diff options
author | Corentin LABBE <clabbe@baylibre.com> | 2018-01-12 11:35:30 +0100 |
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committer | Corentin LABBE <clabbe@baylibre.com> | 2018-02-02 14:28:23 +0100 |
commit | f26ce63c229cbdf6af58788bcfe28fb303919eb3 (patch) | |
tree | d4a110af6c0ac590ab86d63403004816c29e775b | |
parent | 45449dafeb3a54c47e022dbb86ad4eb44ea71385 (diff) |
Documentation: document lava-docker
Ths patch documenent lava-docker and add a boards.yaml.example
-rw-r--r-- | README.md | 320 | ||||
-rw-r--r-- | boards.yaml.example | 66 |
2 files changed, 332 insertions, 54 deletions
@@ -1,105 +1,317 @@ # Linaro's Automated Validation Architecture (LAVA) Docker Container -Preinstalls and preconfigures the latest LAVA server release. -## Prerequisite -The package docker-compose is necessary +## Introduction -## Name Conventions -Each board must be named by their device-type as "device-type-XX" where XX is a number -Each tty will have a name /dev/boardname (via the udev rules) -Each conmux config file will be named boardname.cf -Each slave must be named lab-slave-XX +The goal of lava-docker is to simplify the install and maintenance of +a LAVA lab in order to participate in distributed test efforts such as +kernelCI.org. -## Know limitation -The current lava-docker provide support for only one slave +With lava-docker, you describe the devices under test (DUT) in a +simple YAML file, and then a custom script will generate the necessary +LAVA configuration files automatically. + +Similarly, LAVA users and authentication tokens are described in +a(nother) YAML file, and the LAVA configurations are automatically generated. + +This enables the setup of a LAVA lab with minimal knowledge of the +underlying LAVA configuration steps necessary. + +## Prerequisites +lava-docker has currently been tested primarily on Debian stable (stretch). +The following packages are necessary on the host machine: +* docker +* docker-compose + +## Quickstart +Example to use lava-docker with only one QEMU device: + +* Checkout the lava-docker repository +* You will obtain the following boards.yaml +``` +lab-slave-0: + boardlist: + qemu-01: + type: qemu +``` +* Generate configuration files for LAVA, udev, serial ports, etc. from boards.yaml via +``` +./lavalab-gen.py +``` +* Build docker images via +``` +docker-compose build +``` +* Start all images via +``` +docker-compose up -d +``` + +* Once launched, you can access the LAVA web interface via http://localhost:10080/. +With the default users, you can login with admin:admin. + +* By default, a LAVA healthcheck job will be run on the qemu device. +You will see it in the "All Jobs" list: http://localhost:10080/scheduler/alljobs + +* You can also see full job output by clicking the blue eye icon ("View job details") (or via http://localhost:10080/scheduler/job/1 since it is the first job ran) + +* For more details, see https://validation.linaro.org/static/docs/v2/first-job.html + +### Adding your first board: +#### device-type +To add a board you need to find its device-type, standard naming is to use the same as the official kernel DT name. +(But a very few DUT differ from that) + +You could check in https://github.com/Linaro/lava-server/tree/release/lava_scheduler_app/tests/device-types if you find yours. + +Example: +For a beagleboneblack, the device-type is beaglebone-black (Even if official DT name is am335x-boneblack) +So you have now: +``` + beagleboneblack-01: + type: beaglebone-black +``` + +#### UART +Next step is to gather information on UART wired on DUT.<br> +If you have a FTDI, simply get its serial (visible in lsusb -v or for major distribution in dmesg)<br> +<br> +For other UART type (or for old FTDI without serial number) you need to get the devpath attribute via: +``` +udevadm info -a -n /dev/ttyUSBx |grep ATTR|grep devpath | head -n1 +``` +Example with a FTDI UART: +``` +[ 6.616707] usb 4-1.4.2: New USB device strings: Mfr=1, Product=2, SerialNumber=3 +[ 6.704305] usb 4-1.4.2: SerialNumber: AK04TU1X +The serial is AK04TU1X +``` +So you have now: +``` + beagleboneblack-01: + type: beaglebone-black + uart: + idvendor: "0403" + idproduct: 6001 + serial: AK04TU1X +``` + +Example with a FTDI without serial: +``` +[2428401.256860] ftdi_sio 1-1.4:1.0: FTDI USB Serial Device converter detected +[2428401.256916] usb 1-1.4: Detected FT232BM +[2428401.257752] usb 1-1.4: FTDI USB Serial Device converter now attached to ttyUSB1 +udevadm info -a -n /dev/ttyUSB1 |grep devpath | head -n1 + ATTRS{devpath}=="1.5" +``` +So you have now: +``` + beagleboneblack-01: + type: beaglebone-black + uart: + idvendor: "0403" + idproduct: 6001 + devpath: "1.5" +``` + +#### PDU (Power Distribution Unit) +Final step is to manage the powering of the board.<br> +Many PDU switchs could be handled by a command line tool which control the PDU.<br> +You need to fill boards.yaml with the command line to be ran.