我需要设置从 Git 存储库组装软件包并将其交付到站点的流程。 不久前,当我在 Habré 上看到一篇关于 buildbot 的文章(链接在最后)时,我决定尝试并应用它。
由于 buildbot 是一个分布式系统,因此为每个架构和操作系统创建单独的构建主机是合乎逻辑的。 在我们的例子中,这些将是 LXC 容器(对于 Linux)和 qemu(对于 Windows):
- vm-srv-build1 - centos 7,将有一个buildbot master和一个worker
- vm-srv-build2 - debian 10,用于构建 DEB 包
- vm-srv-build3 - Windows 10,用于组装,你知道它的用途
我们将收集 — 1C rac 的图形界面,用于管理服务器集群。 对于 Linux,将使用每个操作系统的标准工具;要从 tcl 脚本为 Windows 构建 exe 文件,请使用 .
安装
GNU / Linux的
互联网上有足够的安装文档 ,。 是的,并且它不会引起任何特殊问题:
对于大师来说:
pip3 install buildbot
pip3 install twisted
pip3 install autobahn
pip3 install pysqlite3
pip3 install sqlalchemy sqlalchemy-migrate
pip3 install buildbot-www buildbot-grid-view buildbot-console-view buildbot-waterfall-view
pip3 install python-dateutil对于“工人”来说,这就足够了:
pip3 install buildbot-worker当然,为每个操作系统收集软件包会更正确,但这超出了本文的范围。 我们还将省略为工作设置容器的描述,我只会指出我使用 ProxMox VE。 并且您还需要为组装所需的每个轴安装软件包(centos:rpmdevtools等;debian:build-essential、dh-make、pbuilder等)
构建项目和 buildbot 服务将以非特权用户身份启动,因此您需要在参与该过程的所有主机上创建一个:
adduser buildbot接下来,我们将在每个主机(容器)上分别配置服务的自动启动:
Systemd 单元运行向导:
touch /etc/systemd/buildbot-master.service
[Unit]
Description=BuildBot master service
After=network.target
[Service]
User=buildbot
Group=buildbot
WorkingDirectory=/home/buildbot/master
ExecStart=/usr/local/bin/buildbot start --nodaemon
ExecReload=/bin/kill -HUP $MAINPID
[Install]
WantedBy=multi-user.target和“工人”
touch /etc/systemd/buildbot-worker.service
[Unit]
Description=BuildBot worker service
After=network.target
[Service]master
User=buildbot
Group=buildbot
WorkingDirectory=/home/buildbot/worker
ExecStart=/usr/local/bin/buildbot-worker start --nodaemon
[Install]
WantedBy=buildbot-master.service由于所有脚本(在我们的例子中)都位于 /usr/local/ 中,因此您应该在环境变量中设置它们的路径:
nano /root/.bash_profile
PATH=$PATH:$HOME/.local/bin:$HOME/bin:/usr/local/bin之后,您可以为“workers”(在所有主机上)创建一个目录基础结构,为此,请在 buildbot 用户下注册并运行以下命令:
在第一台主机 vm-srv-build1 上:
su - buildbot
mkdir /home/buildbot/worker
cd ~
buildbot-worker create-worker --umask=0o22 --keepalive=60 worker vm-srv-build1:4000 CentOS 123456在第二台主机 vm-srv-build2 上:
su - buildbot
mkdir /home/buildbot/worker
cd ~
buildbot-worker create-worker --umask=0o22 --keepalive=60 worker vm-srv-build1:4000 Debian-10 123456在worker主机上,可以启动buildbot-worker服务
systemctl start buildbot-worker微软Windows
作为 Windows 下组装的“工人”,将使用装有最新版本的 Win10 的虚拟机。
工作需要:
- 要在 Python 中安装各种不同的东西,您需要下载
- 7Zip
安装完上述所有内容后,您可以安装 buildbot 本身:
pip install buildbot-worker让我们创建一个工作目录
md c:worker让我们启动
buildbot-worker start c:worker如果一切正常(请参阅日志 c:workertwistd.log),那么您可以通过将带有工作目录的项目添加到注册表来将我们的“worker”注册为服务(命令在以管理员身份运行的 powershell 中执行):
buildbot_worker_windows_service.exe --user VM-SRV-BUILD3buildbot --password 123456 --startup auto install
New-ItemProperty -path Registry::HKEY_LOCAL_MACHINESYSTEMCurrentControlSetservicesBuildBotParameters -Name directories -PropertyType String -Value c:worker
然后就可以启动服务了
Start-Service buildbot“工人”就这样了,你不用再去触动他们,所有的控制都来自于主人。
向导设置
首先,让我们为 master(在主主机上)创建基础设施,为此,请在 buildbot 用户下注册并运行以下命令:
su - buildbot
mkdir /home/buildbot/master
cd ~
buildbot create-master master对于现成的包,创建一个 builds 目录
mkdir /home/buildbot/builds在 /home/buildbot/master/ 目录中创建了 master.cfg 文件。 该文件是一个Python代码,包含系统所有机制的描述;我们将来会使用它。
