def tinder_http_post(server, selector, content_type, body): import httplib # now post it for i in range(0,5): try: h = httplib.HTTP(server) h.putrequest('POST', selector) h.putheader('content-type', content_type) h.putheader('content-length', str(len(body))) h.endheaders() h.send(body) errcode, errmsg, headers = h.getreply() #print(errcode, errmsg, headers) return (errcode,errmsg, headers, h.file) except: print("Error sending the report!") # try again pass # return some garbage return (-1, "unknown", "unknown", None) def tinder_form_data(bound, dict, log): output = [] # for each key in the dictionary for name in dict: assert dict[name] output.append( "--" + bound ) output.append( 'Content-Disposition: form-data; name="%s"' % name ) output.append( "" ) output.append( dict[name] ) if log: output.append( "--" + bound ) output.append( 'Content-Disposition: form-data; name="log"; filename="log.txt"' ) output.append( '' ) output.append( log ) output.append( '--' + bound + '--' ) output.append( '' ) return "\r\n".join(output) def tinder_time_string(): """ Return the time as GMT """ return "" def tinder_format_http_post(d,status,log): """ Format the Tinderbox HTTP post with the data needed for the tinderbox to be happy. """ import random # the variables we will need to send on this form post variables = { "tree" : d.getVar('TINDER_TREE'), "machine_name" : d.getVar('TINDER_MACHINE'), "os" : os.uname()[0], "os_version" : os.uname()[2], "compiler" : "gcc", "clobber" : d.getVar('TINDER_CLOBBER') or "0", "srcdate" : d.getVar('SRCDATE'), "PN" : d.getVar('PN'), "PV" : d.getVar('PV'), "PR" : d.getVar('PR'), "FILE" : d.getVar('FILE') or "N/A", "TARGETARCH" : d.getVar('TARGET_ARCH'), "TARGETFPU" : d.getVar('TARGET_FPU') or "Unknown", "TARGETOS" : d.getVar('TARGET_OS') or "Unknown", "MACHINE" : d.getVar('MACHINE') or "Unknown", "DISTRO" : d.getVar('DISTRO') or "Unknown", "zecke-rocks" : "sure", } # optionally add the status if status: variables["status"] = str(status) # try to load the machine id # we only need on build_status.pl but sending it # always does not hurt try: f = open(d.getVar('TMPDIR')+'/tinder-machine.id', 'r') id = f.read() variables['machine_id'] = id except: pass # the boundary we will need boundary = "----------------------------------%d" % int(random.random()*1000000000000) # now format the body body = tinder_form_data( boundary, variables, log ) return ("multipart/form-data; boundary=%s" % boundary),body def tinder_build_start(d): """ Inform the tinderbox that a build is starting. We do this by posting our name and tree to the build_start.pl script on the server. """ # get the body and type content_type, body = tinder_format_http_post(d,None,None) server = d.getVar('TINDER_HOST') url = d.getVar('TINDER_URL') selector = url + "/xml/build_start.pl" #print("selector %s and url %s" % (selector, url)) # now post it errcode, errmsg, headers, h_file = tinder_http_post(server,selector,content_type, body) #print(errcode, errmsg, headers) report = h_file.read() # now let us find the machine id that was assigned to us search = " 0: content_type, body = tinder_format_http_post(d,status,new_log[0:18000]) errcode, errmsg, headers, h_file = tinder_http_post(server,selector,content_type, body) #print(errcode, errmsg, headers) #print(h.file.read()) new_log = new_log[18000:] def tinder_print_info(d): """ Print the TinderBox Info Including informations of the BaseSystem and the Tree we use. """ # get the local vars time = tinder_time_string() ops = os.uname()[0] version = os.uname()[2] url = d.getVar('TINDER_URL') tree = d.getVar('TINDER_TREE') branch = d.getVar('TINDER_BRANCH') srcdate = d.getVar('SRCDATE') machine = d.getVar('MACHINE') distro = d.getVar('DISTRO') bbfiles = d.getVar('BBFILES') tarch = d.getVar('TARGET_ARCH') fpu = d.getVar('TARGET_FPU') oerev = d.getVar('OE_REVISION') or "unknown" # there is a bug with tipple quoted strings # i will work around but will fix the original # bug as well output = [] output.append("== Tinderbox Info" ) output.append("Time: %(time)s" ) output.append("OS: %(ops)s" ) output.append("%(version)s" ) output.append("Compiler: gcc" ) output.append("Tinderbox Client: 0.1" ) output.append("Tinderbox Client Last Modified: yesterday" ) output.append("Tinderbox Protocol: 0.1" ) output.append("URL: %(url)s" ) output.append("Tree: %(tree)s" ) output.append("Config:" ) output.append("branch = '%(branch)s'" ) output.append("TARGET_ARCH = '%(tarch)s'" ) output.append("TARGET_FPU = '%(fpu)s'" ) output.append("SRCDATE = '%(srcdate)s'" ) output.append("MACHINE = '%(machine)s'" ) output.append("DISTRO = '%(distro)s'" ) output.append("BBFILES = '%(bbfiles)s'" ) output.append("OEREV = '%(oerev)s'" ) output.append("== End Tinderbox Client Info" ) # now create the real output return "\n".join(output) % vars() def tinder_print_env(): """ Print the environment variables