import os
import zlib
import bz2
-from .ranges import *
+from ._ranges import locators_and_ranges, replace_range, Range
from arvados.retry import retry_method
import config
import hashlib
-import hashlib
import threading
import Queue
+import copy
+import errno
+from .errors import KeepWriteError, AssertionError
+from .keep import KeepLocator
+from _normalize_stream import normalize_stream
def split(path):
"""split(path) -> streamname, filename
- Separate the stream name and file name in a /-separated stream path.
- If no stream name is available, assume '.'.
+ Separate the stream name and file name in a /-separated stream path and
+ return a tuple (stream_name, file_name). If no stream name is available,
+ assume '.'.
+
"""
try:
stream_name, file_name = path.rsplit('/', 1)
stream_name, file_name = '.', path
return stream_name, file_name
-class ArvadosFileBase(object):
+class _FileLikeObjectBase(object):
def __init__(self, name, mode):
self.name = name
self.mode = mode
@staticmethod
def _before_close(orig_func):
@functools.wraps(orig_func)
- def wrapper(self, *args, **kwargs):
+ def before_close_wrapper(self, *args, **kwargs):
if self.closed:
raise ValueError("I/O operation on closed stream file")
return orig_func(self, *args, **kwargs)
- return wrapper
+ return before_close_wrapper
def __enter__(self):
return self
self.closed = True
-class ArvadosFileReaderBase(ArvadosFileBase):
- class _NameAttribute(str):
- # The Python file API provides a plain .name attribute.
- # Older SDK provided a name() method.
- # This class provides both, for maximum compatibility.
- def __call__(self):
- return self
-
+class ArvadosFileReaderBase(_FileLikeObjectBase):
def __init__(self, name, mode, num_retries=None):
- super(ArvadosFileReaderBase, self).__init__(self._NameAttribute(name), mode)
+ super(ArvadosFileReaderBase, self).__init__(name, mode)
self._filepos = 0L
self.num_retries = num_retries
self._readline_cache = (None, None)
def decompressed_name(self):
return re.sub('\.(bz2|gz)$', '', self.name)
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
def seek(self, pos, whence=os.SEEK_CUR):
if whence == os.SEEK_CUR:
pos += self._filepos
def tell(self):
return self._filepos
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readall(self, size=2**20, num_retries=None):
while True:
break
yield data
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readline(self, size=float('inf'), num_retries=None):
cache_pos, cache_data = self._readline_cache
self._readline_cache = (self.tell(), data[nextline_index:])
return data[:nextline_index]
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def decompress(self, decompress, size, num_retries=None):
for segment in self.readall(size, num_retries):
if data:
yield data
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readall_decompressed(self, size=2**20, num_retries=None):
self.seek(0)
else:
return self.readall(size, num_retries=num_retries)
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readlines(self, sizehint=float('inf'), num_retries=None):
data = []
break
return ''.join(data).splitlines(True)
+ def size(self):
+ raise NotImplementedError()
+
+ def read(self, size, num_retries=None):
+ raise NotImplementedError()
+
+ def readfrom(self, start, size, num_retries=None):
+ raise NotImplementedError()
+
class StreamFileReader(ArvadosFileReaderBase):
+ class _NameAttribute(str):
+ # The Python file API provides a plain .name attribute.
+ # Older SDK provided a name() method.
+ # This class provides both, for maximum compatibility.
+ def __call__(self):
+ return self
+
def __init__(self, stream, segments, name):
- super(StreamFileReader, self).__init__(name, 'rb', num_retries=stream.num_retries)
+ super(StreamFileReader, self).__init__(self._NameAttribute(name), 'rb', num_retries=stream.num_retries)
self._stream = stream
self.segments = segments
n = self.segments[-1]
return n.range_start + n.range_size
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def read(self, size, num_retries=None):
"""Read up to 'size' bytes from the stream, starting at the current file position"""
available_chunks = locators_and_ranges(self.segments, self._filepos, size)
if available_chunks:
lr = available_chunks[0]
- data = self._stream._readfrom(lr.locator+lr.segment_offset,
+ data = self._stream.readfrom(lr.locator+lr.segment_offset,
lr.segment_size,
num_retries=num_retries)
self._filepos += len(data)
return data
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readfrom(self, start, size, num_retries=None):
"""Read up to 'size' bytes from the stream, starting at 'start'"""
data = []
for lr in locators_and_ranges(self.segments, start, size):
- data.append(self._stream._readfrom(lr.locator+lr.segment_offset, lr.segment_size,
+ data.append(self._stream.readfrom(lr.locator+lr.segment_offset, lr.segment_size,
num_retries=num_retries))
return ''.join(data)
def as_manifest(self):
- from stream import normalize_stream
segs = []
for r in self.segments:
segs.extend(self._stream.locators_and_ranges(r.locator, r.range_size))
return " ".join(normalize_stream(".", {self.name: segs})) + "\n"
-class BufferBlock(object):
+def synchronized(orig_func):
+ @functools.wraps(orig_func)
+ def synchronized_wrapper(self, *args, **kwargs):
+ with self.lock:
+ return orig_func(self, *args, **kwargs)
+ return synchronized_wrapper
+
+class _BufferBlock(object):
+ """A stand-in for a Keep block that is in the process of being written.
