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diff --git a/poky/documentation/dev-manual/qemu.rst b/poky/documentation/dev-manual/qemu.rst new file mode 100644 index 000000000..766691b97 --- /dev/null +++ b/poky/documentation/dev-manual/qemu.rst @@ -0,0 +1,463 @@ +.. SPDX-License-Identifier: CC-BY-SA-2.0-UK + +******************************* +Using the Quick EMUlator (QEMU) +******************************* + +The Yocto Project uses an implementation of the Quick EMUlator (QEMU) +Open Source project as part of the Yocto Project development "tool set". +This chapter provides both procedures that show you how to use the Quick +EMUlator (QEMU) and other QEMU information helpful for development +purposes. + +Overview +======== + +Within the context of the Yocto Project, QEMU is an emulator and +virtualization machine that allows you to run a complete image you have +built using the Yocto Project as just another task on your build system. +QEMU is useful for running and testing images and applications on +supported Yocto Project architectures without having actual hardware. +Among other things, the Yocto Project uses QEMU to run automated Quality +Assurance (QA) tests on final images shipped with each release. + +.. note:: + + This implementation is not the same as QEMU in general. + +This section provides a brief reference for the Yocto Project +implementation of QEMU. + +For official information and documentation on QEMU in general, see the +following references: + +- `QEMU Website <https://wiki.qemu.org/Main_Page>`__\ *:* The official + website for the QEMU Open Source project. + +- `Documentation <https://wiki.qemu.org/Manual>`__\ *:* The QEMU user + manual. + +Running QEMU +============ + +To use QEMU, you need to have QEMU installed and initialized as well as +have the proper artifacts (i.e. image files and root filesystems) +available. Follow these general steps to run QEMU: + +1. *Install QEMU:* QEMU is made available with the Yocto Project a + number of ways. One method is to install a Software Development Kit + (SDK). See ":ref:`sdk-manual/intro:the qemu emulator`" section in the + Yocto Project Application Development and the Extensible Software + Development Kit (eSDK) manual for information on how to install QEMU. + +2. *Setting Up the Environment:* How you set up the QEMU environment + depends on how you installed QEMU: + + - If you cloned the ``poky`` repository or you downloaded and + unpacked a Yocto Project release tarball, you can source the build + environment script (i.e. :ref:`structure-core-script`): + :: + + $ cd ~/poky + $ source oe-init-build-env + + - If you installed a cross-toolchain, you can run the script that + initializes the toolchain. For example, the following commands run + the initialization script from the default ``poky_sdk`` directory: + :: + + . ~/poky_sdk/environment-setup-core2-64-poky-linux + +3. *Ensure the Artifacts are in Place:* You need to be sure you have a + pre-built kernel that will boot in QEMU. You also need the target + root filesystem for your target machine's architecture: + + - If you have previously built an image for QEMU (e.g. ``qemux86``, + ``qemuarm``, and so forth), then the artifacts are in place in + your :term:`Build Directory`. + + - If you have not built an image, you can go to the + :yocto_dl:`machines/qemu </releases/yocto/yocto-&DISTRO;/machines/qemu/>` area and download a + pre-built image that matches your architecture and can be run on + QEMU. + + See the ":ref:`sdk-manual/appendix-obtain:extracting the root filesystem`" + section in the Yocto Project Application Development and the + Extensible Software Development Kit (eSDK) manual for information on + how to extract a root filesystem. + +4. *Run QEMU:* The basic ``runqemu`` command syntax is as follows: + :: + + $ runqemu [option ] [...] + + Based on what you provide on the command + line, ``runqemu`` does a good job of figuring out what you are trying + to do. For example, by default, QEMU looks for the most recently + built image according to the timestamp when it needs to look for an + image. Minimally, through the use of options, you must provide either + a machine name, a virtual machine image (``*wic.vmdk``), or a kernel + image (``*.bin``). + + Here are some additional examples to help illustrate further QEMU: + + - This example starts QEMU with MACHINE set to "qemux86-64". + Assuming a standard + :term:`Build Directory`, ``runqemu`` + automatically finds the ``bzImage-qemux86-64.bin`` image file and + the ``core-image-minimal-qemux86-64-20200218002850.rootfs.ext4`` + (assuming the current build created a ``core-image-minimal`` + image). + + .. note:: + + When more than