<br> + +Example with an ACME board: +If the beagleboneblack is wired to port 3 and the ACME board have IP 192.168.66.2: +``` + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 3 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 power_off 3 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 power_on 3 +``` + +#### Example: +beagleboneblack, with FTDI (serial 1234567), connected to port 5 of an ACME +``` + beagleboneblack-01: + type: beaglebone-black + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 5 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 power_off 5 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 power_on 5 + uart: + idvendor: "0403" + idproduct: 6001 + serial: 1234567 +``` + +## Known limitations +The current lava-docker provides support for generating only one LAVA slave. ## Architecture -The host must have a dedicated LAN. (192.168.66.0/24) -The host must have IP set to 192.168.66.1 on this LAN. -A sample dhcpd config file is available in the dhcpd directory +The setup is composed of a host which runs the following docker images and DUT to be tested.<br/> +* lava-master: run lava-server along with the web interface +* lava-slave: run lava-dispatcher, the compoment which sends jobs to DUTs +* squid: an HTTP proxy for caching downloaded contents (kernel/dtb/rootfs) + +The host and DUTs must share a common LAN.<br/> +The host IP on this LAN must be set as dispatcher_ip in boards.yaml.<br/> + +Since most DUTs are booted using TFTP, they need DHCP for gaining network connectivity.<br/> +So, on the LAN shared with DUTs, a running DHCPD is necessary. (See DHCPD below)<br/> + +![lava-docker diagram](doc/lava-docker.png) + +### Power supply +You need to have a PDU for powering your DUT. +Managing PDUs is done via pdu_generic + +### Network ports +The following ports are used by lava-docker and are proxyfied on the host: +- 69/UDP proxyfied to the slave for TFTP +- 80 proxyfied to the slave for TODO (transfer overlay) +- 5500 proxyfied to the slave for Notification +- 5555 proxyfied to the master (LAVA logger) +- 5556 proxyfied to the master (LAVA master) +- 10080 proxyfied to the master (Web interface) +- 55950-56000 proxyfied to the slave for NBD + +### DHCPD +A DHCPD service is necessary for giving network access to DUT. + +The DHCPD server could be anywhere with the condition that it is accessible of DUTs. (Could be on host, in a docker in the host, or is the ISP box on the same LAN.<br/> + +### Examples +#### Example 1: Basic LAB with home router +Router: 192.168.1.1 which handle DHCP for 192.168.1.10-192.168.1.254<br> +Lab: 192.168.1.2<br> + +So the dispatcher_ip is set to 192.168.1.2 + +#### Example 2: Basic LAB without home router +Lab: 192.168.1.2 which handle DHCP for 192.168.1.10-192.168.1.254<br> + +So the dispatcher_ip is set to 192.168.1.2 + +#### Example 3: LAB with dedicated LAN for DUTs +A dedicated LAN is used for DUTs. (192.168.66.0/24) +The host have two NIC: +- eth0: (192.168.1.0/24) on home LAN. (The address could be static or via DHCP) +- eth1: (192.168.66.0/24) with address set to 192.168.66.1 + +On the host, a DHCPD give address in range of 192.168.66.3-192.168.66.200 + +So the dispatcher_ip is set to 192.168.66.1 + +#### DHCPD examples: +##### isc-dhcpd-server +A sample isc-dhcpd-server DHCPD config file is available in the dhcpd directory.<br/> +##### dnsmasq +Simply set interface=interfacename where interfacename is your shared LAN interface ## Generating files + +### Helper script +You can use the lavalab-gen.sh helper script which will do all the above actions for you. + ### boards.yaml -This file describe how are setuped your boards, and how they are connected and powered. -``` -lab-slave-XX: - dispatcher_ip: the IP where the slave could be contacted. In lava-docker it is the host IP since docker proxify TFTP from host to the slave. - boardlist: - devicename: - type: the devicetype of this device - pdu: - daemon: The hostname running the PDU daemon (always localhost) - host: The host name of the PDU as named in lavapdu.conf - port: portnumber (The port number of the PDU where the device is connected) - uart: - type: - serial: The serial number in case of FTDI uart -``` -Notes: -uart FTDI only need serial - -Examples: see boards.yaml +This file describe how the DUTs are connected and powered. +``` +lab-slave-XX: The name of the slave (where XX is a number) + dispatcher_ip: the IP where the slave could be contacted. In lava-docker it is the host IP since docker proxify TFTP from host to the slave. + boardlist: + devicename: Each board must be named by their device-type as "device-type-XX" (where XX is a number) + type: the LAVA device-type of this device + macaddr: (Optional) the MAC address to set in uboot +# One of uart or connection_command must be choosen + uart: + idvendor: The VID of the UART + idproduct: the PID of the UART + serial: The serial number in case of FTDI uart + devpath: the UDEV devpath to this uart for UART without serial number + connection_command: A command to be ran for getting a serial console + pdu_generic: + hard_reset_command: commandline to reset the board + power_off_command: commandline to power off the board + power_on_command: commandline to power on the board +``` +Notes on UART: +* Only one of devpath/serial is necessary. +* For finding the right devpath, you could use +``` +udevadm info -a -n /dev/ttyUSBx |grep devpath | head -n1 +``` +* VID and PID could be found in lsusb. If a leading zero is present, the value must be given between double-quotes (and leading zero must be kept) +Example: +``` +Bus 001 Device 054: ID 0403:6001 Future Technology Devices International, Ltd FT232 Serial (UART) IC +``` +This device must use "0403" for idvendor and 6001 for idproduct. + +Note on connection_command: connection_command is for people which want to use other way than conmux to handle the