+
+ Writers can append to it, get the size, and compute the Keep locator.
+ There are three valid states:
+
+ WRITABLE
+ Can append to block.
+
+ PENDING
+ Block is in the process of being uploaded to Keep, append is an error.
+
+ COMMITTED
+ The block has been written to Keep, its internal buffer has been
+ released, fetching the block will fetch it via keep client (since we
+ discarded the internal copy), and identifiers referring to the BufferBlock
+ can be replaced with the block locator.
+
+ """
+
WRITABLE = 0
PENDING = 1
COMMITTED = 2
- def __init__(self, blockid, starting_size):
+ def __init__(self, blockid, starting_capacity, owner):
+ """
+ :blockid:
+ the identifier for this block
+
+ :starting_capacity:
+ the initial buffer capacity
+
+ :owner:
+ ArvadosFile that owns this block
+
+ """
self.blockid = blockid
- self.buffer_block = bytearray(starting_size)
+ self.buffer_block = bytearray(starting_capacity)
self.buffer_view = memoryview(self.buffer_block)
self.write_pointer = 0
- self.state = BufferBlock.WRITABLE
+ self._state = _BufferBlock.WRITABLE
self._locator = None
+ self.owner = owner
+ self.lock = threading.Lock()
+ @synchronized
def append(self, data):
- if self.state == BufferBlock.WRITABLE:
+ """Append some data to the buffer.
+
+ Only valid if the block is in WRITABLE state. Implements an expanding
+ buffer, doubling capacity as needed to accomdate all the data.
+
+ """
+ if self._state == _BufferBlock.WRITABLE:
while (self.write_pointer+len(data)) > len(self.buffer_block):
new_buffer_block = bytearray(len(self.buffer_block) * 2)
new_buffer_block[0:self.write_pointer] = self.buffer_block[0:self.write_pointer]
else:
raise AssertionError("Buffer block is not writable")
+ @synchronized
+ def set_state(self, nextstate, loc=None):
+ if ((self._state == _BufferBlock.WRITABLE and nextstate == _BufferBlock.PENDING) or
+ (self._state == _BufferBlock.PENDING and nextstate == _BufferBlock.COMMITTED)):
+ self._state = nextstate
+ if self._state == _BufferBlock.COMMITTED:
+ self._locator = loc
+ self.buffer_view = None
+ self.buffer_block = None
+ else:
+ raise AssertionError("Invalid state change from %s to %s" % (self.state, state))
+
+ @synchronized
+ def state(self):
+ return self._state
+
def size(self):
+ """The amount of data written to the buffer."""
return self.write_pointer
+ @synchronized
def locator(self):
+ """The Keep locator for this buffer's contents."""
if self._locator is None:
self._locator = "%s+%i" % (hashlib.md5(self.buffer_view[0:self.write_pointer]).hexdigest(), self.size())
return self._locator
-class AsyncKeepWriteErrors(Exception):
- def __init__(self, errors):
- self.errors = errors
+ @synchronized
+ def clone(self, new_blockid, owner):
+ if self._state == _BufferBlock.COMMITTED:
+ raise AssertionError("Can only duplicate a writable or pending buffer block")
+ bufferblock = _BufferBlock(new_blockid, self.size(), owner)
+ bufferblock.append(self.buffer_view[0:self.size()])
+ return bufferblock
- def __repr__(self):
- return "\n".join(self.errors)
-class BlockManager(object):
+class NoopLock(object):
+ def __enter__(self):
+ return self
+
+ def __exit__(self, exc_type, exc_value, traceback):
+ pass
+
+ def acquire(self, blocking=False):
+ pass
+
+ def release(self):
+ pass
+
+def must_be_writable(orig_func):
+ @functools.wraps(orig_func)
+ def must_be_writable_wrapper(self, *args, **kwargs):
+ if not self.writable():
+ raise IOError((errno.EROFS, "Collection must be writable."))