of this build """ time_start = tinder_time_string() time_end = tinder_time_string() # build the environment env = "" for var in os.environ: env += "%s=%s\n" % (var, os.environ[var]) output = [] output.append( "---> TINDERBOX RUNNING env %(time_start)s" ) output.append( env ) output.append( "<--- TINDERBOX FINISHED (SUCCESS) %(time_end)s" ) return "\n".join(output) % vars() def tinder_tinder_start(d, event): """ PRINT the configuration of this build """ time_start = tinder_time_string() config = tinder_print_info(d) #env = tinder_print_env() time_end = tinder_time_string() packages = " ".join( event.getPkgs() ) output = [] output.append( "---> TINDERBOX PRINTING CONFIGURATION %(time_start)s" ) output.append( config ) #output.append( env ) output.append( "<--- TINDERBOX FINISHED PRINTING CONFIGURATION %(time_end)s" ) output.append( "---> TINDERBOX BUILDING '%(packages)s'" ) output.append( "<--- TINDERBOX STARTING BUILD NOW" ) output.append( "" ) return "\n".join(output) % vars() def tinder_do_tinder_report(event): """ Report to the tinderbox: On the BuildStart we will inform the box directly On the other events we will write to the TINDER_LOG and when the Task is finished we will send the report. The above is not yet fully implemented. Currently we send information immediately. The caching/queuing needs to be implemented. Also sending more or less information is not implemented yet. We have two temporary files stored in the TMP directory. One file contains the assigned machine id for the tinderclient. This id gets assigned when we connect the box and start the build process the second file is used to workaround an EventHandler limitation. If BitBake is ran with the continue option we want the Build to fail even if we get the BuildCompleted Event. In this case we have to look up the status and send it instead of 100/success. """ import glob # variables name = bb.event.getName(event) log = "" status = 1 # Check what we need to do Build* shows we start or are done if name == "BuildStarted": tinder_build_start(event.data) log = tinder_tinder_start(event.data,event) try: # truncate the tinder log file f = open(event.data.getVar('TINDER_LOG'), 'w') f.write("") f.close() except: pass try: # write a status to the file. This is needed for the -k option # of BitBake g = open(event.data.getVar('TMPDIR')+"/tinder-status", 'w') g.write("") g.close() except IOError: pass # Append the Task-Log (compile,configure...) to the log file # we will send to the server if name == "TaskSucceeded" or name == "TaskFailed": log_file = glob.glob("%s/log.%s.*" % (event.data.getVar('T'), event.task)) if len(log_file) != 0: to_file = event.data.getVar('TINDER_LOG') log += "".join(open(log_file[0], 'r').readlines()) # set the right 'HEADER'/Summary for the TinderBox if name == "TaskStarted": log += "---> TINDERBOX Task %s started\n" % event.task elif name == "TaskSucceeded": log += "<--- TINDERBOX Task %s done (SUCCESS)\n" % event.task elif name == "TaskFailed": log += "<--- TINDERBOX Task %s failed (FAILURE)\n" % event.task elif name == "PkgStarted": log += "---> TINDERBOX Package %s started\n" % event.data.getVar('PF') elif name == "PkgSucceeded": log += "<--- TINDERBOX Package %s done (SUCCESS)\n" % event.data.getVar('PF') elif name == "PkgFailed": if not event.data.getVar('TINDER_AUTOBUILD') == "0": build.exec_task('do_clean', event.data) log += "<--- TINDERBOX Package %s failed (FAILURE)\n" % event.data.getVar('PF') status = 200 # remember the failure for the -k case h = open(event.data.getVar('TMPDIR')+"/tinder-status", 'w') h.write("200") elif name == "BuildCompleted": log += "Build Completed\n" status = 100 # Check if we have a old status... try: h = open(event.data.getVar('TMPDIR')+'/tinder-status', 'r') status = int(h.read()) except: pass elif name == "MultipleProviders": log += "---> TINDERBOX Multiple Providers\n" log += "multiple providers are available (%s);\n" % ", ".join(event.getCandidates()) log += "consider defining PREFERRED_PROVIDER_%s\n" % event.getItem() log += "is runtime: %d\n" % event.isRuntime() log += "<--- TINDERBOX Multiple Providers\n" elif name == "NoProvider": log += "Error: No Provider for: %s\n" % event.getItem() log += "Error:Was Runtime: %d\n" % event.isRuntime() status = 200 # remember the failure for the -k case h = open(event.data.getVar('TMPDIR')+"/tinder-status", 'w') h.write("200") # now post the log if len(log) == 0: return # for now we will use the http post method as it is the only one log_post_method = tinder_send_http log_post_method(event.data, status, log) # we want to be an event handler addhandler tinderclient_eventhandler python tinderclient_eventhandler() { if e.data is None or bb.event.getName(e) == "MsgNote": return do_tinder_report = e.data.getVar('TINDER_REPORT') if do_tinder_report and do_tinder_report == "1": tinder_do_tinder_report(e) return }