one image with the same name exists, QEMU finds + and uses the most recently built image according to the + timestamp. + + :: + + $ runqemu qemux86-64 + + - This example produces the exact same results as the previous + example. This command, however, specifically provides the image + and root filesystem type. + :: + + $ runqemu qemux86-64 core-image-minimal ext4 + + - This example specifies to boot an initial RAM disk image and to + enable audio in QEMU. For this case, ``runqemu`` set the internal + variable ``FSTYPE`` to "cpio.gz". Also, for audio to be enabled, + an appropriate driver must be installed (see the previous + description for the ``audio`` option for more information). + :: + + $ runqemu qemux86-64 ramfs audio + + - This example does not provide enough information for QEMU to + launch. While the command does provide a root filesystem type, it + must also minimally provide a `MACHINE`, `KERNEL`, or `VM` option. + :: + + $ runqemu ext4 + + - This example specifies to boot a virtual machine image + (``.wic.vmdk`` file). From the ``.wic.vmdk``, ``runqemu`` + determines the QEMU architecture (`MACHINE`) to be "qemux86-64" and + the root filesystem type to be "vmdk". + :: + + $ runqemu /home/scott-lenovo/vm/core-image-minimal-qemux86-64.wic.vmdk + +Switching Between Consoles +========================== + +When booting or running QEMU, you can switch between supported consoles +by using Ctrl+Alt+number. For example, Ctrl+Alt+3 switches you to the +serial console as long as that console is enabled. Being able to switch +consoles is helpful, for example, if the main QEMU console breaks for +some reason. + +.. note:: + + Usually, "2" gets you to the main console and "3" gets you to the + serial console. + +Removing the Splash Screen +========================== + +You can remove the splash screen when QEMU is booting by using Alt+left. +Removing the splash screen allows you to see what is happening in the +background. + +Disabling the Cursor Grab +========================= + +The default QEMU integration captures the cursor within the main window. +It does this since standard mouse devices only provide relative input +and not absolute coordinates. You then have to break out of the grab +using the "Ctrl+Alt" key combination. However, the Yocto Project's +integration of QEMU enables the wacom USB touch pad driver by default to +allow input of absolute coordinates. This default means that the mouse +can enter and leave the main window without the grab taking effect +leading to a better user experience. + +Running Under a Network File System (NFS) Server +================================================ + +One method for running QEMU is to run it on an NFS server. This is +useful when you need to access the same file system from both the build +and the emulated system at the same time. It is also worth noting that +the system does not need root privileges to run. It uses a user space +NFS server to avoid that. Follow these steps to set up for running QEMU +using an NFS server. + +1. *Extract a Root Filesystem:* Once you are able to run QEMU in your + environment, you can use the ``runqemu-extract-sdk`` script, which is + located in the ``scripts`` directory along with the ``runqemu`` + script. + + The ``runqemu-extract-sdk`` takes a root filesystem tarball and + extracts it into a location that you specify. Here is an example that + takes a file system and extracts it to a directory named + ``test-nfs``: + + .. code-block:: none + + runqemu-extract-sdk ./tmp/deploy/images/qemux86-64/core-image-sato-qemux86-64.tar.bz2 test-nfs + +2. *Start QEMU:* Once you have extracted the file system, you can run + ``runqemu`` normally with the additional location of the file system. + You can then also make changes to the files within ``./test-nfs`` and + see those changes appear in the image in real time. Here is an + example using the ``qemux86`` image: + + .. code-block:: none + + runqemu qemux86-64 ./test-nfs + +.. note:: + + Should you need to start, stop, or restart the NFS share, you can use + the following commands: + + - The following command starts the NFS share: + :: + + runqemu-export-rootfs start file-system-location + + - The following command stops the NFS share: + :: + + runqemu-export-rootfs stop file-system-location + + - The following command restarts the NFS share: + :: + + runqemu-export-rootfs restart file-system-location + +QEMU CPU Compatibility Under KVM +================================ + +By default, the QEMU build compiles for and targets 64-bit and x86 Intel +Core2 Duo processors and 32-bit x86 Intel Pentium II processors. QEMU +builds for and targets these CPU types because they display a