+ return orig_func(self, *args, **kwargs)
+ return must_be_writable_wrapper
+
+
+class _BlockManager(object):
+ """BlockManager handles buffer blocks.
+
+ Also handles background block uploads, and background block prefetch for a
+ Collection of ArvadosFiles.
+
+ """
def __init__(self, keep):
+ """keep: KeepClient object to use"""
self._keep = keep
self._bufferblocks = {}
self._put_queue = None
self._put_threads = None
self._prefetch_queue = None
self._prefetch_threads = None
+ self.lock = threading.Lock()
+ self.prefetch_enabled = True
+ self.num_put_threads = 2
+ self.num_get_threads = 2
+
+ @synchronized
+ def alloc_bufferblock(self, blockid=None, starting_capacity=2**14, owner=None):
+ """Allocate a new, empty bufferblock in WRITABLE state and return it.
+
+ :blockid:
+ optional block identifier, otherwise one will be automatically assigned
+
+ :starting_capacity:
+ optional capacity, otherwise will use default capacity
+
+ :owner:
+ ArvadosFile that owns this block
- def alloc_bufferblock(self, blockid=None, starting_size=2**14):
+ """
if blockid is None:
blockid = "bufferblock%i" % len(self._bufferblocks)
- bb = BufferBlock(blockid, starting_size=starting_size)
- self._bufferblocks[bb.blockid] = bb
- return bb
+ bufferblock = _BufferBlock(blockid, starting_capacity=starting_capacity, owner=owner)
+ self._bufferblocks[bufferblock.blockid] = bufferblock
+ return bufferblock
+ @synchronized
+ def dup_block(self, block, owner):
+ """Create a new bufferblock initialized with the content of an existing bufferblock.
+
+ :block:
+ the buffer block to copy.
+
+ :owner:
+ ArvadosFile that owns the new block
+
+ """
+ new_blockid = "bufferblock%i" % len(self._bufferblocks)
+ bufferblock = block.clone(new_blockid, owner)
+ self._bufferblocks[bufferblock.blockid] = bufferblock
+ return bufferblock
+
+ @synchronized
+ def is_bufferblock(self, locator):
+ return locator in self._bufferblocks
+
+ @synchronized
def stop_threads(self):
+ """Shut down and wait for background upload and download threads to finish."""
+
if self._put_threads is not None:
for t in self._put_threads:
self._put_queue.put(None)
self._prefetch_queue = None
def commit_bufferblock(self, block):
- def worker(self):
+ """Initiate a background upload of a bufferblock.
+
+ This will block if the upload queue is at capacity, otherwise it will
+ return immediately.
+
+ """
+
+ def commit_bufferblock_worker(self):
+ """Background uploader thread."""
+
while True:
try:
- b = self._put_queue.get()
- if b is None:
+ bufferblock = self._put_queue.get()
+ if bufferblock is None:
return
- b._locator = self._keep.put(b.buffer_view[0:b.write_pointer].tobytes())
- b.state = BufferBlock.COMMITTED
- b.buffer_view = None
- b.buffer_block = None
+ loc = self._keep.put(bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes())
+ bufferblock.set_state(_BufferBlock.COMMITTED, loc)
+
except Exception as e:
- print e
- self._put_errors.put(e)
+ self._put_errors.put((bufferblock.locator(), e))
finally:
if self._put_queue is not None:
self._put_queue.task_done()
- if self._put_threads is None:
- self._put_queue = Queue.Queue(maxsize=2)
- self._put_errors = Queue.Queue()
- self._put_threads = [threading.Thread(target=worker, args=(self,)), threading.Thread(target=worker, args=(self,))]
- for t in self._put_threads:
- t.start()
-
- block.state = BufferBlock.PENDING
+ with self.lock:
+ if self._put_threads is None:
+ # Start uploader threads.
+
+ # If we don't limit the Queue size, the upload queue can quickly
+ # grow to take up gigabytes of RAM if the writing process is
+ # generating data more quickly than it can be send to the Keep
+ # servers.
