mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-25 04:32:33 -06:00
1235 lines
48 KiB
Python
1235 lines
48 KiB
Python
from pandac.PandaModules import Filename, URLSpec, DocumentSpec, Ramfile, Multifile, Decompressor, EUOk, EUSuccess, VirtualFileSystem, Thread, getModelPath, ExecutionEnvironment, PStatCollector, TiXmlDocument, TiXmlDeclaration, TiXmlElement
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from pandac import PandaModules
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from libpandaexpress import ConfigVariableInt
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from direct.p3d.FileSpec import FileSpec
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from direct.p3d.ScanDirectoryNode import ScanDirectoryNode
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from direct.showbase import VFSImporter
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from direct.directnotify.DirectNotifyGlobal import directNotify
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from direct.task.TaskManagerGlobal import taskMgr
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import os
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import sys
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import random
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import time
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import copy
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class PackageInfo:
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""" This class represents a downloadable Panda3D package file that
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can be (or has been) installed into the current runtime. It is
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the Python equivalent of the P3DPackage class in the core API. """
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notify = directNotify.newCategory("PackageInfo")
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# Weight factors for computing download progress. This
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# attempts to reflect the relative time-per-byte of each of
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# these operations.
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downloadFactor = 1
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uncompressFactor = 0.01
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unpackFactor = 0.01
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patchFactor = 0.01
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# These tokens are yielded (not returned) by __downloadFile() and
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# other InstallStep functions.
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stepComplete = 1
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stepFailed = 2
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restartDownload = 3
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stepContinue = 4
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UsageBasename = 'usage.xml'
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class InstallStep:
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""" This class is one step of the installPlan list; it
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represents a single atomic piece of the installation step, and
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the relative effort of that piece. When the plan is executed,
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it will call the saved function pointer here. """
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def __init__(self, func, bytes, factor, stepType):
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self.__funcPtr = func
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self.bytesNeeded = bytes
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self.bytesDone = 0
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self.bytesFactor = factor
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self.stepType = stepType
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self.pStatCol = PStatCollector(':App:PackageInstaller:%s' % (stepType))
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def func(self):
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""" self.__funcPtr(self) will return a generator of
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tokens. This function defines a new generator that yields
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each of those tokens, but wraps each call into the nested
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generator within a pair of start/stop collector calls. """
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self.pStatCol.start()
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for token in self.__funcPtr(self):
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self.pStatCol.stop()
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yield token
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self.pStatCol.start()
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# Shouldn't ever get here.
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self.pStatCol.stop()
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raise StopIteration
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def getEffort(self):
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""" Returns the relative amount of effort of this step. """
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return self.bytesNeeded * self.bytesFactor
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def getProgress(self):
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""" Returns the progress of this step, in the range
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0..1. """
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if self.bytesNeeded == 0:
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return 1
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return min(float(self.bytesDone) / float(self.bytesNeeded), 1)
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def __init__(self, host, packageName, packageVersion, platform = None,
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solo = False, asMirror = False, perPlatform = False):
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self.host = host
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self.packageName = packageName
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self.packageVersion = packageVersion
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self.platform = platform
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self.solo = solo
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self.asMirror = asMirror
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self.perPlatform = perPlatform
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# This will be active while we are in the middle of a download
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# cycle.
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self.http = None
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# This will be filled in when the host's contents.xml file is
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# read.
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self.packageDir = None
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# These will be filled in by HostInfo when the package is read
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# from contents.xml.
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self.descFile = None
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self.importDescFile = None
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# These are filled in when the desc file is successfully read.
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self.hasDescFile = False
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self.patchVersion = None
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self.displayName = None
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self.guiApp = False
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self.uncompressedArchive = None
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self.compressedArchive = None
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self.extracts = []
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self.requires = []
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self.installPlans = None
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# This is updated during downloadPackage(). It is in the
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# range 0..1.
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self.downloadProgress = 0
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# This is set true when the package file has been fully
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# downloaded and unpacked.
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self.hasPackage = False
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# This is set true when the package has been "installed",
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# meaning it's been added to the paths and all.
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self.installed = False
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# This is set true when the package has been updated in this
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# session, but not yet written to usage.xml.