nano /home/buildbot/master/master.cfgimport os, re
from buildbot.plugins import steps, util, schedulers, worker, changes, reporters
c= BuildmasterConfig ={}
# Описание наших рабочих.
c['workers'] = [ worker.Worker('CentOS', '123456'), worker.Worker('Debian-10', '123456'), worker.Worker('Windows-10', '123456')]
c['protocols'] = {'pb': {'port': 4000}}
# Указание мастеру какой репозиторий отслеживать
c['change_source'] = []
c['change_source'].append(changes.GitPoller(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
project = 'Rac-GUI',
branches = True,
pollInterval = 60
)
)
# служба запуска сборки
c['schedulers'] = []
c['schedulers'].append(schedulers.SingleBranchScheduler(
name="Rac-GUI-schedulers",
change_filter=util.ChangeFilter(branch='master'),
builderNames=["Rac-GUI-RPM-builder", "Rac-GUI-DEB-builder", "Rac-GUI-WIN-builder"],
properties = {'owner': 'admin'}
)
)
@util.renderer
######################################3
# Сборка RPM-пакета
rac_gui_build_RPM = util.BuildFactory()
rac_gui_build_RPM.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
workdir = 'rac-gui',
haltOnFailure = True,
submodules = True,
mode='full',
progress = True)
)为了自动化组装不同版本的包,从而不必深入研究master.cfg文件的代码,在rac_gui.tcl程序的主脚本中,在标题中添加了包含当前版本和发行版的行:
######################################################
# Rac GUI
...
# version: 1.0.3
# release: 1根据这些行,buildbot 将对包裹进行编号。 要提取数据,请使用控制台 grep 调用。 在 buildbot 中,你根本无法为“workers”定义变量(至少,我还没有找到如何定义)。 这就是属性的用途。 那些。 在组装过程中,我们添加了确定版本和发行版的步骤,并相应地设置版本和发行版属性。 可以通过多种方式设置属性,在本例中通过调用控制台命令:
# Добавим определение версии из основного файла
rac_gui_build_RPM.addStep(
steps.SetPropertyFromCommand(
command="grep version ../rac-gui/rac_gui.tcl | grep -oE 'b[0-9]{1,2}.[0-9]{1,2}.[0-9]{1,2}b'", property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_RPM.addStep(
steps.SetPropertyFromCommand(
command="grep release ../rac-gui/rac_gui.tcl | grep -oE 'b[0-9]{1,3}b'", property="release"
)
)您可以通过调用 util.Interpolate() 来替换结果值。
# Запакуем исходники
rac_gui_build_RPM.addStep(
steps.ShellCommand(
command=["tar", "czf", util.Interpolate("/home/buildbot/rpmbuild/SOURCES/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"), "../rac-gui"]
)
)这里需要注意的是,由于主机也用于手动组装包,因此组装将沿着标准路径进行。
# Копируем spec
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["cp", "../rac-gui/rac_gui.spec", "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))要设置正确的发行版和版本号,请使用标准 sed 调用,即该命令将spec文件中的值替换为所需的值
# меняем версию
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["sed", "-i", util.Interpolate("s/.*Version:.*/Version:t%(prop:version)s/"), "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))
# меняем релиз
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["sed", "-i", util.Interpolate("s/.*Release:.*/Release:t%(prop:release)s/"), "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))
# запускаем процесс сборки
rac_gui_build_RPM.addStep(steps.RpmBuild(
specfile="/home/buildbot/rpmbuild/SPECS/rac_gui.spec",
dist='.el5',
topdir='/home/buildbot/rpmbuild',
builddir='/home/buildbot/rpmbuild/build',
rpmdir='/home/buildbot/rpmbuild/RPMS',
