mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
813 lines
27 KiB
Python
813 lines
27 KiB
Python
import subprocess
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from devicemanager import DeviceManager, DMError, _pop_last_line
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import re
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import os
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import sys
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import tempfile
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class DeviceManagerADB(DeviceManager):
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def __init__(self, host = None, port = 20701, retrylimit = 5, packageName = None):
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self.host = host
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self.port = port
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self.retrylimit = retrylimit
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self.retries = 0
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self._sock = None
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self.useRunAs = False
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self.haveRoot = False
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self.useDDCopy = False
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self.useZip = False
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self.packageName = None
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self.tempDir = None
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if packageName:
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self.packageName = packageName
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else:
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if os.getenv('USER'):
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self.packageName = 'org.mozilla.fennec_' + os.getenv('USER')
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else:
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self.packageName = 'org.mozilla.fennec_'
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# verify that we can run the adb command. can't continue otherwise
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self.verifyADB()
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# try to connect to the device over tcp/ip if we have a hostname
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if self.host:
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self.connectRemoteADB()
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# verify that we can connect to the device. can't continue
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self.verifyDevice()
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# Can we use run-as? (currently not required)
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try:
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self.verifyRunAs()
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except DMError:
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pass
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# Can we run things as root? (currently not required)
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try:
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self.verifyRoot()
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except DMError, e:
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try:
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self.checkCmd(["root"])
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# The root command does not fail even if ADB cannot get
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# root rights (e.g. due to production builds), so we have
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# to check again ourselves that we have root now.
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self.verifyRoot()
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except DMError:
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if self.useRunAs:
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print "restarting as root failed, but run-as available"
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else:
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print "restarting as root failed"
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# can we use zip to speed up some file operations? (currently not
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# required)
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try:
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self.verifyZip()
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except DMError:
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pass
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def __del__(self):
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if self.host:
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self.disconnectRemoteADB()
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# external function: executes shell command on device
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# returns:
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# success: <return code>
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# failure: None
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def shell(self, cmd, outputfile, env=None, cwd=None):
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# need to quote special characters here
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for (index, arg) in enumerate(cmd):
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if arg.find(" ") or arg.find("(") or arg.find(")") or arg.find("\""):
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cmd[index] = '\'%s\'' % arg
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# This is more complex than you'd think because adb doesn't actually
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# return the return code from a process, so we have to capture the output
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# to get it
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# FIXME: this function buffers all output of the command into memory,
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# always. :(
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cmdline = " ".join(cmd) + "; echo $?"
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# prepend cwd and env to command if necessary
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if cwd:
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cmdline = "cd %s; %s" % (cwd, cmdline)
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if env:
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envstr = '; '.join(map(lambda x: 'export %s=%s' % (x[0], x[1]), env.iteritems()))
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cmdline = envstr + "; " + cmdline
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# all output should be in stdout
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proc = subprocess.Popen(["adb", "shell", cmdline],
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stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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(stdout, stderr) = proc.communicate()
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outputfile.write(stdout.rstrip('\n'))
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lastline = _pop_last_line(outputfile)
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if lastline:
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m = re.search('([0-9]+)', lastline)
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if m:
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return_code = m.group(1)
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outputfile.seek(-2, 2)
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outputfile.truncate() # truncate off the return code
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return return_code
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return None
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def connectRemoteADB(self):
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self.checkCmd(["connect", self.host + ":" + str(self.port)])
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def disconnectRemoteADB(self):
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self.checkCmd(["disconnect", self.host + ":" + str(self.port)])
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# external function
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# returns:
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# success: True
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# failure: False
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def pushFile(self, localname, destname):
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try:
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if (os.name == "nt"):
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destname = destname.replace('\\', '/')
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if (self.useRunAs):
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remoteTmpFile = self.getTempDir() + "/" + os.path.basename(localname)
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self.checkCmd(["push", os.path.realpath(localname), remoteTmpFile])
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if self.useDDCopy:
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self.checkCmdAs(["shell", "dd", "if=" + remoteTmpFile, "of=" + destname])
