This repository is no longer maintained. Please visit the application catalog.
This application starts a Redis web server with Unikraft. Follow the instructions below to set up, configure, build and run Redis.
To get started immediately, you can use Unikraft's companion command-line companion tool, kraft.
Start by running the interactive installer:
curl --proto '=https' --tlsv1.2 -sSf https://get.kraftkit.sh | sudo shOnce installed, clone this repository and run kraft build:
git clone https://github.com/unikraft/app-redis redis
cd redis/
kraft buildThis will guide you through an interactive build process where you can select one of the available targets (architecture/platform combinations).
Otherwise, we recommend building for qemu/x86_64 like so:
kraft build --target redis-qemu-x86_64-initrdOnce built, you can instantiate the unikernel via:
kraft run --target redis-qemu-x86_64-initrd --initrd ./rootfs -p 6379:6379 -- /redis.confIf you don't have KVM support (such as when running inside a virtual machine), pass the -W option to kraft run to disable virtualization support:
kraft run -W --target redis-qemu-x86_64-initrd --initrd ./rootfs -p 6379:6379 -- /redis.confWhen left without the --target argument, you'll be queried for the desired target from the list.
To test if the Unikraft instance of the Redis server works, open another console and use the redis-cli command below to query the server:
redis-cli -h localhostYou can test it using set/get commands:
127.0.0.1:6379> set a 1
OK
127.0.0.1:6379> get a
"1"
127.0.0.1:6379>
For a quick setup, run the commands below. Note that you still need to install the requirements.
For building and running everything for x86_64, follow the steps below:
git clone https://github.com/unikraft/app-redis redis
cd redis/
./scripts/setup.sh
wget https://raw.githubusercontent.com/unikraft/app-testing/staging/scripts/generate.py -O scripts/generate.py
chmod a+x scripts/generate.py
./scripts/generate.py
./scripts/build/make-qemu-x86_64-9pfs.sh
./scripts/run/qemu-x86_64-9pfs.shThis will configure, build and run the redis server, that can be tested using the instructions in the running section.
Close the QEMU instance by using the Ctrl+a x keyboard combination.
That is, press Ctrl and a simultaneously, then release and press x.
Information about every step is detailed below.
In order to set up, configure, build and run Redis on Unikraft, the following packages are required:
build-essential/base-devel/@development-tools(the meta-package that includesmake,gccand other development-related packages)flexbisongitwgetuuid-runtimeqemu-system-x86qemu-system-armredis-toolsqemu-kvmsgabiosgcc-aarch64-linux-gnuredis-tools
GCC >= 8 is required to build Redis on Unikraft.
On Ubuntu/Debian or other apt-based distributions, run the following command to install the requirements:
sudo apt install -y --no-install-recommends \
build-essential \
gcc-aarch64-linux-gnu \
libncurses-dev \
libyaml-dev \
flex \
bison \
git \
wget \
uuid-runtime \
qemu-kvm \
qemu-system-x86 \
qemu-system-arm \
redis-tools \
sgabios \
redis-toolsRunning Redis Unikraft with QEMU requires networking support. For this to work properly a specific configuration must be enabled for QEMU. Run the commands below to enable that configuration (for the network bridge to work):
sudo mkdir /etc/qemu/
echo "allow all" | sudo tee /etc/qemu/bridge.confThe following repositories are required for Redis:
- The application repository (this repository):
app-redis - The Unikraft core repository:
unikraft - Library repositories:
Follow the steps below for the setup:
-
First clone the
app-redisrepository in theredis/directory:git clone https://github.com/unikraft/app-redis redisEnter the
redis/directory:cd redis/ ls -F
This will print the contents of the repository.
defconfigs/ kraft.cloud.yaml kraft.yaml Makefile Makefile.uk README.md rootfs/ scripts/ -
While inside the
redis/directory, clone all required repositories by using thesetup.shscript:./scripts/setup.sh -
Use the
treecommand to inspect the contents of theworkdir/directory.tree -F -L 2 workdir/The layout of the
workdir/directory should look something like this:workdir/ |-- libs/ | |-- lwip/ | |-- musl/ | `-- redis/ `-- unikraft/ |-- arch/ |-- Config.uk |-- CONTRIBUTING.md |-- COPYING.md |-- include/ |-- lib/ |-- Makefile |-- Makefile.uk |-- plat/ |-- README.md |-- support/ `-- version.mk 10 directories, 7 files
To build and run Unikraft images, it's easiest to generate build and running scripts and use those.
