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Dependencies:   MAX44000 PWM_Tone_Library nexpaq_mdk

Fork of LED_Demo by joey shelton

Revision:
1:55a6170b404f
diff -r b86eda0e990d -r 55a6170b404f mbd_os/tools/buildbot/master.cfg
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/mbd_os/tools/buildbot/master.cfg	Sat Sep 17 16:32:05 2016 +0000
@@ -0,0 +1,406 @@
+# -*- 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
+c['slaves'] = [BuildSlave("example-slave", "pass"),
+               BuildSlave("example-slave-2", "pass"),
+               BuildSlave("example-slave-KL25Z", "pass"),
+               BuildSlave("example-slave-LPC1768", "pass"),
+               BuildSlave("example-slave-LPC11U24", "pass"),
+              ]
+
+# '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
+
+####### OFFICIAL_MBED_LIBRARY_BUILD
+
+OFFICIAL_MBED_LIBRARY_BUILD = (
+    ('LPC1768', ('ARM', 'GCC_ARM', 'GCC_CR', 'IAR')),
+    ('KL05Z', ('ARM', 'uARM', 'GCC_ARM')),
+    ('KL25Z', ('ARM', 'GCC_ARM')),
+    ('LPC11U24', ('ARM', 'uARM')),
+    ('KL46Z', ('ARM', 'GCC_ARM')),
+    ('LPC4088', ('ARM', 'GCC_ARM', 'GCC_CR')),
+    ('LPC1347', ('ARM',)),
+    ('LPC1549', ('uARM',)),
+    ('LPC2368', ('ARM',)),
+    ('LPC812', ('uARM',)),
+    ('LPC11U35_401', ('ARM', 'uARM')),
+    ('LPC1114', ('uARM',)),
+    ('NUCLEO_F103RB', ('ARM', 'uARM')),
+    ('NUCLEO_L152RE', ('ARM', 'uARM')),
+    ('NUCLEO_F401RE', ('ARM', 'uARM')),
+    ('NUCLEO_F030R8', ('ARM', 'uARM')),
+    ('UBLOX_C027', ('ARM', 'GCC_ARM', 'GCC_CR', 'IAR')),
+    # ('NRF51822', ('ARM',)),
+)
+
+# Which hardware platforms are supported for target testing
+OFFICIAL_MBED_TESTBED_SUPPORTED_HARDWARE = (
+    # 'KL25Z',
+    # 'LPC1768',
+    # 'LPC11U24',
+)
+
+####### CHANGESOURCES
+
+# the 'change_source' setting tells the buildmaster how it should find out
+# about source code changes.  Here we point to the buildbot clone of pyflakes.
+
+from buildbot.changes.gitpoller import GitPoller
+c['change_source'] = []
+"""
+c['change_source'].append(GitPoller(
+        'git://github.com/buildbot/pyflakes.git',
+        workdir='gitpoller-workdir', branch='master',
+        pollinterval=300))
+"""
+####### 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'] = []
+
+# Create builders to generate one target using all assigned toolchains
+release_builder_name = "BuildRelease"
+builder_names = [release_builder_name]
+for target_name, toolchains in OFFICIAL_MBED_LIBRARY_BUILD:
+    builder_name = "All_TC_%s" % target_name
+    builder_names.append(builder_name)
+c['schedulers'].append(ForceScheduler(name="force", builderNames=builder_names))
+
+####### 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.process.buildstep import LogLineObserver
+import buildbot.status.results
+import re
+import pprint
+
+class TestCommand(ShellCommand):
+    failedTestsCount = 0    # FAIL
+    passedTestsCount = 0    # OK
+    errorsTestsCount = 0    # ERROR
+    undefsTestsCount = 0    # UNDEF
+    testsResults = []
+
+    def __init__(self, stage=None,module=None, moduleset=None, **kwargs):
+        ShellCommand.__init__(self, **kwargs)
+        self.failedTestsCount = 0
+        self.passedTestsCount = 0
+        self.errorsTestsCount = 0
+        self.tracebackPyCount = 0
+        self.testsResults = []
+        testFailuresObserver = UnitTestsObserver ()
+        self.addLogObserver('stdio', testFailuresObserver)
+
+    def createSummary(self, log):
+        if self.failedTestsCount >= 0 or self.passedTestsCount >= 0 or self.errorsTestsCount >= 0 or self.undefsTestsCount >= 0:
+            self.addHTMLLog ('tests summary', self.createTestsSummary())
+
+    def getText(self, cmd, results):
+        text = ShellCommand.getText(self, cmd, results)
+        text.append("OK: "    + str(self.passedTestsCount))
+        text.append("FAIL: "  + str(self.failedTestsCount))
+        text.append("ERROR: " + str(self.errorsTestsCount))
+        text.append("UNDEF: " + str(self.undefsTestsCount))
+        text.append("Traceback: " + str(self.tracebackPyCount))
+        return text
+
+    def evaluateCommand(self, cmd):
+        if self.failedTestsCount > 0:
+            return buildbot.status.results.WARNINGS
+        elif self.errorsTestsCount > 0 or self.undefsTestsCount > 0 or self.tracebackPyCount > 0:
+            return buildbot.status.results.FAILURE
+        return buildbot.status.results.SUCCESS
+
+    def find_unique_tc_result_value(self, index):
+        """ Get unique values from each row in data parameter """
+        result = []
+        for tc_result_list in self.testsResults:
+            if tc_result_list[index] not in result:
+                result.append(tc_result_list[index])
+        return result
+
+    def html_view_test_result(self, targets, tests, toolchain):
+        """ Generates simple result table """
+        COLOR_OK      = "LimeGreen"
+        COLOR_FAIL    = "LightCoral"
+        COLOR_UNDEF   = "LightSlateGray"
