class PackageEntry: """ This corresponds to a <package> entry in the contents.xml file. """ def __init__(self, xpackage, sourceDir): self.sourceDir = sourceDir self.loadXml(xpackage) def getKey(self): """ Returns a tuple used for sorting the PackageEntry objects uniquely per package. """ return (self.packageName, self.platform, self.version) def isNewer(self, other): return self.descFile.timestamp > other.descFile.timestamp def loadXml(self, xpackage): self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') solo = xpackage.Attribute('solo') self.solo = int(solo or '0') self.descFile = FileSpec() self.descFile.loadXml(xpackage) self.packageSeq = SeqValue() self.packageSeq.loadXml(xpackage, 'seq') self.packageSetVer = SeqValue() self.packageSetVer.loadXml(xpackage, 'set_ver') self.importDescFile = None ximport = xpackage.FirstChildElement('import') if ximport: self.importDescFile = FileSpec() self.importDescFile.loadXml(ximport) def makeXml(self): """ Returns a new TiXmlElement. """ xpackage = TiXmlElement('package') xpackage.SetAttribute('name', self.packageName) if self.platform: xpackage.SetAttribute('platform', self.platform) if self.version: xpackage.SetAttribute('version', self.version) if self.solo: xpackage.SetAttribute('solo', '1') self.descFile.storeXml(xpackage) self.packageSeq.storeXml(xpackage, 'seq') self.packageSetVer.storeXml(xpackage, 'set_ver') if self.importDescFile: ximport = TiXmlElement('import') self.importDescFile.storeXml(ximport) xpackage.InsertEndChild(ximport) return xpackage
def validatePackageContents(self): """ Validates the contents of the package directory itself against the expected hashes and timestamps. Updates hashes and timestamps where needed. """ if self.solo: return needsChange = False packageDescFullpath = Filename(self.sourceDir, self.descFile.filename) packageDir = Filename(packageDescFullpath.getDirname()) doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not doc.LoadFile(): message = "Could not read XML file: %s" % ( self.descFile.filename) raise OSError, message xpackage = doc.FirstChildElement('package') if not xpackage: message = "No package definition: %s" % ( self.descFile.filename) raise OSError, message xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: spec = FileSpec() spec.loadXml(xcompressed) if not spec.quickVerify(packageDir=packageDir, notify=PackageMerger.notify, correctSelf=True): spec.storeXml(xcompressed) needsChange = True xpatch = xpackage.FirstChildElement('patch') while xpatch: spec = FileSpec() spec.loadXml(xpatch) if not spec.quickVerify(packageDir=packageDir, notify=PackageMerger.notify, correctSelf=True): spec.storeXml(xpatch) needsChange = True xpatch = xpatch.NextSiblingElement('patch') if needsChange: PackageMerger.notify.info("Rewriting %s" % (self.descFile.filename)) doc.SaveFile() self.descFile.quickVerify(packageDir=self.sourceDir, notify=PackageMerger.notify, correctSelf=True)
def validatePackageContents(self): """ Validates the contents of the package directory itself against the expected hashes and timestamps. Updates hashes and timestamps where needed. """ if self.solo: return needsChange = False packageDescFullpath = Filename(self.sourceDir, self.descFile.filename) packageDir = Filename(packageDescFullpath.getDirname()) doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not doc.LoadFile(): message = "Could not read XML file: %s" % (self.descFile.filename) raise OSError(message) xpackage = doc.FirstChildElement('package') if not xpackage: message = "No package definition: %s" % (self.descFile.filename) raise OSError(message) xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: spec = FileSpec() spec.loadXml(xcompressed) if not spec.quickVerify(packageDir = packageDir, notify = PackageMerger.notify, correctSelf = True): spec.storeXml(xcompressed) needsChange = True xpatch = xpackage.FirstChildElement('patch') while xpatch: spec = FileSpec() spec.loadXml(xpatch) if not spec.quickVerify(packageDir = packageDir, notify = PackageMerger.notify, correctSelf = True): spec.storeXml(xpatch) needsChange = True xpatch = xpatch.NextSiblingElement('patch') if needsChange: PackageMerger.notify.info("Rewriting %s" % (self.descFile.filename)) doc.SaveFile() self.descFile.quickVerify(packageDir = self.sourceDir, notify = PackageMerger.notify, correctSelf = True)
class Patchfile: """ A single patchfile for a package. """ def __init__(self, package): self.package = package self.packageName = package.packageName self.platform = package.platform self.version = package.version self.hostUrl = None # FileSpec for the patchfile itself self.file = None # FileSpec for the package file that the patch is applied to self.sourceFile = None # FileSpec for the package file that the patch generates self.targetFile = None # The PackageVersion corresponding to our sourceFile self.fromPv = None # The PackageVersion corresponding to our targetFile self.toPv = None def getSourceKey(self): """ Returns the key for locating the package that this patchfile can be applied to. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.sourceFile) def getTargetKey(self): """ Returns the key for locating the package that this patchfile will generate. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.targetFile) def fromFile(self, packageDir, patchFilename, sourceFile, targetFile): """ Creates the data structures from an existing patchfile on disk. """ self.file = FileSpec() self.file.fromFile(packageDir, patchFilename) self.sourceFile = sourceFile self.targetFile = targetFile def loadXml(self, xpatch): """ Reads the data structures from an xml file. """ self.packageName = xpatch.Attribute('name') or self.packageName self.platform = xpatch.Attribute('platform') or self.platform self.version = xpatch.Attribute('version') or self.version self.hostUrl = xpatch.Attribute('host') or self.hostUrl self.file = FileSpec() self.file.loadXml(xpatch) xsource = xpatch.FirstChildElement('source') if xsource: self.sourceFile = FileSpec() self.sourceFile.loadXml(xsource) xtarget = xpatch.FirstChildElement('target') if xtarget: self.targetFile = FileSpec() self.targetFile.loadXml(xtarget) def makeXml(self, package): xpatch = TiXmlElement('patch') if self.packageName != package.packageName: xpatch.SetAttribute('name', self.packageName) if self.platform != package.platform: xpatch.SetAttribute('platform', self.platform) if self.version != package.version: xpatch.SetAttribute('version', self.version) if self.hostUrl != package.hostUrl: xpatch.SetAttribute('host', self.hostUrl) self.file.storeXml(xpatch) xsource = TiXmlElement('source') self.sourceFile.storeMiniXml(xsource) xpatch.InsertEndChild(xsource) xtarget = TiXmlElement('target') self.targetFile.storeMiniXml(xtarget) xpatch.InsertEndChild(xtarget) return xpatch
class PackageEntry: """ This corresponds to a <package> entry in the contents.xml file. """ def __init__(self, xpackage, sourceDir): self.sourceDir = sourceDir self.loadXml(xpackage) def getKey(self): """ Returns a tuple used for sorting the PackageEntry objects uniquely per package. """ return (self.packageName, self.platform, self.version) def isNewer(self, other): return self.descFile.timestamp > other.descFile.timestamp def loadXml(self, xpackage): self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') solo = xpackage.Attribute('solo') self.solo = int(solo or '0') perPlatform = xpackage.Attribute('per_platform') self.perPlatform = int(perPlatform or '0') self.descFile = FileSpec() self.descFile.loadXml(xpackage) self.validatePackageContents() self.descFile.quickVerify(packageDir=self.sourceDir, notify=PackageMerger.notify, correctSelf=True) self.packageSeq = SeqValue() self.packageSeq.loadXml(xpackage, 'seq') self.packageSetVer = SeqValue() self.packageSetVer.loadXml(xpackage, 'set_ver') self.importDescFile = None ximport = xpackage.FirstChildElement('import') if ximport: self.importDescFile = FileSpec() self.importDescFile.loadXml(ximport) self.importDescFile.quickVerify(packageDir=self.sourceDir, notify=PackageMerger.notify, correctSelf=True) def makeXml(self): """ Returns a new TiXmlElement. """ xpackage = TiXmlElement('package') xpackage.SetAttribute('name', self.packageName) if self.platform: xpackage.SetAttribute('platform', self.platform) if self.version: xpackage.SetAttribute('version', self.version) if self.solo: xpackage.SetAttribute('solo', '1') if self.perPlatform: xpackage.SetAttribute('per_platform', '1') self.descFile.storeXml(xpackage) self.packageSeq.storeXml(xpackage, 'seq') self.packageSetVer.storeXml(xpackage, 'set_ver') if self.importDescFile: ximport = TiXmlElement('import') self.importDescFile.storeXml(ximport) xpackage.InsertEndChild(ximport) return xpackage def validatePackageContents(self): """ Validates the contents of the package directory itself against the expected hashes and timestamps. Updates hashes and timestamps where needed. """ if self.solo: return needsChange = False packageDescFullpath = Filename(self.sourceDir, self.descFile.filename) packageDir = Filename(packageDescFullpath.getDirname()) doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not doc.LoadFile(): message = "Could not read XML file: %s" % ( self.descFile.filename) raise OSError, message xpackage = doc.FirstChildElement('package') if not xpackage: message = "No package definition: %s" % ( self.descFile.filename) raise OSError, message xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: spec = FileSpec() spec.loadXml(xcompressed) if not spec.quickVerify(packageDir=packageDir, notify=PackageMerger.notify, correctSelf=True): spec.storeXml(xcompressed) needsChange = True xpatch = xpackage.FirstChildElement('patch') while xpatch: spec = FileSpec() spec.loadXml(xpatch) if not spec.quickVerify(packageDir=packageDir, notify=PackageMerger.notify, correctSelf=True): spec.storeXml(xpatch) needsChange = True xpatch = xpatch.NextSiblingElement('patch') if needsChange: PackageMerger.notify.info("Rewriting %s" % (self.descFile.filename)) doc.SaveFile() self.descFile.quickVerify(packageDir=self.sourceDir, notify=PackageMerger.notify, correctSelf=True)
class PackageEntry: """ This corresponds to a <package> entry in the contents.xml file. """ def __init__(self, xpackage, sourceDir): self.sourceDir = sourceDir self.loadXml(xpackage) def getKey(self): """ Returns a tuple used for sorting the PackageEntry objects uniquely per package. """ return (self.packageName, self.platform, self.version) def isNewer(self, other): return self.descFile.timestamp > other.descFile.timestamp def loadXml(self, xpackage): self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') solo = xpackage.Attribute('solo') self.solo = int(solo or '0') perPlatform = xpackage.Attribute('per_platform') self.perPlatform = int(perPlatform or '0') self.descFile = FileSpec() self.descFile.loadXml(xpackage) self.validatePackageContents() self.descFile.quickVerify(packageDir = self.sourceDir, notify = PackageMerger.notify, correctSelf = True) self.packageSeq = SeqValue() self.packageSeq.loadXml(xpackage, 'seq') self.packageSetVer = SeqValue() self.packageSetVer.loadXml(xpackage, 'set_ver') self.importDescFile = None ximport = xpackage.FirstChildElement('import') if ximport: self.importDescFile = FileSpec() self.importDescFile.loadXml(ximport) self.importDescFile.quickVerify(packageDir = self.sourceDir, notify = PackageMerger.notify, correctSelf = True) def makeXml(self): """ Returns a new TiXmlElement. """ xpackage = TiXmlElement('package') xpackage.SetAttribute('name', self.packageName) if self.platform: xpackage.SetAttribute('platform', self.platform) if self.version: xpackage.SetAttribute('version', self.version) if self.solo: xpackage.SetAttribute('solo', '1') if self.perPlatform: xpackage.SetAttribute('per_platform', '1') self.descFile.storeXml(xpackage) self.packageSeq.storeXml(xpackage, 'seq') self.packageSetVer.storeXml(xpackage, 'set_ver') if self.importDescFile: ximport = TiXmlElement('import') self.importDescFile.storeXml(ximport) xpackage.InsertEndChild(ximport) return xpackage def validatePackageContents(self): """ Validates the contents of the package directory itself against the expected hashes and timestamps. Updates hashes and timestamps where needed. """ if self.solo: return needsChange = False packageDescFullpath = Filename(self.sourceDir, self.descFile.filename) packageDir = Filename(packageDescFullpath.getDirname()) doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not doc.LoadFile(): message = "Could not read XML file: %s" % (self.descFile.filename) raise OSError(message) xpackage = doc.FirstChildElement('package') if not xpackage: message = "No package definition: %s" % (self.descFile.filename) raise OSError(message) xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: spec = FileSpec() spec.loadXml(xcompressed) if not spec.quickVerify(packageDir = packageDir, notify = PackageMerger.notify, correctSelf = True): spec.storeXml(xcompressed) needsChange = True xpatch = xpackage.FirstChildElement('patch') while xpatch: spec = FileSpec() spec.loadXml(xpatch) if not spec.quickVerify(packageDir = packageDir, notify = PackageMerger.notify, correctSelf = True): spec.storeXml(xpatch) needsChange = True xpatch = xpatch.NextSiblingElement('patch') if needsChange: PackageMerger.notify.info("Rewriting %s" % (self.descFile.filename)) doc.SaveFile() self.descFile.quickVerify(packageDir = self.sourceDir, notify = PackageMerger.notify, correctSelf = True)
def readDescFile(self, doProcessing = False): """ Reads the existing package.xml file and stores it in this class for later rewriting. if doProcessing is true, it may massage the file and the directory contents in preparation for building patches. Returns true on success, false on failure. """ self.anyChanges = False packageDescFullpath = Filename(self.patchMaker.installDir, self.packageDesc) self.doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not self.doc.LoadFile(): print "Couldn't read %s" % (packageDescFullpath) return False xpackage = self.doc.FirstChildElement('package') if not xpackage: return False self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') # All packages we defined in-line are assigned to the # "none" host. TODO: support patching from packages on # other hosts, which means we'll need to fill in a value # here for those hosts. self.hostUrl = None self.currentFile = None self.baseFile = None self.topFile = None self.compressedFilename = None compressedFile = None # Assume there are changes for this version, until we # discover that there aren't. isNewVersion = True # Get the actual current version. xarchive = xpackage.FirstChildElement('uncompressed_archive') if xarchive: self.currentFile = FileSpec() self.currentFile.loadXml(xarchive) # Get the top_version--the top (newest) of the patch # chain. xarchive = xpackage.FirstChildElement('top_version') if xarchive: self.topFile = FileSpec() self.topFile.loadXml(xarchive) if self.topFile.hash == self.currentFile.hash: # No new version this pass. isNewVersion = False else: # There's a new version this pass. Update it. self.anyChanges = True else: # If there isn't a top_version yet, we have to make # one, by duplicating the currentFile. self.topFile = copy.copy(self.currentFile) self.anyChanges = True # Get the current patch version. If we have a # patch_version attribute, it refers to this particular # instance of the file, and that is the current patch # version number. If we only have a last_patch_version # attribute, it means a patch has not yet been built for # this particular instance, and that number is the # previous version's patch version number. patchVersion = xpackage.Attribute('patch_version') if patchVersion: self.patchVersion = int(patchVersion) else: patchVersion = xpackage.Attribute('last_patch_version') if patchVersion: self.patchVersion = int(patchVersion) if isNewVersion: self.patchVersion += 1 self.anyChanges = True # Put the patchVersion in the compressed filename, for # cache-busting. This means when the version changes, its # URL will also change, guaranteeing that users will # download the latest version, and not some stale cache # file. xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: compressedFile = FileSpec() compressedFile.loadXml(xcompressed) oldCompressedFilename = compressedFile.filename self.compressedFilename = oldCompressedFilename if doProcessing: newCompressedFilename = '%s.%s.pz' % (self.currentFile.filename, self.patchVersion) if newCompressedFilename != oldCompressedFilename: oldCompressedPathname = Filename(self.packageDir, oldCompressedFilename) newCompressedPathname = Filename(self.packageDir, newCompressedFilename) if oldCompressedPathname.renameTo(newCompressedPathname): compressedFile.fromFile(self.packageDir, newCompressedFilename) compressedFile.storeXml(xcompressed) self.compressedFilename = newCompressedFilename self.anyChanges = True # Get the base_version--the bottom (oldest) of the patch # chain. xarchive = xpackage.FirstChildElement('base_version') if xarchive: self.baseFile = FileSpec() self.baseFile.loadXml(xarchive) else: # If there isn't a base_version yet, we have to make # one, by duplicating the currentFile. self.baseFile = copy.copy(self.currentFile) # Note that the we only store the compressed version # of base_filename on disk, but we store the md5 of # the uncompressed version in the xml file. To # emphasize this, we name it without the .pz extension # in the xml file, even though the compressed file on # disk actually has a .pz extension. self.baseFile.filename += '.base' # Also duplicate the (compressed) file itself. if doProcessing and self.compressedFilename: fromPathname = Filename(self.packageDir, self.compressedFilename) toPathname = Filename(self.packageDir, self.baseFile.filename + '.pz') fromPathname.copyTo(toPathname) self.anyChanges = True self.patches = [] xpatch = xpackage.FirstChildElement('patch') while xpatch: patchfile = PatchMaker.Patchfile(self) patchfile.loadXml(xpatch) self.patches.append(patchfile) xpatch = xpatch.NextSiblingElement('patch') return True