First of all, grab the generate.py script and place it in the scripts/ directory by running:
wget https://raw.githubusercontent.com/unikraft/app-testing/staging/scripts/generate.py -O scripts/generate.py
chmod a+x scripts/generate.pyNow, run the generate.py script.
You must run it in the root directory of this repository:
./scripts/generate.pyRunning the script will generate build and run scripts in the scripts/build/ and the scripts/run/ directories:
scripts/
|-- build/
| |-- kraft-fc-arm64-initrd.sh*
| |-- kraft-fc-x86_64-initrd.sh*
| |-- kraft-qemu-arm64-9pfs.sh*
| |-- kraft-qemu-arm64-initrd.sh*
| |-- kraft-qemu-x86_64-9pfs.sh*
| |-- kraft-qemu-x86_64-initrd.sh*
| |-- make-fc-arm64-initrd.sh*
| |-- make-fc-x86_64-initrd.sh*
| |-- make-qemu-arm64-9pfs.sh*
| |-- make-qemu-arm64-initrd.sh*
| |-- make-qemu-x86_64-9pfs.sh*
| `-- make-qemu-x86_64-initrd.sh*
|-- generate.py*
|-- run/
| |-- fc-arm64-initrd.json
| |-- fc-arm64-initrd.sh*
| |-- fc-x86_64-initrd.json
| |-- fc-x86_64-initrd.sh*
| |-- kraft-fc-arm64-initrd.sh*
| |-- kraft-fc-x86_64-initrd.sh*
| |-- kraft-qemu-arm64-9pfs.sh*
| |-- kraft-qemu-arm64-initrd.sh*
| |-- kraft-qemu-x86_64-9pfs.sh*
| |-- kraft-qemu-x86_64-initrd.sh*
| |-- qemu-arm64-9pfs.sh*
| |-- qemu-arm64-initrd.sh*
| |-- qemu-x86_64-9pfs.sh*
| `-- qemu-x86_64-initrd.sh*
|-- run.yaml
`-- setup.sh*
They are shell scripts, so you can use an editor or a text viewer to check their contents:
cat scripts/run/qemu-x86_64-9pfs.shYou can now build and run images for different configurations
For example, to build and run for Firecracker on x86_64, run:
./scripts/build/make-fc-x86_64-initrd.sh
./scripts/run/fc-x86_64-initrd.shTo build and run for QEMU on x86_64 using KraftKit, run:
./scripts/build/kraft-qemu-x86_64-9pfs.sh
./scripts/run/kraft-qemu-x86_64-9pfs.shThe run script will start a Redis server. Note that, currently (release 0.14), there is not yet networking support in Unikraft for Firecracker, so Redis cannot be properly used.
You should now see the Redis server banner:
Powered by
o. .o _ _ __ _
Oo Oo ___ (_) | __ __ __ _ ' _) :_
oO oO ' _ `| | |/ / _)' _` | |_| _)
oOo oOO| | | | | (| | | (_) | _) :_
OoOoO ._, ._:_:_,\_._, .__,_:_, \___)
Prometheus 0.14.0~a45354b4
1:C 06 Jan 1992 19:04:00.012 # oO0OoO0OoO0Oo Redis is starting oO0OoO0OoO0Oo
1:C 06 Jan 1992 19:04:00.013 # Redis version=7.0.11, bits=64, commit=c5ee3442, modified=1, pid=1, just started
1:C 06 Jan 1992 19:04:00.015 # Configuration loaded
[ 0.137956] ERR: [libposix_process] <deprecated.c @ 348> Ignore updating resource 7: cur = 10032, max = 10032
1:M 06 Jan 1992 19:04:00.039 * Increased maximum number of open files to 10032 (it was originally set to 1024).
1:M 06 Jan 1992 19:04:00.041 * monotonic clock: POSIX clock_gettime
_._
_.-``__ ''-._
_.-`` `. `_. ''-._ Redis 7.0.11 (c5ee3442/1) 64 bit
.-`` .-```. ```\/ _.,_ ''-._
( ' , .-` | `, ) Running in standalone mode
|`-._`-...-` __...-.``-._|'` _.-'| Port: 6379
| `-._ `._ / _.-' | PID: 1
`-._ `-._ `-./ _.-' _.-'
|`-._`-._ `-.__.-' _.-'_.-'|
| `-._`-._ _.-'_.-' | https://redis.io
`-._ `-._`-.__.-'_.-' _.-'
|`-._`-._ `-.__.-' _.-'_.-'|
| `-._`-._ _.-'_.-' |
`-._ `-._`-.__.-'_.-' _.-'
`-._ `-.__.-' _.-'
`-._ _.-'
`-.__.-'
1:M 06 Jan 1992 19:04:00.061 # WARNING: The TCP backlog setting of 511 cannot be enforced because SOMAXCONN is set to the lower value of 128.