sourcedir='/home/buildbot/rpmbuild/SOURCES'
)
)我们将完成的组装包和带有源的存档复制到主服务器。 但您可以立即将文件从工作文件复制到存储库或网站。
# Скопируем файл на мастер
rac_gui_build_RPM.addStep(
steps.FileUpload(
workersrc=util.Interpolate("/home/buildbot/rpmbuild/RPMS/noarch/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm")
)
)
rac_gui_build_RPM.addStep(
steps.FileUpload(
workersrc=util.Interpolate("/home/buildbot/rpmbuild/SOURCES/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz")
)
)让我们开始通过主服务器上的 FTP 将收集到的包复制到主机的过程。 为此目的,使用 在tcl上。
rac_gui_build_RPM.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm")]
)
)
rac_gui_build_RPM.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz")]
)
)RPM 就是这样。 现在让我们开始描述构建 DEB 包的算法。 由于为不同系统构建软件包的过程是相互独立的,因此许多步骤将被重复。
rac_gui_build_DEB = util.BuildFactory()
rac_gui_build_DEB.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
haltOnFailure = True,
submodules = True,
mode='full',
workdir='build',
progress = True)
)
# Добавим определение версии из основного файла
rac_gui_build_DEB.addStep(
steps.SetPropertyFromCommand(
command="grep version rac_gui.tcl | grep -oE 'b[0-9]{1,2}.[0-9]{1,2}.[0-9]{1,2}b'", property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_DEB.addStep(
steps.SetPropertyFromCommand(
command="grep release rac_gui.tcl | grep -oE 'b[0-9]{1,3}b'", property="release"
)
)
# Переименуем запускаемый файл
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["mv", "rac_gui.tcl", "racgui"]))对于 RPM 软件包,以下一些过程是由 rpm 本身在组装期间完成的,并在规范中进行了描述;对于 Debian,您必须在此处执行:
# Поменяем пути к библиотекам
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["sed", "-i", "s+^set dir(lib)+set dir(lib) /usr/share/rac-gui/lib ;#+g", "racgui"]))
# Поменяем пути к файлам
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["sed", "-i", "s+[pwd]+/usr/share/rac-gui+g", "racgui"]))
# заархивируем исходники
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["tar", "czf", util.Interpolate("../rac-gui_%(prop:version)s.orig.tar.gz"), "."]))
# Соберём пакет
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["dpkg-buildpackage"]))
# Скопируем файл на мастер
rac_gui_build_DEB.addStep(
steps.FileUpload(
workersrc=util.Interpolate("../rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb")
)
)
rac_gui_build_DEB.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb")]
)
)完成了 DEB,现在是 Windows!
rac_gui_build_WIN = util.BuildFactory()
rac_gui_build_WIN.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
haltOnFailure = True,
submodules = True,
mode='full',
workdir='build',
progress = True)
)由于 grep 和 sed 在 Windows 中不是标准的(或者有吗?),我们将使用 powershell
# Добавим определение версии из основного файла
rac_gui_build_WIN.addStep(
steps.SetPropertyFromCommand(
command="powershell -command "((Get-Content .rac_gui.tcl | Select-String -Pattern 'version:') -split 's')[2]",
property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_WIN.addStep(
steps.SetPropertyFromCommand(
command="powershell -command "((Get-Content .rac_gui.tcl | Select-String -Pattern 'release:') -split 's')[2]",
property="release"
)
)
# Создадим запускаемый файл
rac_gui_build_WIN.addStep(steps.ShellCommand(