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self.updated = False
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self.diskSpace = None
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def getPackageDir(self):
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""" Returns the directory in which this package is installed.
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This may not be known until the host's contents.xml file has
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been downloaded, which informs us of the host's own install
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directory. """
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if not self.packageDir:
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if not self.host.hasContentsFile:
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if not self.host.readContentsFile():
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self.host.downloadContentsFile(self.http)
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# Derive the packageDir from the hostDir.
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self.packageDir = Filename(self.host.hostDir, self.packageName)
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if self.packageVersion:
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self.packageDir = Filename(self.packageDir, self.packageVersion)
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if self.host.perPlatform:
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# If we're running on a special host that wants us to
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# include the platform, we include it.
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includePlatform = True
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elif self.perPlatform and self.host.appRunner.respectPerPlatform:
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# Otherwise, if our package spec wants us to include
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# the platform (and our plugin knows about this), then
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# we also include it.
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includePlatform = True
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else:
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# Otherwise, we must be running legacy code
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# somewhere--either an old package or an old
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# plugin--and we therefore shouldn't include the
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# platform in the directory hierarchy.
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includePlatform = False
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if includePlatform and self.platform:
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self.packageDir = Filename(self.packageDir, self.platform)
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return self.packageDir
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def getDownloadEffort(self):
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""" Returns the relative amount of effort it will take to
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download this package. The units are meaningless, except
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relative to other packges."""
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if not self.installPlans:
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return 0
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# Return the size of plan A, assuming it will work.
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plan = self.installPlans[0]
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size = sum([step.getEffort() for step in plan])
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return size
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def getPrevDownloadedEffort(self):
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""" Returns a rough estimate of this package's total download
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effort, even if it is already downloaded. """
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effort = 0
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if self.compressedArchive:
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effort += self.compressedArchive.size * self.downloadFactor
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if self.uncompressedArchive:
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effort += self.uncompressedArchive.size * self.uncompressFactor
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# Don't bother counting unpacking.
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return effort
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def getFormattedName(self):
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""" Returns the name of this package, for output to the user.
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This will be the "public" name of the package, as formatted
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for user consumption; it will include capital letters and
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spaces where appropriate. """
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if self.displayName:
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name = self.displayName
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else:
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name = self.packageName
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if self.packageVersion:
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name += ' %s' % (self.packageVersion)
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if self.patchVersion:
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name += ' rev %s' % (self.patchVersion)
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return name
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def setupFilenames(self):
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""" This is called by the HostInfo when the package is read
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from contents.xml, to set up the internal filenames and such
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that rely on some of the information from contents.xml. """
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dirname, basename = self.descFile.filename.rsplit('/', 1)
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self.descFileDirname = dirname
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self.descFileBasename = basename
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def checkStatus(self):
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""" Checks the current status of the desc file and the package
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contents on disk. """
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if self.hasPackage:
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return True
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if not self.hasDescFile:
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filename = Filename(self.getPackageDir(), self.descFileBasename)
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if self.descFile.quickVerify(self.getPackageDir(), pathname = filename, notify = self.notify):
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if self.__readDescFile():
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# Successfully read. We don't need to call
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# checkArchiveStatus again, since readDescFile()
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# has just done it.
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return self.hasPackage
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if self.hasDescFile:
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if self.__checkArchiveStatus():
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# It's all good.
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self.hasPackage = True
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return self.hasPackage
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def hasCurrentDescFile(self):
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""" Returns true if a desc file file has been successfully
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read for this package and is still current, false
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otherwise. """
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if not self.host.hasCurrentContentsFile():
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return False
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return self.hasDescFile
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def downloadDescFile(self, http):
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""" Downloads the desc file for this particular package,
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synchronously, and then reads it. Returns true on success,
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false on failure. """
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for token in self.downloadDescFileGenerator(http):
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if token != self.stepContinue:
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break
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Thread.considerYield()
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return (token == self.stepComplete)
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def downloadDescFileGenerator(self, http):
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""" A generator function that implements downloadDescFile()
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one piece at a time. It yields one of stepComplete,
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stepFailed, or stepContinue. """
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assert self.descFile
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if self.hasDescFile:
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# We've already got one.