+ #
+ # With two upload threads and a queue size of 2, this means up to 4
+ # blocks pending. If they are full 64 MiB blocks, that means up to
+ # 256 MiB of internal buffering, which is the same size as the
+ # default download block cache in KeepClient.
+ self._put_queue = Queue.Queue(maxsize=2)
+ self._put_errors = Queue.Queue()
+
+ self._put_threads = []
+ for i in xrange(0, self.num_put_threads):
+ thread = threading.Thread(target=commit_bufferblock_worker, args=(self,))
+ self._put_threads.append(thread)
+ thread.daemon = True
+ thread.start()
+
+ # Mark the block as PENDING so to disallow any more appends.
+ block.set_state(_BufferBlock.PENDING)
self._put_queue.put(block)
- def get_block(self, locator, num_retries):
- if locator in self._bufferblocks:
- bb = self._bufferblocks[locator]
- if bb.state != BufferBlock.COMMITTED:
- return bb.buffer_view[0:bb.write_pointer].tobytes()
- else:
- locator = bb._locator
- return self._keep.get(locator, num_retries=num_retries)
+ @synchronized
+ def get_bufferblock(self, locator):
+ return self._bufferblocks.get(locator)
+
+ def get_block_contents(self, locator, num_retries, cache_only=False):
+ """Fetch a block.
+
+ First checks to see if the locator is a BufferBlock and return that, if
+ not, passes the request through to KeepClient.get().
+
+ """
+ with self.lock:
+ if locator in self._bufferblocks:
+ bufferblock = self._bufferblocks[locator]
+ if bufferblock.state() != _BufferBlock.COMMITTED:
+ return bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes()
+ else:
+ locator = bufferblock._locator
+ if cache_only:
+ return self._keep.get_from_cache(locator)
+ else:
+ return self._keep.get(locator, num_retries=num_retries)
def commit_all(self):
- for k,v in self._bufferblocks.items():
- if v.state == BufferBlock.WRITABLE:
+ """Commit all outstanding buffer blocks.
+
+ Unlike commit_bufferblock(), this is a synchronous call, and will not
+ return until all buffer blocks are uploaded. Raises
+ KeepWriteError() if any blocks failed to upload.
+
+ """
+ with self.lock:
+ items = self._bufferblocks.items()
+
+ for k,v in items:
+ if v.state() == _BufferBlock.WRITABLE:
self.commit_bufferblock(v)
- if self._put_queue is not None:
- self._put_queue.join()
- if not self._put_errors.empty():
- e = []
- try:
- while True:
- e.append(self._put_errors.get(False))
- except Queue.Empty:
- pass
- raise AsyncKeepWriteErrors(e)
+
+ with self.lock:
+ if self._put_queue is not None:
+ self._put_queue.join()
+
+ if not self._put_errors.empty():
+ err = []
+ try:
+ while True:
+ err.append(self._put_errors.get(False))
+ except Queue.Empty:
+ pass
+ raise KeepWriteError("Error writing some blocks", err, label="block")
def block_prefetch(self, locator):
- def worker(self):
+ """Initiate a background download of a block.
+
+ This assumes that the underlying KeepClient implements a block cache,
+ so repeated requests for the same block will not result in repeated
+ downloads (unless the block is evicted from the cache.) This method
+ does not block.
+
+ """
+
+ if not self.prefetch_enabled:
+ return
+
+ def block_prefetch_worker(self):
+ """The background downloader thread."""
while True:
try:
b = self._prefetch_queue.get()
if b is None:
return
self._keep.get(b)
- except:
+ except Exception:
pass
- if locator in self._bufferblocks:
- return
- if self._prefetch_threads is None:
- self._prefetch_queue = Queue.Queue()
- self._prefetch_threads = [threading.Thread(target=worker, args=(self,)),
- threading.Thread(target=worker, args=(self,))]
- self._prefetch_threads[0].start()
- self._prefetch_threads[1].start()
+ with self.lock:
+ if locator in self._bufferblocks:
+ return
+ if self._prefetch_threads is None:
+ self._prefetch_queue = Queue.Queue()
+ self._prefetch_threads = []
+ for i in xrange(0, self.num_get_threads):
+ thread = threading.Thread(target=block_prefetch_worker, args=(self,))
+ self._prefetch_threads.append(thread)
+ thread.daemon = True
+ thread.start()
self._prefetch_queue.put(locator)
+
class ArvadosFile(object):
- def __init__(self, parent, stream=[], segments=[], keep=None):
- '''
- stream: a list of Range objects representing a block stream
- segments: a list of Range objects representing segments
- '''
+ """Represent a file in a Collection.
