X-Git-Url: https://git.arvados.org/arvados.git/blobdiff_plain/5141c3ee23e89696773e227a93236ef2a51543c2..f486405f195083289f543b5524c4059b01f49026:/sdk/python/arvados/arvfile.py diff --git a/sdk/python/arvados/arvfile.py b/sdk/python/arvados/arvfile.py index e8dac463e5..71af6445a5 100644 --- a/sdk/python/arvados/arvfile.py +++ b/sdk/python/arvados/arvfile.py @@ -1,6 +1,42 @@ import functools +import os +import zlib +import bz2 +import config +import hashlib +import threading +import Queue +import copy +import errno +import re +import logging -class ArvadosFileBase(object): +from .errors import KeepWriteError, AssertionError, ArgumentError +from .keep import KeepLocator +from ._normalize_stream import normalize_stream +from ._ranges import locators_and_ranges, replace_range, Range +from .retry import retry_method + +MOD = "mod" +WRITE = "write" + +_logger = logging.getLogger('arvados.arvfile') + +def split(path): + """split(path) -> streamname, filename + + 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) + except ValueError: # No / in string + stream_name, file_name = '.', path + return stream_name, file_name + +class _FileLikeObjectBase(object): def __init__(self, name, mode): self.name = name self.mode = mode @@ -9,11 +45,11 @@ class ArvadosFileBase(object): @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 @@ -27,3 +63,1031 @@ class ArvadosFileBase(object): def close(self): self.closed = True + + +class ArvadosFileReaderBase(_FileLikeObjectBase): + def __init__(self, name, mode, num_retries=None): + super(ArvadosFileReaderBase, self).__init__(name, mode) + self._filepos = 0L + self.num_retries = num_retries + self._readline_cache = (None, None) + + def __iter__(self): + while True: + data = self.readline() + if not data: + break + yield data + + def decompressed_name(self): + return re.sub('\.(bz2|gz)$', '', self.name) + + @_FileLikeObjectBase._before_close + def seek(self, pos, whence=os.SEEK_SET): + if whence == os.SEEK_CUR: + pos += self._filepos + elif whence == os.SEEK_END: + pos += self.size() + self._filepos = min(max(pos, 0L), self.size()) + + def tell(self): + return self._filepos + + @_FileLikeObjectBase._before_close + @retry_method + def readall(self, size=2**20, num_retries=None): + while True: + data = self.read(size, num_retries=num_retries) + if data == '': + break + yield data + + @_FileLikeObjectBase._before_close + @retry_method + def readline(self, size=float('inf'), num_retries=None): + cache_pos, cache_data = self._readline_cache + if self.tell() == cache_pos: + data = [cache_data] + else: + data = [''] + data_size = len(data[-1]) + while (data_size < size) and ('\n' not in data[-1]): + next_read = self.read(2 ** 20, num_retries=num_retries) + if not next_read: + break + data.append(next_read) + data_size += len(next_read) + data = ''.join(data) + try: + nextline_index = data.index('\n') + 1 + except ValueError: + nextline_index = len(data) + nextline_index = min(nextline_index, size) + self._readline_cache = (self.tell(), data[nextline_index:]) + return data[:nextline_index] + + @_FileLikeObjectBase._before_close + @retry_method + def decompress(self, decompress, size, num_retries=None): + for segment in self.readall(size, num_retries=num_retries): + data = decompress(segment) + if data: + yield data + + @_FileLikeObjectBase._before_close + @retry_method + def readall_decompressed(self, size=2**20, num_retries=None): + self.seek(0) + if self.name.endswith('.bz2'): + dc = bz2.BZ2Decompressor() + return self.decompress(dc.decompress, size, + num_retries=num_retries) + elif self.name.endswith('.gz'): + dc = zlib.decompressobj(16+zlib.MAX_WBITS) + return self.decompress(lambda segment: dc.decompress(dc.unconsumed_tail + segment), + size, num_retries=num_retries) + else: + return self.readall(size, num_retries=num_retries) + + @_FileLikeObjectBase._before_close + @retry_method + def readlines(self, sizehint=float('inf'), num_retries=None): + data = [] + data_size = 0 + for s in self.readall(num_retries=num_retries): + data.append(s) + data_size += len(s) + if data_size >= sizehint: + 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__(self._NameAttribute(name), 'rb', num_retries=stream.num_retries) + self._stream = stream + self.segments = segments + + def stream_name(self): + return self._stream.name() + + def size(self): + n = self.segments[-1] + return n.range_start + n.range_size + + @_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""" + if size == 0: + return '' + + data = '' + 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, + lr.segment_size, + num_retries=num_retries) + + self._filepos += len(data) + return data + + @_FileLikeObjectBase._before_close + @retry_method + def readfrom(self, start, size, num_retries=None): + """Read up to 'size' bytes from the stream, starting at 'start'""" + if size == 0: + return '' + + data = [] + for lr in locators_and_ranges(self.segments, start, 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): + 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" + + +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 StateChangeError(Exception): + def __init__(self, message, state, nextstate): + super(StateChangeError, self).