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else:
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self.checkCmdAs(["shell", "cp", remoteTmpFile, destname])
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self.checkCmd(["shell", "rm", remoteTmpFile])
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else:
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self.checkCmd(["push", os.path.realpath(localname), destname])
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if (self.isDir(destname)):
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destname = destname + "/" + os.path.basename(localname)
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self.chmodDir(destname)
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return True
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except:
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return False
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# external function
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# returns:
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# success: directory name
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# failure: None
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def mkDir(self, name):
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try:
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self.checkCmdAs(["shell", "mkdir", name])
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self.chmodDir(name)
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return name
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except:
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return None
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# make directory structure on the device
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# external function
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# returns:
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# success: directory structure that we created
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# failure: None
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def mkDirs(self, filename):
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parts = filename.split('/')
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name = ""
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for part in parts:
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if (part == parts[-1]): break
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if (part != ""):
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name += '/' + part
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if (not self.dirExists(name)):
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if (self.mkDir(name) == None):
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print "failed making directory: " + str(name)
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return None
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return name
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# push localDir from host to remoteDir on the device
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# external function
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# returns:
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# success: remoteDir
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# failure: None
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def pushDir(self, localDir, remoteDir):
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# adb "push" accepts a directory as an argument, but if the directory
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# contains symbolic links, the links are pushed, rather than the linked
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# files; we either zip/unzip or push file-by-file to get around this
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# limitation
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try:
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if (not self.dirExists(remoteDir)):
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self.mkDirs(remoteDir+"/x")
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if (self.useZip):
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try:
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localZip = tempfile.mktemp()+".zip"
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remoteZip = remoteDir + "/adbdmtmp.zip"
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subprocess.check_output(["zip", "-r", localZip, '.'], cwd=localDir)
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self.pushFile(localZip, remoteZip)
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os.remove(localZip)
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data = self.runCmdAs(["shell", "unzip", "-o", remoteZip, "-d", remoteDir]).stdout.read()
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self.checkCmdAs(["shell", "rm", remoteZip])
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if (re.search("unzip: exiting", data) or re.search("Operation not permitted", data)):
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raise Exception("unzip failed, or permissions error")
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except:
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print "zip/unzip failure: falling back to normal push"
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self.useZip = False
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self.pushDir(localDir, remoteDir)
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else:
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for root, dirs, files in os.walk(localDir, followlinks='true'):
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relRoot = os.path.relpath(root, localDir)
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for file in files:
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localFile = os.path.join(root, file)
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remoteFile = remoteDir + "/"
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if (relRoot!="."):
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remoteFile = remoteFile + relRoot + "/"
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remoteFile = remoteFile + file
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self.pushFile(localFile, remoteFile)
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for dir in dirs:
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targetDir = remoteDir + "/"
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if (relRoot!="."):
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targetDir = targetDir + relRoot + "/"
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targetDir = targetDir + dir
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if (not self.dirExists(targetDir)):
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self.mkDir(targetDir)
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self.checkCmdAs(["shell", "chmod", "777", remoteDir])
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return remoteDir
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except:
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print "pushing " + localDir + " to " + remoteDir + " failed"
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return None
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# external function
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# returns:
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# success: True
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# failure: False
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def dirExists(self, dirname):
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return self.isDir(dirname)
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# Because we always have / style paths we make this a lot easier with some
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# assumptions
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# external function
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# returns:
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# success: True
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# failure: False
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def fileExists(self, filepath):
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p = self.runCmd(["shell", "ls", "-a", filepath])
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data = p.stdout.readlines()
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if (len(data) == 1):
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if (data[0].rstrip() == filepath):
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return True
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return False
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def removeFile(self, filename):
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return self.runCmd(["shell", "rm", filename]).stdout.read()
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# does a recursive delete of directory on the device: rm -Rf remoteDir
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# external function
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# returns:
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# success: output of telnet, i.e. "removing file: /mnt/sdcard/tests/test.txt"
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# failure: None