broad +range of CPU feature compatibility with many commonly used CPUs. + +Despite this broad range of compatibility, the CPUs could support a +feature that your host CPU does not support. Although this situation is +not a problem when QEMU uses software emulation of the feature, it can +be a problem when QEMU is running with KVM enabled. Specifically, +software compiled with a certain CPU feature crashes when run on a CPU +under KVM that does not support that feature. To work around this +problem, you can override QEMU's runtime CPU setting by changing the +``QB_CPU_KVM`` variable in ``qemuboot.conf`` in the +:term:`Build Directory` ``deploy/image`` +directory. This setting specifies a ``-cpu`` option passed into QEMU in +the ``runqemu`` script. Running ``qemu -cpu help`` returns a list of +available supported CPU types. + +QEMU Performance +================ + +Using QEMU to emulate your hardware can result in speed issues depending +on the target and host architecture mix. For example, using the +``qemux86`` image in the emulator on an Intel-based 32-bit (x86) host +machine is fast because the target and host architectures match. On the +other hand, using the ``qemuarm`` image on the same Intel-based host can +be slower. But, you still achieve faithful emulation of ARM-specific +issues. + +To speed things up, the QEMU images support using ``distcc`` to call a +cross-compiler outside the emulated system. If you used ``runqemu`` to +start QEMU, and the ``distccd`` application is present on the host +system, any BitBake cross-compiling toolchain available from the build +system is automatically used from within QEMU simply by calling +``distcc``. You can accomplish this by defining the cross-compiler +variable (e.g. ``export CC="distcc"``). Alternatively, if you are using +a suitable SDK image or the appropriate stand-alone toolchain is +present, the toolchain is also automatically used. + +.. note:: + + Several mechanisms exist that let you connect to the system running + on the QEMU emulator: + + - QEMU provides a framebuffer interface that makes standard consoles + available. + + - Generally, headless embedded devices have a serial port. If so, + you can configure the operating system of the running image to use + that port to run a console. The connection uses standard IP + networking. + + - SSH servers exist in some QEMU images. The ``core-image-sato`` + QEMU image has a Dropbear secure shell (SSH) server that runs with + the root password disabled. The ``core-image-full-cmdline`` and + ``core-image-lsb`` QEMU images have OpenSSH instead of Dropbear. + Including these SSH servers allow you to use standard ``ssh`` and + ``scp`` commands. The ``core-image-minimal`` QEMU image, however, + contains no SSH server. + + - You can use a provided, user-space NFS server to boot the QEMU + session using a local copy of the root filesystem on the host. In + order to make this connection, you must extract a root filesystem + tarball by using the ``runqemu-extract-sdk`` command. After + running the command, you must then point the ``runqemu`` script to + the extracted directory instead of a root filesystem image file. + See the "`Running Under a Network File System (NFS) + Server <#qemu-running-under-a-network-file-system-nfs-server>`__" + section for more information. + +QEMU Command-Line Syntax +======================== + +The basic ``runqemu`` command syntax is as follows: +:: + + $ runqemu [option ] [...] + +Based on what you provide on the command line, ``runqemu`` does a +good job of figuring out what you are trying to do. For example, by +default, QEMU looks for the most recently built image according to the +timestamp when it needs to look for an image. Minimally, through the use +of options, you must provide either a machine name, a virtual machine +image (``*wic.vmdk``), or a kernel image (``*.bin``). + +Following is the command-line help output for the ``runqemu`` command: +:: + + $ runqemu --help + + Usage: you can run this script with any valid combination + of the following environment variables (in any order): + KERNEL - the kernel image file to use + ROOTFS - the rootfs image file or nfsroot directory to use + MACHINE - the machine name (optional, autodetected from KERNEL filename if unspecified) + Simplified QEMU command-line options can be passed with: + nographic - disable video console + serial - enable a serial console on /dev/ttyS0 + slirp - enable user networking, no root privileges is required + kvm - enable KVM when running x86/x86_64 (VT-capable CPU required) + kvm-vhost - enable KVM with vhost when running x86/x86_64 (VT-capable CPU required) + publicvnc - enable a VNC server open to all