command=["c:binfreewrap.exe", "rac_gui.tcl"]))
# запакуем то, что получилось
rac_gui_build_WIN.addStep(steps.ShellCommand(
command=["c:Program Files7-zip7z.exe", "a", "-r", util.Interpolate("..rac-gui_%(prop:version)s-%(prop:release)s.win.zip"), "..build"]))
# скопируем на мастер
rac_gui_build_WIN.addStep(
steps.FileUpload(
workersrc=util.Interpolate("..rac-gui_%(prop:version)s-%(prop:release)s.win.zip"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s.win.zip")
)
)
# Скопируем файл на хостинг
rac_gui_build_WIN.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s.win.zip"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui_%(prop:version)s-%(prop:release)s.win.zip")]
)
)
# Тут определяем какие сборщики у нас есть
c['builders'] = [
util.BuilderConfig(name="Rac-GUI-RPM-builder", workername='CentOS', factory=rac_gui_build_RPM),
util.BuilderConfig(name="Rac-GUI-DEB-builder", workername='Debian-10', factory=rac_gui_build_DEB),
util.BuilderConfig(name="Rac-GUI-WIN-builder", workername='Windows-10', factory=rac_gui_build_WIN),
]我们将使用电子邮件通知您构建过程的状态。
c['services'] = []
template=u'''
<h4>Build status: {{ summary }}</h4>
<p> Worker used: {{ workername }}</p>
{% for step in build['steps'] %}
<p> {{ step['name'] }}: {{ step['result'] }}</p>
{% endfor %}
<p><b> -- The Buildbot</b></p>
'''
mailNotifier = reporters.MailNotifier(fromaddr="[email protected]",
sendToInterestedUsers=False,
mode=('all'),
extraRecipients=["[email protected]"],
relayhost="mail.domain.ru",
smtpPort=587,
smtpUser="[email protected]",
smtpPassword="******",
messageFormatter=reporters.MessageFormatter(
template=template, template_type='html',
wantProperties=True, wantSteps=True))
c['services'].append(mailNotifier)
# Основные настройки мастера
c['title'] = "The process of bulding"
c['titleURL'] = "http://vm-srv-build1:80/"
c['buildbotURL'] = "http://vm-srv-build1/"
c['www'] = dict(port=80,
plugins=dict(waterfall_view={}, console_view={}, grid_view={}))
c['db'] = {
'db_url' : "sqlite:///state.sqlite"
}保存文件,可以尝试启动向导服务:
systemctl restart buildbot-master在日志中,我们将检查配置是否一切正常,并且一切正常。 我们所有的工作人员现在都应该连接,这将很高兴地在日志中报告»»'/home/buildbot/master/twistd.log»»':
2019-07-24 16:50:35+0300 [-] Loading buildbot.tac...
2019-07-24 16:50:35+0300 [-] Loaded.
2019-07-24 16:50:35+0300 [-] twistd 19.2.1 (/usr/bin/python3.6 3.6.8) starting up.
2019-07-24 16:50:35+0300 [-] reactor class: twisted.internet.epollreactor.EPollReactor.
2019-07-24 16:50:35+0300 [-] Starting BuildMaster -- buildbot.version: 2.3.1
2019-07-24 16:50:35+0300 [-] Loading configuration from '/home/buildbot/master/master.cfg'
2019-07-24 16:50:36+0300 [-] /usr/local/lib/python3.6/site-packages/buildbot/config.py:90: buildbot.config.ConfigWarning: [0.9.0 and later] `buildbotNetUsageData` is not configured and defaults to basic.
This parameter helps the buildbot development team to understand the installation base.
No personal information is collected.
Only installation software version info and plugin usage is sent.
You can `opt-out` by setting this variable to None.
Or `opt-in` for more information by setting it to "full".
