#! /usr/bin/python # # CDDL HEADER START # # The contents of this file are subject to the terms of the # Common Development and Distribution License (the "License"). # You may not use this file except in compliance with the License. # # You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE # or http://www.opensolaris.org/os/licensing. # See the License for the specific language governing permissions # and limitations under the License. # # When distributing Covered Code, include this CDDL HEADER in each # file and include the License file at usr/src/OPENSOLARIS.LICENSE. # If applicable, add the following below this CDDL HEADER, with the # fields enclosed by brackets "[]" replaced with your own identifying # information: Portions Copyright [yyyy] [name of copyright owner] # # CDDL HEADER END # # # Copyright 2008 Sun Microsystems, Inc. All rights reserved. # Use is subject to license terms. # # # Various database lookup classes/methods, i.e.: # * monaco # * bugs.opensolaris.org (b.o.o.) # * opensolaris.org/cgi/arc.py (for ARC) # import re import urllib import htmllib import os from socket import socket, AF_INET, SOCK_STREAM from onbld.Checks import onSWAN class BugException(Exception): def __init__(self, data=''): self.data = data Exception.__init__(self, data) def __str__(self): return "Unknown error: %s" % self.data class NonExistentBug(BugException): def __str__(self): return "Bug %s does not exist" % self.data class Monaco(object): """ Query bug database. Methods: queryBugs() expertQuery() """ def __init__(self): self.__baseURL = "http://hestia.sfbay.sun.com/cgi-bin/expert?" def expertQuery(self, cmd, format="Normal+text", header=False): """Return results of user-supplied bug query. Argument: cmd: query to run Keyword arguments: format: desired output format (default="Normal+text") header: include headers in output? (default=False) Returns: List of lines representing the output from Monaco """ url = self.__baseURL + "format=" + format + ";Go=2;" if not header: url += "no_header=on;" url += "cmds=" + urllib.quote_plus("\n".join(cmd)) myMonaco = urllib.urlopen(url) return myMonaco.readlines() def queryBugs(self, crs): """Return all info for requested change reports. Argument: crs: list of change request ids Returns: Dictionary, mapping CR=>dictionary, where the nested dictionary is a mapping of field=>value """ monacoFields = [ "cr_number", "category", "sub_category", "area", "release", "build", "responsible_manager", "responsible_engineer", "priority", "status", "sub_status", "submitted_by", "date_submitted", "synopsis" ] cmd = [] cmd.append("set What = cr." + ', cr.'.join(monacoFields)) cmd.append("") cmd.append("set Which = cr.cr_number in (" + ','.join(crs) +")") cmd.append("") cmd.append("set FinalClauses = order by cr.cr_number") cmd.append("") cmd.append("doMeta genQuery cr") output = self.expertQuery(cmd, "Pipe-delimited+text") results = {} for line in output: line = line.rstrip('\n') # # We request synopsis last, and split on only # the number of separators that we expect to # see such that a | in the synopsis doesn't # throw us out of whack. # values = line.split('|', len(monacoFields) - 1) v = 0 cr = values[0] results[cr] = {} for field in monacoFields: results[cr][field] = values[v] v += 1 return results class BooBug(object): """Look up a single bug on bugs.opensolaris.org.""" def __init__(self, cr): cr = str(cr) url = "http://bugs.opensolaris.org/view_bug.do?bug_id="+cr data = urllib.urlopen(url).readlines() self.__fields = {} self.__fields["cr_number"] = cr htmlParser = htmllib.HTMLParser(None) metaHtmlRe = re.compile(r'^$') for line in data: m = metaHtmlRe.search(line) if not m: continue val = urllib.unquote(m.group(2)) htmlParser.save_bgn() htmlParser.feed(val) self.__fields[m.group(1)] = htmlParser.save_end() htmlParser.close() if "synopsis" not in self.__fields: raise NonExistentBug(cr) def synopsis(self): return self.__fields["synopsis"] def product(self): return self.__fields["product"] def cat(self): return self.