__init__(message) + self.state = state + self.nextstate = nextstate + +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 + ERROR = 3 + + 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_capacity) + self.buffer_view = memoryview(self.buffer_block) + self.write_pointer = 0 + self._state = _BufferBlock.WRITABLE + self._locator = None + self.owner = owner + self.lock = threading.Lock() + self.wait_for_commit = threading.Event() + self.error = None + + @synchronized + def append(self, data): + """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] + self.buffer_block = new_buffer_block + self.buffer_view = memoryview(self.buffer_block) + self.buffer_view[self.write_pointer:self.write_pointer+len(data)] = data + self.write_pointer += len(data) + self._locator = None + else: + raise AssertionError("Buffer block is not writable") + + STATE_TRANSITIONS = frozenset([ + (WRITABLE, PENDING), + (PENDING, COMMITTED), + (PENDING, ERROR), + (ERROR, PENDING)]) + + @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) + self._state = nextstate + + if self._state == _BufferBlock.PENDING: + self.wait_for_commit.clear() + + if self._state == _BufferBlock.COMMITTED: + self._locator = val + self.buffer_view = None + self.buffer_block = None + self.wait_for_commit.set() + + if self._state == _BufferBlock.ERROR: + self.error = val + self.wait_for_commit.set() + + @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 + + @synchronized + def clone(self, new_blockid, owner): + if self._state == _BufferBlock.COMMITTED: + raise AssertionError("Cannot duplicate committed buffer block") + bufferblock = _BufferBlock(new_blockid, self.size(), owner) + bufferblock.append(self.buffer_view[0:self.size()]) + return bufferblock + + @synchronized + def clear(self): + self.owner = None + self.buffer_block = None + self.buffer_view = None + + +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 is read-only.") + 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. + + """ + + DEFAULT_PUT_THREADS = 2 + DEFAULT_GET_THREADS = 2 + + 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 = _BlockManager.DEFAULT_PUT_THREADS + self.num_get_threads = _BlockManager.DEFAULT_GET_THREADS + + @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 + + """ + if blockid is None: + blockid = "bufferblock%i" % len(self._bufferblocks) + 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 + + def _commit_bufferblock_worker(self): + """Background uploader thread.""" + + while True: + try: + bufferblock = self._put_queue.get() + if bufferblock is None: + return + + loc = self._keep.put(bufferblock.buffer_view[0:bufferblock.write_pointer].tobytes()) + bufferblock.set_state(_BufferBlock.COMMITTED, loc) + + except Exception as e: + bufferblock.set_state(_BufferBlock.ERROR, e) + finally: + 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 = True + thread.start() + + 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 Exception: + pass + + @synchronized + def start_get_threads(self): + 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=self._block_prefetch_worker) + self._prefetch_threads.append(thread) + thread.daemon = True + thread.start() + + + @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) + for t in self._put_threads: + t.join() + self._put_threads = None + self._put_queue = None + + if self._prefetch_threads is not None: + for t in self._prefetch_threads: + self._prefetch_queue.put(None) + for t in self._prefetch_threads: + t.join() + self._prefetch_threads = None + self._prefetch_queue = None + + def __enter__(self): + return self + + def __exit__(self, exc_type, exc_value, traceback): + self.stop_threads() + + def commit_bufferblock(self, block, sync): + """Initiate a background upload of a bufferblock. + + :block: + The block object to upload + + :sync: + If `sync` is True, upload the block synchronously. + If `sync` is False, upload the block asynchronously. This will + return immediately unless the upload