+
+ ArvadosFile manages the underlying representation of a file in Keep as a
+ sequence of segments spanning a set of blocks, and implements random
+ read/write access.
+
+ This object may be accessed from multiple threads.
+
+ """
+
+ def __init__(self, parent, stream=[], segments=[]):
+ """
+ ArvadosFile constructor.
+
+ :stream:
+ a list of Range objects representing a block stream
+
+ :segments:
+ a list of Range objects representing segments
+ """
self.parent = parent
self._modified = True
self._segments = []
+ self.lock = parent.root_collection().lock
for s in segments:
- self.add_segment(stream, s.range_start, s.range_size)
+ self._add_segment(stream, s.locator, s.range_size)
self._current_bblock = None
- self._keep = keep
+ def writable(self):
+ return self.parent.writable()
+
+ @synchronized
+ def segments(self):
+ return copy.copy(self._segments)
+
+ @synchronized
+ def clone(self, new_parent):
+ """Make a copy of this file."""
+ cp = ArvadosFile(new_parent)
+ cp.replace_contents(self)
+ return cp
+
+ @must_be_writable
+ @synchronized
+ def replace_contents(self, other):
+ """Replace segments of this file with segments from another `ArvadosFile` object."""
+
+ map_loc = {}
+ self._segments = []
+ for other_segment in other.segments():
+ new_loc = other_segment.locator
+ if other.parent._my_block_manager().is_bufferblock(other_segment.locator):
+ if other_segment.locator not in map_loc:
+ bufferblock = other.parent._my_block_manager().get_bufferblock(other_segment.locator)
+ if bufferblock.state() != _BufferBlock.WRITABLE:
+ map_loc[other_segment.locator] = bufferblock.locator()
+ else:
+ map_loc[other_segment.locator] = self.parent._my_block_manager().dup_block(bufferblock, self).blockid
+ new_loc = map_loc[other_segment.locator]
+
+ self._segments.append(Range(new_loc, other_segment.range_start, other_segment.range_size, other_segment.segment_offset))
+
+ self._modified = True
+
+ def __eq__(self, other):
+ if other is self:
+ return True
+ if not isinstance(other, ArvadosFile):
+ return False
+
+ othersegs = other.segments()
+ with self.lock:
+ if len(self._segments) != len(othersegs):
+ return False
+ for i in xrange(0, len(othersegs)):
+ seg1 = self._segments[i]
+ seg2 = othersegs[i]
+ loc1 = seg1.locator
+ loc2 = seg2.locator
+
+ if self.parent._my_block_manager().is_bufferblock(loc1):
+ loc1 = self.parent._my_block_manager().get_bufferblock(loc1).locator()
+
+ if other.parent._my_block_manager().is_bufferblock(loc2):
+ loc2 = other.parent._my_block_manager().get_bufferblock(loc2).locator()
+
+ if (KeepLocator(loc1).stripped() != KeepLocator(loc2).stripped() or
+ seg1.range_start != seg2.range_start or
+ seg1.range_size != seg2.range_size or
+ seg1.segment_offset != seg2.segment_offset):
+ return False
+
+ return True
+
+ def __ne__(self, other):
+ return not self.__eq__(other)
+
+ @synchronized
def set_unmodified(self):
+ """Clear the modified flag"""
self._modified = False
+ @synchronized
def modified(self):
+ """Test the modified flag"""
return self._modified
+ @must_be_writable
+ @synchronized
def truncate(self, size):
- new_segs = []
- for r in self._segments:
- range_end = r.range_start+r.range_size
- if r.range_start >= size:
- # segment is past the trucate size, all done
- break
- elif size < range_end:
- nr = Range(r.locator, r.range_start, size - r.range_start)
- nr.segment_offset = r.segment_offset
- new_segs.append(nr)
- break
- else:
- new_segs.append(r)
-
- self._segments = new_segs
- self._modified = True
+ """Shrink the size of the file.
+
+ If `size` is less than the size of the file, the file contents after
+ `size` will be discarded. If `size` is greater than the current size
+ of the file, an IOError will be raised.