def __readDescFile(self): """ Reads the desc xml file for this particular package, assuming it's been already downloaded and verified. Returns true on success, false on failure. """ if self.hasDescFile: # No need to read it again. return True if self.solo: # If this is a "solo" package, we don't actually "read" # the desc file; that's the entire contents of the # package. self.hasDescFile = True self.hasPackage = True return True filename = Filename(self.getPackageDir(), self.descFileBasename) if not hasattr(PandaModules, 'TiXmlDocument'): return False doc = PandaModules.TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return False xpackage = doc.FirstChildElement('package') if not xpackage: return False try: self.patchVersion = int(xpackage.Attribute('patch_version') or '') except ValueError: self.patchVersion = None self.displayName = None xconfig = xpackage.FirstChildElement('config') if xconfig: # The name for display to an English-speaking user. self.displayName = xconfig.Attribute('display_name') # True if any apps that use this package must be GUI apps. guiApp = xconfig.Attribute('gui_app') if guiApp: self.guiApp = int(guiApp) # The uncompressed archive, which will be mounted directly, # and also used for patching. xuncompressedArchive = xpackage.FirstChildElement( 'uncompressed_archive') if xuncompressedArchive: self.uncompressedArchive = FileSpec() self.uncompressedArchive.loadXml(xuncompressedArchive) # The compressed archive, which is what is downloaded. xcompressedArchive = xpackage.FirstChildElement('compressed_archive') if xcompressedArchive: self.compressedArchive = FileSpec() self.compressedArchive.loadXml(xcompressedArchive) # The list of files that should be extracted to disk. self.extracts = [] xextract = xpackage.FirstChildElement('extract') while xextract: file = FileSpec() file.loadXml(xextract) self.extracts.append(file) xextract = xextract.NextSiblingElement('extract') # The list of additional packages that must be installed for # this package to function properly. self.requires = [] xrequires = xpackage.FirstChildElement('requires') while xrequires: packageName = xrequires.Attribute('name') version = xrequires.Attribute('version') hostUrl = xrequires.Attribute('host') if packageName and hostUrl: host = self.host.appRunner.getHostWithAlt(hostUrl) self.requires.append((packageName, version, host)) xrequires = xrequires.NextSiblingElement('requires') self.hasDescFile = True # Now that we've read the desc file, go ahead and use it to # verify the download status. if self.__checkArchiveStatus(): # It's all fully downloaded, unpacked, and ready. self.hasPackage = True return True # Still have to download it. self.__buildInstallPlans() return True
class PackageInfo: """ This class represents a downloadable Panda3D package file that can be (or has been) installed into the current runtime. It is the Python equivalent of the P3DPackage class in the core API. """ notify = directNotify.newCategory("PackageInfo") # Weight factors for computing download progress. This # attempts to reflect the relative time-per-byte of each of # these operations. downloadFactor = 1 uncompressFactor = 0.01 unpackFactor = 0.01 patchFactor = 0.01 # These tokens are yielded (not returned) by __downloadFile() and # other InstallStep functions. stepComplete = 1 stepFailed = 2 restartDownload = 3 stepContinue = 4 UsageBasename = 'usage.xml' class InstallStep: """ This class is one step of the installPlan list; it represents a single atomic piece of the installation step, and the relative effort of that piece. When the plan is executed, it will call the saved function pointer here. """ def __init__(self, func, bytes, factor, stepType): self.__funcPtr = func self.bytesNeeded = bytes self.bytesDone = 0 self.bytesFactor = factor self.stepType = stepType self.pStatCol = PStatCollector(':App:PackageInstaller:%s' % (stepType)) def func(self): """ self.__funcPtr(self) will return a generator of tokens. This function defines a new generator that yields each of those tokens, but wraps each call into the nested generator within a pair of start/stop collector calls. """ self.pStatCol.start() for token in self.__funcPtr(self): self.pStatCol.stop() yield token self.pStatCol.start() # Shouldn't ever get here. self.pStatCol.stop() raise StopIteration def getEffort(self): """ Returns the relative amount of effort of this step. """ return self.bytesNeeded * self.bytesFactor def getProgress(self): """ Returns the progress of this step, in the range 0..1. """ if self.bytesNeeded == 0: return 1 return min(float(self.bytesDone) / float(self.bytesNeeded), 1) def __init__(self, host, packageName, packageVersion, platform=None, solo=False, asMirror=False): self.host = host self.packageName = packageName self.packageVersion = packageVersion self.platform = platform self.solo = solo self.asMirror = asMirror # This will be active while we are in the middle of a download # cycle. self.http = None # This will be filled in when the host's contents.xml file is # read. self.packageDir = None # These will be filled in by HostInfo when the package is read # from contents.xml. self.descFile = None self.importDescFile = None # These are filled in when the desc file is successfully read. self.hasDescFile = False self.patchVersion = None self.displayName = None self.guiApp = False self.uncompressedArchive = None self.compressedArchive = None self.extracts = [] self.requires = [] self.installPlans = None # This is updated during downloadPackage(). It is in the # range 0..1. self.downloadProgress = 0 # This is set true when the package file has been fully # downloaded and unpacked. self.hasPackage = False # This is set true when the package has been "installed", # meaning it's been added to the paths and all. self.installed = False # This is set true when the package has been updated in this # session, but not yet written to usage.xml. self.updated = False self.diskSpace = None def getPackageDir(self): """ Returns the directory in which this package is installed. This may not be known until the host's contents.xml file has been downloaded, which informs us of the host's own install directory. """ if not self.packageDir: if not self.host.hasContentsFile: if not self.host.readContentsFile(): self.host.downloadContentsFile(self.http) # Derive the packageDir from the hostDir. self.packageDir = Filename(self.host.hostDir, self.packageName) if self.packageVersion: self.packageDir = Filename(self.packageDir, self.packageVersion) if self.host.perPlatform: # The server directory contains the platform name, # though the client directory normally doesn't (unless # perPlatform is set true). if self.platform: self.packageDir = Filename(self.packageDir, self.platform) return self.packageDir def getDownloadEffort(self): """ Returns the relative amount of effort it will take to download this package. The units are meaningless, except relative to other packges.""" if not self.installPlans: return 0 # Return the size of plan A, assuming it will work. plan = self.installPlans[0] size = sum(map(lambda step: step.getEffort(), plan)) return size def getPrevDownloadedEffort(self): """ Returns a rough estimate of this package's total download effort, even if it is already downloaded. """ effort = 0 if self.compressedArchive: effort += self.compressedArchive.size * self.downloadFactor if self.uncompressedArchive: effort += self.uncompressedArchive.size * self.uncompressFactor # Don't bother counting unpacking. return effort def getFormattedName(self): """ Returns the name of this package, for output to the user. This will be the "public" name of the package, as formatted for user consumption; it will include capital letters and spaces where appropriate. """ if self.displayName: name = self.displayName else: name = self.packageName if self.packageVersion: name += ' %s' % (self.packageVersion) if self.patchVersion: name += ' rev %s' % (self.patchVersion) return name def setupFilenames(self): """ This is called by the HostInfo when the package is read from contents.xml, to set up the internal filenames and such that rely on some of the information from contents.xml. """ dirname, basename = self.descFile.filename.rsplit('/', 1) self.descFileDirname = dirname self.descFileBasename = basename def checkStatus(self): """ Checks the current status of the desc file and the package contents on disk. """ if self.hasPackage: return True if not self.hasDescFile: filename = Filename(self.getPackageDir(), self.descFileBasename) if self.descFile.quickVerify(self.getPackageDir(), pathname=filename, notify=self.notify): if self.__readDescFile(): # Successfully read. We don't need to call # checkArchiveStatus again, since readDescFile() # has just done it. return self.hasPackage if self.hasDescFile: if self.__checkArchiveStatus(): # It's all good. self.hasPackage = True return self.hasPackage def hasCurrentDescFile(self): """ Returns true if a desc file file has been successfully read for this package and is still current, false otherwise. """ if not self.host.hasCurrentContentsFile(): return False return self.hasDescFile def downloadDescFile(self, http): """ Downloads the desc file for this particular package, synchronously, and then reads it. Returns true on success, false on failure. """ for token in self.downloadDescFileGenerator(http): if token != self.stepContinue: break Thread.considerYield() return (token == self.stepComplete) def downloadDescFileGenerator(self, http): """ A generator function that implements downloadDescFile() one piece at a time. It yields one of stepComplete, stepFailed, or stepContinue. """ assert self.descFile if self.hasDescFile: # We've already got one. yield self.stepComplete return if self.host.appRunner and self.host.appRunner.verifyContents != self.host.appRunner.P3DVCNever: # We're allowed to download it. self.http = http func = lambda step, self=self: self.__downloadFile( None, self.descFile, urlbase=self.descFile.filename, filename=self.descFileBasename) step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc') for token in step.func(): if token == self.stepContinue: yield token else: break while token == self.restartDownload: # Try again. func = lambda step, self=self: self.__downloadFile( None, self.descFile, urlbase=self.descFile.filename, filename=self.descFileBasename) step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc') for token in step.func(): if token == self.stepContinue: yield token else: break if token == self.stepFailed: # Couldn't download the desc file. yield self.stepFailed return assert token == self.stepComplete filename = Filename(self.getPackageDir(), self.descFileBasename) # Now that we've written the desc file, make it read-only. os.chmod(filename.toOsSpecific(), 0444) if not self.__readDescFile(): # Weird, it passed the hash check, but we still can't read # it. filename = Filename(self.getPackageDir(), self.descFileBasename) self.notify.warning("Failure reading %s" % (filename)) yield self.stepFailed return yield self.stepComplete return def __readDescFile(self): """ Reads the desc xml file for this particular package, assuming it's been already downloaded and verified. Returns true on success, false on failure. """ if self.hasDescFile: # No need to read it again. return True if self.solo: # If this is a "solo" package, we don't actually "read" # the desc file; that's the entire contents of the # package. self.hasDescFile = True self.hasPackage = True return True filename = Filename(self.getPackageDir(), self.descFileBasename) if not hasattr(PandaModules, 'TiXmlDocument'): return False doc = PandaModules.TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return False xpackage = doc.FirstChildElement('package') if not xpackage: return False try: self.patchVersion = int(xpackage.Attribute('patch_version') or '') except ValueError: self.patchVersion = None self.displayName = None xconfig = xpackage.FirstChildElement('config') if xconfig: # The name for display to an English-speaking user. self.displayName = xconfig.Attribute('display_name') # True if any apps that use this package must be GUI apps. guiApp = xconfig.Attribute('gui_app') if guiApp: self.guiApp = int(guiApp) # The uncompressed archive, which will be mounted directly, # and also used for patching. xuncompressedArchive = xpackage.FirstChildElement( 'uncompressed_archive') if xuncompressedArchive: self.uncompressedArchive = FileSpec() self.uncompressedArchive.loadXml(xuncompressedArchive) # The compressed archive, which is what is downloaded. xcompressedArchive = xpackage.FirstChildElement('compressed_archive') if xcompressedArchive: self.compressedArchive = FileSpec() self.compressedArchive.loadXml(xcompressedArchive) # The list of files that should be extracted to disk. self.extracts = [] xextract = xpackage.FirstChildElement('extract') while xextract: file = FileSpec() file.loadXml(xextract) self.extracts.append(file) xextract = xextract.NextSiblingElement('extract') # The list of additional packages that must be installed for # this package to function properly. self.requires = [] xrequires = xpackage.FirstChildElement('requires') while xrequires: packageName = xrequires.Attribute('name') version = xrequires.Attribute('version') hostUrl = xrequires.Attribute('host') if packageName and hostUrl: host = self.host.appRunner.getHostWithAlt(hostUrl) self.requires.append((packageName, version, host)) xrequires = xrequires.NextSiblingElement('requires') self.hasDescFile = True # Now that we've read the desc file, go ahead and use it to # verify the download status. if self.__checkArchiveStatus(): # It's all fully downloaded, unpacked, and ready. self.hasPackage = True return True # Still have to download it. self.__buildInstallPlans() return True def __buildInstallPlans(self): """ Sets up self.installPlans, a list of one or more "plans" to download and install the package. """ pc = PStatCollector(':App:PackageInstaller:buildInstallPlans') pc.start() self.hasPackage = False if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. self.installPlans = [] pc.stop() return if self.asMirror: # If we're just downloading a mirror archive, we only need # to get the compressed archive file. # Build a one-item install plan to download the compressed # archive. downloadSize = self.compressedArchive.size func = lambda step, fileSpec=self.compressedArchive: self.__downloadFile( step, fileSpec, allowPartial=True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') installPlan = [step] self.installPlans = [installPlan] pc.stop() return # The normal download process. Determine what we will need to # download, and build a plan (or two) to download it all. self.installPlans = None # We know we will at least need to unpack the archive contents # at the end. unpackSize = 0 for file in self.extracts: unpackSize += file.size step = self.InstallStep(self.__unpackArchive, unpackSize, self.unpackFactor, 'unpack') planA = [step] # If the uncompressed archive file is good, that's all we'll # need to do. self.uncompressedArchive.actualFile = None if self.uncompressedArchive.quickVerify(self.getPackageDir(), notify=self.notify): self.installPlans = [planA] pc.stop() return # Maybe the compressed archive file is good. if self.compressedArchive.quickVerify(self.getPackageDir(), notify=self.notify): uncompressSize = self.uncompressedArchive.size step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress') planA = [step] + planA self.installPlans = [planA] pc.stop() return # Maybe we can download one or more patches. We'll come back # to that in a minute as plan A. For now, construct plan B, # which will be to download the whole archive. planB = planA[:] uncompressSize = self.uncompressedArchive.size step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress') planB = [step] + planB downloadSize = self.compressedArchive.size func = lambda step, fileSpec=self.compressedArchive: self.