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def removeSingleDir(self, remoteDir):
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return self.runCmd(["shell", "rmdir", remoteDir]).stdout.read()
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# does a recursive delete of directory on the device: rm -Rf remoteDir
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# external function
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# returns:
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# success: output of telnet, i.e. "removing file: /mnt/sdcard/tests/test.txt"
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# failure: None
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def removeDir(self, remoteDir):
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out = ""
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if (self.isDir(remoteDir)):
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files = self.listFiles(remoteDir.strip())
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for f in files:
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if (self.isDir(remoteDir.strip() + "/" + f.strip())):
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out += self.removeDir(remoteDir.strip() + "/" + f.strip())
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else:
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out += self.removeFile(remoteDir.strip() + "/" + f.strip())
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out += self.removeSingleDir(remoteDir.strip())
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else:
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out += self.removeFile(remoteDir.strip())
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return out
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def isDir(self, remotePath):
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p = self.runCmd(["shell", "ls", "-a", remotePath])
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data = p.stdout.readlines()
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if (len(data) == 0):
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return True
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if (len(data) == 1):
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if (data[0].rstrip() == remotePath):
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return False
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if (data[0].find("No such file or directory") != -1):
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return False
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if (data[0].find("Not a directory") != -1):
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return False
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return True
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def listFiles(self, rootdir):
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p = self.runCmd(["shell", "ls", "-a", rootdir])
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data = p.stdout.readlines()
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data[:] = [item.rstrip('\r\n') for item in data]
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if (len(data) == 1):
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if (data[0] == rootdir):
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return []
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if (data[0].find("No such file or directory") != -1):
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return []
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if (data[0].find("Not a directory") != -1):
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return []
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return data
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# external function
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# returns:
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# success: array of process tuples
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# failure: []
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def getProcessList(self):
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p = self.runCmd(["shell", "ps"])
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# first line is the headers
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p.stdout.readline()
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proc = p.stdout.readline()
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ret = []
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while (proc):
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els = proc.split()
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ret.append(list([els[1], els[len(els) - 1], els[0]]))
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proc = p.stdout.readline()
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return ret
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# external function
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# DEPRECATED: Use shell() or launchApplication() for new code
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# returns:
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# success: pid
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# failure: None
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def fireProcess(self, appname, failIfRunning=False):
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#strip out env vars
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parts = appname.split('"');
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if (len(parts) > 2):
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parts = parts[2:]
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return self.launchProcess(parts, failIfRunning)
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# external function
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# DEPRECATED: Use shell() or launchApplication() for new code
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# returns:
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# success: output filename
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# failure: None
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def launchProcess(self, cmd, outputFile = "process.txt", cwd = '', env = '', failIfRunning=False):
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if cmd[0] == "am":
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self.checkCmd(["shell"] + cmd)
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return outputFile
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acmd = ["shell", "am", "start", "-W"]
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cmd = ' '.join(cmd).strip()
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i = cmd.find(" ")
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# SUT identifies the URL by looking for :\\ -- another strategy to consider
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re_url = re.compile('^[http|file|chrome|about].*')
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last = cmd.rfind(" ")
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uri = ""
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args = ""
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if re_url.match(cmd[last:].strip()):
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args = cmd[i:last].strip()
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uri = cmd[last:].strip()
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else:
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args = cmd[i:].strip()
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acmd.append("-n")
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acmd.append(cmd[0:i] + "/.App")
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if args != "":
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acmd.append("--es")
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acmd.append("args")
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acmd.append(args)
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if env != '' and env != None:
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envCnt = 0
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# env is expected to be a dict of environment variables
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for envkey, envval in env.iteritems():
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acmd.append("--es")
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acmd.append("env" + str(envCnt))
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acmd.append(envkey + "=" + envval);
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envCnt += 1
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if uri != "":
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acmd.append("-d")
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acmd.append(''.join(['\'',uri, '\'']));
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print acmd
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self.checkCmd(acmd)
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return outputFile
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# external function
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# returns:
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# success: True
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# failure: False
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def killProcess(self, appname, forceKill=False):