hosts + audio - enable audio + [*/]ovmf* - OVMF firmware file or base name for booting with UEFI + tcpserial=<port> - specify tcp serial port number + biosdir=<dir> - specify custom bios dir + biosfilename=<filename> - specify bios filename + qemuparams=<xyz> - specify custom parameters to QEMU + bootparams=<xyz> - specify custom kernel parameters during boot + help, -h, --help: print this text + + Examples: + runqemu + runqemu qemuarm + runqemu tmp/deploy/images/qemuarm + runqemu tmp/deploy/images/qemux86/<qemuboot.conf> + runqemu qemux86-64 core-image-sato ext4 + runqemu qemux86-64 wic-image-minimal wic + runqemu path/to/bzImage-qemux86.bin path/to/nfsrootdir/ serial + runqemu qemux86 iso/hddimg/wic.vmdk/wic.qcow2/wic.vdi/ramfs/cpio.gz... + runqemu qemux86 qemuparams="-m 256" + runqemu qemux86 bootparams="psplash=false" + runqemu path/to/<image>-<machine>.wic + runqemu path/to/<image>-<machine>.wic.vmdk + +``runqemu`` Command-Line Options +================================ + +Following is a description of ``runqemu`` options you can provide on the +command line: + +.. note:: + + If you do provide some "illegal" option combination or perhaps you do + not provide enough in the way of options, ``runqemu`` + provides appropriate error messaging to help you correct the problem. + +- `QEMUARCH`: The QEMU machine architecture, which must be "qemuarm", + "qemuarm64", "qemumips", "qemumips64", "qemuppc", "qemux86", or + "qemux86-64". + +- `VM`: The virtual machine image, which must be a ``.wic.vmdk`` + file. Use this option when you want to boot a ``.wic.vmdk`` image. + The image filename you provide must contain one of the following + strings: "qemux86-64", "qemux86", "qemuarm", "qemumips64", + "qemumips", "qemuppc", or "qemush4". + +- `ROOTFS`: A root filesystem that has one of the following filetype + extensions: "ext2", "ext3", "ext4", "jffs2", "nfs", or "btrfs". If + the filename you provide for this option uses "nfs", it must provide + an explicit root filesystem path. + +- `KERNEL`: A kernel image, which is a ``.bin`` file. When you provide a + ``.bin`` file, ``runqemu`` detects it and assumes the file is a + kernel image. + +- `MACHINE`: The architecture of the QEMU machine, which must be one of + the following: "qemux86", "qemux86-64", "qemuarm", "qemuarm64", + "qemumips", "qemumips64", or "qemuppc". The MACHINE and QEMUARCH + options are basically identical. If you do not provide a MACHINE + option, ``runqemu`` tries to determine it based on other options. + +- ``ramfs``: Indicates you are booting an initial RAM disk (initramfs) + image, which means the ``FSTYPE`` is ``cpio.gz``. + +- ``iso``: Indicates you are booting an ISO image, which means the + ``FSTYPE`` is ``.iso``. + +- ``nographic``: Disables the video console, which sets the console to + "ttys0". This option is useful when you have logged into a server and + you do not want to disable forwarding from the X Window System (X11) + to your workstation or laptop. + +- ``serial``: Enables a serial console on ``/dev/ttyS0``. + +- ``biosdir``: Establishes a custom directory for BIOS, VGA BIOS and + keymaps. + +- ``biosfilename``: Establishes a custom BIOS name. + +- ``qemuparams=\"xyz\"``: Specifies custom QEMU parameters. Use this + option to pass options other than the simple "kvm" and "serial" + options. + +- ``bootparams=\"xyz\"``: Specifies custom boot parameters for the + kernel. + +- ``audio``: Enables audio in QEMU. The MACHINE option must be either + "qemux86" or "qemux86-64" in order for audio to be enabled. + Additionally, the ``snd_intel8x0`` or ``snd_ens1370`` driver must be + installed in linux guest. + +- ``slirp``: Enables "slirp" networking, which is a different way of + networking that does not need root access but also is not as easy to + use or comprehensive as the default. + +- ``kvm``: Enables KVM when running "qemux86" or "qemux86-64" QEMU + architectures. For KVM to work, all the following conditions must be + met: + + - Your MACHINE must be either qemux86" or "qemux86-64". + + - Your build host has to have the KVM modules installed, which are + ``/dev/kvm``. + + - The build host ``/dev/kvm`` directory has to be both writable and + readable. + +- ``kvm-vhost``: Enables KVM with VHOST support when running "qemux86" + or "qemux86-64" QEMU architectures. For KVM with VHOST to work, the + following conditions must be met: + + - `kvm <#kvm-cond>`__ option conditions must be met. + + - Your build host has to have virtio net device, which are + ``/dev/vhost-net``. + + - The build host ``/dev/vhost-net`` directory has to be either + readable or writable and "slirp-enabled". + +- ``publicvnc``: Enables a VNC server open to all hosts. |