# -*- python -*- # ex: set syntax=python: # This is a sample buildmaster config file. It must be installed as # 'master.cfg' in your buildmaster's base directory. # This is the dictionary that the buildmaster pays attention to. We also use # a shorter alias to save typing. c = BuildmasterConfig = {} ####### BUILDSLAVES # The 'slaves' list defines the set of recognized buildslaves. Each element is # a BuildSlave object, specifying a unique slave name and password. The same # slave name and password must be configured on the slave. from buildbot.buildslave import BuildSlave from buildbot_private import pass_dict c['slaves'] = [BuildSlave("linux-slave", pass_dict["linux-slave"], max_builds = 1), BuildSlave("OSX-slave", pass_dict["OSX-slave"], max_builds = 1), BuildSlave("windows-slave", pass_dict["windows-slave"], max_builds = 1) ] # 'slavePortnum' defines the TCP port to listen on for connections from slaves. # This must match the value configured into the buildslaves (with their # --master option) c['slavePortnum'] = 9989 ####### CHANGESOURCES # the 'change_source' setting tells the buildmaster how it should find out # about source code changes. Here we point to the CoolProp source code. from buildbot.changes.gitpoller import GitPoller c['change_source'] = [] c['change_source'].append(GitPoller( 'https://github.com/CoolProp/CoolProp', workdir='gitpoller-workdir', branch='master', pollinterval=300)) # Interval between triggering a build ####### BUILDERS # The 'builders' list defines the Builders, which tell Buildbot how to perform a build: # what steps, and which slaves can execute them. Note that any particular build will # only take place on one slave. from buildbot.process.factory import BuildFactory from buildbot.steps.source.git import Git from buildbot.steps.shell import ShellCommand from buildbot.steps.slave import MakeDirectory, RemoveDirectory from buildbot.steps.transfer import DirectoryUpload def sphinx_slave(generator = "Unix Makefiles", git_mode = 'incremental'): factory = BuildFactory() # Check out sources factory.addStep(Git(repourl='git://github.com/CoolProp/CoolProp', mode=git_mode, submodules = True, progress=True, haltOnFailure = True)) # Run sphinx apidoc #factory.addStep(ShellCommand(command=["sphinx-apidoc","-T","-f","-o","apidoc","../CoolProp"],workdir= 'build/Web', haltOnFailure = True)) # Run sphinx build factory.addStep(ShellCommand(command=["make", "html"], workdir= 'build/Web', haltOnFailure = True)) # Upload the generated files factory.addStep(DirectoryUpload(slavesrc="Web/_build/html",masterdest="public_html/sphinx",url="sphinx",compress="bz2")) return factory def cmake_slave(mod_name, git_mode = 'incremental', install = True, cmake_args = [], build_args = [], ctest_args = [], cmake_env={}, test = True): """ Parameters ---------- mod_name: string The module to be built, one of 'Octave','python','Csharp', etc. - turns on the macro -DCOOLPROP_OCTAVE_MODULE=ON for instance if you pass octave git_mode: string What mode to use, one of 'incremental' or 'full' install: bool True for install, False for just build cmake_args: list of strings List of strings of arguments to be passed to cmake (Makefile generating) step cmake_env: dictionary (string->string) A dictionary including keys that can be set in the build environment build_args: list of strings List of strings of arguments to be passed to cmake install or build command depending on value of install ctest_args: list of strings List of strings of arguments to be passed to ctest """ factory = BuildFactory() working_folder = "build/build/" + mod_name # check out the source factory.addStep(Git(repourl='git://github.com/CoolProp/CoolProp', mode=git_mode, submodules = True, progress=True, haltOnFailure = True)) factory.addStep(MakeDirectory(dir="build/"+working_folder, haltOnFailure = True)) factory.addStep(RemoveDirectory(dir="build/install_root", haltOnFailure = True)) factory.addStep(ShellCommand(command=["cmake", "../..", "-DCOOLPROP_"+mod_name.upper()+"_MODULE=ON","-DBUILD_TESTING=ON"]+cmake_args, env = cmake_env, workdir= working_folder, haltOnFailure = True)) if install: factory.addStep(ShellCommand(command=["cmake", "--build", ".", "--target", "install"]+build_args, workdir = working_folder, haltOnFailure = True)) else: factory.addStep(ShellCommand(command=["cmake", "--build", "."]