+        COLOR_NEUTRAL = "Silver"
+
+        STATUS_COLORS = { "OK"    : COLOR_OK,
+                          "FAIL"  : COLOR_FAIL,
+                          "UNDEF" : COLOR_UNDEF}
+
+        result = "<table>"
+        result += "<tr valign='center'><td align='center'><b>" + toolchain + "</b></td>"
+        for test in tests:
+            result += "<td align='center'>" + test + "<br></td>"
+        result += "</tr>"
+
+        for target in targets:
+            result += "<tr><td width='110px'><br>" + target + "<br></td>"
+            for test in tests:
+                for tc_result_list in self.testsResults:
+                    if tc_result_list[1] == target and tc_result_list[2] == toolchain and tc_result_list[3] == test:
+                        status = tc_result_list[4]
+                        bgcolor = STATUS_COLORS[status]
+                        result += "<td align='center' bgcolor='" + bgcolor + "'>" + status + "</td>"
+                        break;
+                else:
+                    result += "<td bgcolor='" + COLOR_NEUTRAL + "'></td>"
+            result += "</tr>"
+        result += "</table>"
+        return result
+
+    def createTestsSummary (self):
+        targets = self.find_unique_tc_result_value(1)
+        toolchains = self.find_unique_tc_result_value(2)
+        tests = self.find_unique_tc_result_value(3)
+        html_result = ""
+        for toolchain in toolchains:
+            html_result += self.html_view_test_result(targets, tests, toolchain)
+            html_result += "<br>"
+        return html_result
+
+
+class UnitTestsObserver(LogLineObserver):
+    reGroupTestResult = []
+    reGroupPyResult = []
+
+    def __init__(self):
+        LogLineObserver.__init__(self)
+        if len(self.reGroupTestResult) == 0:
+            self.reGroupTestResult.append(re.compile("^(\w+Test)::(\w+)::(\w+)::(\w+)::.* \[(\w+)\] in (\d+\.\d+) of (\d+) sec[\r\n]*$"))
+
+    def outLineReceived(self, line):
+        matched = False
+        for r in self.reGroupTestResult:
+            result = r.match(line)
+            if result:
+                self.step.testsResults.append(result.groups())
+                if result.group(5) == 'OK':
+                    self.step.passedTestsCount += 1
+                elif result.group(5) == 'FAIL':
+                    self.step.failedTestsCount += 1
+                elif result.group(5) == 'UNDEF':
+                    self.step.undefsTestsCount += 1
+                elif result.group(5) == 'ERROR':
+                    self.step.errorsTestsCount += 1
+                matched = True
+
+
+class BuildCommand(ShellCommand):
+    warningsCount = 0    # [Warning]
+    errorsCount = 0      # [Error]
+    testsResults = []
+
+    def __init__(self, stage=None,module=None, moduleset=None, **kwargs):
+        ShellCommand.__init__(self, **kwargs)
+        self.warningsCount = 0
+        self.errorsCount = 0
+        self.testsResults = []
+        buildProcessObserver = BuildObserver ()
+        self.addLogObserver('stdio', buildProcessObserver)
+
+    def createSummary(self, log):
+        if self.warningsCount >= 0 or self.errorsCount >= 0:
+            self.addHTMLLog ('tests summary', self.createTestsSummary())
+
+    def getText(self, cmd, results):
+        text = ShellCommand.getText(self, cmd, results)
+        if self.warningsCount > 0 or self.errorsCount > 0:
+            text.append("warnings: " + str(self.warningsCount))
+            text.append("errors: " + str(self.errorsCount))
+        return text
+
+    def evaluateCommand(self, cmd):
+        if self.warningsCount > 0:
+            return buildbot.status.results.WARNINGS
+        elif self.errorsCount > 0:
+            return buildbot.status.results.FAILURE
+        else:
+            return buildbot.status.results.SUCCESS
+
+    def createTestsSummary (self):
+            # Create a string with your html report and return it
+            html = "<h4>Report</h4><table>"
+            #for result in self.testsResults:
+            html += "</table>"
+            return html
+
+class BuildObserver(LogLineObserver):
+    regroupresult = []
+
+    def __init__(self):
+        LogLineObserver.__init__(self)
+        if len(self.regroupresult) == 0:
+            self.regroupresult.append(re.compile("^\[([Ww]arning)\] (.*)"))
+            self.regroupresult.append(re.compile("^\[([Ee]rror)\] (.*)"))
+
+    def outLineReceived(self, line):
+        matched = False
+        for r in self.regroupresult:
+            result = r.match(line)
+            if result:
+                self.step.testsResults.append(result.groups())
+                if result.group(1) == 'Warning':
+                    self.step.warningsCount += 1
+                elif result.group(1) == 'Error':
+                    self.step.errorsCount += 1
+                matched = True
+        #if not matched:
+            # [Future-Dev] Other check...