queue is at capacity, in + 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: + 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()) + block.set_state(_BufferBlock.COMMITTED, loc) + except Exception as e: + block.set_state(_BufferBlock.ERROR, e) + raise + else: + self.start_put_threads() + self._put_queue.put(block) + + @synchronized + def get_bufferblock(self, locator): + return self._bufferblocks.get(locator) + + @synchronized + def delete_bufferblock(self, locator): + bb = self._bufferblocks[locator] + bb.clear() + del self._bufferblocks[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): + """Commit all outstanding buffer blocks. + + 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.COMMITTED: + v.owner.flush(sync=False) + + with self.lock: + if self._put_queue is not None: + self._put_queue.join() + + err = [] + for k,v in items: + if v.state() == _BufferBlock.ERROR: + err.append((v.locator(), v.error)) + if err: + raise KeepWriteError("Error writing some blocks", err, label="block") + + for k,v in items: + # flush again with sync=True to remove committed bufferblocks from + # the segments. + if v.owner: + v.owner.flush(sync=True) + + def block_prefetch(self, locator): + """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 + + if self._keep.get_from_cache(locator) is not None: + return + + with self.lock: + if locator in self._bufferblocks: + return + + self.start_get_threads() + self._prefetch_queue.put(locator) + + +class ArvadosFile(object): + """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, name, 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.name = name + self._committed = False + self._segments = [] + self.lock = parent.root_collection().lock + for s in segments: + self._add_segment(stream, s.locator, s.range_size) + self._current_bblock = None + + def writable(self): + return self.parent.writable() + + @synchronized + def segments(self): + return copy.copy(self._segments) + + @synchronized + def clone(self, new_parent, new_name): + """Make a copy of this file.""" + cp = ArvadosFile(new_parent, new_name) + 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._committed = False + + 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_committed(self): + """Set committed flag to False""" + self._committed = True + + @synchronized + def committed(self): + """Get whether this is committed or not.""" + return self._committed + + @must_be_writable + @synchronized + def truncate(self, size): + """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, 0) + nr.segment_offset = r.segment_offset + new_segs.append(nr) + break + else: + new_segs.append(r) + + self._segments = new_segs + self._committed = False + elif size > self.size(): + raise IOError(errno.EINVAL, "truncate() does not support extending the file size") + + def readfrom(self, offset, size, num_retries, exact=False): + """Read up to `size` bytes from the file starting at `offset`. + + :exact: + If False (default), return less data than requested if the read + crosses a block boundary and the next block isn't cached. If True, + only return less data than requested when hitting EOF. + """ + + with self.lock: + if size == 0 or offset >= self.size(): + return '' + readsegs = locators_and_ranges(self._segments, offset, size) + prefetch = locators_and_ranges(self._segments, offset + size, config.KEEP_BLOCK_SIZE, limit=32) + + locs = set() + data = [] + for lr in readsegs: + block = self.parent._my_block_manager().get_block_contents(lr.locator, num_retries=num_retries, cache_only=(bool(data) and not exact)) + if block: + blockview = memoryview(block) + data.append(blockview[lr.segment_offset:lr.segment_offset+lr.segment_size].tobytes()) + locs.add(lr.locator) + else: + break + + for lr in prefetch: + if lr.locator not in locs: + self.parent._my_block_manager().block_prefetch(lr.locator) + locs.add(lr.locator) + + return ''.join(data) + + def _repack_writes(self, num_retries): + """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 + # into the buffer block. + bufferblock_segs = [s for s in segs if s.locator == self._current_bblock.blockid] + write_total = sum([s.range_size for s in bufferblock_segs]) + + 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. + contents = self.parent._my_block_manager().get_block_contents(self._current_bblock.blockid, num_retries) + 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(contents[t.segment_offset:t.segment_offset+t.range_size]) + 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 + + if offset > self.size(): + raise ArgumentError("Offset is past the end