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procs = self.getProcessList()
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didKillProcess = False
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for (pid, name, user) in procs:
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if name == appname:
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args = ["shell", "kill"]
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if forceKill:
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args.append("-9")
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args.append(pid)
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p = self.runCmdAs(args)
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didKillProcess = True
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return didKillProcess
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# external function
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# returns:
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# success: filecontents
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# failure: None
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def catFile(self, remoteFile):
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#p = self.runCmd(["shell", "cat", remoteFile])
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#return p.stdout.read()
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return self.getFile(remoteFile)
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# external function
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# returns:
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# success: output of pullfile, string
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# failure: None
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def pullFile(self, remoteFile):
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#return self.catFile(remoteFile)
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return self.getFile(remoteFile)
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# copy file from device (remoteFile) to host (localFile)
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# external function
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# returns:
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# success: output of pullfile, string
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# failure: None
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def getFile(self, remoteFile, localFile = 'tmpfile_dm_adb'):
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# TODO: add debug flags and allow for printing stdout
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# self.runCmd(["pull", remoteFile, localFile])
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try:
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# First attempt to pull file regularly
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outerr = self.runCmd(["pull", remoteFile, localFile]).communicate()
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# Now check stderr for errors
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if outerr[1]:
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errl = outerr[1].splitlines()
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if (len(errl) == 1):
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if (((errl[0].find("Permission denied") != -1)
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or (errl[0].find("does not exist") != -1))
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and self.useRunAs):
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# If we lack permissions to read but have run-as, then we should try
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# to copy the file to a world-readable location first before attempting
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# to pull it again.
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remoteTmpFile = self.getTempDir() + "/" + os.path.basename(remoteFile)
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self.checkCmdAs(["shell", "dd", "if=" + remoteFile, "of=" + remoteTmpFile])
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self.checkCmdAs(["shell", "chmod", "777", remoteTmpFile])
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self.runCmd(["pull", remoteTmpFile, localFile]).stdout.read()
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# Clean up temporary file
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self.checkCmdAs(["shell", "rm", remoteTmpFile])
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f = open(localFile)
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ret = f.read()
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f.close()
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return ret
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except:
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return None
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# copy directory structure from device (remoteDir) to host (localDir)
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# external function
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# checkDir exists so that we don't create local directories if the
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# remote directory doesn't exist but also so that we don't call isDir
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# twice when recursing.
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# returns:
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# success: list of files, string
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# failure: None
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def getDirectory(self, remoteDir, localDir, checkDir=True):
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ret = []
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p = self.runCmd(["pull", remoteDir, localDir])
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p.stdout.readline()
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line = p.stdout.readline()
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while (line):
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els = line.split()
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f = els[len(els) - 1]
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i = f.find(localDir)
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if (i != -1):
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if (localDir[len(localDir) - 1] != '/'):
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i = i + 1
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f = f[i + len(localDir):]
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i = f.find("/")
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if (i > 0):
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f = f[0:i]
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ret.append(f)
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line = p.stdout.readline()
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#the last line is a summary
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if (len(ret) > 0):
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ret.pop()
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return ret
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# true/false check if the two files have the same md5 sum
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# external function
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# returns:
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# success: True
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# failure: False
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def validateFile(self, remoteFile, localFile):
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return self.getRemoteHash(remoteFile) == self.getLocalHash(localFile)
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# return the md5 sum of a remote file
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# internal function
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# returns:
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# success: MD5 hash for given filename
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# failure: None
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def getRemoteHash(self, filename):
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data = p = self.runCmd(["shell", "ls", "-l", filename]).stdout.read()
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return data.split()[3]
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def getLocalHash(self, filename):
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data = p = subprocess.Popen(["ls", "-l", filename], stdout=subprocess.PIPE).stdout.read()
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return data.split()[4]
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# Gets the device root for the testing area on the device
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# For all devices we will use / type slashes and depend on the device-agent
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# to sort those out. The agent will return us the device location where we
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# should store things, we will then create our /tests structure relative to
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# that returned path.
