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def __del__ ( self ) :
try :
if self . cb :
libvirtmod . virStreamEventRemoveCallback ( self . _o )
except AttributeError :
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pass
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if self . _o is not None :
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libvirtmod . virStreamFree ( self . _o )
self . _o = None
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def _dispatchStreamEventCallback ( self , events , cbData ) :
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"""
Dispatches events to python user ' s stream event callbacks
"""
cb = cbData [ " cb " ]
opaque = cbData [ " opaque " ]
cb ( self , events , opaque )
return 0
def eventAddCallback ( self , events , cb , opaque ) :
self . cb = cb
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cbData = { " stream " : self , " cb " : cb , " opaque " : opaque }
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ret = libvirtmod . virStreamEventAddCallback ( self . _o , events , cbData )
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if ret == - 1 :
raise libvirtError ( ' virStreamEventAddCallback() failed ' )
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def recvAll ( self , handler , opaque ) :
""" Receive the entire data stream, sending the data to the
requested data sink . This is simply a convenient alternative
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to virStreamRecv , for apps that do blocking - I / O .
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A hypothetical handler function looks like :
def handler ( stream , # virStream instance
buf , # string containing received data
opaque ) : # extra data passed to recvAll as opaque
fd = opaque
return os . write ( fd , buf )
"""
while True :
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got = self . recv ( virStorageVol . streamBufSize )
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if got == - 2 :
raise libvirtError ( " cannot use recvAll with "
" nonblocking stream " )
if len ( got ) == 0 :
break
try :
ret = handler ( self , got , opaque )
if type ( ret ) is int and ret < 0 :
raise RuntimeError ( " recvAll handler returned %d " % ret )
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except Exception :
e = sys . exc_info ( ) [ 1 ]
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try :
self . abort ( )
except :
pass
raise e
def sendAll ( self , handler , opaque ) :
"""
Send the entire data stream , reading the data from the
requested data source . This is simply a convenient alternative
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to virStreamSend , for apps that do blocking - I / O .
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A hypothetical handler function looks like :
def handler ( stream , # virStream instance
nbytes , # int amt of data to read
opaque ) : # extra data passed to recvAll as opaque
fd = opaque
return os . read ( fd , nbytes )
"""
while True :
try :
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got = handler ( self , virStorageVol . streamBufSize , opaque )
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except :
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e = sys . exc_info ( ) [ 1 ]
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try :
self . abort ( )
except :
pass
raise e
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if not got :
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break
ret = self . send ( got )
if ret == - 2 :
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raise libvirtError ( " cannot use sendAll with "
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" nonblocking stream " )
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def recv ( self , nbytes ) :
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""" Reads a series of bytes from the stream. This method may
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block the calling application for an arbitrary amount
of time .
Errors are not guaranteed to be reported synchronously
with the call , but may instead be delayed until a
subsequent call .
On success , the received data is returned . On failure , an
exception is raised . If the stream is a NONBLOCK stream and
the request would block , integer - 2 is returned .
"""
ret = libvirtmod . virStreamRecv ( self . _o , nbytes )
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if ret is None :
raise libvirtError ( ' virStreamRecv() failed ' )
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return ret
def send ( self , data ) :
""" Write a series of bytes to the stream. This method may
block the calling application for an arbitrary amount
of time . Once an application has finished sending data
it should call virStreamFinish to wait for successful
confirmation from the driver , or detect any error
This method may not be used if a stream source has been
registered
Errors are not guaranteed to be reported synchronously
with the call , but may instead be delayed until a
subsequent call .
"""
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ret = libvirtmod . virStreamSend ( self . _o , data )
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if ret == - 1 :
raise libvirtError ( ' virStreamSend() failed ' )
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return ret
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def recvHole ( self , flags = 0 ) :
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""" This method is used to determine the length in bytes
of the empty space to be created in a stream ' s target
file when uploading or downloading sparsely populated
files . This is the counterpart to sendHole .
"""
ret = libvirtmod . virStreamRecvHole ( self . _o , flags )
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if ret is None :
raise libvirtError ( ' virStreamRecvHole() failed ' )
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return ret
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def sendHole ( self , length , flags = 0 ) :
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""" Rather than transmitting empty file space, this method
directs the stream target to create length bytes of empty
space . This method would be used when uploading or
downloading sparsely populated files to avoid the
needless copy of empty file space .