__downloadFile( step, fileSpec, allowPartial=True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') planB = [step] + planB # Now look for patches. Start with the md5 hash from the # uncompressedArchive file we have on disk, and see if we can # find a patch chain from this file to our target. pathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) fileSpec = self.uncompressedArchive.actualFile if fileSpec is None and pathname.exists(): fileSpec = FileSpec() fileSpec.fromFile(self.getPackageDir(), self.uncompressedArchive.filename) plan = None if fileSpec: plan = self.__findPatchChain(fileSpec) if plan: # We can download patches. Great! That means this is # plan A, and the full download is plan B (in case # something goes wrong with the patching). planA = plan + planA self.installPlans = [planA, planB] else: # There are no patches to download, oh well. Stick with # plan B as the only plan. self.installPlans = [planB] # In case of unexpected failures on the internet, we will retry # the full download instead of just giving up. for retry in range(ConfigVariableInt('package-full-dl-retries', 1)): self.installPlans.append(planB[:]) pc.stop() def __scanDirectoryRecursively(self, dirname): """ Generates a list of Filename objects: all of the files (not directories) within and below the indicated dirname. """ contents = [] for dirpath, dirnames, filenames in os.walk(dirname.toOsSpecific()): dirpath = Filename.fromOsSpecific(dirpath) if dirpath == dirname: dirpath = Filename('') else: dirpath.makeRelativeTo(dirname) for filename in filenames: contents.append(Filename(dirpath, filename)) return contents def __removeFileFromList(self, contents, filename): """ Removes the indicated filename from the given list, if it is present. """ try: contents.remove(Filename(filename)) except ValueError: pass def __checkArchiveStatus(self): """ Returns true if the archive and all extractable files are already correct on disk, false otherwise. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # Assume that everything is just fine. return True # Get a list of all of the files in the directory, so we can # remove files that don't belong. contents = self.__scanDirectoryRecursively(self.getPackageDir()) self.__removeFileFromList(contents, self.descFileBasename) self.__removeFileFromList(contents, self.compressedArchive.filename) self.__removeFileFromList(contents, self.UsageBasename) if not self.asMirror: self.__removeFileFromList(contents, self.uncompressedArchive.filename) for file in self.extracts: self.__removeFileFromList(contents, file.filename) # Now, any files that are still in the contents list don't # belong. It's important to remove these files before we # start verifying the files that we expect to find here, in # case there is a problem with ambiguous filenames or # something (e.g. case insensitivity). for filename in contents: self.notify.info("Removing %s" % (filename)) pathname = Filename(self.getPackageDir(), filename) pathname.unlink() self.updated = True if self.asMirror: return self.compressedArchive.quickVerify(self.getPackageDir(), notify=self.notify) allExtractsOk = True if not self.uncompressedArchive.quickVerify(self.getPackageDir(), notify=self.notify): self.notify.debug("File is incorrect: %s" % (self.uncompressedArchive.filename)) allExtractsOk = False if allExtractsOk: # OK, the uncompressed archive is good; that means there # shouldn't be a compressed archive file here. pathname = Filename(self.getPackageDir(), self.compressedArchive.filename) pathname.unlink() for file in self.extracts: if not file.quickVerify(self.getPackageDir(), notify=self.notify): self.notify.debug("File is incorrect: %s" % (file.filename)) allExtractsOk = False break if allExtractsOk: self.notify.debug("All %s extracts of %s seem good." % (len(self.extracts), self.packageName)) return allExtractsOk def __updateStepProgress(self, step): """ This callback is made from within the several step functions as the download step proceeds. It updates self.downloadProgress with the current progress, so the caller can asynchronously query this value. """ size = self.totalPlanCompleted + self.currentStepEffort * step.getProgress( ) self.downloadProgress = min(float(size) / float(self.totalPlanSize), 1) def downloadPackage(self, http): """ Downloads the package file, synchronously, then uncompresses and unpacks it. Returns true on success, false on failure. This assumes that self.installPlans has already been filled in, which will have been done by self.__readDescFile(). """ for token in self.downloadPackageGenerator(http): if token != self.stepContinue: break Thread.considerYield() return (token == self.stepComplete) def downloadPackageGenerator(self, http): """ A generator function that implements downloadPackage() one piece at a time. It yields one of stepComplete, stepFailed, or stepContinue. """ assert self.hasDescFile if self.hasPackage: # We've already got one. yield self.stepComplete return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. Assume it's already downloaded. yield self.stepComplete return # We should have an install plan by the time we get here. assert self.installPlans self.http = http for token in self.__followInstallPlans(): if token == self.stepContinue: yield token else: break while token == self.restartDownload: # Try again. for token in self.downloadDescFileGenerator(http): if token == self.stepContinue: yield token else: break if token == self.stepComplete: for token in self.__followInstallPlans(): if token == self.stepContinue: yield token else: break if token == self.stepFailed: yield self.stepFailed return assert token == self.stepComplete yield self.stepComplete return def __followInstallPlans(self): """ Performs all of the steps in self.installPlans. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if not self.installPlans: self.__buildInstallPlans() installPlans = self.installPlans self.installPlans = None for plan in installPlans: self.totalPlanSize = sum(map(lambda step: step.getEffort(), plan)) self.totalPlanCompleted = 0 self.downloadProgress = 0 planFailed = False for step in plan: self.currentStepEffort = step.getEffort() for token in step.func(): if token == self.stepContinue: yield token else: break if token == self.restartDownload: yield token if token == self.stepFailed: planFailed = True break assert token == self.stepComplete self.totalPlanCompleted += self.currentStepEffort if not planFailed: # Successfully downloaded! yield self.stepComplete return if taskMgr.destroyed: yield self.stepFailed return # All plans failed. yield self.stepFailed return def __findPatchChain(self, fileSpec): """ Finds the chain of patches that leads from the indicated patch version to the current patch version. If found, constructs an installPlan that represents the steps of the patch installation; otherwise, returns None. """ from direct.p3d.PatchMaker import PatchMaker patchMaker = PatchMaker(self.getPackageDir()) patchChain = patchMaker.getPatchChainToCurrent(self.descFileBasename, fileSpec) if patchChain is None: # No path. patchMaker.cleanup() return None plan = [] for patchfile in patchChain: downloadSize = patchfile.file.size func = lambda step, fileSpec=patchfile.file: self.__downloadFile( step, fileSpec, allowPartial=True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') plan.append(step) patchSize = patchfile.targetFile.size func = lambda step, patchfile=patchfile: self.__applyPatch( step, patchfile) step = self.InstallStep(func, patchSize, self.patchFactor, 'patch') plan.append(step) patchMaker.cleanup() return plan def __downloadFile(self, step, fileSpec, urlbase=None, filename=None, allowPartial=False): """ Downloads the indicated file from the host into packageDir. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. yield self.stepFailed return self.updated = True if not urlbase: urlbase = self.descFileDirname + '/' + fileSpec.filename # Build up a list of URL's to try downloading from. Unlike # the C++ implementation in P3DPackage.cxx, here we build the # URL's in forward order. tryUrls = [] if self.host.appRunner and self.host.appRunner.superMirrorUrl: # We start with the "super mirror", if it's defined. url = self.host.appRunner.superMirrorUrl + urlbase tryUrls.append((url, False)) if self.host.mirrors: # Choose two mirrors at random. mirrors = self.host.mirrors[:] for i in range(2): mirror = random.choice(mirrors) mirrors.remove(mirror) url = mirror + urlbase tryUrls.append((url, False)) if not mirrors: break # After trying two mirrors and failing (or if there are no # mirrors), go get it from the original host. url = self.host.downloadUrlPrefix + urlbase tryUrls.append((url, False)) # And finally, if the original host also fails, try again with # a cache-buster. tryUrls.append((url, True)) for url, cacheBust in tryUrls: request = DocumentSpec(url) if cacheBust: # On the last attempt to download a particular file, # we bust through the cache: append a query string to # do this. url += '?' + str(int(time.time())) request = DocumentSpec(url) request.setCacheControl(DocumentSpec.CCNoCache) self.notify.info("%s downloading %s" % (self.packageName, url)) if not filename: filename = fileSpec.filename targetPathname = Filename(self.getPackageDir(), filename) targetPathname.setBinary() channel = self.http.makeChannel(False) # If there's a previous partial download, attempt to resume it. bytesStarted = 0 if allowPartial and not cacheBust and targetPathname.exists(): bytesStarted = targetPathname.getFileSize() if bytesStarted < 1024 * 1024: # Not enough bytes downloaded to be worth the risk of # a partial download. bytesStarted = 0 elif bytesStarted >= fileSpec.size: # Couldn't possibly be our file. bytesStarted = 0 if bytesStarted: self.notify.info( "Resuming %s after %s bytes already downloaded" % (url, bytesStarted)) # Make sure the file is writable. os.chmod(targetPathname.toOsSpecific(), 0644) channel.beginGetSubdocument(request, bytesStarted, 0) else: # No partial download possible; get the whole file. targetPathname.makeDir() targetPathname.unlink() channel.beginGetDocument(request) channel.downloadToFile(targetPathname) while channel.run(): if step: step.bytesDone = channel.getBytesDownloaded( ) + channel.getFirstByteDelivered() if step.bytesDone > step.bytesNeeded: # Oops, too much data. Might as well abort; # it's the wrong file. self.notify.warning( "Got more data than expected for download %s" % (url)) break self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning("Task Manager destroyed, aborting %s" % (url)) yield self.stepFailed return yield self.stepContinue if step: step.bytesDone = channel.getBytesDownloaded( ) + channel.getFirstByteDelivered() self.__updateStepProgress(step) if not channel.isValid(): self.notify.warning("Failed to download %s" % (url)) elif not fileSpec.fullVerify(self.getPackageDir(), pathname=targetPathname, notify=self.notify): self.notify.warning( "After downloading, %s incorrect" % (Filename(fileSpec.filename).getBasename())) # This attempt failed. Maybe the original contents.xml # file is stale. Try re-downloading it now, just to be # sure. if self.host.redownloadContentsFile(self.http): # Yes! Go back and start over from the beginning. yield self.restartDownload return else: # Success! yield self.stepComplete return # Maybe the mirror is bad. Go back and try the next # mirror. # All attempts failed. Maybe the original contents.xml file # is stale. Try re-downloading it now, just to be sure. if self.host.redownloadContentsFile(self.http): # Yes! Go back and start over from the beginning. yield self.restartDownload return # All mirrors failed; the server (or the internet connection) # must be just fubar. yield self.stepFailed return def __applyPatch(self, step, patchfile): """ Applies the indicated patching in-place to the current uncompressed archive. The patchfile is removed after the operation. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ self.updated = True origPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) patchPathname = Filename(self.getPackageDir(), patchfile.file.filename) result = Filename.temporary('', 'patch_') self.notify.info("Patching %s with %s" % (origPathname, patchPathname)) p = PandaModules.Patchfile() # The C++ class ret = p.initiate(patchPathname, origPathname, result) if ret == EUSuccess: ret = p.run() while ret == EUOk: step.bytesDone = step.bytesNeeded * p.getProgress() self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning( "Task Manager destroyed, aborting patch %s" % (origPathname)) yield self.stepFailed return yield self.stepContinue ret = p.run() del p patchPathname.unlink() if ret < 0: self.notify.warning("Patching of %s failed." % (origPathname)) result.unlink() yield self.stepFailed return if not result.renameTo(origPathname): self.notify.warning("Couldn't rename %s to %s" % (result, origPathname)) yield self.stepFailed return yield self.stepComplete return def __uncompressArchive(self, step): """ Turns the compressed archive into the uncompressed archive. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to! yield self.stepFailed return self.updated = True sourcePathname = Filename(self.getPackageDir(), self.compressedArchive.filename) targetPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) targetPathname.unlink() self.notify.info("Uncompressing %s to %s" % (sourcePathname, targetPathname)) decompressor = Decompressor() decompressor.initiate(sourcePathname, targetPathname) totalBytes = self.uncompressedArchive.size result = decompressor.run() while result == EUOk: step.bytesDone = int(totalBytes * decompressor.getProgress()) self.__updateStepProgress(step) result = decompressor.run() if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning( "Task Manager destroyed, aborting decompresss %s" % (sourcePathname)) yield self.stepFailed return yield self.stepContinue if result != EUSuccess: yield self.stepFailed return step.bytesDone = totalBytes self.__updateStepProgress(step) if not self.uncompressedArchive.quickVerify(self.getPackageDir(), notify=self.notify): self.notify.warning("after uncompressing, %s still incorrect" % (self.uncompressedArchive.filename)) yield self.stepFailed return # Now that we've verified the archive, make it read-only. os.chmod(targetPathname.toOsSpecific(), 0444) # Now we can safely remove the compressed archive. sourcePathname.unlink() yield self.stepComplete return def __unpackArchive(self, step): """ Unpacks any files in the archive that want to be unpacked to disk. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if not self.extracts: # Nothing to extract. self.hasPackage = True yield self.stepComplete return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to! yield self.stepFailed return self.updated = True mfPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) self.notify.info("Unpacking %s" % (mfPathname)) mf = Multifile() if not mf.openRead(mfPathname): self.notify.warning("Couldn't open %s" % (mfPathname)) yield self.stepFailed return allExtractsOk = True step.bytesDone = 0 for file in self.extracts: i = mf.findSubfile(file.filename) if i == -1: self.notify.warning("Not in Multifile: %s" % (file.filename)) allExtractsOk = False continue targetPathname = Filename(self.getPackageDir(), file.filename) targetPathname.setBinary() targetPathname.unlink() if not mf.extractSubfile(i, targetPathname): self.notify.warning("Couldn't extract: %s" % (file.filename)) allExtractsOk = False continue if not file.quickVerify(self.getPackageDir(), notify=self.notify): self.notify.warning("After extracting, still incorrect: %s" % (file.filename)) allExtractsOk = False continue # Make sure it's executable, and not writable. os.chmod(targetPathname.toOsSpecific(), 0555) step.bytesDone += file.size self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning( "Task Manager destroyed, aborting unpacking %s" % (mfPathname)) yield self.stepFailed return yield self.stepContinue if not allExtractsOk: yield self.stepFailed return self.hasPackage = True yield self.stepComplete return def installPackage(self, appRunner): """ Mounts the package and sets up system paths so it becomes available for use. Returns true on success, false on failure. """ assert self.hasPackage if self.installed: # Already installed. return True assert self not in appRunner.installedPackages mfPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) mf = Multifile() if not mf.openRead(mfPathname): self.notify.warning("Couldn't open %s" % (mfPathname)) return False # We mount it under its actual location on disk. root = self.getPackageDir().cStr() vfs = VirtualFileSystem.getGlobalPtr() vfs.mount(mf, root, vfs.MFReadOnly) # Add this to the Python search path, if it's not already # there. We have to take a bit of care to check if it's # already there, since there can be some ambiguity in # os-specific path strings. osRoot = self.getPackageDir().toOsSpecific() foundOnPath = False for p in sys.path: if osRoot == p: # Already here, exactly. foundOnPath = True break elif osRoot == Filename.fromOsSpecific(p).toOsSpecific(): # Already here, with some futzing. foundOnPath = True break if not foundOnPath: # Not already here; add it. sys.path.append(osRoot) # Put it on the model-path, too. We do this indiscriminantly, # because the Panda3D runtime won't be adding things to the # model-path, so it shouldn't be already there. getModelPath().appendDirectory(self.getPackageDir()) # Set the environment variable to reference the package root. envvar = '%s_ROOT' % (self.packageName.upper()) ExecutionEnvironment.setEnvironmentVariable(envvar, osRoot) # Add the package root to the system paths. if sys.platform.startswith('win'): path = os.environ.get('PATH', '') os.environ['PATH'] = "%s;%s" % (osRoot, path) else: path = os.environ.get('PATH', '') os.environ['PATH'] = "%s:%s" % (osRoot, path) path = os.environ.get('LD_LIBRARY_PATH', '') os.environ['LD_LIBRARY_PATH'] = "%s:%s" % (osRoot, path) if sys.platform == "darwin": path = os.environ.get('DYLD_LIBRARY_PATH', '') os.environ['DYLD_LIBRARY_PATH'] = "%s:%s" % (osRoot, path) # Now that the environment variable is set, read all of the # prc files in the package. appRunner.loadMultifilePrcFiles(mf, self.getPackageDir()) # Also, find any toplevel Python packages, and add these as # shared packages. This will allow different packages # installed in different directories to share Python files as # if they were all in the same directory. for filename in mf.getSubfileNames(): if filename.endswith('/__init__.pyc') or \ filename.endswith('/__init__.pyo') or \ filename.endswith('/__init__.py'): components = filename.split('/')[:-1] moduleName = '.'