1:M 06 Jan 1992 19:04:00.063 # Server initialized
1:M 06 Jan 1992 19:04:00.072 * Ready to accept connections
The server listens for connections on the 172.44.0.2 address advertised.
A Redis client (such as
redis-cli)
is required to query the server.
To test if the Unikraft instance of the Redis server works, open another console and use the redis-cli command below to query the server:
redis-cli -h 172.44.0.2You can test it using set/get commands:
172.44.0.2:6379> set a 1
OK
172.44.0.2:6379> get a
"1"
172.44.0.2:6379>
To close the QEMU Redis server, use the Ctrl+a x keyboard shortcut;
that is press the Ctrl and a keys at the same time and then, separately, press the x key.
Close KraftKit-opened instances by running Ctrl+c.
Then, check the open instances by using kraft ps or sudo kraft ps. Stop the instances by running kraft stop `.
Close the QEMU instance by using the Ctrl+a x keyboard combination.
That is, press Ctrl and a simultaneously, then release and press x.
For Firecracker, you would have to kill the process by issuing a command. Simplest is to open up another console and run:
pkill -f firecrackerConfiguring, building and running a Unikraft application depends on our choice of platform and architecture. Currently, supported platforms are QEMU (KVM), Xen and linuxu. QEMU (KVM) is known to be working, so we focus on that.
Supported architectures are x86_64 and AArch64.
Use the corresponding the configuration files (config-...), according to your choice of platform and architecture.
Use the defconfigs/qemu-x86_64-9pfs configuration file together with make defconfig to create the configuration file:
UK_DEFCONFIG=$(pwd)/defconfigs/qemu-x86_64-9pfs make defconfigThis results in the creation of the .config file:
ls .config
.configThe .config file will be used in the build step.
Use the defconfigs/qemu-arm64-9pfs configuration file together with make defconfig to create the configuration file:
UK_DEFCONFIG=$(pwd)/defconfigs/qemu-arm64-9pfs make defconfigSimilar to the x86_64 configuration, this results in the creation of the .config file that will be used in the build step.
Building uses as input the .config file from above, and results in a unikernel image as output.
The unikernel output image, together with intermediary build files, are stored in the workdir/build/ directory.
Before starting a build on a different platform or architecture, you must clean up the build output. This may also be required in case of a new configuration.
Cleaning up is done with 3 possible commands:
make clean: cleans all actual build output files (binary files, including the unikernel image)make properclean: removes the entireworkdir/build/directorymake distclean: removes the entireworkdir/build/directory and the.configfile
Typically, you would use make properclean to remove all build artifacts, but keep the configuration file.
Building for QEMU x86_64 assumes you did the QEMU x86_64 configuration step above. Build the Unikraft Redis image for QEMU x86_64 by using the commands below:
make prepare
make -j $(nproc)You will see a list of all files generated by the build system.
[...]
LD redis_qemu-x86_64.dbg
UKBI redis_qemu-x86_64.dbg.bootinfo
SCSTRIP redis_qemu-x86_64
GZ redis_qemu-x86_64.gz
make[1]: Leaving directory '/media/razvan/c4f6765a-efa5-4ebd-9cf0-7da9908a0189/razvan/unikraft/solo/redis/workdir/unikraft'
At the end of the build command, the redis_qemu-x86_64 unikernel image is generated.
This image is to be used in the run step.
If you had configured and build a unikernel image for another platform or architecture (such as x86_64) before, then:
-
Do a cleanup step with
make properclean. -
Configure for QEMU AAarch64, as shown above.
-
Follow the instructions below to build for QEMU AArch64.
Building for QEMU AArch64 assumes you did the QEMU AArch64 configuration step above. Build the Unikraft Redis image for QEMU AArch64 by using the same command as for x86_64:
make prepare
make -j $(nproc)Similar to the x86_64 build, you will see a list of all files generated by the build system.
[...]