+
+ """
+ if size < self.size():
+ new_segs = []
+ for r in self._segments:
+ range_end = r.range_start+r.range_size
+ if r.range_start >= size:
+ # segment is past the trucate size, all done
+ break
+ elif size < range_end:
+ nr = Range(r.locator, r.range_start, size - r.range_start)
+ nr.segment_offset = r.segment_offset
+ new_segs.append(nr)
+ break
+ else:
+ new_segs.append(r)
+
+ self._segments = new_segs
+ self._modified = True
+ elif size > self.size():
+ raise IOError("truncate() does not support extending the file size")
def readfrom(self, offset, size, num_retries):
- if size == 0 or offset >= self.size():
- return ''
- data = []
+ """Read upto `size` bytes from the file starting at `offset`."""
- for lr in locators_and_ranges(self._segments, offset, size + config.KEEP_BLOCK_SIZE):
+ with self.lock:
+ if size == 0 or offset >= self.size():
+ return ''
+ prefetch = locators_and_ranges(self._segments, offset, size + config.KEEP_BLOCK_SIZE)
+ readsegs = locators_and_ranges(self._segments, offset, size)
+
+ for lr in prefetch:
self.parent._my_block_manager().block_prefetch(lr.locator)
- for lr in locators_and_ranges(self._segments, offset, size):
- # TODO: if data is empty, wait on block get, otherwise only
- # get more data if the block is already in the cache.
- data.append(self.parent._my_block_manager().get_block(lr.locator, num_retries=num_retries)[lr.segment_offset:lr.segment_offset+lr.segment_size])
+ data = []
+ for lr in readsegs:
+ block = self.parent._my_block_manager().get_block_contents(lr.locator, num_retries=num_retries, cache_only=bool(data))
+ if block:
+ data.append(block[lr.segment_offset:lr.segment_offset+lr.segment_size])
+ else:
+ break
return ''.join(data)
def _repack_writes(self):
- '''Test if the buffer block has more data than is referenced by actual segments
- (this happens when a buffered write over-writes a file range written in
- a previous buffered write). Re-pack the buffer block for efficiency
+ """Test if the buffer block has more data than actual segments.
+
+ This happens when a buffered write over-writes a file range written in
+ a previous buffered write. Re-pack the buffer block for efficiency
and to avoid leaking information.
- '''
+
+ """
segs = self._segments
# Sum up the segments to get the total bytes of the file referencing
if write_total < self._current_bblock.size():
# There is more data in the buffer block than is actually accounted for by segments, so
# re-pack into a new buffer by copying over to a new buffer block.
- new_bb = self.parent._my_block_manager().alloc_bufferblock(self._current_bblock.blockid, starting_size=write_total)
+ new_bb = self.parent._my_block_manager().alloc_bufferblock(self._current_bblock.blockid, starting_capacity=write_total, owner=self)
for t in bufferblock_segs:
new_bb.append(self._current_bblock.buffer_view[t.segment_offset:t.segment_offset+t.range_size].tobytes())
t.segment_offset = new_bb.size() - t.range_size
self._current_bblock = new_bb
+ @must_be_writable
+ @synchronized
def writeto(self, offset, data, num_retries):
+ """Write `data` to the file starting at `offset`.
+
+ This will update existing bytes and/or extend the size of the file as
+ necessary.
+
+ """
if len(data) == 0:
return
self._modified = True
- if self._current_bblock is None or self._current_bblock.state != BufferBlock.WRITABLE:
- self._current_bblock = self.parent._my_block_manager().alloc_bufferblock()
+ if self._current_bblock is None or self._current_bblock.state() != _BufferBlock.WRITABLE:
+ self._current_bblock = self.parent._my_block_manager().alloc_bufferblock(owner=self)
if (self._current_bblock.size() + len(data)) > config.KEEP_BLOCK_SIZE:
self._repack_writes()
if (self._current_bblock.size() + len(data)) > config.KEEP_BLOCK_SIZE:
self.parent._my_block_manager().commit_bufferblock(self._current_bblock)
- self._current_bblock = self.parent._my_block_manager().alloc_bufferblock()
+ self._current_bblock = self.parent._my_block_manager().alloc_bufferblock(owner=self)
self._current_bblock.append(data)
+
replace_range(self._segments, offset, len(data), self._current_bblock.blockid, self._current_bblock.write_pointer - len(data))
+ @synchronized
+ def flush(self):
+ if self._current_bblock:
+ self._repack_writes()
+ self.parent._my_block_manager().commit_bufferblock(self._current_bblock)
+
+
+ @must_be_writable
+ @synchronized
def add_segment(self, blocks, pos, size):
+ """Add a segment to the end of the file.
