import errno
import re
import logging
+import collections
+import uuid
from .errors import KeepWriteError, AssertionError, ArgumentError
from .keep import KeepLocator
cache_pos, cache_data = self._readline_cache
if self.tell() == cache_pos:
data = [cache_data]
+ self._filepos += len(cache_data)
else:
data = ['']
data_size = len(data[-1])
except ValueError:
nextline_index = len(data)
nextline_index = min(nextline_index, size)
+ self._filepos -= len(data) - nextline_index
self._readline_cache = (self.tell(), data[nextline_index:])
return data[:nextline_index]
@synchronized
def set_state(self, nextstate, val=None):
if (self._state, nextstate) not in self.STATE_TRANSITIONS:
- raise StateChangeError("Invalid state change from %s to %s" % (self.state, nextstate), self.state, nextstate)
+ raise StateChangeError("Invalid state change from %s to %s" % (self._state, nextstate), self._state, nextstate)
self._state = nextstate
if self._state == _BufferBlock.PENDING:
DEFAULT_PUT_THREADS = 2
DEFAULT_GET_THREADS = 2
- def __init__(self, keep):
+ def __init__(self, keep, copies=None):
"""keep: KeepClient object to use"""
self._keep = keep
- self._bufferblocks = {}
+ self._bufferblocks = collections.OrderedDict()
self._put_queue = None
self._put_threads = None
self._prefetch_queue = None
self.prefetch_enabled = True
self.num_put_threads = _BlockManager.DEFAULT_PUT_THREADS
self.num_get_threads = _BlockManager.DEFAULT_GET_THREADS
+ self.copies = copies
+ self._pending_write_size = 0
+ self.threads_lock = threading.Lock()
@synchronized
def alloc_bufferblock(self, blockid=None, starting_capacity=2**14, owner=None):
ArvadosFile that owns this block
"""
+ return self._alloc_bufferblock(blockid, starting_capacity, owner)
+
+ def _alloc_bufferblock(self, blockid=None, starting_capacity=2**14, owner=None):
if blockid is None:
- blockid = "bufferblock%i" % len(self._bufferblocks)
+ blockid = "%s" % uuid.uuid4()
bufferblock = _BufferBlock(blockid, starting_capacity=starting_capacity, owner=owner)
self._bufferblocks[bufferblock.blockid] = bufferblock
return bufferblock
if bufferblock is None:
return
- loc = self._keep.put(bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes())
+ if self.copies is None:
+ loc = self._keep.put(bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes())
+ else:
+ loc = self._keep.put(bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes(), copies=self.copies)
bufferblock.set_state(_BufferBlock.COMMITTED, loc)
except Exception as e:
if self._put_queue is not None:
self._put_queue.task_done()
- @synchronized
def start_put_threads(self):
- 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_threads = []
- for i in xrange(0, self.num_put_threads):
- thread = threading.Thread(target=self._commit_bufferblock_worker)
- self._put_threads.append(thread)
- thread.daemon = False
- thread.start()
+ with self.threads_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_threads = []
+ for i in xrange(0, self.num_put_threads):
+ thread = threading.Thread(target=self._commit_bufferblock_worker)
+ self._put_threads.append(thread)
+ thread.daemon = True
+ thread.start()
def _block_prefetch_worker(self):
"""The background downloader thread."""
return
self._keep.get(b)
except Exception:
- pass
+ _logger.exception("Exception doing block prefetch")
@synchronized
def start_get_threads(self):
def __exit__(self, exc_type, exc_value, traceback):
self.stop_threads()
- def __del__(self):
- self.stop_threads()
+ @synchronized
+ def repack_small_blocks(self, force=False, sync=False, closed_file_size=0):
+ """Packs small blocks together before uploading"""
+ self._pending_write_size += closed_file_size
+
+ # Check if there are enough small blocks for filling up one in full
+ if force or (self._pending_write_size >= config.KEEP_BLOCK_SIZE):
+
+ # Search blocks ready for getting packed together before being committed to Keep.
+ # A WRITABLE block always has an owner.
+ # A WRITABLE block with its owner.closed() implies that it's
+ # size is <= KEEP_BLOCK_SIZE/2.
+ small_blocks = [b for b in self._bufferblocks.values() if b.state() == _BufferBlock.WRITABLE and b.owner.closed()]
+
+ if len(small_blocks) <= 1:
+ # Not enough small blocks for repacking
+ return
+
+ # Update the pending write size count with its true value, just in case
+ # some small file was opened, written and closed several times.