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# Structure on the device is as follows:
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# /tests
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# /<fennec>|<firefox> --> approot
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# /profile
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# /xpcshell
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# /reftest
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# /mochitest
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#
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# external function
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# returns:
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# success: path for device root
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# failure: None
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def getDeviceRoot(self):
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# /mnt/sdcard/tests is preferred to /data/local/tests, but this can be
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# over-ridden by creating /data/local/tests
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testRoot = "/data/local/tests"
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if (self.dirExists(testRoot)):
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return testRoot
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root = "/mnt/sdcard"
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if (not self.dirExists(root)):
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root = "/data/local"
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testRoot = root + "/tests"
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if (not self.dirExists(testRoot)):
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self.mkDir(testRoot)
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return testRoot
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# Gets the temporary directory we are using on this device
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# base on our device root, ensuring also that it exists.
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#
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# internal function
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# returns:
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# success: path for temporary directory
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# failure: None
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def getTempDir(self):
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# Cache result to speed up operations depending
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# on the temporary directory.
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if self.tempDir == None:
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self.tempDir = self.getDeviceRoot() + "/tmp"
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if (not self.dirExists(self.tempDir)):
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return self.mkDir(self.tempDir)
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return self.tempDir
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# Either we will have /tests/fennec or /tests/firefox but we will never have
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# both. Return the one that exists
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# TODO: ensure we can support org.mozilla.firefox
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# external function
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# returns:
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# success: path for app root
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# failure: None
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def getAppRoot(self, packageName):
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devroot = self.getDeviceRoot()
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if (devroot == None):
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return None
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if (packageName and self.dirExists('/data/data/' + packageName)):
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self.packageName = packageName
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return '/data/data/' + packageName
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elif (self.packageName and self.dirExists('/data/data/' + self.packageName)):
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return '/data/data/' + self.packageName
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# Failure (either not installed or not a recognized platform)
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print "devicemanagerADB: getAppRoot failed"
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return None
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# Gets the directory location on the device for a specific test type
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# Type is one of: xpcshell|reftest|mochitest
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# external function
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# returns:
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# success: path for test root
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# failure: None
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def getTestRoot(self, type):
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devroot = self.getDeviceRoot()
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if (devroot == None):
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return None
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if (re.search('xpcshell', type, re.I)):
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self.testRoot = devroot + '/xpcshell'
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elif (re.search('?(i)reftest', type)):
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self.testRoot = devroot + '/reftest'
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elif (re.search('?(i)mochitest', type)):
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self.testRoot = devroot + '/mochitest'
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return self.testRoot
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# external function
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# returns:
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# success: status from test agent
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# failure: None
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def reboot(self, wait = False):
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ret = self.runCmd(["reboot"]).stdout.read()
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if (not wait):
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return "Success"
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countdown = 40
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while (countdown > 0):
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countdown
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try:
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self.checkCmd(["wait-for-device", "shell", "ls", "/sbin"])
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return ret
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except:
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try:
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self.checkCmd(["root"])
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except:
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time.sleep(1)
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print "couldn't get root"
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return "Success"
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# external function
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# returns:
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# success: text status from command or callback server
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# failure: None
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def updateApp(self, appBundlePath, processName=None, destPath=None, ipAddr=None, port=30000):