2019-07-24 16:50:36+0300 [-] Setting up database with URL 'sqlite:/state.sqlite'
2019-07-24 16:50:36+0300 [-] setting database journal mode to 'wal'
2019-07-24 16:50:36+0300 [-] adding 1 new services, removing 0
2019-07-24 16:50:36+0300 [-] adding 1 new change_sources, removing 0
2019-07-24 16:50:36+0300 [-] gitpoller: using workdir '/home/buildbot/master/gitpoller-work'
2019-07-24 16:50:36+0300 [-] adding 3 new builders, removing 0
2019-07-24 16:50:36+0300 [-] adding 1 new schedulers, removing 0
2019-07-24 16:50:36+0300 [-] initializing www plugin 'waterfall_view'
2019-07-24 16:50:36+0300 [-] initializing www plugin 'console_view'
2019-07-24 16:50:36+0300 [-] initializing www plugin 'grid_view'
2019-07-24 16:50:36+0300 [-] NOTE: www plugin 'sitenav' is installed but not configured
2019-07-24 16:50:36+0300 [-] initializing www plugin 'waterfall_view'
2019-07-24 16:50:36+0300 [-] initializing www plugin 'console_view'
2019-07-24 16:50:36+0300 [-] initializing www plugin 'grid_view'
2019-07-24 16:50:36+0300 [-] NOTE: www plugin 'sitenav' is installed but not configured
2019-07-24 16:50:36+0300 [-] BuildbotSite starting on 80
2019-07-24 16:50:36+0300 [-] Starting factory <buildbot.www.service.BuildbotSite object at 0x7fe31c2657b8>
2019-07-24 16:50:36+0300 [-] adding 3 new workers, removing 0
2019-07-24 16:50:36+0300 [-] PBServerFactory starting on 4000
2019-07-24 16:50:36+0300 [-] Starting factory <twisted.spread.pb.PBServerFactory object at 0x7fe31c147470>
2019-07-24 16:50:37+0300 [-] BuildMaster is running
2019-07-24 16:50:37+0300 [-] buildbotNetUsageData: sending {'installid': 'b6193b126b96689351d2fe95787c5a03fc0879f9', 'versions': {'Python': '3.6.8', 'Buildbot': '2.3.1', 'Twisted': '19.2.1'}, 'platform': {'platform': 'Linux-4.15.18-10- pve-x86_64-with-centos-7.6.1810-Core', 'system': 'Linux', 'machine': 'x86_64', 'processor': 'x86_64', 'python_implementation': 'CPython', 'version': '#1 SMP PVE 4.15.18-32', 'distro': 'centos:7'}, 'plugins': {'buildbot/worker/base/Worker': 3, 'buildbot/config/BuilderConfig': 3, 'buildbot/schedulers/basic/SingleBranchScheduler': 1, 'buildbot/reporters/mail/MailNotifier': 1, 'buildbot/changes/gitpoller/GitPoller': 1, 'buildbot/steps/worker/MakeDirectory': 1, 'buildbot/steps/source/git/Git': 3, 'buildbot/steps/shell/ShellCommand': 9, 'buildbot/steps/package/rpm/rpmbuild/RpmBuild': 1}, 'db': 'sqlite', 'mq': 'simple', 'www_plugins': ['waterfall_view', 'console_view', 'grid_view']}
2019-07-24 16:50:37+0300 [Broker,0,127.0.0.1] worker 'CentOS' attaching from IPv4Address(type='TCP', host='127.0.0.1', port=37332)
2019-07-24 16:50:37+0300 [Broker,0,127.0.0.1] Got workerinfo from 'CentOS'
2019-07-24 16:50:37+0300 [-] bot attached
2019-07-24 16:50:37+0300 [Broker,0,127.0.0.1] Worker CentOS attached to Rac-GUI-RPM-builder
2019-07-24 16:50:37+0300 [-] buildbotNetUsageData: buildbot.net said: ok
2019-07-24 16:50:39+0300 [Broker,1,192.168.55.15] worker 'Windows-10' attaching from IPv4Address(type='TCP', host='192.168.5.145', port=49831)
2019-07-24 16:50:39+0300 [Broker,1,192.168.55.15] Got workerinfo from 'Windows-10'
2019-07-24 16:50:40+0300 [-] bot attached
2019-07-24 16:50:40+0300 [Broker,1,192.168.55.15] Worker Windows-10 attached to Rac-GUI-WIN-builder
2019-07-24 16:50:41+0300 [Broker,2,192.168.55.99] worker 'Debian-10' attaching from IPv4Address(type='TCP', host='192.168.5.9', port=44430)
2019-07-24 16:50:41+0300 [Broker,2,192.168.55.99] Got workerinfo from 'Debian-10'
2019-07-24 16:50:41+0300 [-] bot attached
2019-07-24 16:50:41+0300 [Broker,2,192.168.55.99] Worker Debian-10 attached to Rac-GUI-DEB-builder这样就完成了设置过程。 您可以通过 Web 界面查看当前状态。 您还可以在其中看到构建错误,如果出现问题则启动冻结的进程等。
上线后立即可以通过菜单“Builds”->“Workers”查看我们的辛勤工作人员
第一个构建过程完成后(即对 Git 存储库的更改),过程的状态将显示在第一页上。
如果您用鼠标单击所需的行,则会打开一个页面,其中显示该进程的当前状态,您可以在其中查看正在发生的情况、错误等。
整个向导配置可以在这里找到
import os, re
from buildbot.plugins import steps, util, schedulers, worker, changes, reporters
c= BuildmasterConfig ={}
c['workers'] = [ worker.Worker('CentOS', '123456'), worker.Worker('Debian-10', '123456'), worker.Worker('Windows-10', '123456')]
c['protocols'] = {'pb': {'port': 4000}}
