2015-09-18 02:45:10 +02:00
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The goal of the libc crate is to have CI running everywhere to have the
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strongest guarantees about the definitions that this library contains, and as a
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result the CI is pretty complicated and also pretty large! Hopefully this can
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serve as a guide through the sea of scripts in this directory and elsewhere in
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this project.
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2015-09-18 02:52:13 +02:00
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# Files
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2015-09-18 02:45:10 +02:00
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First up, let's talk about the files in this directory:
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* `run-travis.sh` - a shell script run by all Travis builders, this is
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responsible for setting up the rest of the environment such as installing new
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packages, downloading Rust target libraries, etc.
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* `run.sh` - the actual script which runs tests for a particular architecture.
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Called from the `run-travis.sh` script this will run all tests for the target
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specified.
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* `cargo-config` - Cargo configuration of linkers to use copied into place by
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the `run-travis.sh` script before builds are run.
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* `dox.sh` - script called from `run-travis.sh` on only the linux 64-bit nightly
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Travis bots to build documentation for this crate.
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* `landing-page-*.html` - used by `dox.sh` to generate a landing page for all
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architectures' documentation.
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2016-01-18 20:16:38 +01:00
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* `run-qemu.sh` - see discussion about QEMU below
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* `mips`, `rumprun` - instructions to build the docker image for each respective
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CI target
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2015-09-18 02:52:13 +02:00
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# CI Systems
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Currently this repository leverages a combination of Travis CI and AppVeyor for
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running tests. The triples tested are:
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* AppVeyor
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* `{i686,x86_64}-pc-windows-{msvc,gnu}`
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* Travis
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2016-01-18 20:16:38 +01:00
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* `{i686,x86_64,mips,aarch64}-unknown-linux-gnu`
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2017-09-25 19:22:04 +02:00
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* `{x86_64,aarch64}-unknown-linux-musl`
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2016-01-18 20:16:38 +01:00
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* `arm-unknown-linux-gnueabihf`
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* `arm-linux-androideabi`
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* `{i686,x86_64}-apple-{darwin,ios}`
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* `x86_64-rumprun-netbsd`
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* `x86_64-unknown-freebsd`
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* `x86_64-unknown-openbsd`
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2015-09-18 02:52:13 +02:00
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The Windows triples are all pretty standard, they just set up their environment
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then run tests, no need for downloading any extra target libs (we just download
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the right installer). The Intel Linux/OSX builds are similar in that we just
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download the right target libs and run tests. Note that the Intel Linux/OSX
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builds are run on stable/beta/nightly, but are the only ones that do so.
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The remaining architectures look like:
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2015-10-30 00:34:55 +01:00
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* Android runs in a [docker image][android-docker] with an emulator, the NDK,
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and the SDK already set up. The entire build happens within the docker image.
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2016-01-18 20:16:38 +01:00
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* The MIPS, ARM, and AArch64 builds all use the QEMU userspace emulator to run
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the generated binary to actually verify the tests pass.
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2015-09-18 02:52:13 +02:00
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* The MUSL build just has to download a MUSL compiler and target libraries and
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then otherwise runs tests normally.
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2015-09-20 08:20:53 +02:00
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* iOS builds need an extra linker flag currently, but beyond that they're built
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as standard as everything else.
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2016-01-18 20:16:38 +01:00
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* The rumprun target builds an entire kernel from the test suite and then runs
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it inside QEMU using the serial console to test whether it succeeded or
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failed.
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* The BSD builds, currently OpenBSD and FreeBSD, use QEMU to boot up a system
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and compile/run tests. More information on that below.
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2015-09-18 02:52:13 +02:00
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2015-10-30 00:34:55 +01:00
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[android-docker]: https://github.com/rust-lang/rust-buildbot/blob/master/slaves/android/Dockerfile
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2016-01-18 20:16:38 +01:00
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## QEMU
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Lots of the architectures tested here use QEMU in the tests, so it's worth going
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over all the crazy capabilities QEMU has and the various flavors in which we use
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it!
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First up, QEMU has userspace emulation where it doesn't boot a full kernel, it
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just runs a binary from another architecture (using the `qemu-<arch>` wrappers).
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We provide it the runtime path for the dynamically loaded system libraries,
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however. This strategy is used for all Linux architectures that aren't intel.
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Note that one downside of this QEMU system is that threads are barely
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implemented, so we're careful to not spawn many threads.
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For the rumprun target the only output is a kernel image, so we just use that
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plus the `rumpbake` command to create a full kernel image which is then run from
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within QEMU.
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Finally, the fun part, the BSDs. Quite a few hoops are jumped through to get CI
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working for these platforms, but the gist of it looks like:
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* Cross compiling from Linux to any of the BSDs seems to be quite non-standard.
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We may be able to get it working but it might be difficult at that point to
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ensure that the libc definitions align with what you'd get on the BSD itself.
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As a result, we try to do compiles within the BSD distro.
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* On Travis we can't run a VM-in-a-VM, so we resort to userspace emulation
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(QEMU).
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* Unfortunately on Travis we also can't use KVM, so the emulation is super slow.
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With all that in mind, the way BSD is tested looks like:
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1. Download a pre-prepared image for the OS being tested.
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2. Generate the tests for the OS being tested. This involves running the `ctest`
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library over libc to generate a Rust file and a C file which will then be
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compiled into the final test.
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3. Generate a disk image which will later be mounted by the OS being tested.
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This image is mostly just the libc directory, but some modifications are made
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to compile the generated files from step 2.