LD redis_qemu-arm64.dbg
UKBI redis_qemu-arm64.dbg.bootinfo
SCSTRIP redis_qemu-arm64
GZ redis_qemu-arm64.gz
make[1]: Leaving directory '/media/razvan/c4f6765a-efa5-4ebd-9cf0-7da9908a0189/razvan/unikraft/solo/redis/workdir/unikraft
Similarly to x86_64, at the end of the build command, the redis_qemu-arm64 unikernel image is generated.
This image is to be used in the run step.
To run the QEMU x86_64 build, use commands below to create a network setup and then start a Redis Unikraft instance:
sudo ip link set dev tap0 down 2> /dev/null
sudo ip link del dev tap0 2> /dev/null
sudo ip link set dev virbr0 down 2> /dev/null
sudo ip link del dev virbr0 2> /dev/null
sudo ip link add dev virbr0 type bridge
sudo ip address add 172.44.0.1/24 dev virbr0
sudo ip link set dev virbr0 up
sudo qemu-system-x86_64 \
-kernel "$kernel" \
-nographic \
-m 256M \
-netdev bridge,id=en0,br=virbr0 -device virtio-net-pci,netdev=en0 \
-append "netdev.ipv4_addr=172.44.0.2 netdev.ipv4_gw_addr=172.44.0.1 netdev.ipv4_subnet_mask=255.255.255.0 -- $cmd" \
-fsdev local,id=myid,path="$rootfs",security_model=none \
-device virtio-9p-pci,fsdev=myid,mount_tag=fs1,disable-modern=on,disable-legacy=off \
-cpu maxThe server listens for connections on the 172.44.0.2 address advertised.
To test / use the server, follow the instructions in the "Use" section.
To close the QEMU Redis server, use the Ctrl+a x keyboard shortcut;
that is press the Ctrl and a keys at the same time and then, separately, press the x key.
To run the QEMU x86_64 build, use commands below to create a network setup and then start a Redis Unikraft instance:
sudo ip link set dev tap0 down 2> /dev/null
sudo ip link del dev tap0 2> /dev/null
sudo ip link set dev virbr0 down 2> /dev/null
sudo ip link del dev virbr0 2> /dev/null
sudo ip link add dev virbr0 type bridge
sudo ip address add 172.44.0.1/24 dev virbr0
sudo ip link set dev virbr0 up
sudo qemu-system-aarch64 \
-machine virt \
-kernel "$kernel" \
-nographic \
-m 256M \
-netdev bridge,id=en0,br=virbr0 -device virtio-net-pci,netdev=en0 \
-append "netdev.ipv4_addr=172.44.0.2 netdev.ipv4_gw_addr=172.44.0.1 netdev.ipv4_subnet_mask=255.255.255.0 -- $cmd" \
-fsdev local,id=myid,path="$rootfs",security_model=none \
-device virtio-9p-pci,fsdev=myid,mount_tag=fs1,disable-modern=on,disable-legacy=off \
-cpu maxThe server listens for connections on the 172.44.0.2 address advertised.
To test / use the server, follow the instructions in the "Use" section.
To close the QEMU Redis server, use the Ctrl+a x keyboard shortcut;
that is press the Ctrl and a keys at the same time and then, separately, press the x key.