c['change_source'] = []
c['change_source'].append(changes.GitPoller(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
project = 'Rac-GUI',
branches = True,
pollInterval = 600
))
# служба запуска сборки
c['schedulers'] = []
c['schedulers'].append(schedulers.SingleBranchScheduler(
name="Rac-GUI-schedulers",
change_filter=util.ChangeFilter(branch='master'),
builderNames=["Rac-GUI-RPM-builder", "Rac-GUI-DEB-builder", "Rac-GUI-WIN-builder"],
properties = {'owner': 'admin'}
))
@util.renderer
def get_name_version_release(props):
prog_name = "rac-gui"
prog_version = "1.0.3"
prog_release = "3"
return {
"prog_name": prog_name
#"prog_version": prog_version,
#"prog_release": prog_release
}
rac_gui_build_RPM = util.BuildFactory()
rac_gui_build_RPM.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
workdir = 'rac-gui',
haltOnFailure = True,
submodules = True,
mode='full',
progress = True)
)
# Добавим определение версии из основного файла
rac_gui_build_RPM.addStep(
steps.SetPropertyFromCommand(
command="grep version ../rac-gui/rac_gui.tcl | grep -oE 'b[0-9]{1,2}.[0-9]{1,2}.[0-9]{1,2}b'", property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_RPM.addStep(
steps.SetPropertyFromCommand(
command="grep release ../rac-gui/rac_gui.tcl | grep -oE 'b[0-9]{1,3}b'", property="release"
)
)
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["tar", "czf", util.Interpolate("/home/buildbot/rpmbuild/SOURCES/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"), "../rac-gui"]))
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["cp", "../rac-gui/rac_gui.spec", "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["sed", "-i", util.Interpolate("s/.*Version:.*/Version:t%(prop:version)s/"), "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))
rac_gui_build_RPM.addStep(steps.ShellCommand(
command=["sed", "-i", util.Interpolate("s/.*Release:.*/Release:t%(prop:release)s/"), "/home/buildbot/rpmbuild/SPECS/rac_gui.spec"]))
rac_gui_build_RPM.addStep(steps.RpmBuild(
specfile="/home/buildbot/rpmbuild/SPECS/rac_gui.spec",
dist='.el5',
topdir='/home/buildbot/rpmbuild',
builddir='/home/buildbot/rpmbuild/build',
rpmdir='/home/buildbot/rpmbuild/RPMS',
sourcedir='/home/buildbot/rpmbuild/SOURCES'
))
# Скопируем файл на мастер
rac_gui_build_RPM.addStep(
steps.FileUpload(
workersrc=util.Interpolate("/home/buildbot/rpmbuild/RPMS/noarch/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm")
)
)
rac_gui_build_RPM.addStep(
steps.FileUpload(
workersrc=util.Interpolate("/home/buildbot/rpmbuild/SOURCES/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz")
)
)
rac_gui_build_RPM.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui-%(prop:version)s-%(prop:release)s.noarch.rpm")]
)
)
rac_gui_build_RPM.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui-%(prop:version)s-%(prop:release)s.tar.gz")]
)
)
####################################
## DEB
####################################
rac_gui_build_DEB = util.BuildFactory()
rac_gui_build_DEB.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
haltOnFailure = True,
submodules = True,
mode='full',
workdir='build',
progress = True)
)
# Добавим определение версии из основного файла
rac_gui_build_DEB.addStep(
steps.SetPropertyFromCommand(
command="grep version rac_gui.tcl | grep -oE 'b[0-9]{1,2}.[0-9]{1,2}.[0-9]{1,2}b'", property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_DEB.addStep(
steps.SetPropertyFromCommand(
command="grep release rac_gui.tcl | grep -oE 'b[0-9]{1,3}b'", property="release"
)
)
# Переименуем запускаемый файл
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["mv", "rac_gui.tcl", "racgui"]))
# Поменяем пути к библиотекам
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["sed", "-i", "s+^set dir(lib)+set dir(lib) /usr/share/rac-gui/lib ;#+g", "racgui"]))
# Поменяем пути к файлам
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["sed", "-i", "s+[pwd]+/usr/share/rac-gui+g", "racgui"]))
# заархивируем исходники
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["tar", "czf", util.Interpolate("../rac-gui_%(prop:version)s.orig.tar.gz"), "."]))