+build_args, workdir = working_folder, haltOnFailure = True)) if test: factory.addStep(ShellCommand(command=["ctest", "--extra-verbose"] + ctest_args, workdir = working_folder, haltOnFailure = True)) if install: factory.addStep(DirectoryUpload(slavesrc="install_root",masterdest="public_html/binaries",url="binaries",compress="bz2")) return factory from buildbot.config import BuilderConfig c['builders'] = [] c['builders'].append( BuilderConfig(name="Catch-OSX", slavenames=["OSX-slave"], factory = cmake_slave('Catch', install=False) ) ) c['builders'].append( BuilderConfig(name="Sphinx docs", slavenames=["linux-slave"], factory = sphinx_slave() ) ) #Common (boring) modules for linux and OSX ### OSX for wrapper in ['Java','MATLAB','Csharp','Octave']: for platform in ['OSX', 'linux']: c['builders'].append( BuilderConfig(name=wrapper+"-"+platform, slavenames=[platform + "-slave"], factory = cmake_slave(wrapper) ) ) c['builders'].append( BuilderConfig(name="64bitDLL-linux", slavenames=["linux-slave"], factory = cmake_slave('64BIT_SHARED_LIBRARY', test = False ) ) ) c['builders'].append( BuilderConfig(name="64bitDLL-OSX", slavenames=["OSX-slave"], factory = cmake_slave('64BIT_SHARED_LIBRARY', test = False ) ) ) c['builders'].append( BuilderConfig(name="64bitDLL-windows", slavenames=["windows-slave"], factory = cmake_slave('64BIT_SHARED_LIBRARY', test = False, cmake_args=['-G','Visual Studio 10 2010 Win64'] ) ) ) c['builders'].append( BuilderConfig(name="32bitCdeclDLL-windows", slavenames=["windows-slave"], factory = cmake_slave('32BIT_CDECL_SHARED_LIBRARY', test = False, cmake_args=['-G','Visual Studio 10 2010'] ) ) ) c['builders'].append( BuilderConfig(name="32bitStdcallDLL-windows", slavenames=["windows-slave"], factory = cmake_slave('32BIT_STDCALL_SHARED_LIBRARY', test = False, cmake_args=['-G','Visual Studio 10 2010'] ) ) ) c['builders'].append( BuilderConfig(name="EES-windows", slavenames=["windows-slave"], factory = cmake_slave('EES', test = False) ) ) c['builders'].append( BuilderConfig(name="Java-windows", slavenames=["windows-slave"], factory = cmake_slave('Java', ctest_args = ['-C','Release']) ) ) c['builders'].append( BuilderConfig(name="Csharp-windows", slavenames=["windows-slave"], factory = cmake_slave('Csharp', ctest_args = ['-C','Release']) ) ) c['builders'].append( BuilderConfig(name="Octave-windows", slavenames=["windows-slave"], factory = cmake_slave('Octave', ctest_args = ['-C','Release']) ) ) c['builders'].append( BuilderConfig(name="MATLAB64-windows", slavenames=["windows-slave"], factory = cmake_slave('MATLAB', cmake_args=['-G','Visual Studio 10 2010 Win64']) ) ) c['builders'].append( BuilderConfig(name="MATLAB32-windows", slavenames=["windows-slave"], factory = cmake_slave('MATLAB', cmake_env={'MATLAB_ROOT':'c:\Program Files (x86)\MATLAB\R2014a'}, cmake_args=['-G','Visual Studio 10 2010']) ) ) all_builder_names = [builder.name for builder in c['builders']] ####### CLEANER from buildbot.steps.master import MasterShellCommand f = BuildFactory() f.addStep(MasterShellCommand(command = "echo pwd")) c['builders'].append(BuilderConfig(name="clean_master_install", slavenames=["OSX-slave"], factory = f ) ) ####### SCHEDULERS # Configure the Schedulers, which decide how to react to incoming changes. In this # case, just kick off a 'runtests' build from buildbot.schedulers.basic import SingleBranchScheduler from buildbot.schedulers.forcesched import ForceScheduler from buildbot.changes import filter c['schedulers'] = [] c['schedulers'].append(SingleBranchScheduler( name="all", change_filter=filter.ChangeFilter(branch='master'), treeStableTimer=None, builderNames=all_builder_names)) c['schedulers'].append(ForceScheduler( name="force", builderNames=all_builder_names)) c['schedulers'].append(ForceScheduler( name="force_clean", builderNames=["clean_master_install"])) ####### STATUS TARGETS # 'status' is a list of Status Targets. The results of each build will be # pushed to these targets. buildbot/status/*.py has a variety to choose from, # including web pages, email senders, and IRC bots. c['status'] = [] from buildbot.status import html from buildbot.status.web import authz, auth from buildbot_private import web_auth authz_cfg=authz.Authz( # change any of these to True to enable; see the manual for more # options auth=auth.BasicAuth([(web_auth['user'], web_auth['pass'])]), gracefulShutdown = False, forceBuild = 'auth', # use this to test your slave once it is set up forceAllBuilds = True, pingBuilder = False, stopBuild = False, stopAllBuilds = False, cancelPendingBuild = False, ) c['status'].append(html.WebStatus(http_port=8010, authz=authz_cfg)) ####### PROJECT IDENTITY # the 'title' string will appear at the top of this buildbot # installation's html.WebStatus home page (linked to the # 'titleURL') and is embedded in the title of the waterfall HTML page. c['title'] = "CoolProp" c['titleURL'] = "https://www.coolprop.org" # the 'buildbotURL' string should point to the location where the buildbot's # internal web server (usually the html.WebStatus page) is visible. This # typically uses the port number set in the Waterfall 'status' entry, but # with an externally-visible host name which the buildbot cannot figure out # without some help. c['buildbotURL'] = "http://localhost:8010/" ####### DB URL c['db'] = { # This specifies what database buildbot uses to store its state. You can leave # this at its default for all but the largest installations. 'db_url' : "sqlite:///state.sqlite", }