of the file") + + if len(data) > config.KEEP_BLOCK_SIZE: + # Chunk it up into smaller writes + n = 0 + dataview = memoryview(data) + while n < len(data): + self.writeto(offset+n, dataview[n:n + config.KEEP_BLOCK_SIZE].tobytes(), num_retries) + n += config.KEEP_BLOCK_SIZE + return + + self._committed = False + + 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(num_retries) + if (self._current_bblock.size() + len(data)) > config.KEEP_BLOCK_SIZE: + self.parent._my_block_manager().commit_bufferblock(self._current_bblock, sync=False) + 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)) + + self.parent.notify(WRITE, self.parent, self.name, (self, self)) + + return len(data) + + @synchronized + def flush(self, sync=True, num_retries=0): + """Flush the current bufferblock to Keep. + + :sync: + If True, commit block synchronously, wait until buffer block has been written. + If False, commit block asynchronously, return immediately after putting block into + the keep put queue. + """ + if self.committed(): + return + + if self._current_bblock and self._current_bblock.state() != _BufferBlock.COMMITTED: + if self._current_bblock.state() == _BufferBlock.WRITABLE: + self._repack_writes(num_retries) + self.parent._my_block_manager().commit_bufferblock(self._current_bblock, sync=sync) + + if sync: + to_delete = set() + for s in self._segments: + bb = self.parent._my_block_manager().get_bufferblock(s.locator) + if bb: + if bb.state() != _BufferBlock.COMMITTED: + self.parent._my_block_manager().commit_bufferblock(bb, sync=True) + to_delete.add(s.locator) + s.locator = bb.locator() + for s in to_delete: + self.parent._my_block_manager().delete_bufferblock(s) + + self.parent.notify(MOD, self.parent, self.name, (self, self)) + + @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._committed = False + for lr in locators_and_ranges(blocks, pos, size): + last = self._segments[-1] if self._segments else Range(0, 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 + else: + return 0 + + @synchronized + def manifest_text(self, stream_name=".", portable_locators=False, normalize=False): + buf = "" + filestream = [] + for segment in self.segments: + loc = segment.locator + if loc.startswith("bufferblock"): + loc = self._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 + + @must_be_writable + @synchronized + def _reparent(self, newparent, newname): + self._committed = False + self.flush(sync=True) + self.parent.remove(self.name) + self.parent = newparent + self.name = newname + self.lock = self.parent.root_collection().lock + + +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, num_retries=None): + super(ArvadosFileReader, self).__init__(arvadosfile.name, "r", num_retries=num_retries) + self.arvadosfile = arvadosfile + + def size(self): + return self.arvadosfile.size() + + def stream_name(self): + return self.arvadosfile.parent.stream_name() + + @_FileLikeObjectBase._before_close + @retry_method + def read(self, size=None, num_retries=None): + """Read up to `size` bytes from the file and return the result. + + Starts at the current file position. If `size` is None, read the + entire remainder of the file. + """ + if size is None: + data = [] + rd = self.arvadosfile.readfrom(self._filepos, config.KEEP_BLOCK_SIZE, num_retries) + while rd: + data.append(rd) + self._filepos += len(rd) + rd = self.arvadosfile.readfrom(self._filepos, config.KEEP_BLOCK_SIZE, num_retries) + return ''.join(data) + else: + data = self.arvadosfile.readfrom(self._filepos, size, num_retries, exact=True) + self._filepos += len(data) + return data + + @_FileLikeObjectBase._before_close + @retry_method + def readfrom(self, offset, size, num_retries=None): + """Read up to `size` bytes from the stream, starting at the specified file offset. + + This method does not change the 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, mode, num_retries=None): + super(ArvadosFileWriter, self).__init__(arvadosfile, num_retries=num_retries) + self.mode = mode + + @_FileLikeObjectBase._before_close + @retry_method + def write(self, data, num_retries=None): + if self.mode[0] == "a": + self.arvadosfile.writeto(self.size(), data, num_retries) + else: + self.arvadosfile.writeto(self._filepos, data, num_retries) + self._filepos += len(data) + return len(data) + + @_FileLikeObjectBase._before_close + @retry_method + def writelines(self, seq, num_retries=None): + for s in seq: + self.write(s, num_retries=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() + + def close(self): + if not self.closed: + self.flush() + super(ArvadosFileWriter, self).close()