+
+ `pos` and `offset` reference a section of the stream described by
+ `blocks` (a list of Range objects)
+
+ """
+ self._add_segment(blocks, pos, size)
+
+ def _add_segment(self, blocks, pos, size):
+ """Internal implementation of add_segment."""
self._modified = True
for lr in locators_and_ranges(blocks, pos, size):
last = self._segments[-1] if self._segments else Range(0, 0, 0)
r = Range(lr.locator, last.range_start+last.range_size, lr.segment_size, lr.segment_offset)
self._segments.append(r)
+ @synchronized
def size(self):
+ """Get the file size."""
if self._segments:
n = self._segments[-1]
return n.range_start + n.range_size
return 0
+ @synchronized
+ def manifest_text(self, stream_name=".", portable_locators=False, normalize=False):
+ buf = ""
+ item = self
+ filestream = []
+ for segment in item.segments:
+ loc = segment.locator
+ if loc.startswith("bufferblock"):
+ loc = item._bufferblocks[loc].calculate_locator()
+ if portable_locators:
+ loc = KeepLocator(loc).stripped()
+ filestream.append(LocatorAndRange(loc, locator_block_size(loc),
+ segment.segment_offset, segment.range_size))
+ buf += ' '.join(normalize_stream(stream_name, {stream_name: filestream}))
+ buf += "\n"
+ return buf
+
+
class ArvadosFileReader(ArvadosFileReaderBase):
+ """Wraps ArvadosFile in a file-like object supporting reading only.
+
+ Be aware that this class is NOT thread safe as there is no locking around
+ updating file pointer.
+
+ """
+
def __init__(self, arvadosfile, name, mode="r", num_retries=None):
super(ArvadosFileReader, self).__init__(name, mode, num_retries=num_retries)
self.arvadosfile = arvadosfile
def size(self):
return self.arvadosfile.size()
- @ArvadosFileBase._before_close
+ def stream_name(self):
+ return self.arvadosfile.parent.stream_name()
+
+ @_FileLikeObjectBase._before_close
@retry_method
def read(self, size, num_retries=None):
- """Read up to 'size' bytes from the stream, starting at the current file position"""
- data = self.arvadosfile.readfrom(self._filepos, size, num_retries=num_retries)
+ """Read up to `size` bytes from the stream, starting at the current file position."""
+ data = self.arvadosfile.readfrom(self._filepos, size, num_retries)
self._filepos += len(data)
return data
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def readfrom(self, offset, size, num_retries=None):
- """Read up to 'size' bytes from the stream, starting at the current file position"""
+ """Read up to `size` bytes from the stream, starting at the current file position."""
return self.arvadosfile.readfrom(offset, size, num_retries)
def flush(self):
pass
+
class ArvadosFileWriter(ArvadosFileReader):
+ """Wraps ArvadosFile in a file-like object supporting both reading and writing.
+
+ Be aware that this class is NOT thread safe as there is no locking around
+ updating file pointer.
+
+ """
+
def __init__(self, arvadosfile, name, mode, num_retries=None):
super(ArvadosFileWriter, self).__init__(arvadosfile, name, mode, num_retries=num_retries)
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def write(self, data, num_retries=None):
if self.mode[0] == "a":
- self.arvadosfile.writeto(self.size(), data)
+ self.arvadosfile.writeto(self.size(), data, num_retries)
else:
self.arvadosfile.writeto(self._filepos, data, num_retries)
self._filepos += len(data)
- @ArvadosFileBase._before_close
+ @_FileLikeObjectBase._before_close
@retry_method
def writelines(self, seq, num_retries=None):
for s in seq:
- self.write(s)
+ self.write(s, num_retries)
+ @_FileLikeObjectBase._before_close
def truncate(self, size=None):
if size is None:
size = self._filepos
self.arvadosfile.truncate(size)
if self._filepos > self.size():
self._filepos = self.size()
+
+ @_FileLikeObjectBase._before_close
+ def flush(self):
+ self.arvadosfile.flush()
+
+ @_FileLikeObjectBase._before_close
+ def close(self):
+ self.flush()
+ super(ArvadosFileWriter, self).close()