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yield self.stepComplete; return
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if self.host.appRunner and self.host.appRunner.verifyContents != self.host.appRunner.P3DVCNever:
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# We're allowed to download it.
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self.http = http
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func = lambda step, self = self: self.__downloadFile(
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None, self.descFile,
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urlbase = self.descFile.filename,
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filename = self.descFileBasename)
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step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc')
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for token in step.func():
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if token == self.stepContinue:
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yield token
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else:
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break
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while token == self.restartDownload:
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# Try again.
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func = lambda step, self = self: self.__downloadFile(
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None, self.descFile,
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urlbase = self.descFile.filename,
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filename = self.descFileBasename)
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step = self.InstallStep(func, self.descFile.size, self.downloadFactor, 'downloadDesc')
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for token in step.func():
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if token == self.stepContinue:
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yield token
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else:
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break
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if token == self.stepFailed:
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# Couldn't download the desc file.
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yield self.stepFailed; return
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assert token == self.stepComplete
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filename = Filename(self.getPackageDir(), self.descFileBasename)
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# Now that we've written the desc file, make it read-only.
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os.chmod(filename.toOsSpecific(), 0o444)
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if not self.__readDescFile():
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# Weird, it passed the hash check, but we still can't read
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# it.
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filename = Filename(self.getPackageDir(), self.descFileBasename)
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self.notify.warning("Failure reading %s" % (filename))
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yield self.stepFailed; return
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yield self.stepComplete; return
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def __readDescFile(self):
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""" Reads the desc xml file for this particular package,
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assuming it's been already downloaded and verified. Returns
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true on success, false on failure. """
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if self.hasDescFile:
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# No need to read it again.
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return True
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if self.solo:
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# If this is a "solo" package, we don't actually "read"
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# the desc file; that's the entire contents of the
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# package.
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self.hasDescFile = True
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self.hasPackage = True
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return True
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filename = Filename(self.getPackageDir(), self.descFileBasename)
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if not hasattr(PandaModules, 'TiXmlDocument'):
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return False
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doc = PandaModules.TiXmlDocument(filename.toOsSpecific())
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if not doc.LoadFile():
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return False
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xpackage = doc.FirstChildElement('package')
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if not xpackage:
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return False
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try:
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self.patchVersion = int(xpackage.Attribute('patch_version') or '')
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except ValueError:
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self.patchVersion = None
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try:
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perPlatform = int(xpackage.Attribute('per_platform') or '')
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except ValueError:
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perPlatform = False
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if perPlatform != self.perPlatform:
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self.notify.warning("per_platform disagreement on package %s" % (self.packageName))
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self.displayName = None
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xconfig = xpackage.FirstChildElement('config')
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if xconfig:
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# The name for display to an English-speaking user.
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self.displayName = xconfig.Attribute('display_name')
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# True if any apps that use this package must be GUI apps.
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guiApp = xconfig.Attribute('gui_app')
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if guiApp:
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self.guiApp = int(guiApp)
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# The uncompressed archive, which will be mounted directly,
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# and also used for patching.
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xuncompressedArchive = xpackage.FirstChildElement('uncompressed_archive')
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if xuncompressedArchive:
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self.uncompressedArchive = FileSpec()
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self.uncompressedArchive.loadXml(xuncompressedArchive)
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# The compressed archive, which is what is downloaded.
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xcompressedArchive = xpackage.FirstChildElement('compressed_archive')
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if xcompressedArchive:
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self.compressedArchive = FileSpec()
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self.compressedArchive.loadXml(xcompressedArchive)
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# The list of files that should be extracted to disk.
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self.extracts = []
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xextract = xpackage.FirstChildElement('extract')
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while xextract:
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file = FileSpec()
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file.loadXml(xextract)
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self.extracts.append(file)
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xextract = xextract.NextSiblingElement('extract')
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# The list of additional packages that must be installed for
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# this package to function properly.
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self.requires = []
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xrequires = xpackage.FirstChildElement('requires')
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while xrequires:
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packageName = xrequires.Attribute('name')
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version = xrequires.Attribute('version')
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hostUrl = xrequires.Attribute('host')
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if packageName and hostUrl:
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host = self.host.appRunner.getHostWithAlt(hostUrl)
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self.requires.append((packageName, version, host))
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xrequires = xrequires.NextSiblingElement('requires')
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self.hasDescFile = True
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# Now that we've read the desc file, go ahead and use it to
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# verify the download status.