The examples above use 9pfs as the filesystem interface. Clean up the previous configuration, use the initrd configuration and build the unikernel by using the commands:
make distclean
UK_DEFCONFIG=$(pwd)/defconfigs/qemu-x86_64-initrd make defconfig
make prepare
make -j $(nproc)To run the QEMU x86_64 initrd build, use the commands below:
old="$PWD"
cd "$rootfs"
find -depth -print | tac | bsdcpio -o --format newc > "$old"/rootfs.cpio
cd "$old"
sudo ip link set dev tap0 down 2> /dev/null
sudo ip link del dev tap0 2> /dev/null
sudo ip link set dev virbr0 down 2> /dev/null
sudo ip link del dev virbr0 2> /dev/null
sudo ip link add dev virbr0 type bridge
sudo ip address add 172.44.0.1/24 dev virbr0
sudo ip link set dev virbr0 up
sudo qemu-system-x86_64 \
-kernel "$kernel" \
-nographic \
-m 256M \
-netdev bridge,id=en0,br=virbr0 -device virtio-net-pci,netdev=en0 \
-append "netdev.ipv4_addr=172.44.0.2 netdev.ipv4_gw_addr=172.44.0.1 netdev.ipv4_subnet_mask=255.255.255.0 -- $cmd" \
-initrd "$PWD"/rootfs.cpio \
-cpu maxThe commands for AArch64 are similar:
make distclean
UK_DEFCONFIG=$(pwd)/defconfigs/qemu-arm64-initrd make defconfig
make prepare
make -j $(nproc)
old="$PWD"
cd "$rootfs"
find -depth -print | tac | bsdcpio -o --format newc > "$old"/rootfs.cpio
cd "$old"
sudo ip link set dev tap0 down 2> /dev/null
sudo ip link del dev tap0 2> /dev/null
sudo ip link set dev virbr0 down 2> /dev/null
sudo ip link del dev virbr0 2> /dev/null
sudo ip link add dev virbr0 type bridge
sudo ip address add 172.44.0.1/24 dev virbr0
sudo ip link set dev virbr0 up
sudo qemu-system-aarch64 \
-machine virt \
-kernel "$kernel" \
-nographic \
-m 256M \
-netdev bridge,id=en0,br=virbr0 -device virtio-net-pci,netdev=en0 \
-append "netdev.ipv4_addr=172.44.0.2 netdev.ipv4_gw_addr=172.44.0.1 netdev.ipv4_subnet_mask=255.255.255.0 -- $cmd" \
-initrd "$PWD"/rootfs.cpio \
-cpu maxFirecracker is a lightweight VMM (virtual machine manager) that can be used as more efficient alternative to QEMU.
Configure and build commands are similar to a QEMU-based build with an initrd-based filesystem:
make distclean
UK_DEFCONFIG=$(pwd)/defconfigs/fc-x86_64-initrd make defconfig
make prepare
make -j $(nproc)To use Firecraker, you need to download a Firecracker release.
You can use the commands below to make the firecracker-x86_64 executable from release v1.4.0 available globally in the command line:
cd /tmp
wget https://github.com/firecracker-microvm/firecracker/releases/download/v1.4.0/firecracker-v1.4.0-x86_64.tgz
tar xzf firecracker-v1.4.0-x86_64.tgz
sudo cp release-v1.4.0-x86_64/firecracker-v1.4.0-x86_64 /usr/local/bin/firecracker-x86_64To run a unikernel image, you need to configure a JSON file.
The generated JSON file for Firecraker on x86_64 is located in scripts/run/fc-x86_64-initrd.json:
{
"boot-source": {
"kernel_image_path": "workdir/build/redis_fc-x86_64",
"boot_args": "redis_fc-x86_64 netdev.ipv4_addr=172.44.0.2 netdev.ipv4_gw_addr=172.44.0.1 netdev.ipv4_subnet_mask=255.255.255.0 -- /redis.conf",
"initrd_path": "rootfs.cpio"
},
"drives": [],
"machine-config": {
"vcpu_count": 1,
"mem_size_mib": 256,
"smt": false,
"track_dirty_pages": false
},
"cpu-config": null,
"balloon": null,
"network-interfaces": [
{
"iface_id": "net1",
"guest_mac": "06:00:ac:10:00:02",
"host_dev_name": "tap0"
}
],
"vsock": null,
"logger": {
"log_path": "/tmp/firecracker.log",
"level": "Debug",
"show_level": true,
"show_log_origin": true
},
"metrics": null,
"mmds-config": null,
"entropy": null
}To run the Firecracker x86_64 build, use the commands below:
old="$PWD"
cd "$rootfs"
find -depth -print | tac | bsdcpio -o --format newc > "$old"/rootfs.cpio
cd "$old"
sudo ip link set dev tap0 down 2> /dev/null
sudo ip link del dev tap0 2> /dev/null
sudo ip link set dev virbr0 down 2> /dev/null
sudo ip link del dev virbr0 2> /dev/null
sudo ip tuntap add dev tap0 mode tap
sudo ip address add 172.44.0.1/24 dev tap0
sudo ip link set dev tap0 up
sudo rm -f /tmp/firecracker.log
> /tmp/firecracker.log
sudo rm -f /tmp/firecracker.socket
sudo firecracker-x86_64 \
--api-sock /tmp/firecracker.socket \
--config-file "$config"Same as running with QEMU, the application will start a server on address 172.44.0.2, on port 6379.
Note that, currently (release 0.14), there is not yet networking support in Unikraft for Firecracker, so Redis cannot be properly used.