.join(components) VFSImporter.sharedPackages[moduleName] = True # Fix up any shared directories so we can load packages from # disparate locations. VFSImporter.reloadSharedPackages() self.installed = True appRunner.installedPackages.append(self) self.markUsed() return True def __measureDiskSpace(self): """ Returns the amount of space used by this package, in bytes, as determined by examining the actual contents of the package directory and its subdirectories. """ thisDir = ScanDirectoryNode(self.getPackageDir(), ignoreUsageXml=True) diskSpace = thisDir.getTotalSize() self.notify.info("Package %s uses %s MB" % (self.packageName, (diskSpace + 524288) / 1048576)) return diskSpace def markUsed(self): """ Marks the package as having been used. This is normally called automatically by installPackage(). """ if not hasattr(PandaModules, 'TiXmlDocument'): return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # Not allowed to write any files to the package directory. return if self.updated: # If we've just installed a new version of the package, # re-measure the actual disk space used. self.diskSpace = self.__measureDiskSpace() filename = Filename(self.getPackageDir(), self.UsageBasename) doc = TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): decl = TiXmlDeclaration("1.0", "utf-8", "") doc.InsertEndChild(decl) xusage = doc.FirstChildElement('usage') if not xusage: doc.InsertEndChild(TiXmlElement('usage')) xusage = doc.FirstChildElement('usage') now = int(time.time()) count = xusage.Attribute('count_app') try: count = int(count or '') except ValueError: count = 0 xusage.SetAttribute('first_use', str(now)) count += 1 xusage.SetAttribute('count_app', str(count)) xusage.SetAttribute('last_use', str(now)) if self.updated: xusage.SetAttribute('last_update', str(now)) self.updated = False else: # Since we haven't changed the disk space, we can just # read it from the previous xml file. diskSpace = xusage.Attribute('disk_space') try: diskSpace = int(diskSpace or '') except ValueError: # Unless it wasn't set already. self.diskSpace = self.__measureDiskSpace() xusage.SetAttribute('disk_space', str(self.diskSpace)) # Write the file to a temporary filename, then atomically move # it to its actual filename, to avoid race conditions when # updating this file. tfile = Filename.temporary(self.getPackageDir().cStr(), '.xml') if doc.SaveFile(tfile.toOsSpecific()): tfile.renameTo(filename) def getUsage(self): """ Returns the xusage element that is read from the usage.xml file, or None if there is no usage.xml file. """ if not hasattr(PandaModules, 'TiXmlDocument'): return None filename = Filename(self.getPackageDir(), self.UsageBasename) doc = TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return None xusage = doc.FirstChildElement('usage') if not xusage: return None return copy.copy(xusage)
def __readDescFile(self): """ Reads the desc xml file for this particular package, assuming it's been already downloaded and verified. Returns true on success, false on failure. """ if self.hasDescFile: # No need to read it again. return True if self.solo: # If this is a "solo" package, we don't actually "read" # the desc file; that's the entire contents of the # package. self.hasDescFile = True self.hasPackage = True return True filename = Filename(self.getPackageDir(), self.descFileBasename) if not hasattr(PandaModules, 'TiXmlDocument'): return False doc = PandaModules.TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return False xpackage = doc.FirstChildElement('package') if not xpackage: return False try: self.patchVersion = int(xpackage.Attribute('patch_version') or '') except ValueError: self.patchVersion = None self.displayName = None xconfig = xpackage.FirstChildElement('config') if xconfig: # The name for display to an English-speaking user. self.displayName = xconfig.Attribute('display_name') # True if any apps that use this package must be GUI apps. guiApp = xconfig.Attribute('gui_app') if guiApp: self.guiApp = int(guiApp) # The uncompressed archive, which will be mounted directly, # and also used for patching. xuncompressedArchive = xpackage.FirstChildElement('uncompressed_archive') if xuncompressedArchive: self.uncompressedArchive = FileSpec() self.uncompressedArchive.loadXml(xuncompressedArchive) # The compressed archive, which is what is downloaded. xcompressedArchive = xpackage.FirstChildElement('compressed_archive') if xcompressedArchive: self.compressedArchive = FileSpec() self.compressedArchive.loadXml(xcompressedArchive) # The list of files that should be extracted to disk. self.extracts = [] xextract = xpackage.FirstChildElement('extract') while xextract: file = FileSpec() file.loadXml(xextract) self.extracts.append(file) xextract = xextract.NextSiblingElement('extract') # The list of additional packages that must be installed for # this package to function properly. self.requires = [] xrequires = xpackage.FirstChildElement('requires') while xrequires: packageName = xrequires.Attribute('name') version = xrequires.Attribute('version') hostUrl = xrequires.Attribute('host') if packageName and hostUrl: host = self.host.appRunner.getHostWithAlt(hostUrl) self.requires.append((packageName, version, host)) xrequires = xrequires.NextSiblingElement('requires') self.hasDescFile = True # Now that we've read the desc file, go ahead and use it to # verify the download status. if self.__checkArchiveStatus(): # It's all fully downloaded, unpacked, and ready. self.hasPackage = True return True # Still have to download it. self.__buildInstallPlans() return True
class PackageInfo: """ This class represents a downloadable Panda3D package file that can be (or has been) installed into the current runtime. It is the Python equivalent of the P3DPackage class in the core API. """ notify = directNotify.newCategory("PackageInfo") # Weight factors for computing download progress. This # attempts to reflect the relative time-per-byte of each of # these operations. downloadFactor = 1 uncompressFactor = 0.01 unpackFactor = 0.01 patchFactor = 0.01 # These tokens are yielded (not returned) by __downloadFile() and # other InstallStep functions. stepComplete = 1 stepFailed = 2 restartDownload = 3 stepContinue = 4 UsageBasename = 'usage.xml' class InstallStep: """ This class is one step of the installPlan list; it represents a single atomic piece of the installation step, and the relative effort of that piece. When the plan is executed, it will call the saved function pointer here. """ def __init__(self, func, bytes, factor, stepType): self.__funcPtr = func self.bytesNeeded = bytes self.bytesDone = 0 self.bytesFactor = factor self.stepType = stepType self.pStatCol = PStatCollector(':App:PackageInstaller:%s' % (stepType)) def func(self): """ self.__funcPtr(self) will return a generator of tokens. This function defines a new generator that yields each of those tokens, but wraps each call into the nested generator within a pair of start/stop collector calls. """ self.pStatCol.start() for token in self.__funcPtr(self): self.pStatCol.stop() yield token self.pStatCol.start() # Shouldn't ever get here. self.pStatCol.stop() raise StopIteration def getEffort(self): """ Returns the relative amount of effort of this step. """ return self.bytesNeeded * self.bytesFactor def getProgress(self): """ Returns the progress of this step, in the range 0..1. """ if self.bytesNeeded == 0: return 1 return min(float(self.bytesDone) / float(self.bytesNeeded), 1) def __init__(self, host, packageName, packageVersion, platform = None, solo = False, asMirror = False): self.host = host self.packageName = packageName self.packageVersion = packageVersion self.platform = platform self.solo = solo self.asMirror = asMirror # This will be active while we are in the middle of a download # cycle. self.http = None # This will be filled in when the host's contents.xml file is # read. self.packageDir = None # These will be filled in by HostInfo when the package is read # from contents.xml. self.descFile = None self.importDescFile = None # These are filled in when the desc file is successfully read. self.hasDescFile = False self.patchVersion = None self.displayName = None self.guiApp = False self.uncompressedArchive = None self.compressedArchive = None self.extracts = [] self.requires = [] self.installPlans = None # This is updated during downloadPackage(). It is in the # range 0..1. self.downloadProgress = 0 # This is set true when the package file has been fully # downloaded and unpacked. self.hasPackage = False # This is set true when the package has been "installed", # meaning it's been added to the paths and all. self.installed = False # This is set true when the package has been updated in this # session, but not yet written to usage.xml. self.updated = False self.diskSpace = None def getPackageDir(self): """ Returns the directory in which this package is installed. This may not be known until the host's contents.xml file has been downloaded, which informs us of the host's own install directory. """ if not self.packageDir: if not self.host.hasContentsFile: if not self.host.readContentsFile(): self.host.downloadContentsFile(self.http) # Derive the packageDir from the hostDir. self.packageDir = Filename(self.host.hostDir, self.packageName) if self.packageVersion: self.packageDir = Filename(self.packageDir, self.packageVersion) if self.host.perPlatform: # The server directory contains the platform name, # though the client directory normally doesn't (unless # perPlatform is set true). if self.platform: self.packageDir = Filename(self.packageDir, self.platform) return self.packageDir def getDownloadEffort(self): """ Returns the relative amount of effort it will take to download this package. The units are meaningless, except relative to other packges.""" if not self.installPlans: return 0 # Return the size of plan A, assuming it will work. plan = self.installPlans[0] size = sum(map(lambda step: step.getEffort(), plan)) return size def getPrevDownloadedEffort(self): """ Returns a rough estimate of this package's total download effort, even if it is already downloaded. """ effort = 0 if self.compressedArchive: effort += self.compressedArchive.size * self.downloadFactor if self.uncompressedArchive: effort += self.uncompressedArchive.size * self.uncompressFactor # Don't bother counting unpacking. return effort def getFormattedName(self): """ Returns the name of this package, for output to the user. This will be the "public" name of the package, as formatted for user consumption; it will include capital letters and spaces where appropriate. """ if self.displayName: name = self.displayName else: name = self.packageName if self.packageVersion: name += ' %s' % (self.packageVersion) if self.patchVersion: name += ' rev %s' % (self.patchVersion) return name def setupFilenames(self): """ This is called by the HostInfo when the package is read from contents.xml, to set up the internal filenames and such that rely on some of the information from contents.xml. """ dirname, basename = self.descFile.filename.rsplit('/', 1) self.descFileDirname = dirname self.descFileBasename = basename def checkStatus(self): """ Checks the current status of the desc file and the package contents on disk. """ if self.hasPackage: return True if not self.hasDescFile: filename = Filename(self.getPackageDir(), self.descFileBasename) if self.descFile.quickVerify(self.getPackageDir(), pathname = filename, notify = self.notify): if self.__readDescFile(): # Successfully read. We don't need to call # checkArchiveStatus again, since readDescFile() # has just done it. return self.hasPackage if self.hasDescFile: if self.__checkArchiveStatus(): # It's all good. self.hasPackage = True return self.hasPackage def hasCurrentDescFile(self): """ Returns true if a desc file file has been successfully read for this package and is still current, false otherwise. """ if not self.host.hasCurrentContentsFile(): return False return self.hasDescFile def downloadDescFile(self, http): """ Downloads the desc file for this particular package, synchronously, and then reads it. Returns true on success, false on failure. """ for token in self.downloadDescFileGenerator(http): if token != self.stepContinue: break Thread.considerYield() return (token == self.stepComplete) def downloadDescFileGenerator(self, http): """ A generator function that implements downloadDescFile() one piece at a time. It yields one of stepComplete, stepFailed, or stepContinue. """ assert self.descFile if self.hasDescFile: # We've already got one. yield self.stepComplete; return if self.host.appRunner and self.host.appRunner.verifyContents != self.host.appRunner.P3DVCNever: # We're allowed to download it. self.http = http func = lambda step, self = self: self.__downloadFile( None, self.descFile, urlbase = self.descFile.filename, filename = self.descFileBasename) step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc') for token in step.func(): if token == self.stepContinue: yield token else: break while token == self.restartDownload: # Try again. func = lambda step, self = self: self.__downloadFile( None, self.descFile, urlbase = self.descFile.filename, filename = self.descFileBasename) step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc') for token in step.func(): if token == self.stepContinue: yield token else: break if token == self.stepFailed: # Couldn't download the desc file. yield self.stepFailed; return assert token == self.stepComplete filename = Filename(self.getPackageDir(), self.descFileBasename) # Now that we've written the desc file, make it read-only. os.chmod(filename.toOsSpecific(), 0444) if not self.__readDescFile(): # Weird, it passed the hash check, but we still can't read # it. filename = Filename(self.getPackageDir(), self.descFileBasename) self.notify.warning("Failure reading %s" % (filename)) yield self.stepFailed; return yield self.stepComplete; return def __readDescFile(self): """ Reads the desc xml file for this particular package, assuming it's been already downloaded and verified. Returns true on success, false on failure. """ if self.hasDescFile: # No need to read it again. return True if self.solo: # If this is a "solo" package, we don't actually "read" # the desc file; that's the entire contents of the # package. self.hasDescFile = True self.hasPackage = True return True filename = Filename(self.getPackageDir(), self.descFileBasename) if not hasattr(PandaModules, 'TiXmlDocument'): return False doc = PandaModules.TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return False xpackage = doc.FirstChildElement('package') if not xpackage: return False try: self.patchVersion = int(xpackage.Attribute('patch_version') or '') except ValueError: self.patchVersion = None self.displayName = None xconfig = xpackage.FirstChildElement('config') if xconfig: # The name for display to an English-speaking user. self.displayName = xconfig.Attribute('display_name') # True if any apps that use this package must be GUI apps. guiApp = xconfig.Attribute('gui_app') if guiApp: self.guiApp = int(guiApp) # The uncompressed archive, which will be mounted directly, # and also used for patching. xuncompressedArchive = xpackage.FirstChildElement('uncompressed_archive') if xuncompressedArchive: self.uncompressedArchive = FileSpec() self.uncompressedArchive.loadXml(xuncompressedArchive) # The compressed archive, which is what is downloaded. xcompressedArchive = xpackage.FirstChildElement('compressed_archive') if xcompressedArchive: self.compressedArchive = FileSpec() self.compressedArchive.loadXml(xcompressedArchive) # The list of files that should be extracted to disk. self.extracts = [] xextract = xpackage.FirstChildElement('extract') while xextract: file = FileSpec() file.loadXml(xextract) self.extracts.append(file) xextract = xextract.NextSiblingElement('extract') # The list of additional packages that must be installed for # this package to function properly. self.requires = [] xrequires = xpackage.FirstChildElement('requires') while xrequires: packageName = xrequires.Attribute('name') version = xrequires.Attribute('version') hostUrl = xrequires.Attribute('host') if packageName and hostUrl: host = self.host.appRunner.getHostWithAlt(hostUrl) self.requires.append((packageName, version, host)) xrequires = xrequires.NextSiblingElement('requires') self.hasDescFile = True # Now that we've read the desc file, go ahead and use it to # verify the download status. if self.