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return self.runCmd(["install", "-r", appBundlePath]).stdout.read()
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# external function
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# returns:
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# success: time in ms
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# failure: None
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def getCurrentTime(self):
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timestr = self.runCmd(["shell", "date", "+%s"]).stdout.read().strip()
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if (not timestr or not timestr.isdigit()):
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return None
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return str(int(timestr)*1000)
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# Returns information about the device:
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# Directive indicates the information you want to get, your choices are:
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# os - name of the os
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# id - unique id of the device
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# uptime - uptime of the device
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# systime - system time of the device
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# screen - screen resolution
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# memory - memory stats
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# process - list of running processes (same as ps)
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# disk - total, free, available bytes on disk
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# power - power status (charge, battery temp)
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# all - all of them - or call it with no parameters to get all the information
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# returns:
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# success: dict of info strings by directive name
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# failure: {}
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def getInfo(self, directive="all"):
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ret = {}
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if (directive == "id" or directive == "all"):
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ret["id"] = self.runCmd(["get-serialno"]).stdout.read()
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if (directive == "os" or directive == "all"):
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ret["os"] = self.runCmd(["shell", "getprop", "ro.build.display.id"]).stdout.read()
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if (directive == "uptime" or directive == "all"):
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utime = self.runCmd(["shell", "uptime"]).stdout.read()
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if (not utime):
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raise DMError("error getting uptime")
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utime = utime[9:]
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hours = utime[0:utime.find(":")]
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utime = utime[utime[1:].find(":") + 2:]
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minutes = utime[0:utime.find(":")]
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utime = utime[utime[1:].find(":") + 2:]
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seconds = utime[0:utime.find(",")]
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ret["uptime"] = ["0 days " + hours + " hours " + minutes + " minutes " + seconds + " seconds"]
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if (directive == "process" or directive == "all"):
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ret["process"] = self.runCmd(["shell", "ps"]).stdout.read()
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if (directive == "systime" or directive == "all"):
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ret["systime"] = self.runCmd(["shell", "date"]).stdout.read()
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print ret
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return ret
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def runCmd(self, args):
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# If we are not root but have run-as, and we're trying to execute
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# a shell command then using run-as is the best we can do
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if (not self.haveRoot and self.useRunAs and args[0] == "shell" and args[1] != "run-as"):
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args.insert(1, "run-as")
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args.insert(2, self.packageName)
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args.insert(0, "adb")
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return subprocess.Popen(args, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
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def runCmdAs(self, args):
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if self.useRunAs:
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args.insert(1, "run-as")
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args.insert(2, self.packageName)
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return self.runCmd(args)
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def checkCmd(self, args):
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# If we are not root but have run-as, and we're trying to execute
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# a shell command then using run-as is the best we can do
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if (not self.haveRoot and self.useRunAs and args[0] == "shell" and args[1] != "run-as"):
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args.insert(1, "run-as")
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args.insert(2, self.packageName)
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args.insert(0, "adb")
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return subprocess.check_call(args)
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def checkCmdAs(self, args):
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if (self.useRunAs):
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args.insert(1, "run-as")
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args.insert(2, self.packageName)
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return self.checkCmd(args)
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def chmodDir(self, remoteDir):
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if (self.isDir(remoteDir)):
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files = self.listFiles(remoteDir.strip())
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for f in files:
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if (self.isDir(remoteDir.strip() + "/" + f.strip())):
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self.chmodDir(remoteDir.strip() + "/" + f.strip())
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else:
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self.checkCmdAs(["shell", "chmod", "777", remoteDir.strip()])
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print "chmod " + remoteDir.strip()
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self.checkCmdAs(["shell", "chmod", "777", remoteDir])
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print "chmod " + remoteDir
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else:
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self.checkCmdAs(["shell", "chmod", "777", remoteDir.strip()])
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print "chmod " + remoteDir.strip()
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def verifyADB(self):
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# Check to see if adb itself can be executed.