console. (ser2net). + +Examples: see [boards.yaml.example](boards.yaml.example) ### tokens.yaml -The tokens format have two section, one for user generation, the other for callback tokens +The tokens format has two sections, one for LAVA users, the other for callback tokens ``` lava_server_users: - - name: LAVA username - token: The token of this use - password: Password the this user (generated if not provided) - superuser: yes/no (default no) - staff: yes/no (default no) + - name: LAVA username + token: The token of this user + password: Password the this user (generated if not provided) + superuser: yes/no (default no) + staff: yes/no (default no) callback_tokens: - filename: The filename for storing the informations below, the name should be unique along other callback tokens username: The LAVA user owning the token below. (This user should be created via lava_server_users:) token: The token for this callback description: The description of this token. This string could be used with LAVA-CI. ``` -Example: see tokens.yaml +Example: see [tokens.yaml](tokens.yaml) ### Generate ``` lavalab-gen.py ``` -this scripts will generate all necessary files in the following location: +this script will generate all necessary files in the following locations: ``` conmux/ All files needed by conmux tokens/ This is where the callback tokens will be generated users/ This is where the users will be generated -devices/ All LAVA devices files (note that an extra qemu device is also created for the master) +devices/ All LAVA devices files slaves/ Contain the dispatcher_ip to give to slave node udev-rules for host docker-compose.yml Generated from docker-compose.template ``` -All thoses files (except for udev-rules) will be handled by docker. -The udev-rules is for generating the right /dev/xxx TTY names. +All thoses file (except for udev-rules) will be handled by docker. -You can still hack after generated files. +You can still hack after all generated files. -## Building -To build an image locally, execute the following from the directory you cloned the repo: +#### udev rules +Note that the udev-rules are generated for the host, they must be placed in /etc/udev/rules.d/ +They are used for giving a proper /dev/xxx name to tty devices. (where xxx is the board name) +(lavalab-gen.sh will do it for you) + +### Building +To build all docker images, execute the following from the directory you cloned the repo: ``` docker-compose build ``` -## Running +### Running +For running all images, simply run: ``` -docker-compose up +docker-compose up -d ``` -## Process wrapper -You can use the lavalab-gen.sh wrapper which will do all the above actions - ## Proxy cache -A squid docker is provided for caching all LAVA downloads (image, dtb, rootfs, etc...) -You have to uncomment a line in lava-master/Dockerfile to enable it +A squid docker is provided for caching all LAVA downloads (image, dtb, rootfs, etc...)<br/> +You have to uncomment a line in lava-master/Dockerfile to enable it.<br/> +Note that the squid proxy is always built and run. ## Security Note that this container provides defaults which are unsecure. If you plan on deploying this in a production enviroment please consider the following items: - * Changing the default admin password + * Changing the default admin password (in tokens.taml) * Using HTTPS * Re-enable CSRF cookie (disabled in lava-master/Dockerfile) diff --git a/boards.yaml.example b/boards.yaml.example new file mode 100644 index 0000000..e989af9 --- /dev/null +++ b/boards.yaml.example @@ -0,0 +1,66 @@ +lab-slave-0: + dispatcher_ip: 192.168.66.1 + boardlist: + qemu-01: + type: qemu + bcm2837-rpi-3-b-01: + type: bcm2837-rpi-3-b + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 1 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 1 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 1 + uart: + idvendor: "0403" + idproduct: 6001 + serial: FT9QQZTA + am335x-boneblack-01: + type: beaglebone-black + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 2 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 2 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 2 + uart: + idvendor: "0403" + idproduct: 6001 + serial: FT9QR1A9 + meson-gxl-s905x-libretech-cc-01: + type: meson-gxl-s905x-libretech-cc + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 3 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 3 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 3 + uart: + idvendor: 067b + idproduct: 2303 + devpath: 1.1.4 + macaddr: "00:FA:E0:DE:AD:78" + dragonboard-410c-01: + type: dragonboard-410c + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 4 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 4 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 4 + uart: + idvendor: "0403" + idproduct: 6001 + serial: FT9R7VDB + r8a7796-m3ulcb-01: + type: r8a7796-m3ulcb + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 5 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 5 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 5 + uart: + idvendor: "0403" + idproduct: 6001 + serial: AK04WW0Q + imx6q-sabrelite-01: + type: imx6q-sabrelite + pdu_generic: + hard_reset_command: /usr/local/bin/acme-cli -s 192.168.66.2 reset 6 + power_off_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_off 6 + power_on_command: /usr/local/bin/acme-cli -s 192.168.66.2 switch_on 6 + uart: + idvendor: "0403" + idproduct: 6015 + serial: DAZ0KEUH |