__checkArchiveStatus(): # It's all fully downloaded, unpacked, and ready. self.hasPackage = True return True # Still have to download it. self.__buildInstallPlans() return True def __buildInstallPlans(self): """ Sets up self.installPlans, a list of one or more "plans" to download and install the package. """ pc = PStatCollector(':App:PackageInstaller:buildInstallPlans') pc.start() self.hasPackage = False if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. self.installPlans = [] pc.stop() return if self.asMirror: # If we're just downloading a mirror archive, we only need # to get the compressed archive file. # Build a one-item install plan to download the compressed # archive. downloadSize = self.compressedArchive.size func = lambda step, fileSpec = self.compressedArchive: self.__downloadFile(step, fileSpec, allowPartial = True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') installPlan = [step] self.installPlans = [installPlan] pc.stop() return # The normal download process. Determine what we will need to # download, and build a plan (or two) to download it all. self.installPlans = None # We know we will at least need to unpack the archive contents # at the end. unpackSize = 0 for file in self.extracts: unpackSize += file.size step = self.InstallStep(self.__unpackArchive, unpackSize, self.unpackFactor, 'unpack') planA = [step] # If the uncompressed archive file is good, that's all we'll # need to do. self.uncompressedArchive.actualFile = None if self.uncompressedArchive.quickVerify(self.getPackageDir(), notify = self.notify): self.installPlans = [planA] pc.stop() return # Maybe the compressed archive file is good. if self.compressedArchive.quickVerify(self.getPackageDir(), notify = self.notify): uncompressSize = self.uncompressedArchive.size step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress') planA = [step] + planA self.installPlans = [planA] pc.stop() return # Maybe we can download one or more patches. We'll come back # to that in a minute as plan A. For now, construct plan B, # which will be to download the whole archive. planB = planA[:] uncompressSize = self.uncompressedArchive.size step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress') planB = [step] + planB downloadSize = self.compressedArchive.size func = lambda step, fileSpec = self.compressedArchive: self.__downloadFile(step, fileSpec, allowPartial = True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') planB = [step] + planB # Now look for patches. Start with the md5 hash from the # uncompressedArchive file we have on disk, and see if we can # find a patch chain from this file to our target. pathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) fileSpec = self.uncompressedArchive.actualFile if fileSpec is None and pathname.exists(): fileSpec = FileSpec() fileSpec.fromFile(self.getPackageDir(), self.uncompressedArchive.filename) plan = None if fileSpec: plan = self.__findPatchChain(fileSpec) if plan: # We can download patches. Great! That means this is # plan A, and the full download is plan B (in case # something goes wrong with the patching). planA = plan + planA self.installPlans = [planA, planB] else: # There are no patches to download, oh well. Stick with # plan B as the only plan. self.installPlans = [planB] # In case of unexpected failures on the internet, we will retry # the full download instead of just giving up. for retry in range(ConfigVariableInt('package-full-dl-retries', 1)): self.installPlans.append(planB[:]) pc.stop() def __scanDirectoryRecursively(self, dirname): """ Generates a list of Filename objects: all of the files (not directories) within and below the indicated dirname. """ contents = [] for dirpath, dirnames, filenames in os.walk(dirname.toOsSpecific()): dirpath = Filename.fromOsSpecific(dirpath) if dirpath == dirname: dirpath = Filename('') else: dirpath.makeRelativeTo(dirname) for filename in filenames: contents.append(Filename(dirpath, filename)) return contents def __removeFileFromList(self, contents, filename): """ Removes the indicated filename from the given list, if it is present. """ try: contents.remove(Filename(filename)) except ValueError: pass def __checkArchiveStatus(self): """ Returns true if the archive and all extractable files are already correct on disk, false otherwise. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # Assume that everything is just fine. return True # Get a list of all of the files in the directory, so we can # remove files that don't belong. contents = self.__scanDirectoryRecursively(self.getPackageDir()) self.__removeFileFromList(contents, self.descFileBasename) self.__removeFileFromList(contents, self.compressedArchive.filename) self.__removeFileFromList(contents, self.UsageBasename) if not self.asMirror: self.__removeFileFromList(contents, self.uncompressedArchive.filename) for file in self.extracts: self.__removeFileFromList(contents, file.filename) # Now, any files that are still in the contents list don't # belong. It's important to remove these files before we # start verifying the files that we expect to find here, in # case there is a problem with ambiguous filenames or # something (e.g. case insensitivity). for filename in contents: self.notify.info("Removing %s" % (filename)) pathname = Filename(self.getPackageDir(), filename) pathname.unlink() self.updated = True if self.asMirror: return self.compressedArchive.quickVerify(self.getPackageDir(), notify = self.notify) allExtractsOk = True if not self.uncompressedArchive.quickVerify(self.getPackageDir(), notify = self.notify): self.notify.debug("File is incorrect: %s" % (self.uncompressedArchive.filename)) allExtractsOk = False if allExtractsOk: # OK, the uncompressed archive is good; that means there # shouldn't be a compressed archive file here. pathname = Filename(self.getPackageDir(), self.compressedArchive.filename) pathname.unlink() for file in self.extracts: if not file.quickVerify(self.getPackageDir(), notify = self.notify): self.notify.debug("File is incorrect: %s" % (file.filename)) allExtractsOk = False break if allExtractsOk: self.notify.debug("All %s extracts of %s seem good." % ( len(self.extracts), self.packageName)) return allExtractsOk def __updateStepProgress(self, step): """ This callback is made from within the several step functions as the download step proceeds. It updates self.downloadProgress with the current progress, so the caller can asynchronously query this value. """ size = self.totalPlanCompleted + self.currentStepEffort * step.getProgress() self.downloadProgress = min(float(size) / float(self.totalPlanSize), 1) def downloadPackage(self, http): """ Downloads the package file, synchronously, then uncompresses and unpacks it. Returns true on success, false on failure. This assumes that self.installPlans has already been filled in, which will have been done by self.__readDescFile(). """ for token in self.downloadPackageGenerator(http): if token != self.stepContinue: break Thread.considerYield() return (token == self.stepComplete) def downloadPackageGenerator(self, http): """ A generator function that implements downloadPackage() one piece at a time. It yields one of stepComplete, stepFailed, or stepContinue. """ assert self.hasDescFile if self.hasPackage: # We've already got one. yield self.stepComplete; return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. Assume it's already downloaded. yield self.stepComplete; return # We should have an install plan by the time we get here. assert self.installPlans self.http = http for token in self.__followInstallPlans(): if token == self.stepContinue: yield token else: break while token == self.restartDownload: # Try again. for token in self.downloadDescFileGenerator(http): if token == self.stepContinue: yield token else: break if token == self.stepComplete: for token in self.__followInstallPlans(): if token == self.stepContinue: yield token else: break if token == self.stepFailed: yield self.stepFailed; return assert token == self.stepComplete yield self.stepComplete; return def __followInstallPlans(self): """ Performs all of the steps in self.installPlans. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if not self.installPlans: self.__buildInstallPlans() installPlans = self.installPlans self.installPlans = None for plan in installPlans: self.totalPlanSize = sum(map(lambda step: step.getEffort(), plan)) self.totalPlanCompleted = 0 self.downloadProgress = 0 planFailed = False for step in plan: self.currentStepEffort = step.getEffort() for token in step.func(): if token == self.stepContinue: yield token else: break if token == self.restartDownload: yield token if token == self.stepFailed: planFailed = True break assert token == self.stepComplete self.totalPlanCompleted += self.currentStepEffort if not planFailed: # Successfully downloaded! yield self.stepComplete; return if taskMgr.destroyed: yield self.stepFailed; return # All plans failed. yield self.stepFailed; return def __findPatchChain(self, fileSpec): """ Finds the chain of patches that leads from the indicated patch version to the current patch version. If found, constructs an installPlan that represents the steps of the patch installation; otherwise, returns None. """ from direct.p3d.PatchMaker import PatchMaker patchMaker = PatchMaker(self.getPackageDir()) patchChain = patchMaker.getPatchChainToCurrent(self.descFileBasename, fileSpec) if patchChain is None: # No path. patchMaker.cleanup() return None plan = [] for patchfile in patchChain: downloadSize = patchfile.file.size func = lambda step, fileSpec = patchfile.file: self.__downloadFile(step, fileSpec, allowPartial = True) step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download') plan.append(step) patchSize = patchfile.targetFile.size func = lambda step, patchfile = patchfile: self.__applyPatch(step, patchfile) step = self.InstallStep(func, patchSize, self.patchFactor, 'patch') plan.append(step) patchMaker.cleanup() return plan def __downloadFile(self, step, fileSpec, urlbase = None, filename = None, allowPartial = False): """ Downloads the indicated file from the host into packageDir. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to download anything. yield self.stepFailed; return self.updated = True if not urlbase: urlbase = self.descFileDirname + '/' + fileSpec.filename # Build up a list of URL's to try downloading from. Unlike # the C++ implementation in P3DPackage.cxx, here we build the # URL's in forward order. tryUrls = [] if self.host.appRunner and self.host.appRunner.superMirrorUrl: # We start with the "super mirror", if it's defined. url = self.host.appRunner.superMirrorUrl + urlbase tryUrls.append((url, False)) if self.host.mirrors: # Choose two mirrors at random. mirrors = self.host.mirrors[:] for i in range(2): mirror = random.choice(mirrors) mirrors.remove(mirror) url = mirror + urlbase tryUrls.append((url, False)) if not mirrors: break # After trying two mirrors and failing (or if there are no # mirrors), go get it from the original host. url = self.host.downloadUrlPrefix + urlbase tryUrls.append((url, False)) # And finally, if the original host also fails, try again with # a cache-buster. tryUrls.append((url, True)) for url, cacheBust in tryUrls: request = DocumentSpec(url) if cacheBust: # On the last attempt to download a particular file, # we bust through the cache: append a query string to # do this. url += '?' + str(int(time.time())) request = DocumentSpec(url) request.setCacheControl(DocumentSpec.CCNoCache) self.notify.info("%s downloading %s" % (self.packageName, url)) if not filename: filename = fileSpec.filename targetPathname = Filename(self.getPackageDir(), filename) targetPathname.setBinary() channel = self.http.makeChannel(False) # If there's a previous partial download, attempt to resume it. bytesStarted = 0 if allowPartial and not cacheBust and targetPathname.exists(): bytesStarted = targetPathname.getFileSize() if bytesStarted < 1024*1024: # Not enough bytes downloaded to be worth the risk of # a partial download. bytesStarted = 0 elif bytesStarted >= fileSpec.size: # Couldn't possibly be our file. bytesStarted = 0 if bytesStarted: self.notify.info("Resuming %s after %s bytes already downloaded" % (url, bytesStarted)) # Make sure the file is writable. os.chmod(targetPathname.toOsSpecific(), 0644) channel.beginGetSubdocument(request, bytesStarted, 0) else: # No partial download possible; get the whole file. targetPathname.makeDir() targetPathname.unlink() channel.beginGetDocument(request) channel.downloadToFile(targetPathname) while channel.run(): if step: step.bytesDone = channel.getBytesDownloaded() + channel.getFirstByteDelivered() if step.bytesDone > step.bytesNeeded: # Oops, too much data. Might as well abort; # it's the wrong file. self.notify.warning("Got more data than expected for download %s" % (url)) break self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning("Task Manager destroyed, aborting %s" % (url)) yield self.stepFailed; return yield self.stepContinue if step: step.bytesDone = channel.getBytesDownloaded() + channel.getFirstByteDelivered() self.__updateStepProgress(step) if not channel.isValid(): self.notify.warning("Failed to download %s" % (url)) elif not fileSpec.fullVerify(self.getPackageDir(), pathname = targetPathname, notify = self.notify): self.notify.warning("After downloading, %s incorrect" % (Filename(fileSpec.filename).getBasename())) # This attempt failed. Maybe the original contents.xml # file is stale. Try re-downloading it now, just to be # sure. if self.host.redownloadContentsFile(self.http): # Yes! Go back and start over from the beginning. yield self.restartDownload; return else: # Success! yield self.stepComplete; return # Maybe the mirror is bad. Go back and try the next # mirror. # All attempts failed. Maybe the original contents.xml file # is stale. Try re-downloading it now, just to be sure. if self.host.redownloadContentsFile(self.http): # Yes! Go back and start over from the beginning. yield self.restartDownload; return # All mirrors failed; the server (or the internet connection) # must be just fubar. yield self.stepFailed; return def __applyPatch(self, step, patchfile): """ Applies the indicated patching in-place to the current uncompressed archive. The patchfile is removed after the operation. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ self.updated = True origPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) patchPathname = Filename(self.getPackageDir(), patchfile.file.filename) result = Filename.temporary('', 'patch_') self.notify.info("Patching %s with %s" % (origPathname, patchPathname)) p = PandaModules.Patchfile() # The C++ class ret = p.initiate(patchPathname, origPathname, result) if ret == EUSuccess: ret = p.run() while ret == EUOk: step.bytesDone = step.bytesNeeded * p.getProgress() self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning("Task Manager destroyed, aborting patch %s" % (origPathname)) yield self.stepFailed; return yield self.stepContinue ret = p.run() del p patchPathname.unlink() if ret < 0: self.notify.warning("Patching of %s failed." % (origPathname)) result.unlink() yield self.stepFailed; return if not result.renameTo(origPathname): self.notify.warning("Couldn't rename %s to %s" % (result, origPathname)) yield self.stepFailed; return yield self.stepComplete; return def __uncompressArchive(self, step): """ Turns the compressed archive into the uncompressed archive. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to! yield self.stepFailed; return self.updated = True sourcePathname = Filename(self.getPackageDir(), self.compressedArchive.filename) targetPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) targetPathname.unlink() self.notify.info("Uncompressing %s to %s" % (sourcePathname, targetPathname)) decompressor = Decompressor() decompressor.initiate(sourcePathname, targetPathname) totalBytes = self.uncompressedArchive.size result = decompressor.run() while result == EUOk: step.bytesDone = int(totalBytes * decompressor.getProgress()) self.