__fields["category"] def subcat(self): return self.__fields["subcategory"] def keywords(self): return self.__fields["keywords"] def state(self): return self.__fields["state"] def submit_date(self): return self.__fields["submit_date"] def type(self): return self.__fields["type"] def date(self): return self.__fields["date"] def number(self): return self.__fields["cr_number"] class BugDB(object): """Lookup change requests. Object can be used on or off of SWAN, using either monaco or bugs.opensolaris.org as a database. Usage: bdb = BugDB() r = bdb.lookup("6455550") print r["6455550"]["synopsis"] r = bdb.lookup(["6455550", "6505625"]) print r["6505625"]["synopsis"] """ def __init__(self, forceBoo = False): """Create a BugDB object. Keyword argument: forceBoo: use b.o.o even from SWAN (default=False) """ if forceBoo: self.__onSWAN = False else: self.__onSWAN = onSWAN() if self.__onSWAN: self.__m = Monaco() def lookup(self, crs): """Return all info for requested change reports. Argument: crs: one change request id (may be integer, string, or list), or multiple change request ids (must be a list) Returns: Dictionary, mapping CR=>dictionary, where the nested dictionary is a mapping of field=>value """ if not isinstance(crs, list): crs = [str(crs)] if self.__onSWAN: results = self.__m.queryBugs(crs) return self.__m.queryBugs(crs) # else we're off-swan and querying via boo, which we can # only do one bug at a time results = {} for cr in crs: cr = str(cr) try: b = BooBug(cr) except NonExistentBug: continue results[cr] = {} results[cr]["cr_number"] = cr results[cr]["product"] = b.product() results[cr]["synopsis"] = b.synopsis() results[cr]["category"] = b.cat() results[cr]["sub_category"] = b.subcat() results[cr]["keywords"] = b.keywords() results[cr]["status"] = b.state() results[cr]["date_submitted"] = b.submit_date() results[cr]["type"] = b.type() results[cr]["date"] = b.date() return results #################################################################### class ARC(object): """Lookup an ARC case on opensolaris.org. Usage: a = ARC("PSARC", "2008/002") if a.valid(): print a.name() """ def __init__(self, arc, case): self.__valid = False q = "http://opensolaris.org/cgi/arc.py?n=1" q += "&arc0=" + arc q += "&case0=" + case data = urllib.urlopen(q).readlines() self.__fields = {} for line in data: line = line.rstrip('\n') fields = line.split('|') validity = fields[0] if validity != "0": return else: self.__fields["Name"] = fields[2] self.__valid = True def valid(self): return self.__valid def name(self): return self.__fields["Name"] def status(self): return self.__fields["Status"] def type(self): return self.__fields["Type"] #################################################################### # Pointers to the webrti server hostname & port to use # Using it directly is probably not *officially* supported, so we'll # have a pointer to the official `webrticli` command line interface # if using a direct socket connection fails for some reason, so we # have a fallback WEBRTI_HOST = 'webrti.sfbay.sun.com' WEBRTI_PORT = 9188 WEBRTICLI = '/net/onnv.sfbay.sun.com/export/onnv-gate/public/bin/webrticli' class RtiException(Exception): def __init__(self, data=''): self.data = data Exception.__init__(self, data) def __str__(self): return "Unknown error: %s" % self.data class RtiCallFailed(RtiException): def __str__(self): return "Unable to call webrti: %s" % self.data class RtiSystemProblem(RtiException): def __str__(self): return "RTI status cannot be determined: %s" % self.data class RtiIncorrectCR(RtiException): def __str__(self): return "Incorrect CR number specified: %s" % self.data class RtiNotFound(RtiException): def __str__(self): return "RTI not found: %s" % self.data class RtiNeedConsolidation(RtiException): def __str__(self): return "More than one consolidation has this CR: %s" % self.data class RtiBadGate(RtiException): def __str__(self): return "Incorrect gate name specified: %s" % self.data class RtiOffSwan(RtiException): def __str__(self): return "RTI status checks need SWAN access: %s" % self.data WEBRTI_ERRORS = { '1': RtiSystemProblem, '2': RtiIncorrectCR, '3': RtiNotFound, '4': RtiNeedConsolidation, '5': RtiBadGate, } # Our Rti object which we'll use to represent an Rti query # It's really just a wrapper around the Rti connection, and attempts # to establish a direct socket connection and query the webrti server # directly (thus avoiding a system/fork/exec call). If it fails, it # falls back to the webrticli command line client. returnCodeRe = re.compile(r'.