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if self.__checkArchiveStatus():
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# It's all fully downloaded, unpacked, and ready.
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self.hasPackage = True
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return True
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# Still have to download it.
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self.__buildInstallPlans()
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return True
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def __buildInstallPlans(self):
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""" Sets up self.installPlans, a list of one or more "plans"
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to download and install the package. """
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pc = PStatCollector(':App:PackageInstaller:buildInstallPlans')
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pc.start()
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self.hasPackage = False
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if self.host.appRunner and self.host.appRunner.verifyContents == self.host.appRunner.P3DVCNever:
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# We're not allowed to download anything.
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self.installPlans = []
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pc.stop()
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return
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if self.asMirror:
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# If we're just downloading a mirror archive, we only need
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# to get the compressed archive file.
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# Build a one-item install plan to download the compressed
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# archive.
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downloadSize = self.compressedArchive.size
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func = lambda step, fileSpec = self.compressedArchive: self.__downloadFile(step, fileSpec, allowPartial = True)
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step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download')
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installPlan = [step]
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self.installPlans = [installPlan]
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pc.stop()
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return
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# The normal download process. Determine what we will need to
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# download, and build a plan (or two) to download it all.
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self.installPlans = None
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# We know we will at least need to unpack the archive contents
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# at the end.
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unpackSize = 0
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for file in self.extracts:
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unpackSize += file.size
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step = self.InstallStep(self.__unpackArchive, unpackSize, self.unpackFactor, 'unpack')
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planA = [step]
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# If the uncompressed archive file is good, that's all we'll
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# need to do.
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self.uncompressedArchive.actualFile = None
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if self.uncompressedArchive.quickVerify(self.getPackageDir(), notify = self.notify):
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self.installPlans = [planA]
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pc.stop()
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return
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# Maybe the compressed archive file is good.
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if self.compressedArchive.quickVerify(self.getPackageDir(), notify = self.notify):
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uncompressSize = self.uncompressedArchive.size
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step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress')
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planA = [step] + planA
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self.installPlans = [planA]
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pc.stop()
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return
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# Maybe we can download one or more patches. We'll come back
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# to that in a minute as plan A. For now, construct plan B,
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# which will be to download the whole archive.
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planB = planA[:]
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uncompressSize = self.uncompressedArchive.size
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step = self.InstallStep(self.__uncompressArchive, uncompressSize, self.uncompressFactor, 'uncompress')
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planB = [step] + planB
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downloadSize = self.compressedArchive.size
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func = lambda step, fileSpec = self.compressedArchive: self.__downloadFile(step, fileSpec, allowPartial = True)
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step = self.InstallStep(func, downloadSize, self.downloadFactor, 'download')
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planB = [step] + planB
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# Now look for patches. Start with the md5 hash from the
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# uncompressedArchive file we have on disk, and see if we can
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# find a patch chain from this file to our target.
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pathname = Filename(self.getPackageDir(), self.uncompressedArchive.filename)
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fileSpec = self.uncompressedArchive.actualFile
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if fileSpec is None and pathname.exists():
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fileSpec = FileSpec()
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fileSpec.fromFile(self.getPackageDir(), self.uncompressedArchive.filename)
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plan = None
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if fileSpec:
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plan = self.__findPatchChain(fileSpec)
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if plan:
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# We can download patches. Great! That means this is
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# plan A, and the full download is plan B (in case
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# something goes wrong with the patching).
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planA = plan + planA
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self.installPlans = [planA, planB]
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else:
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# There are no patches to download, oh well. Stick with
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# plan B as the only plan.
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self.installPlans = [planB]
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# In case of unexpected failures on the internet, we will retry
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# the full download instead of just giving up.
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for retry in range(ConfigVariableInt('package-full-dl-retries', 1)):
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self.installPlans.append(planB[:])
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pc.stop()
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|
|
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([step.getEffort() for step in 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(), 0o644)
|
|
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(), 0o444)
|
|
|
|
# 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(), 0o555)
|
|
|
|
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)
|
|
|