__updateStepProgress(step) result = decompressor.run() if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning("Task Manager destroyed, aborting decompresss %s" % (sourcePathname)) yield self.stepFailed; return yield self.stepContinue if result != EUSuccess: yield self.stepFailed; return step.bytesDone = totalBytes self.__updateStepProgress(step) if not self.uncompressedArchive.quickVerify(self.getPackageDir(), notify= self.notify): self.notify.warning("after uncompressing, %s still incorrect" % ( self.uncompressedArchive.filename)) yield self.stepFailed; return # Now that we've verified the archive, make it read-only. os.chmod(targetPathname.toOsSpecific(), 0444) # Now we can safely remove the compressed archive. sourcePathname.unlink() yield self.stepComplete; return def __unpackArchive(self, step): """ Unpacks any files in the archive that want to be unpacked to disk. Yields one of stepComplete, stepFailed, restartDownload, or stepContinue. """ if not self.extracts: # Nothing to extract. self.hasPackage = True yield self.stepComplete; return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # We're not allowed to! yield self.stepFailed; return self.updated = True mfPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) self.notify.info("Unpacking %s" % (mfPathname)) mf = Multifile() if not mf.openRead(mfPathname): self.notify.warning("Couldn't open %s" % (mfPathname)) yield self.stepFailed; return allExtractsOk = True step.bytesDone = 0 for file in self.extracts: i = mf.findSubfile(file.filename) if i == -1: self.notify.warning("Not in Multifile: %s" % (file.filename)) allExtractsOk = False continue targetPathname = Filename(self.getPackageDir(), file.filename) targetPathname.unlink() if not mf.extractSubfile(i, targetPathname): self.notify.warning("Couldn't extract: %s" % (file.filename)) allExtractsOk = False continue if not file.quickVerify(self.getPackageDir(), notify = self.notify): self.notify.warning("After extracting, still incorrect: %s" % (file.filename)) allExtractsOk = False continue # Make sure it's executable, and not writable. os.chmod(targetPathname.toOsSpecific(), 0555) step.bytesDone += file.size self.__updateStepProgress(step) if taskMgr.destroyed: # If the task manager has been destroyed, we must # be shutting down. Get out of here. self.notify.warning("Task Manager destroyed, aborting unpacking %s" % (mfPathname)) yield self.stepFailed; return yield self.stepContinue if not allExtractsOk: yield self.stepFailed; return self.hasPackage = True yield self.stepComplete; return def installPackage(self, appRunner): """ Mounts the package and sets up system paths so it becomes available for use. Returns true on success, false on failure. """ assert self.hasPackage if self.installed: # Already installed. return True assert self not in appRunner.installedPackages mfPathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename) mf = Multifile() if not mf.openRead(mfPathname): self.notify.warning("Couldn't open %s" % (mfPathname)) return False # We mount it under its actual location on disk. root = self.getPackageDir().cStr() vfs = VirtualFileSystem.getGlobalPtr() vfs.mount(mf, root, vfs.MFReadOnly) # Add this to the Python search path, if it's not already # there. We have to take a bit of care to check if it's # already there, since there can be some ambiguity in # os-specific path strings. osRoot = self.getPackageDir().toOsSpecific() foundOnPath = False for p in sys.path: if osRoot == p: # Already here, exactly. foundOnPath = True break elif osRoot == Filename.fromOsSpecific(p).toOsSpecific(): # Already here, with some futzing. foundOnPath = True break if not foundOnPath: # Not already here; add it. sys.path.append(osRoot) # Put it on the model-path, too. We do this indiscriminantly, # because the Panda3D runtime won't be adding things to the # model-path, so it shouldn't be already there. getModelPath().appendDirectory(self.getPackageDir()) # Set the environment variable to reference the package root. envvar = '%s_ROOT' % (self.packageName.upper()) ExecutionEnvironment.setEnvironmentVariable(envvar, osRoot) # Now that the environment variable is set, read all of the # prc files in the package. appRunner.loadMultifilePrcFiles(mf, self.getPackageDir()) # Also, find any toplevel Python packages, and add these as # shared packages. This will allow different packages # installed in different directories to share Python files as # if they were all in the same directory. for filename in mf.getSubfileNames(): if filename.endswith('/__init__.pyc') or \ filename.endswith('/__init__.pyo') or \ filename.endswith('/__init__.py'): components = filename.split('/')[:-1] moduleName = '.'.join(components) VFSImporter.sharedPackages[moduleName] = True # Fix up any shared directories so we can load packages from # disparate locations. VFSImporter.reloadSharedPackages() self.installed = True appRunner.installedPackages.append(self) self.markUsed() return True def __measureDiskSpace(self): """ Returns the amount of space used by this package, in bytes, as determined by examining the actual contents of the package directory and its subdirectories. """ thisDir = ScanDirectoryNode(self.getPackageDir(), ignoreUsageXml = True) diskSpace = thisDir.getTotalSize() self.notify.info("Package %s uses %s MB" % ( self.packageName, (diskSpace + 524288) / 1048576)) return diskSpace def markUsed(self): """ Marks the package as having been used. This is normally called automatically by installPackage(). """ if not hasattr(PandaModules, 'TiXmlDocument'): return if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever: # Not allowed to write any files to the package directory. return if self.updated: # If we've just installed a new version of the package, # re-measure the actual disk space used. self.diskSpace = self.__measureDiskSpace() filename = Filename(self.getPackageDir(), self.UsageBasename) doc = TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): decl = TiXmlDeclaration("1.0", "utf-8", "") doc.InsertEndChild(decl) xusage = doc.FirstChildElement('usage') if not xusage: doc.InsertEndChild(TiXmlElement('usage')) xusage = doc.FirstChildElement('usage') now = int(time.time()) count = xusage.Attribute('count_app') try: count = int(count or '') except ValueError: count = 0 xusage.SetAttribute('first_use', str(now)) count += 1 xusage.SetAttribute('count_app', str(count)) xusage.SetAttribute('last_use', str(now)) if self.updated: xusage.SetAttribute('last_update', str(now)) self.updated = False else: # Since we haven't changed the disk space, we can just # read it from the previous xml file. diskSpace = xusage.Attribute('disk_space') try: diskSpace = int(diskSpace or '') except ValueError: # Unless it wasn't set already. self.diskSpace = self.__measureDiskSpace() xusage.SetAttribute('disk_space', str(self.diskSpace)) # Write the file to a temporary filename, then atomically move # it to its actual filename, to avoid race conditions when # updating this file. tfile = Filename.temporary(self.getPackageDir().cStr(), '.xml') if doc.SaveFile(tfile.toOsSpecific()): tfile.renameTo(filename) def getUsage(self): """ Returns the xusage element that is read from the usage.xml file, or None if there is no usage.xml file. """ if not hasattr(PandaModules, 'TiXmlDocument'): return None filename = Filename(self.getPackageDir(), self.UsageBasename) doc = TiXmlDocument(filename.toOsSpecific()) if not doc.LoadFile(): return None xusage = doc.FirstChildElement('usage') if not xusage: return None return copy.copy(xusage)
class HostInfo: """ This class represents a particular download host serving up Panda3D packages. It is the Python equivalent of the P3DHost class in the core API. """ notify = directNotify.newCategory("HostInfo") def __init__(self, hostUrl, appRunner = None, hostDir = None, rootDir = None, asMirror = False, perPlatform = None): """ You must specify either an appRunner or a hostDir to the HostInfo constructor. If you pass asMirror = True, it means that this HostInfo object is to be used to populate a "mirror" folder, a duplicate (or subset) of the contents hosted by a server. This means when you use this HostInfo to download packages, it will only download the compressed archive file and leave it there. At the moment, mirror folders do not download old patch files from the server. If you pass perPlatform = True, then files are unpacked into a platform-specific directory, which is appropriate when you might be downloading multiple platforms. The default is perPlatform = False, which means all files are unpacked into the host directory directly, without an intervening platform-specific directory name. If asMirror is True, then the default is perPlatform = True. Note that perPlatform is also restricted by the individual package's specification. """ self.__setHostUrl(hostUrl) self.appRunner = appRunner self.rootDir = rootDir if rootDir is None and appRunner: self.rootDir = appRunner.rootDir if hostDir and not isinstance(hostDir, Filename): hostDir = Filename.fromOsSpecific(hostDir) self.hostDir = hostDir self.asMirror = asMirror self.perPlatform = perPlatform if perPlatform is None: self.perPlatform = asMirror # Initially false, this is set true when the contents file is # successfully read. self.hasContentsFile = False # This is the time value at which the current contents file is # no longer valid. self.contentsExpiration = 0 # Contains the md5 hash of the original contents.xml file. self.contentsSpec = FileSpec() # descriptiveName will be filled in later, when the # contents file is read. self.descriptiveName = None # A list of known mirrors for this host, all URL's guaranteed # to end with a slash. self.mirrors = [] # A map of keyword -> altHost URL's. An altHost is different # than a mirror; an altHost is an alternate URL to download a # different (e.g. testing) version of this host's contents. # It is rarely used. self.altHosts = {} # This is a dictionary of packages by (name, version). It # will be filled in when the contents file is read. self.packages = {} if self.appRunner and self.appRunner.verifyContents != self.appRunner.P3DVCForce: # Attempt to pre-read the existing contents.xml; maybe it # will be current enough for our purposes. self.readContentsFile() def __setHostUrl(self, hostUrl): """ Assigns self.hostUrl, and related values. """ self.hostUrl = hostUrl if not self.hostUrl: # A special case: the URL will be set later. self.hostUrlPrefix = None self.downloadUrlPrefix = None else: # hostUrlPrefix is the host URL, but it is guaranteed to end # with a slash. self.hostUrlPrefix = hostUrl if self.hostUrlPrefix[-1] != '/': self.hostUrlPrefix += '/' # downloadUrlPrefix is the URL prefix that should be used for # everything other than the contents.xml file. It might be # the same as hostUrlPrefix, but in the case of an # https-protected hostUrl, it will be the cleartext channel. self.downloadUrlPrefix = self.hostUrlPrefix def freshenFile(self, http, fileSpec, localPathname): """ Ensures that the localPathname is the most current version of the file defined by fileSpec, as offered by host. If not, it downloads a new version on-the-spot. Returns true on success, false on failure. """ if fileSpec.quickVerify(pathname = localPathname): # It's good, keep it. return True # It's stale, get a new one. doc = None if self.appRunner and self.appRunner.superMirrorUrl: # Use the "super mirror" first. url = core.URLSpec(self.appRunner.superMirrorUrl + fileSpec.filename) self.notify.info("Freshening %s" % (url)) doc = http.getDocument(url) if not doc or not doc.isValid(): # Failing the super mirror, contact the actual host. url = core.URLSpec(self.hostUrlPrefix + fileSpec.filename) self.notify.info("Freshening %s" % (url)) doc = http.getDocument(url) if not doc.isValid(): return False file = Filename.temporary('', 'p3d_') if not doc.downloadToFile(file): # Failed to download. file.unlink() return False # Successfully downloaded! localPathname.makeDir() if not file.renameTo(localPathname): # Couldn't move it into place. file.unlink() return False if not fileSpec.fullVerify(pathname = localPathname, notify = self.notify): # No good after download. self.notify.info("%s is still no good after downloading." % (url)) return False return True def downloadContentsFile(self, http, redownload = False, hashVal = None): """ Downloads the contents.xml file for this particular host, synchronously, and then reads it. Returns true on success, false on failure. If hashVal is not None, it should be a HashVal object, which will be filled with the hash from the new contents.xml file.""" if self.hasCurrentContentsFile(): # We've already got one. return True if self.appRunner and self.appRunner.verifyContents == self.appRunner.P3DVCNever: # Not allowed to. return False rf = None if http: if not redownload and self.appRunner and self.appRunner.superMirrorUrl: # We start with the "super mirror", if it's defined. url = self.appRunner.superMirrorUrl + 'contents.xml' request = DocumentSpec(url) self.notify.info("Downloading contents file %s" % (request)) rf = Ramfile() channel = http.makeChannel(False) channel.getDocument(request) if not channel.downloadToRam(rf): self.notify.warning("Unable to download %s" % (url)) rf = None if not rf: # Then go to the main host, if our super mirror let us # down. url = self.hostUrlPrefix + 'contents.xml' # Append a uniquifying query string to the URL to force the # download to go all the way through any caches. We use the # time in seconds; that's unique enough. url += '?' + str(int(time.time())) # We might as well explicitly request the cache to be disabled # too, since we have an interface for that via HTTPChannel. request = DocumentSpec(url) request.setCacheControl(DocumentSpec.CCNoCache) self.notify.info("Downloading contents file %s" % (request)) statusCode = None statusString = '' for attempt in range(int(ConfigVariableInt('contents-xml-dl-attempts', 3))): if attempt > 0: self.notify.info("Retrying (%s)..."%(attempt,)) rf = Ramfile() channel = http.makeChannel(False) channel.getDocument(request) if channel.downloadToRam(rf): self.notify.info("Successfully downloaded %s" % (url,)) break else: rf = None statusCode = channel.getStatusCode() statusString = channel.getStatusString() self.notify.warning("Could not contact download server at %s" % (url,)) self.notify.warning("Status code = %s %s" % (statusCode, statusString)) if not rf: self.notify.warning("Unable to download %s" % (url,)) try: # Something screwed up. if statusCode == HTTPChannel.SCDownloadOpenError or \ statusCode == HTTPChannel.SCDownloadWriteError: launcher.setPandaErrorCode(2) elif statusCode == 404: # 404 not found launcher.setPandaErrorCode(5) elif statusCode < 100: # statusCode < 100 implies the connection attempt itself # failed. This is usually due to firewall software # interfering. Apparently some firewall software might # allow the first connection and disallow subsequent # connections; how strange. launcher.setPandaErrorCode(4) else: # There are other kinds of failures, but these will # generally have been caught already by the first test; so # if we get here there may be some bigger problem. Just # give the generic "big problem" message. launcher.setPandaErrorCode(6) except NameError as e: # no launcher pass except AttributeError as e: self.notify.warning("%s" % (str(e),)) pass return False tempFilename = Filename.temporary('', 'p3d_', '.xml') if rf: f = open(tempFilename.toOsSpecific(), 'wb') f.write(rf.getData()) f.close() if hashVal: hashVal.hashString(rf.getData()) if not self.readContentsFile(tempFilename, freshDownload = True): self.notify.warning("Failure reading %s" % (url)) tempFilename.unlink() return False tempFilename.unlink() return True # Couldn't download the file. Maybe we should look for a # previously-downloaded copy already on disk? return False def redownloadContentsFile(self, http): """ Downloads a new contents.xml file in case it has changed. Returns true if the file has indeed changed, false if it has not. """ assert self.hasContentsFile if self.appRunner and self.appRunner.verifyContents == self.appRunner.P3DVCNever: # Not allowed to. return False url = self.hostUrlPrefix + 'contents.xml' self.notify.info("Redownloading %s" % (url)) # Get the hash of the original file. assert self.hostDir hv1 = HashVal() if self.contentsSpec.hash: hv1.setFromHex(self.contentsSpec.hash) else: filename = Filename(self.hostDir, 'contents.xml') hv1.hashFile(filename) # Now download it again. self.hasContentsFile = False hv2 = HashVal() if not self.downloadContentsFile(http, redownload = True, hashVal = hv2): return False if hv2 == HashVal(): self.notify.info("%s didn't actually redownload." % (url)) return False elif hv1 != hv2: self.notify.info("%s has changed." % (url)) return True else: self.notify.info("%s has not changed." % (url)) return False def hasCurrentContentsFile(self): """ Returns true if a contents.xml file has been successfully read for this host and is still current, false otherwise. """ if not self.appRunner \ or self.appRunner.verifyContents == self.appRunner.P3DVCNone \ or self.appRunner.verifyContents == self.appRunner.P3DVCNever: # If we're not asking to verify contents, then # contents.xml files never expires. return self.hasContentsFile now = int(time.time()) return now < self.contentsExpiration and self.hasContentsFile def readContentsFile(self, tempFilename = None, freshDownload = False): """ Reads the contents.xml file for this particular host, once it has been downloaded into the indicated temporary file. Returns true on success, false if the contents file is not already on disk or is unreadable. If tempFilename is specified, it is the filename read, and it is copied the file into the standard location if it's not there already. If tempFilename is not specified, the standard filename is read if it is known. """ if not hasattr(core, 'TiXmlDocument'): return False if not tempFilename: if self.hostDir: # If the filename is not specified, we can infer it # if we already know our hostDir hostDir = self.hostDir else: # Otherwise, we have to guess the hostDir. hostDir = self.