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4. The kernel is booted in QEMU, and it is configured to detect the libc-test
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image being available, run the test script, and then shut down afterwards.
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5. Look for whether the tests passed in the serial console output of the kernel.
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There's some pretty specific instructions for setting up each image (detailed
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below), but the main gist of this is that we must avoid a vanilla `cargo run`
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inside of the `libc-test` directory (which is what it's intended for) because
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that would compile `syntex_syntax`, a large library, with userspace emulation.
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This invariably times out on Travis, so we can't do that.
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Once all those hoops are jumped through, however, we can be happy that we're
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testing almost everything!
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Below are some details of how to set up the initial OS images which are
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downloaded. Each image must be enabled have input/output over the serial
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console, log in automatically at the serial console, detect if a second drive in
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QEMU is available, and if so mount it, run a script (it'll specifically be
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`run-qemu.sh` in this folder which is copied into the generated image talked
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about above), and then shut down.
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2018-03-15 11:20:07 +01:00
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### QEMU Setup - FreeBSD
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1. [Download the latest stable amd64-bootonly release ISO](https://www.freebsd.org/where.html).
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E.g. FreeBSD-11.1-RELEASE-amd64-bootonly.iso
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2. Create the disk image: `qemu-img create -f qcow2 FreeBSD-11.1-RELEASE-amd64.qcow2 2G`
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3. Boot the machine: `qemu-system-x86_64 -cdrom FreeBSD-11.1-RELEASE-amd64-bootonly.iso -drive if=virtio,file=FreeBSD-11.1-RELEASE-amd64.qcow2 -net nic,model=virtio -net user`
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4. Run the installer, and install FreeBSD:
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1. Install
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1. Continue with default keymap
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1. Set Hostname: freebsd-ci
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1. Distribution Select:
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1. Uncheck lib32
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1. Uncheck ports
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1. Network Configuration: vtnet0
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1. Configure IPv4? Yes
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1. DHCP? Yes
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1. Configure IPv6? No
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1. Resolver Configuration: Ok
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1. Mirror Selection: Main Site
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1. Partitioning: Auto (UFS)
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1. Partition: Entire Disk
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1. Partition Scheme: MBR
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1. App Partition: Ok
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1. Partition Editor: Finish
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1. Confirmation: Commit
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1. Wait for sets to install
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1. Set the root password to nothing (press enter twice)
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1. Set time zone to UTC
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1. Set Date: Skip
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1. Set Time: Skip
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1. System Configuration:
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1. Disable sshd
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1. Disable dumpdev
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1. System Hardening
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1. Disable Sendmail service
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1. Add User Accounts: No
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1. Final Configuration: Exit
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1. Manual Configuration: Yes
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1. `echo 'console="comconsole"' >> /boot/loader.conf`
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1. `echo 'autoboot_delay="0"' >> /boot/loader.conf`
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1. `echo 'ext2fs_load="YES"' >> /boot/loader.conf`
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1. Look at `/etc/ttys`, see what getty argument is for `ttyu0` (E.g. `3wire`)
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1. Edit `/etc/gettytab` (with `vi` for example), look for `ttyu0` argument,
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prepend `:al=root` to the line beneath to have the machine auto-login as
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root. E.g.
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3wire:\
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:np:nc:sp#0:
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becomes:
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3wire:\
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:al=root:np:nc:sp#0:
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1. Edit `/root/.login` and put this in it:
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[ -e /dev/vtbd1 ] || exit 0
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mount -t ext2fs /dev/vtbd1 /mnt
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sh /mnt/run.sh /mnt
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poweroff
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1. Exit the post install shell: `exit`
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1. Back in in the installer choose Reboot
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1. If all went well the machine should reboot and show a login prompt.
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If you switch to the serial console by choosing View > serial0 in
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the qemu menu, you should be logged in as root.
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1. Shutdown the machine: `shutdown -p now`
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2016-01-18 20:16:38 +01:00
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Helpful links
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* https://en.wikibooks.org/wiki/QEMU/Images
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* https://blog.nekoconeko.nl/blog/2015/06/04/creating-an-openstack-freebsd-image.html
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* https://www.freebsd.org/doc/handbook/serialconsole-setup.html
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### QEMU setup - OpenBSD
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1. Download CD installer
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2. `qemu-img create -f qcow2 foo.qcow2 2G`
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3. `qemu -cdrom foo.iso -drive if=virtio,file=foo.qcow2 -net nic,model=virtio -net user`
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4. run installer
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5. `echo 'set tty com0' >> /etc/boot.conf`
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6. `echo 'boot' >> /etc/boot.conf`
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7. Modify /etc/ttys, change the `tty00` at the end from 'unknown off' to
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'vt220 on secure'
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8. Modify same line in /etc/ttys to have `"/root/foo.sh"` as the shell
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9. Add this script to `/root/foo.sh`
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```
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#!/bin/sh
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exec 1>/dev/tty00
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exec 2>&1
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if mount -t ext2fs /dev/sd1c /mnt; then
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sh /mnt/run.sh /mnt
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shutdown -ph now
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fi
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# limited shell...
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exec /bin/sh < /dev/tty00
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```
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10. `chmod +x /root/foo.sh`
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Helpful links:
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* https://en.wikibooks.org/wiki/QEMU/Images
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* http://www.openbsd.org/faq/faq7.html#SerCon
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# Questions?
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2015-09-18 02:52:13 +02:00
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Hopefully that's at least somewhat of an introduction to everything going on
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here, and feel free to ping @alexcrichton with questions!
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