Poodletooth-iLand/dependencies/panda/direct/p3d/PackageInfo.py

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Python
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2015-03-03 16:10:12 -06:00
from pandac.PandaModules import Filename, URLSpec, DocumentSpec, Ramfile, Multifile, Decompressor, EUOk, EUSuccess, VirtualFileSystem, Thread, getModelPath, ExecutionEnvironment, PStatCollector, TiXmlDocument, TiXmlDeclaration, TiXmlElement
from pandac import PandaModules
from libpandaexpress import ConfigVariableInt
from direct.p3d.FileSpec import FileSpec
from direct.p3d.ScanDirectoryNode import ScanDirectoryNode
from direct.showbase import VFSImporter
from direct.directnotify.DirectNotifyGlobal import directNotify
from direct.task.TaskManagerGlobal import taskMgr
import os
import sys
import random
import time
import copy
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, perPlatform = False):
self.host = host
self.packageName = packageName
self.packageVersion = packageVersion
self.platform = platform
self.solo = solo
self.asMirror = asMirror
self.perPlatform = perPlatform
# 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:
# If we're running on a special host that wants us to
# include the platform, we include it.
includePlatform = True
elif self.perPlatform and self.host.appRunner.respectPerPlatform:
# Otherwise, if our package spec wants us to include
# the platform (and our plugin knows about this), then
# we also include it.
includePlatform = True
else:
# Otherwise, we must be running legacy code
# somewhere--either an old package or an old
# plugin--and we therefore shouldn't include the
# platform in the directory hierarchy.
includePlatform = False
if includePlatform and 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([step.getEffort() for step in 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(), 0o444)
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
try:
perPlatform = int(xpackage.Attribute('per_platform') or '')
except ValueError:
perPlatform = False
if perPlatform != self.perPlatform:
self.notify.warning("per_platform disagreement on package %s" % (self.packageName))
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([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)