__determineHostDir(None, self.hostUrl) tempFilename = Filename(hostDir, 'contents.xml') doc = core.TiXmlDocument(tempFilename.toOsSpecific()) if not doc.LoadFile(): return False xcontents = doc.FirstChildElement('contents') if not xcontents: return False maxAge = xcontents.Attribute('max_age') if maxAge: try: maxAge = int(maxAge) except: maxAge = None if maxAge is None: # Default max_age if unspecified (see p3d_plugin.h). from direct.p3d.AppRunner import AppRunner maxAge = AppRunner.P3D_CONTENTS_DEFAULT_MAX_AGE # Get the latest possible expiration time, based on the max_age # indication. Any expiration time later than this is in error. now = int(time.time()) self.contentsExpiration = now + maxAge if freshDownload: self.contentsSpec.readHash(tempFilename) # Update the XML with the new download information. xorig = xcontents.FirstChildElement('orig') while xorig: xcontents.RemoveChild(xorig) xorig = xcontents.FirstChildElement('orig') xorig = core.TiXmlElement('orig') self.contentsSpec.storeXml(xorig) xorig.SetAttribute('expiration', str(self.contentsExpiration)) xcontents.InsertEndChild(xorig) else: # Read the download hash and expiration time from the XML. expiration = None xorig = xcontents.FirstChildElement('orig') if xorig: self.contentsSpec.loadXml(xorig) expiration = xorig.Attribute('expiration') if expiration: try: expiration = int(expiration) except: expiration = None if not self.contentsSpec.hash: self.contentsSpec.readHash(tempFilename) if expiration is not None: self.contentsExpiration = min(self.contentsExpiration, expiration) # Look for our own entry in the hosts table. if self.hostUrl: self.__findHostXml(xcontents) else: assert self.hostDir self.__findHostXmlForHostDir(xcontents) if self.rootDir and not self.hostDir: self.hostDir = self.__determineHostDir(None, self.hostUrl) # Get the list of packages available for download and/or import. xpackage = xcontents.FirstChildElement('package') while xpackage: name = xpackage.Attribute('name') platform = xpackage.Attribute('platform') version = xpackage.Attribute('version') try: solo = int(xpackage.Attribute('solo') or '') except ValueError: solo = False try: perPlatform = int(xpackage.Attribute('per_platform') or '') except ValueError: perPlatform = False package = self.__makePackage(name, platform, version, solo, perPlatform) package.descFile = FileSpec() package.descFile.loadXml(xpackage) package.setupFilenames() package.importDescFile = None ximport = xpackage.FirstChildElement('import') if ximport: package.importDescFile = FileSpec() package.importDescFile.loadXml(ximport) xpackage = xpackage.NextSiblingElement('package') self.hasContentsFile = True # Now save the contents.xml file into the standard location. if self.appRunner and self.appRunner.verifyContents != self.appRunner.P3DVCNever: assert self.hostDir filename = Filename(self.hostDir, 'contents.xml') filename.makeDir() if freshDownload: doc.SaveFile(filename.toOsSpecific()) else: if filename != tempFilename: tempFilename.copyTo(filename) return True def __findHostXml(self, xcontents): """ Looks for the <host> or <alt_host> entry in the contents.xml that corresponds to the URL that we actually downloaded from. """ xhost = xcontents.FirstChildElement('host') while xhost: url = xhost.Attribute('url') if url == self.hostUrl: self.readHostXml(xhost) return xalthost = xhost.FirstChildElement('alt_host') while xalthost: url = xalthost.Attribute('url') if url == self.hostUrl: self.readHostXml(xalthost) return xalthost = xalthost.NextSiblingElement('alt_host') xhost = xhost.NextSiblingElement('host') def __findHostXmlForHostDir(self, xcontents): """ Looks for the <host> or <alt_host> entry in the contents.xml that corresponds to the host dir that we read the contents.xml from. This is used when reading a contents.xml file found on disk, as opposed to downloading it from a site. """ xhost = xcontents.FirstChildElement('host') while xhost: url = xhost.Attribute('url') hostDirBasename = xhost.Attribute('host_dir') hostDir = self.__determineHostDir(hostDirBasename, url) if hostDir == self.hostDir: self.__setHostUrl(url) self.readHostXml(xhost) return xalthost = xhost.FirstChildElement('alt_host') while xalthost: url = xalthost.Attribute('url') hostDirBasename = xalthost.Attribute('host_dir') hostDir = self.__determineHostDir(hostDirBasename, url) if hostDir == self.hostDir: self.__setHostUrl(url) self.readHostXml(xalthost) return xalthost = xalthost.NextSiblingElement('alt_host') xhost = xhost.NextSiblingElement('host') def readHostXml(self, xhost): """ Reads a <host> or <alt_host> entry and applies the data to this object. """ descriptiveName = xhost.Attribute('descriptive_name') if descriptiveName and not self.descriptiveName: self.descriptiveName = descriptiveName hostDirBasename = xhost.Attribute('host_dir') if self.rootDir and not self.hostDir: self.hostDir = self.__determineHostDir(hostDirBasename, self.hostUrl) # Get the "download" URL, which is the source from which we # download everything other than the contents.xml file. downloadUrl = xhost.Attribute('download_url') if downloadUrl: self.downloadUrlPrefix = downloadUrl if self.downloadUrlPrefix[-1] != '/': self.downloadUrlPrefix += '/' else: self.downloadUrlPrefix = self.hostUrlPrefix xmirror = xhost.FirstChildElement('mirror') while xmirror: url = xmirror.Attribute('url') if url: if url[-1] != '/': url += '/' if url not in self.mirrors: self.mirrors.append(url) xmirror = xmirror.NextSiblingElement('mirror') xalthost = xhost.FirstChildElement('alt_host') while xalthost: keyword = xalthost.Attribute('keyword') url = xalthost.Attribute('url') if url and keyword: self.altHosts[keyword] = url xalthost = xalthost.NextSiblingElement('alt_host') def __makePackage(self, name, platform, version, solo, perPlatform): """ Creates a new PackageInfo entry for the given name, version, and platform. If there is already a matching PackageInfo, returns it. """ if not platform: platform = None platforms = self.packages.setdefault((name, version or ""), {}) package = platforms.get("", None) if not package: package = PackageInfo(self, name, version, platform = platform, solo = solo, asMirror = self.asMirror, perPlatform = perPlatform) platforms[platform or ""] = package return package def getPackage(self, name, version, platform = None): """ Returns a PackageInfo that matches the indicated name and version and the indicated platform or the current runtime platform, if one is provided by this host, or None if not. """ assert self.hasContentsFile platforms = self.packages.get((name, version or ""), {}) if platform: # In this case, we are looking for a specific platform # only. return platforms.get(platform, None) # We are looking for one matching the current runtime # platform. First, look for a package matching the current # platform exactly. package = platforms.get(PandaSystem.getPlatform(), None) # If not found, look for one matching no particular platform. if not package: package = platforms.get("", None) return package def getPackages(self, name = None, platform = None): """ Returns a list of PackageInfo objects that match the indicated name and/or platform, with no particular regards to version. If name is None, all packages are returned. """ assert self.hasContentsFile packages = [] for (pn, version), platforms in self.packages.items(): if name and pn != name: continue if not platform: for p2 in platforms: package = self.getPackage(pn, version, platform = p2) if package: packages.append(package) else: package = self.getPackage(pn, version, platform = platform) if package: packages.append(package) return packages def getAllPackages(self, includeAllPlatforms = False): """ Returns a list of all available packages provided by this host. """ result = [] items = sorted(self.packages.items()) for key, platforms in items: if self.perPlatform or includeAllPlatforms: # If we maintain a different answer per platform, # return all of them. pitems = sorted(platforms.items()) for pkey, package in pitems: result.append(package) else: # If we maintain a host for the current platform # only (e.g. a client copy), then return only the # current platform, or no particular platform. package = platforms.get(PandaSystem.getPlatform(), None) if not package: package = platforms.get("", None) if package: result.append(package) return result def deletePackages(self, packages): """ Removes all of the indicated packages from the disk, uninstalling them and deleting all of their files. The packages parameter must be a list of one or more PackageInfo objects, for instance as returned by getPackage(). Returns the list of packages that were NOT found. """ packages = packages[:] for key, platforms in list(self.packages.items()): for platform, package in list(platforms.items()): if package in packages: self.__deletePackageFiles(package) del platforms[platform] packages.remove(package) if not platforms: # If we've removed all the platforms for a given # package, remove the key from the toplevel map. del self.packages[key] return packages def __deletePackageFiles(self, package): """ Called by deletePackage(), this actually removes the files for the indicated package. """ if self.appRunner: self.notify.info("Deleting package %s: %s" % (package.packageName, package.getPackageDir())) self.appRunner.rmtree(package.getPackageDir()) self.appRunner.sendRequest('forget_package', self.hostUrl, package.packageName, package.packageVersion or '') def __determineHostDir(self, hostDirBasename, hostUrl): """ Hashes the host URL into a (mostly) unique directory string, which will be the root of the host's install tree. Returns the resulting path, as a Filename. This code is duplicated in C++, in P3DHost::determine_host_dir(). """ if hostDirBasename: # If the contents.xml specified a host_dir parameter, use # it. hostDir = str(self.rootDir) + '/hosts' for component in hostDirBasename.split('/'): if component: if component[0] == '.': # Forbid ".foo" or "..". component = 'x' + component hostDir += '/' hostDir += component return Filename(hostDir) hostDir = 'hosts/' # Look for a server name in the URL. Including this string in the # directory name makes it friendlier for people browsing the # directory. # We could use URLSpec, but we do it by hand instead, to make # it more likely that our hash code will exactly match the # similar logic in P3DHost. p = hostUrl.find('://') hostname = '' if p != -1: start = p + 3 end = hostUrl.find('/', start) # Now start .. end is something like "username@host:port". at = hostUrl.find('@', start) if at != -1 and at < end: start = at + 1 colon = hostUrl.find(':', start) if colon != -1 and colon < end: end = colon # Now start .. end is just the hostname. hostname = hostUrl[start : end] # Now build a hash string of the whole URL. We'll use MD5 to # get a pretty good hash, with a minimum chance of collision. # Even if there is a hash collision, though, it's not the end # of the world; it just means that both hosts will dump their # packages into the same directory, and they'll fight over the # toplevel contents.xml file. Assuming they use different # version numbers (which should be safe since they have the # same hostname), there will be minimal redownloading. hashSize = 16 keepHash = hashSize if hostname: hostDir += hostname + '_' # If we successfully got a hostname, we don't really need the # full hash. We'll keep half of it. keepHash = keepHash // 2 md = HashVal() md.hashString(hostUrl) hostDir += md.asHex()[:keepHash * 2] hostDir = Filename(self.rootDir, hostDir) return hostDir
class Package: """ This is a particular package. This contains all of the information needed to reconstruct the package's desc file. """ def __init__(self, packageDesc, patchMaker, xpackage=None): self.packageDir = Filename(patchMaker.installDir, packageDesc.getDirname()) self.packageDesc = packageDesc self.patchMaker = patchMaker self.contentsDocPackage = xpackage self.patchVersion = 1 self.currentPv = None self.basePv = None self.topPv = None self.packageName = None self.platform = None self.version = None self.hostUrl = None self.currentFile = None self.baseFile = None self.doc = None self.anyChanges = False self.patches = [] def getCurrentKey(self): """ Returns the key to locate the current version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.currentFile) def getBaseKey(self): """ Returns the key to locate the "base" or oldest version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.baseFile) def getTopKey(self): """ Returns the key to locate the "top" or newest version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.topFile) def getGenericKey(self, fileSpec): """ Returns the key that has the indicated hash. """ return (self.packageName, self.platform, self.version, self.hostUrl, fileSpec) def readDescFile(self, doProcessing=False): """ Reads the existing package.xml file and stores it in this class for later rewriting. if doProcessing is true, it may massage the file and the directory contents in preparation for building patches. Returns true on success, false on failure. """ self.anyChanges = False packageDescFullpath = Filename(self.patchMaker.installDir, self.packageDesc) self.doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not self.doc.LoadFile(): print("Couldn't read %s" % (packageDescFullpath)) return False xpackage = self.doc.FirstChildElement('package') if not xpackage: return False self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') # All packages we defined in-line are assigned to the # "none" host. TODO: support patching from packages on # other hosts, which means we'll need to fill in a value # here for those hosts. self.hostUrl = None self.currentFile = None self.baseFile = None self.topFile = None self.compressedFilename = None compressedFile = None # Assume there are changes for this version, until we # discover that there aren't. isNewVersion = True # Get the actual current version. xarchive = xpackage.FirstChildElement('uncompressed_archive') if xarchive: self.currentFile = FileSpec() self.currentFile.loadXml(xarchive) # Get the top_version--the top (newest) of the patch # chain. xarchive = xpackage.FirstChildElement('top_version') if xarchive: self.topFile = FileSpec() self.topFile.loadXml(xarchive) if self.topFile.hash == self.currentFile.hash: # No new version this pass. isNewVersion = False else: # There's a new version this pass. Update it. self.anyChanges = True else: # If there isn't a top_version yet, we have to make # one, by duplicating the currentFile. self.topFile = copy.copy(self.currentFile) self.anyChanges = True # Get the current patch version. If we have a # patch_version attribute, it refers to this particular # instance of the file, and that is the current patch # version number. If we only have a last_patch_version # attribute, it means a patch has not yet been built for # this particular instance, and that number is the # previous version's patch version number. patchVersion = xpackage.Attribute('patch_version') if patchVersion: self.patchVersion = int(patchVersion) else: patchVersion = xpackage.Attribute('last_patch_version') if patchVersion: self.patchVersion = int(patchVersion) if isNewVersion: self.patchVersion += 1 self.anyChanges = True # Put the patchVersion in the compressed filename, for # cache-busting. This means when the version changes, its # URL will also change, guaranteeing that users will # download the latest version, and not some stale cache # file. xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: compressedFile = FileSpec() compressedFile.loadXml(xcompressed) oldCompressedFilename = compressedFile.filename self.compressedFilename = oldCompressedFilename if doProcessing: newCompressedFilename = '%s.