*RETURN_CODE=(\d+)') class Rti: """Lookup an RTI. Usage: r = Rti("6640538") print r.rtiNumber(); """ def __init__(self, cr, gate=None, consolidation=None): """Create an Rti object for the specified change request. Argument: cr: change request id Keyword arguments, to limit scope of RTI search: gate: path to gate workspace (default=None) consolidation: consolidation name (default=None) """ bufSz = 1024 addr = (WEBRTI_HOST, WEBRTI_PORT) # If the passed 'cr' was given as an int, then wrap it # into a string to make our life easier if isinstance(cr, int): cr = str(cr) self.__queryCr = cr self.__queryGate = gate self.__queryConsolidation = consolidation self.__webRtiOutput = [] self.__mainCR = [] self.__rtiNumber = [] self.__consolidation = [] self.__project = [] self.__status = [] self.__rtiType = [] try: # try to use a direct connection to the # webrti server first sock = socket(AF_INET, SOCK_STREAM) sock.connect(addr) command = "WEBRTICLI/1.0\nRTIstatus\n%s\n" % cr if consolidation: command += "-c\n%s\n" % consolidation if gate: command += "-g\n%s\n" % gate command += "\n" sock.send(command) dataList = [] # keep receiving data from the socket until the # server closes the connection stillReceiving = True while stillReceiving: dataPiece = sock.recv(bufSz) if dataPiece: dataList.append(dataPiece) else: stillReceiving = False # create the lines, skipping the first # ("WEBRTCLI/1.0\n") data = '\n'.join(''.join(dataList).split('\n')[1:]) except: if not onSWAN(): raise RtiOffSwan(cr) if not os.path.exists(WEBRTICLI): raise RtiCallFailed('not found') # fallback to the "supported" webrticli interface command = WEBRTICLI if consolidation: command += " -c " + consolidation if gate: command += " -g " + gate command += " RTIstatus " + cr try: cliPipe = os.popen(command) except: # we couldn't call the webrticli for some # reason, so return a failure raise RtiCallFailed('unknown') data = cliPipe.readline() # parse the data to see if we got a return code # if we did, then that's bad. if we didn't, # then our call was successfully m = returnCodeRe.search(data) if m: # we got a return code, set it in our # object, set the webRtiOutput for debugging # or logging, and return a failure if m.group(1) in WEBRTI_ERRORS: exc = WEBRTI_ERRORS[m.group(1)] else: exc = RtiException raise exc(data) data = data.splitlines() # At this point, we should have valid data for line in data: line = line.rstrip('\r\n') self.__webRtiOutput.append(line) fields = line.split(':') self.__mainCR.append(fields[0]) self.__rtiNumber.append(fields[1]) self.__consolidation.append(fields[2]) self.__project.append(fields[3]) self.__status.append(fields[4]) self.__rtiType.append(fields[5]) # accessors in case callers need the raw data def mainCR(self): return self.__mainCR def rtiNumber(self): return self.__rtiNumber def consolidation(self): return self.__consolidation def project(self): return self.__project def status(self): return self.__status def rtiType(self): return self.__rtiType def queryCr(self): return self.__queryCr def queryGate(self): return self.__queryGate def queryConsolidation(self): return self.__queryConsolidation # in practice, most callers only care about the following def accepted(self): for status in self.__status: if status != "S_ACCEPTED": return False return True # for logging/debugging in case the caller wants the raw webrti output def webRtiOutput(self): return self.__webRtiOutput