You can scroll up a bit on the default TTY with: Shift + PgUp but I never managed to increase that buffer: - - The superior alternative is to use text mode or a telnet connection. ## Text mode Show serial console directly on the current terminal, without opening a QEMU window: ./run -n To exit, just do a regular: poweroff This mode is very useful to: - get full panic traces when you start making the kernel crash :-) See also: - copy and paste commands and stdout output to / from host - have a large scroll buffer, and be able to search it, e.g. by using GNU `screen` on host If the system crashes and you can't can quit QEMU with `poweroff`, or if `poweroff` is just too slow for your patience, you can hard kill the VM with Ctrl-C X or: Ctrl-C A quit or on host: ./qemumonitor quit or: echo quit | ./qemumonitor See also: - - - - Limitations: - TODO: Ctrl + C kills the emulator for some setups (TODO which what exactly?), and not sent to guest processes. See: - - This is however fortunate when running QEMU with GDB, as the Ctrl + C reaches GDB and breaks. - Very early kernel messages such as `early console in extract_kernel` only show on the GUI, since at such early stages, not even the serial has been setup. ## Automatic startup commands When debugging a module, it becomes tedious to wait for build and re-type: root /modulename.sh every time. Instead, you can add your test commands to: cp rootfs_overlay/etc/init.d/S98 rootfs_overlay/etc/init.d/S99 vim S99 ./build ./run and they will be run automatically before the login prompt. `S99` is a git tracked convenience symlink to the gitignored `rootfs_overlay/etc/init.d/S99` Scripts under `/etc/init.d` are run by `/etc/init.d/rcS`, which gets called by the line `::sysinit:/etc/init.d/rcS` in `/etc/inittab`. ## Kernel version We try to use the latest possible kernel version: grep BR2_LINUX_KERNEL_VERSION buildroot/output.*~/.config or in QEMU: cat /proc/version or in the source: cd linux git log | grep -E ' Linux [0-9]+\.' | head Build configuration can be observed in guest with: zcat /proc/config.gz or on host: cat buildroot/output.*~/build/linux-custom/.config ## QEMU GUI is unresponsive Sometimes in Ubuntu 14.04, after the QEMU SDL GUI starts, it does not get updated after keyboard strokes, and there are artifacts like disappearing text. We have not managed to track this problem down yet, but the following workaround always works: Ctrl + Shift + U Ctrl + C root This started happening when we switched to building QEMU through Buildroot, and has not been observed on later Ubuntu. Using text mode is another workaround if you don't need GUI features. ## Debug QEMU When you start interacting with QEMU hardware, it is useful to see what is going on inside of QEMU itself. This is of course trivial since QEMU is just an userland program on the host, but we make it a bit easier with: ./run -q Then you could: b edu_mmio_read c And in QEMU: /pci.sh Just make sure that you never click inside the QEMU window when doing that, otherwise you mouse gets captured forever, and the only solution I can find is to go to a TTY with Ctrl + Alt + F1 and `kill` QEMU. You can still send key presses to QEMU however even without the mouse capture, just either click on the title bar, or alt tab to give it focus.