%s.pz' % ( self.currentFile.filename, self.patchVersion) if newCompressedFilename != oldCompressedFilename: oldCompressedPathname = Filename( self.packageDir, oldCompressedFilename) newCompressedPathname = Filename( self.packageDir, newCompressedFilename) if oldCompressedPathname.renameTo( newCompressedPathname): compressedFile.fromFile(self.packageDir, newCompressedFilename) compressedFile.storeXml(xcompressed) self.compressedFilename = newCompressedFilename self.anyChanges = True # Get the base_version--the bottom (oldest) of the patch # chain. xarchive = xpackage.FirstChildElement('base_version') if xarchive: self.baseFile = FileSpec() self.baseFile.loadXml(xarchive) else: # If there isn't a base_version yet, we have to make # one, by duplicating the currentFile. self.baseFile = copy.copy(self.currentFile) # Note that the we only store the compressed version # of base_filename on disk, but we store the md5 of # the uncompressed version in the xml file. To # emphasize this, we name it without the .pz extension # in the xml file, even though the compressed file on # disk actually has a .pz extension. self.baseFile.filename += '.base' # Also duplicate the (compressed) file itself. if doProcessing and self.compressedFilename: fromPathname = Filename(self.packageDir, self.compressedFilename) toPathname = Filename(self.packageDir, self.baseFile.filename + '.pz') fromPathname.copyTo(toPathname) self.anyChanges = True self.patches = [] xpatch = xpackage.FirstChildElement('patch') while xpatch: patchfile = PatchMaker.Patchfile(self) patchfile.loadXml(xpatch) self.patches.append(patchfile) xpatch = xpatch.NextSiblingElement('patch') return True def writeDescFile(self): """ Rewrites the desc file with the new patch information. """ if not self.anyChanges: # No need to rewrite. return xpackage = self.doc.FirstChildElement('package') if not xpackage: return packageSeq = SeqValue() packageSeq.loadXml(xpackage, 'seq') packageSeq += 1 packageSeq.storeXml(xpackage, 'seq') # Remove all of the old patch entries from the desc file # we read earlier. xremove = [] for value in ['base_version', 'top_version', 'patch']: xpatch = xpackage.FirstChildElement(value) while xpatch: xremove.append(xpatch) xpatch = xpatch.NextSiblingElement(value) for xelement in xremove: xpackage.RemoveChild(xelement) xpackage.RemoveAttribute('last_patch_version') # Now replace them with the current patch information. xpackage.SetAttribute('patch_version', str(self.patchVersion)) xarchive = TiXmlElement('base_version') self.baseFile.storeXml(xarchive) xpackage.InsertEndChild(xarchive) # The current version is now the top version. xarchive = TiXmlElement('top_version') self.currentFile.storeXml(xarchive) xpackage.InsertEndChild(xarchive) for patchfile in self.patches: xpatch = patchfile.makeXml(self) xpackage.InsertEndChild(xpatch) self.doc.SaveFile() # Also copy the seq to the import desc file, for # documentation purposes. importDescFilename = str(self.packageDesc)[:-3] + 'import.xml' importDescFullpath = Filename(self.patchMaker.installDir, importDescFilename) doc = TiXmlDocument(importDescFullpath.toOsSpecific()) if doc.LoadFile(): xpackage = doc.FirstChildElement('package') if xpackage: packageSeq.storeXml(xpackage, 'seq') doc.SaveFile() else: print("Couldn't read %s" % (importDescFullpath)) if self.contentsDocPackage: # Now that we've rewritten the xml file, we have to # change the contents.xml file that references it to # indicate the new file hash. fileSpec = FileSpec() fileSpec.fromFile(self.patchMaker.installDir, self.packageDesc) fileSpec.storeXml(self.contentsDocPackage) # Also important to update the import.xml hash. ximport = self.contentsDocPackage.FirstChildElement('import') if ximport: fileSpec = FileSpec() fileSpec.fromFile(self.patchMaker.installDir, importDescFilename) fileSpec.storeXml(ximport) # Also copy the package seq value into the # contents.xml file, mainly for documentation purposes # (the authoritative seq value is within the desc # file). packageSeq.storeXml(self.contentsDocPackage, 'seq')
class Package: """ This is a particular package. This contains all of the information needed to reconstruct the package's desc file. """ def __init__(self, packageDesc, patchMaker, xpackage = None): self.packageDir = Filename(patchMaker.installDir, packageDesc.getDirname()) self.packageDesc = packageDesc self.patchMaker = patchMaker self.contentsDocPackage = xpackage self.patchVersion = 1 self.currentPv = None self.basePv = None self.topPv = None self.packageName = None self.platform = None self.version = None self.hostUrl = None self.currentFile = None self.baseFile = None self.doc = None self.anyChanges = False self.patches = [] def getCurrentKey(self): """ Returns the key to locate the current version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.currentFile) def getBaseKey(self): """ Returns the key to locate the "base" or oldest version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.baseFile) def getTopKey(self): """ Returns the key to locate the "top" or newest version of this package. """ return (self.packageName, self.platform, self.version, self.hostUrl, self.topFile) def getGenericKey(self, fileSpec): """ Returns the key that has the indicated hash. """ return (self.packageName, self.platform, self.version, self.hostUrl, fileSpec) def readDescFile(self, doProcessing = False): """ Reads the existing package.xml file and stores it in this class for later rewriting. if doProcessing is true, it may massage the file and the directory contents in preparation for building patches. Returns true on success, false on failure. """ self.anyChanges = False packageDescFullpath = Filename(self.patchMaker.installDir, self.packageDesc) self.doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not self.doc.LoadFile(): print "Couldn't read %s" % (packageDescFullpath) return False xpackage = self.doc.FirstChildElement('package') if not xpackage: return False self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') # All packages we defined in-line are assigned to the # "none" host. TODO: support patching from packages on # other hosts, which means we'll need to fill in a value # here for those hosts. self.hostUrl = None self.currentFile = None self.baseFile = None self.topFile = None self.compressedFilename = None compressedFile = None # Assume there are changes for this version, until we # discover that there aren't. isNewVersion = True # Get the actual current version. xarchive = xpackage.FirstChildElement('uncompressed_archive') if xarchive: self.currentFile = FileSpec() self.currentFile.loadXml(xarchive) # Get the top_version--the top (newest) of the patch # chain. xarchive = xpackage.FirstChildElement('top_version') if xarchive: self.topFile = FileSpec() self.topFile.loadXml(xarchive) if self.topFile.hash == self.currentFile.hash: # No new version this pass. isNewVersion = False else: # There's a new version this pass. Update it. self.anyChanges = True else: # If there isn't a top_version yet, we have to make # one, by duplicating the currentFile. self.topFile = copy.copy(self.currentFile) self.anyChanges = True # Get the current patch version. If we have a # patch_version attribute, it refers to this particular # instance of the file, and that is the current patch # version number. If we only have a last_patch_version # attribute, it means a patch has not yet been built for # this particular instance, and that number is the # previous version's patch version number. patchVersion = xpackage.Attribute('patch_version') if patchVersion: self.patchVersion = int(patchVersion) else: patchVersion = xpackage.Attribute('last_patch_version') if patchVersion: self.patchVersion = int(patchVersion) if isNewVersion: self.patchVersion += 1 self.anyChanges = True # Put the patchVersion in the compressed filename, for # cache-busting. This means when the version changes, its # URL will also change, guaranteeing that users will # download the latest version, and not some stale cache # file. xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: compressedFile = FileSpec() compressedFile.loadXml(xcompressed) oldCompressedFilename = compressedFile.filename self.compressedFilename = oldCompressedFilename if doProcessing: newCompressedFilename = '%s.%s.pz' % (self.currentFile.filename, self.patchVersion) if newCompressedFilename != oldCompressedFilename: oldCompressedPathname = Filename(self.packageDir, oldCompressedFilename) newCompressedPathname = Filename(self.packageDir, newCompressedFilename) if oldCompressedPathname.renameTo(newCompressedPathname): compressedFile.fromFile(self.packageDir, newCompressedFilename) compressedFile.storeXml(xcompressed) self.compressedFilename = newCompressedFilename self.anyChanges = True # Get the base_version--the bottom (oldest) of the patch # chain. xarchive = xpackage.FirstChildElement('base_version') if xarchive: self.baseFile = FileSpec() self.baseFile.loadXml(xarchive) else: # If there isn't a base_version yet, we have to make # one, by duplicating the currentFile. self.baseFile = copy.copy(self.currentFile) # Note that the we only store the compressed version # of base_filename on disk, but we store the md5 of # the uncompressed version in the xml file. To # emphasize this, we name it without the .pz extension # in the xml file, even though the compressed file on # disk actually has a .pz extension. self.baseFile.filename += '.base' # Also duplicate the (compressed) file itself. if doProcessing and self.compressedFilename: fromPathname = Filename(self.packageDir, self.compressedFilename) toPathname = Filename(self.packageDir, self.baseFile.filename + '.pz') fromPathname.copyTo(toPathname) self.anyChanges = True self.patches = [] xpatch = xpackage.FirstChildElement('patch') while xpatch: patchfile = PatchMaker.Patchfile(self) patchfile.loadXml(xpatch) self.patches.append(patchfile) xpatch = xpatch.NextSiblingElement('patch') return True def writeDescFile(self): """ Rewrites the desc file with the new patch information. """ if not self.anyChanges: # No need to rewrite. return xpackage = self.doc.FirstChildElement('package') if not xpackage: return packageSeq = SeqValue() packageSeq.loadXml(xpackage, 'seq') packageSeq += 1 packageSeq.storeXml(xpackage, 'seq') # Remove all of the old patch entries from the desc file # we read earlier. xremove = [] for value in ['base_version', 'top_version', 'patch']: xpatch = xpackage.FirstChildElement(value) while xpatch: xremove.append(xpatch) xpatch = xpatch.NextSiblingElement(value) for xelement in xremove: xpackage.RemoveChild(xelement) xpackage.RemoveAttribute('last_patch_version') # Now replace them with the current patch information. xpackage.SetAttribute('patch_version', str(self.patchVersion)) xarchive = TiXmlElement('base_version') self.baseFile.storeXml(xarchive) xpackage.InsertEndChild(xarchive) # The current version is now the top version. xarchive = TiXmlElement('top_version') self.currentFile.storeXml(xarchive) xpackage.InsertEndChild(xarchive) for patchfile in self.patches: xpatch = patchfile.makeXml(self) xpackage.InsertEndChild(xpatch) self.doc.SaveFile() # Also copy the seq to the import desc file, for # documentation purposes. importDescFilename = self.packageDesc.cStr()[:-3] + 'import.xml' importDescFullpath = Filename(self.patchMaker.installDir, importDescFilename) doc = TiXmlDocument(importDescFullpath.toOsSpecific()) if doc.LoadFile(): xpackage = doc.FirstChildElement('package') if xpackage: packageSeq.storeXml(xpackage, 'seq') doc.SaveFile() else: print "Couldn't read %s" % (importDescFullpath) if self.contentsDocPackage: # Now that we've rewritten the xml file, we have to # change the contents.xml file that references it to # indicate the new file hash. fileSpec = FileSpec() fileSpec.fromFile(self.patchMaker.installDir, self.packageDesc) fileSpec.storeXml(self.contentsDocPackage) # Also important to update the import.xml hash. ximport = self.contentsDocPackage.FirstChildElement('import') if ximport: fileSpec = FileSpec() fileSpec.fromFile(self.patchMaker.installDir, importDescFilename) fileSpec.storeXml(ximport) # Also copy the package seq value into the # contents.xml file, mainly for documentation purposes # (the authoritative seq value is within the desc # file). packageSeq.storeXml(self.contentsDocPackage, 'seq')
def readDescFile(self, doProcessing=False): """ Reads the existing package.xml file and stores it in this class for later rewriting. if doProcessing is true, it may massage the file and the directory contents in preparation for building patches. Returns true on success, false on failure. """ self.anyChanges = False packageDescFullpath = Filename(self.patchMaker.installDir, self.packageDesc) self.doc = TiXmlDocument(packageDescFullpath.toOsSpecific()) if not self.doc.LoadFile(): print("Couldn't read %s" % (packageDescFullpath)) return False xpackage = self.doc.FirstChildElement('package') if not xpackage: return False self.packageName = xpackage.Attribute('name') self.platform = xpackage.Attribute('platform') self.version = xpackage.Attribute('version') # All packages we defined in-line are assigned to the # "none" host. TODO: support patching from packages on # other hosts, which means we'll need to fill in a value # here for those hosts. self.hostUrl = None self.currentFile = None self.baseFile = None self.topFile = None self.compressedFilename = None compressedFile = None # Assume there are changes for this version, until we # discover that there aren't. isNewVersion = True # Get the actual current version. xarchive = xpackage.FirstChildElement('uncompressed_archive') if xarchive: self.currentFile = FileSpec() self.currentFile.loadXml(xarchive) # Get the top_version--the top (newest) of the patch # chain. xarchive = xpackage.FirstChildElement('top_version') if xarchive: self.topFile = FileSpec() self.topFile.loadXml(xarchive) if self.topFile.hash == self.currentFile.hash: # No new version this pass. isNewVersion = False else: # There's a new version this pass. Update it. self.anyChanges = True else: # If there isn't a top_version yet, we have to make # one, by duplicating the currentFile. self.topFile = copy.copy(self.currentFile) self.anyChanges = True # Get the current patch version. If we have a # patch_version attribute, it refers to this particular # instance of the file, and that is the current patch # version number. If we only have a last_patch_version # attribute, it means a patch has not yet been built for # this particular instance, and that number is the # previous version's patch version number. patchVersion = xpackage.Attribute('patch_version') if patchVersion: self.patchVersion = int(patchVersion) else: patchVersion = xpackage.Attribute('last_patch_version') if patchVersion: self.patchVersion = int(patchVersion) if isNewVersion: self.patchVersion += 1 self.anyChanges = True # Put the patchVersion in the compressed filename, for # cache-busting. This means when the version changes, its # URL will also change, guaranteeing that users will # download the latest version, and not some stale cache # file. xcompressed = xpackage.FirstChildElement('compressed_archive') if xcompressed: compressedFile = FileSpec() compressedFile.loadXml(xcompressed) oldCompressedFilename = compressedFile.filename self.compressedFilename = oldCompressedFilename if doProcessing: newCompressedFilename = '%s.%s.pz' % ( self.currentFile.filename, self.patchVersion) if newCompressedFilename != oldCompressedFilename: oldCompressedPathname = Filename( self.packageDir, oldCompressedFilename) newCompressedPathname = Filename( self.packageDir, newCompressedFilename) if oldCompressedPathname.renameTo( newCompressedPathname): compressedFile.fromFile(self.packageDir, newCompressedFilename) compressedFile.storeXml(xcompressed) self.compressedFilename = newCompressedFilename self.anyChanges = True # Get the base_version--the bottom (oldest) of the patch # chain. xarchive = xpackage.FirstChildElement('base_version') if xarchive: self.baseFile = FileSpec() self.baseFile.loadXml(xarchive) else: # If there isn't a base_version yet, we have to make # one, by duplicating the currentFile. self.baseFile = copy.copy(self.currentFile) # Note that the we only store the compressed version # of base_filename on disk, but we store the md5 of # the uncompressed version in the xml file. To # emphasize this, we name it without the .pz extension # in the xml file, even though the compressed file on # disk actually has a .pz extension. self.baseFile.filename += '.base' # Also duplicate the (compressed) file itself. if doProcessing and self.compressedFilename: fromPathname = Filename(self.packageDir, self.compressedFilename) toPathname = Filename(self.packageDir, self.baseFile.filename + '.pz') fromPathname.copyTo(toPathname) self.anyChanges = True self.patches = [] xpatch = xpackage.FirstChildElement('patch') while xpatch: patchfile = PatchMaker.Patchfile(self) patchfile.loadXml(xpatch) self.patches.append(patchfile) xpatch = xpatch.NextSiblingElement('patch') return True