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try:
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self.checkCmd(["version"])
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except os.error, err:
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raise DMError("unable to execute ADB (%s): ensure Android SDK is installed and adb is in your $PATH" % err)
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except subprocess.CalledProcessError:
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raise DMError("unable to execute ADB: ensure Android SDK is installed and adb is in your $PATH")
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def verifyDevice(self):
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# Check to see if we can connect to device and run a simple command
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try:
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self.checkCmd(["shell", "echo"])
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except subprocess.CalledProcessError:
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raise DMError("unable to connect to device: is it plugged in?")
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def verifyRoot(self):
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# a test to see if we have root privs
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files = self.listFiles("/data/data")
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if (len(files) == 1):
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if (files[0].find("Permission denied") != -1):
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print "NOT running as root"
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raise DMError("not running as root")
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self.haveRoot = True
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def isCpAvailable(self):
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# Some Android systems may not have a cp command installed,
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# or it may not be executable by the user.
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data = self.runCmd(["shell", "cp"]).stdout.read()
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if (re.search('Usage', data)):
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return True
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else:
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data = self.runCmd(["shell", "dd", "-"]).stdout.read()
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if (re.search('unknown operand', data)):
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print "'cp' not found, but 'dd' was found as a replacement"
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self.useDDCopy = True
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return True
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print "unable to execute 'cp' on device; consider installing busybox from Android Market"
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return False
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def verifyRunAs(self):
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# If a valid package name is available, and certain other
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# conditions are met, devicemanagerADB can execute file operations
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# via the "run-as" command, so that pushed files and directories
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# are created by the uid associated with the package, more closely
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# echoing conditions encountered by Fennec at run time.
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# Check to see if run-as can be used here, by verifying a
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# file copy via run-as.
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self.useRunAs = False
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devroot = self.getDeviceRoot()
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if (self.packageName and self.isCpAvailable() and devroot):
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tmpDir = self.getTempDir()
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# The problem here is that run-as doesn't cause a non-zero exit code
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# when failing because of a non-existent or non-debuggable package :(
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runAsOut = self.runCmd(["shell", "run-as", self.packageName, "mkdir", devroot + "/sanity"]).communicate()[0]
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if runAsOut.startswith("run-as:") and ("not debuggable" in runAsOut or
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"is unknown" in runAsOut):
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raise DMError("run-as failed sanity check")
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tmpfile = tempfile.NamedTemporaryFile()
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self.checkCmd(["push", tmpfile.name, tmpDir + "/tmpfile"])
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if self.useDDCopy:
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self.checkCmd(["shell", "run-as", self.packageName, "dd", "if=" + tmpDir + "/tmpfile", "of=" + devroot + "/sanity/tmpfile"])
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else:
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self.checkCmd(["shell", "run-as", self.packageName, "cp", tmpDir + "/tmpfile", devroot + "/sanity"])
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if (self.fileExists(devroot + "/sanity/tmpfile")):
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print "will execute commands via run-as " + self.packageName
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self.useRunAs = True
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self.checkCmd(["shell", "rm", devroot + "/tmp/tmpfile"])
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self.checkCmd(["shell", "run-as", self.packageName, "rm", "-r", devroot + "/sanity"])
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def isUnzipAvailable(self):
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data = self.runCmdAs(["shell", "unzip"]).stdout.read()
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if (re.search('Usage', data)):
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return True
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else:
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return False
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def isLocalZipAvailable(self):
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try:
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subprocess.check_call(["zip", "-?"], stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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except:
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return False
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return True
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def verifyZip(self):
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# If "zip" can be run locally, and "unzip" can be run remotely, then pushDir
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# can use these to push just one file per directory -- a significant
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# optimization for large directories.
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self.useZip = False
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if (self.isUnzipAvailable() and self.isLocalZipAvailable()):
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print "will use zip to push directories"
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self.useZip = True
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else:
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raise DMError("zip not available")
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