"""
ret = libvirtmod . virStreamSendHole ( self . _o , length , flags )
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if ret == - 1 :
raise libvirtError ( ' virStreamSendHole() failed ' )
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return ret
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def recvFlags ( self , nbytes , flags = 0 ) :
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""" Reads a series of bytes from the stream. This method may
block the calling application for an arbitrary amount
of time . This is just like recv except it has flags
argument .
Errors are not guaranteed to be reported synchronously
with the call , but may instead be delayed until a
subsequent call .
On success , the received data is returned . On failure , an
exception is raised . If the stream is a NONBLOCK stream and
the request would block , integer - 2 is returned .
"""
ret = libvirtmod . virStreamRecvFlags ( self . _o , nbytes , flags )
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if ret is None :
raise libvirtError ( ' virStreamRecvFlags() failed ' )
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return ret
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def sparseRecvAll ( self , handler , holeHandler , opaque ) :
""" Receive the entire data stream, sending the data to
the requested data sink handler and calling the skip
holeHandler to generate holes for sparse stream targets .
This is simply a convenient alternative to recvFlags , for
apps that do blocking - I / O and want to preserve sparseness .
Hypothetical callbacks can look like this :
def handler ( stream , # virStream instance
buf , # string containing received data
opaque ) : # extra data passed to sparseRecvAll as opaque
fd = opaque
return os . write ( fd , buf )
def holeHandler ( stream , # virStream instance
length , # number of bytes to skip
opaque ) : # extra data passed to sparseRecvAll as opaque
fd = opaque
cur = os . lseek ( fd , length , os . SEEK_CUR )
return os . ftruncate ( fd , cur ) # take this extra step to
# actually allocate the hole
"""
while True :
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want = virStorageVol . streamBufSize
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got = self . recvFlags ( want , VIR_STREAM_RECV_STOP_AT_HOLE )
if got == - 2 :
raise libvirtError ( " cannot use sparseRecvAll with "
" nonblocking stream " )
if got == - 3 :
length = self . recvHole ( )
if length is None :
self . abort ( )
raise RuntimeError ( " recvHole handler failed " )
ret = holeHandler ( self , length , opaque )
if type ( ret ) is int and ret < 0 :
self . abort ( )
raise RuntimeError ( " holeHandler handler returned %d " % ret )
continue
if len ( got ) == 0 :
break
ret = handler ( self , got , opaque )
if type ( ret ) is int and ret < 0 :
self . abort ( )
raise RuntimeError ( " sparseRecvAll handler returned %d " % ret )
def sparseSendAll ( self , handler , holeHandler , skipHandler , opaque ) :
""" Send the entire data stream, reading the data from the
requested data source . This is simply a convenient
alternative to virStreamSend , for apps that do
blocking - I / O and want to preserve sparseness .
Hypothetical callbacks can look like this :
def handler ( stream , # virStream instance
nbytes , # int amt of data to read
opaque ) : # extra data passed to sparseSendAll as opaque
fd = opaque
return os . read ( fd , nbytes )
def holeHandler ( stream , # virStream instance
opaque ) : # extra data passed to sparseSendAll as opaque
fd = opaque
cur = os . lseek ( fd , 0 , os . SEEK_CUR )
# ... find out current section and its boundaries
# and set inData = True/False and sectionLen correspondingly
os . lseek ( fd , cur , os . SEEK_SET )
return [ inData , sectionLen ]
def skipHandler ( stream , # virStream instance
length , # number of bytes to skip
opaque ) : # extra data passed to sparseSendAll as opaque
fd = opaque
return os . lseek ( fd , length , os . SEEK_CUR )
"""
while True :
[ inData , sectionLen ] = holeHandler ( self , opaque )
if ( inData == False and sectionLen > 0 ) :
if ( self . sendHole ( sectionLen ) < 0 or
skipHandler ( self , sectionLen , opaque ) < 0 ) :
self . abort ( )
continue
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want = virStorageVol . streamBufSize
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if ( want > sectionLen ) :
want = sectionLen
got = handler ( self , want , opaque )
if type ( got ) is int and got < 0 :
self . abort ( )
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raise RuntimeError ( " sparseSendAll handler returned %d " % got )
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if not got :
break
ret = self . send ( got )
if ret == - 2 :
raise libvirtError ( " cannot use sparseSendAll with "
" nonblocking stream " )