+ self._pending_write_size = sum([b.size() for b in small_blocks])
+ if self._pending_write_size < config.KEEP_BLOCK_SIZE and not force:
+ return
+
+ new_bb = self._alloc_bufferblock()
+ while len(small_blocks) > 0 and (new_bb.write_pointer + small_blocks[0].size()) <= config.KEEP_BLOCK_SIZE:
+ bb = small_blocks.pop(0)
+ arvfile = bb.owner
+ self._pending_write_size -= bb.size()
+ new_bb.append(bb.buffer_view[0:bb.write_pointer].tobytes())
+ arvfile.set_segments([Range(new_bb.blockid,
+ 0,
+ bb.size(),
+ new_bb.write_pointer - bb.size())])
+ self._delete_bufferblock(bb.blockid)
+ self.commit_bufferblock(new_bb, sync=sync)
def commit_bufferblock(self, block, sync):
"""Initiate a background upload of a bufferblock.
which case it will wait on an upload queue slot.
"""
-
try:
# Mark the block as PENDING so to disallow any more appends.
block.set_state(_BufferBlock.PENDING)
except StateChangeError as e:
- if e.state == _BufferBlock.PENDING and sync:
- block.wait_for_commit.wait()
- if block.state() == _BufferBlock.ERROR:
- raise block.error
- return
+ if e.state == _BufferBlock.PENDING:
+ if sync:
+ block.wait_for_commit.wait()
+ else:
+ return
+ if block.state() == _BufferBlock.COMMITTED:
+ return
+ elif block.state() == _BufferBlock.ERROR:
+ raise block.error
+ else:
+ raise
if sync:
try:
- loc = self._keep.put(block.buffer_view[0:block.write_pointer].tobytes())
+ if self.copies is None:
+ loc = self._keep.put(block.buffer_view[0:block.write_pointer].tobytes())
+ else:
+ loc = self._keep.put(block.buffer_view[0:block.write_pointer].tobytes(), copies=self.copies)
block.set_state(_BufferBlock.COMMITTED, loc)
except Exception as e:
block.set_state(_BufferBlock.ERROR, e)
@synchronized
def delete_bufferblock(self, locator):
+ self._delete_bufferblock(locator)
+
+ def _delete_bufferblock(self, locator):
bb = self._bufferblocks[locator]
bb.clear()
del self._bufferblocks[locator]
are uploaded. Raises KeepWriteError() if any blocks failed to upload.
"""
+ self.repack_small_blocks(force=True, sync=True)
+
with self.lock:
items = self._bufferblocks.items()
for k,v in items:
- if v.state() != _BufferBlock.COMMITTED:
+ if v.state() != _BufferBlock.COMMITTED and v.owner:
v.owner.flush(sync=False)
with self.lock:
"""
self.parent = parent
self.name = name
+ self._writers = set()
self._committed = False
self._segments = []
self.lock = parent.root_collection().lock
def __ne__(self, other):
return not self.__eq__(other)
+ @synchronized
+ def set_segments(self, segs):
+ self._segments = segs
+
@synchronized
def set_committed(self):
- """Set committed flag to False"""
+ """Set committed flag to True"""
self._committed = True
@synchronized
"""Get whether this is committed or not."""
return self._committed
+ @synchronized
+ def add_writer(self, writer):
+ """Add an ArvadosFileWriter reference to the list of writers"""
+ if isinstance(writer, ArvadosFileWriter):
+ self._writers.add(writer)
+
+ @synchronized
+ def remove_writer(self, writer, flush):
+ """
+ Called from ArvadosFileWriter.close(). Remove a writer reference from the list
+ and do some block maintenance tasks.
+ """
+ self._writers.remove(writer)
+
+ if flush or self.size() > config.KEEP_BLOCK_SIZE / 2:
+ # File writer closed, not small enough for repacking
+ self.flush()
+ elif self.closed():
+ # All writers closed and size is adequate for repacking
+ self.parent._my_block_manager().repack_small_blocks(closed_file_size=self.size())
+
+ def closed(self):
+ """
+ Get whether this is closed or not. When the writers list is empty, the file
+ is supposed to be closed.
+ """
+ return len(self._writers) == 0
+
@must_be_writable
@synchronized
def truncate(self, size):
bb = self.parent._my_block_manager().get_bufferblock(s.locator)
if bb:
if bb.state() != _BufferBlock.COMMITTED:
- self.parent._my_block_manager().commit_bufferblock(self._current_bblock, sync=True)
+ self.parent._my_block_manager().commit_bufferblock(bb, sync=True)
to_delete.add(s.locator)
s.locator = bb.locator()
for s in to_delete:
def __init__(self, arvadosfile, mode, num_retries=None):
super(ArvadosFileWriter, self).__init__(arvadosfile, num_retries=num_retries)
self.mode = mode
+ self.arvadosfile.add_writer(self)
@_FileLikeObjectBase._before_close
@retry_method
def flush(self):
self.arvadosfile.flush()
- def close(self):
+ def close(self, flush=True):
if not self.closed:
- self.flush()
+ self.arvadosfile.remove_writer(self, flush)
super(ArvadosFileWriter, self).close()