# Соберём пакет
rac_gui_build_DEB.addStep(steps.ShellCommand(
command=["dpkg-buildpackage"]))
# Скопируем файл на мастер
rac_gui_build_DEB.addStep(
steps.FileUpload(
workersrc=util.Interpolate("../rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb")
)
)
rac_gui_build_DEB.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui_%(prop:version)s-%(prop:release)s_amd64.deb")]
)
)
############################################
# WIN
############################################
rac_gui_build_WIN = util.BuildFactory()
rac_gui_build_WIN.addStep(steps.Git(
repourl = 'https://bitbucket.org/svk28/rac-gui.git',
haltOnFailure = True,
submodules = True,
mode='full',
workdir='build',
progress = True)
)
# Добавим определение версии из основного файла
rac_gui_build_WIN.addStep(
steps.SetPropertyFromCommand(
command="powershell -command "((Get-Content .rac_gui.tcl | Select-String -Pattern 'version:') -split 's')[2]",
property="version"
)
)
# Добавим определение релиза из основного файла
rac_gui_build_WIN.addStep(
steps.SetPropertyFromCommand(
command="powershell -command "((Get-Content .rac_gui.tcl | Select-String -Pattern 'release:') -split 's')[2]",
property="release"
)
)
# Создадим запускаемый файл
rac_gui_build_WIN.addStep(steps.ShellCommand(
command=["c:binfreewrap.exe", "rac_gui.tcl"]))
# запакуем то, что получилось
rac_gui_build_WIN.addStep(steps.ShellCommand(
command=["c:Program Files7-zip7z.exe", "a", "-r", util.Interpolate("..rac-gui_%(prop:version)s-%(prop:release)s.win.zip"), "..build"]))
# скопируем на мастер
rac_gui_build_WIN.addStep(
steps.FileUpload(
workersrc=util.Interpolate("..rac-gui_%(prop:version)s-%(prop:release)s.win.zip"),
masterdest=util.Interpolate("/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s.win.zip")
)
)
# Скопируем файл на хостинг
rac_gui_build_WIN.addStep(
steps.MasterShellCommand(
command=["/usr/local/bin/deploy-ftp.tcl",
util.Interpolate("--local-file=/home/buildbot/builds/rac-gui_%(prop:version)s-%(prop:release)s.win.zip"),
util.Interpolate("--remote-file=uploads/rac-gui/rac-gui_%(prop:version)s-%(prop:release)s.win.zip")]
)
)
c['builders'] = [
util.BuilderConfig(name="Rac-GUI-RPM-builder", workername='CentOS', factory=rac_gui_build_RPM),
util.BuilderConfig(name="Rac-GUI-DEB-builder", workername='Debian-10', factory=rac_gui_build_DEB),
util.BuilderConfig(name="Rac-GUI-WIN-builder", workername='Windows-10', factory=rac_gui_build_WIN),
]
c['services'] = []
template=u'''
<h4>Build status: {{ summary }}</h4>
<p> Worker used: {{ workername }}</p>
{% for step in build['steps'] %}
<p> {{ step['name'] }}: {{ step['result'] }}</p>
{% endfor %}
<p><b> -- The Buildbot</b></p>
'''
mailNotifier = reporters.MailNotifier(fromaddr="[email protected]",
sendToInterestedUsers=False,
mode=('all'),
extraRecipients=["[email protected]"],
relayhost="mail.domain.local",
smtpPort=587,
smtpUser="[email protected]",
smtpPassword="**********",
messageFormatter=reporters.MessageFormatter(
template=template, template_type='html',
wantProperties=True, wantSteps=True))
c['services'].append(mailNotifier)
c['title'] = "The process of bulding"
c['titleURL'] = "http://vm-srv-build1:80/"
c['buildbotURL'] = "http://vm-srv-build1/"
c['www'] = dict(port=80,
plugins=dict(waterfall_view={}, console_view={}, grid_view={}))
c['db'] = {
'db_url' : "sqlite:///state.sqlite"
}物料
准备本文时使用了以下材料:
- 嗯,产品文档
来源: habr.com