+
+
+####### BUILDERS - mbed project
+git_clone = Git(repourl='https://github.com/mbedmicro/mbed.git', mode='incremental')
+
+# create the build factory for mbed and add the steps to it
+from buildbot.config import BuilderConfig
+
+c['builders'] = []
+
+copy_mbed_settings = ShellCommand(name = "copy mbed_settings.py",
+                                     command = "cp ../mbed_settings.py mbed_settings.py",
+                                     haltOnFailure = True,
+                                     description = "Copy mbed_settings.py")
+
+mbed_build_release = BuildFactory()
+mbed_build_release.addStep(git_clone)
+mbed_build_release.addStep(copy_mbed_settings)
+
+for target_name, toolchains in OFFICIAL_MBED_LIBRARY_BUILD:
+    builder_name = "All_TC_%s" % target_name
+    mbed_build = BuildFactory()
+    mbed_build.addStep(git_clone)
+    mbed_build.addStep(copy_mbed_settings)
+    # Adding all chains for target
+    for toolchain in toolchains:
+        build_py = BuildCommand(name = "Build %s using %s"  % (target_name, toolchain),
+                               command = "python tools/build.py -m %s -t %s" % (target_name, toolchain),
+                               haltOnFailure = True,
+                               warnOnWarnings = True,
+                               description = "Building %s using %s"  % (target_name, toolchain),
+                               descriptionDone = "Built %s using %s"  % (target_name, toolchain))
+
+        mbed_build.addStep(build_py)
+        mbed_build_release.addStep(build_py)    # For build release we need all toolchains
+
+    if target_name in OFFICIAL_MBED_TESTBED_SUPPORTED_HARDWARE:
+        copy_example_test_spec_json = ShellCommand(name = "Copy example_test_spec.json",
+                                                   command = "cp ../example_test_spec.json tools/data/example_test_spec.json",
+                                                   haltOnFailure = True,
+                                                   description = "Copy example_test_spec.json")
+
+        autotest_py = ShellCommand(name = "Running autotest.py for %s" % (target_name),
+                                   command = "python tools/autotest.py tools/data/example_test_spec.json",
+                                   haltOnFailure = True,
+                                   description = "Running autotest.py")
+
+        mbed_build.addStep(copy_example_test_spec_json)
+        mbed_build.addStep(autotest_py)
+
+        # Add builder with steps for each toolchain
+        c['builders'].append(BuilderConfig(name=builder_name,
+                             slavenames=["example-slave-%s" % (target_name)],
+                             factory=mbed_build))
+    else:
+        # Add builder with steps for each toolchain
+        c['builders'].append(BuilderConfig(name=builder_name,
+                             slavenames=["example-slave"],
+                             factory=mbed_build))
+
+# copy_example_test_spec_json = ShellCommand(name = "Copy example_test_spec.json",
+                                           # command = "cp ../example_test_spec.json tools/data/example_test_spec.json",
+                                           # haltOnFailure = True,
+                                           # description = "Copy example_test_spec.json")
+
+singletest_py = TestCommand(name = "Running Target Tests",
+                            command = "python tools/singletest.py -i tools/test_spec.json -M tools/muts_all.json",
+                            haltOnFailure = True,
+                            warnOnWarnings = True,
+                            description = "Running Target Tests",
+                            descriptionDone = "Target Testing Finished")
+
+mbed_build_release.addStep(singletest_py)
+# Release build collects all building toolchains
+c['builders'].append(BuilderConfig(name=release_builder_name,
+                     slavenames=["example-slave"],
+                     factory=mbed_build_release))
+
+####### 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
+
+authz_cfg=authz.Authz(
+    # change any of these to True to enable; see the manual for more
+    # options
+    auth=auth.BasicAuth([("pyflakes","pyflakes")]),
+    gracefulShutdown = False,
+    forceBuild = 'auth', # use this to test your slave once it is set up
+    forceAllBuilds = True,
+    pingBuilder = True,
+    stopBuild = True,
+    stopAllBuilds = True,
+    cancelPendingBuild = True,
+)
+c['status'].append(html.WebStatus(http_port=8010, authz=authz_cfg, order_console_by_time=True))
+
+####### 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'] = "Green Tea"
+c['titleURL'] = ""
+
+# 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",
+    # 'db_url' : "mysql://buildbot:123456@localhost/buildbot_mbed?max_idle=300",
+}