mirror of
https://github.com/markqvist/Reticulum.git
synced 2024-11-26 15:30:18 +00:00
836 lines
35 KiB
Python
836 lines
35 KiB
Python
import RNS
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import os
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import bz2
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import math
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import time
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import threading
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from .vendor import umsgpack as umsgpack
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from time import sleep
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class Resource:
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"""
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The Resource class allows transferring arbitrary amounts
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of data over a link. It will automatically handle sequencing,
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compression, coordination and checksumming.
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:param data: The data to be transferred. Can be *bytes* or an open *file handle*. See the :ref:`Filetransfer Example<example-filetransfer>` for details.
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:param link: The :ref:`RNS.Link<api-link>` instance on which to transfer the data.
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:param advertise: Whether to automatically advertise the resource. Can be *True* or *False*.
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:param auto_compress: Whether to auto-compress the resource. Can be *True* or *False*.
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:param auto_compress: Whether the resource must be compressed. Can be *True* or *False*. Used for debugging, will disappear in the future.
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:param callback: A *callable* with the signature *callback(resource)*. Will be called when the resource transfer concludes.
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:param progress_callback: A *callable* with the signature *callback(resource)*. Will be called whenever the resource transfer progress is updated.
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:param segment_index: Internal use, ignore.
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:param original_hash: Internal use, ignore.
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"""
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WINDOW_FLEXIBILITY = 4
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WINDOW_MIN = 1
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WINDOW_MAX = 10
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WINDOW = 4
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MAPHASH_LEN = 4
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SDU = RNS.Packet.MDU
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RANDOM_HASH_SIZE = 4
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MAX_EFFICIENT_SIZE = 16 * 1024 * 1024
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"""
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This is an indication of what the
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maximum size a resource should be, if
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it is to be handled within reasonable
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time constraint, even on small systems.
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A small system in this regard is
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defined as a Raspberry Pi, which should
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be able to compress, encrypt and hash-map
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the resource in about 10 seconds.
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This constant will be used when determining
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how to sequence the sending of large resources.
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"""
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# The maximum size to auto-compress with
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# bz2 before sending.
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AUTO_COMPRESS_MAX_SIZE = MAX_EFFICIENT_SIZE
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# TODO: Should be allocated more
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# intelligently
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# TODO: Set higher
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MAX_RETRIES = 5
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SENDER_GRACE_TIME = 10
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RETRY_GRACE_TIME = 0.25
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HASHMAP_IS_NOT_EXHAUSTED = 0x00
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HASHMAP_IS_EXHAUSTED = 0xFF
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# Status constants
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NONE = 0x00
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QUEUED = 0x01
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ADVERTISED = 0x02
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TRANSFERRING = 0x03
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AWAITING_PROOF = 0x04
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ASSEMBLING = 0x05
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COMPLETE = 0x06
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FAILED = 0x07
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CORRUPT = 0x08
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@staticmethod
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def accept(advertisement_packet, callback=None, progress_callback = None):
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try:
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adv = ResourceAdvertisement.unpack(advertisement_packet.plaintext)
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resource = Resource(None, advertisement_packet.link)
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resource.status = Resource.TRANSFERRING
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resource.flags = adv.f
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resource.size = adv.t
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resource.total_size = adv.d
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resource.uncompressed_size = adv.d
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resource.hash = adv.h
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resource.original_hash = adv.o
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resource.random_hash = adv.r
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resource.hashmap_raw = adv.m
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resource.encrypted = True if resource.flags & 0x01 else False
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resource.compressed = True if resource.flags >> 1 & 0x01 else False
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resource.initiator = False
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resource.callback = callback
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resource.__progress_callback = progress_callback
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resource.total_parts = int(math.ceil(resource.size/float(Resource.SDU)))
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resource.received_count = 0
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resource.outstanding_parts = 0
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resource.parts = [None] * resource.total_parts
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resource.window = Resource.WINDOW
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resource.window_max = Resource.WINDOW_MAX
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resource.window_min = Resource.WINDOW_MIN
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resource.window_flexibility = Resource.WINDOW_FLEXIBILITY
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resource.last_activity = time.time()
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resource.storagepath = RNS.Reticulum.resourcepath+"/"+resource.original_hash.hex()
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resource.segment_index = adv.i
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resource.total_segments = adv.l
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if adv.l > 1:
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resource.split = True
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else:
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resource.split = False
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resource.hashmap = [None] * resource.total_parts
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resource.hashmap_height = 0
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resource.waiting_for_hmu = False
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resource.receiving_part = False
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resource.consecutive_completed_height = 0
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resource.link.register_incoming_resource(resource)
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RNS.log("Accepting resource advertisement for "+RNS.prettyhexrep(resource.hash), RNS.LOG_DEBUG)
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resource.link.callbacks.resource_started(resource)
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resource.hashmap_update(0, resource.hashmap_raw)
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resource.watchdog_job()
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return resource
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except Exception as e:
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RNS.log("Could not decode resource advertisement, dropping resource", RNS.LOG_DEBUG)
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return None
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# Create a resource for transmission to a remote destination
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# The data passed can be either a bytes-array or a file opened
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# in binary read mode.
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def __init__(self, data, link, advertise=True, auto_compress=True, must_compress=False, callback=None, progress_callback=None, segment_index = 1, original_hash = None):
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data_size = None
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resource_data = None
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if hasattr(data, "read"):
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data_size = os.stat(data.name).st_size
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self.total_size = data_size
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self.grand_total_parts = math.ceil(data_size/Resource.SDU)
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if data_size <= Resource.MAX_EFFICIENT_SIZE:
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self.total_segments = 1
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self.segment_index = 1
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self.split = False
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resource_data = data.read()
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data.close()
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else:
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self.total_segments = ((data_size-1)//Resource.MAX_EFFICIENT_SIZE)+1
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self.segment_index = segment_index
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self.split = True
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seek_index = segment_index-1
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seek_position = seek_index*Resource.MAX_EFFICIENT_SIZE
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data.seek(seek_position)
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resource_data = data.read(Resource.MAX_EFFICIENT_SIZE)
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self.input_file = data
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elif isinstance(data, bytes):
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data_size = len(data)
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self.grand_total_parts = math.ceil(data_size/Resource.SDU)
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self.total_size = data_size
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resource_data = data
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self.total_segments = 1
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self.segment_index = 1
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self.split = False
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elif data == None:
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pass
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else:
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raise TypeError("Invalid data instance type passed to resource initialisation")
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data = resource_data
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self.status = Resource.NONE
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self.link = link
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self.max_retries = Resource.MAX_RETRIES
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self.retries_left = self.max_retries
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self.default_timeout = self.link.default_timeout
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self.timeout_factor = self.link.timeout_factor
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self.sender_grace_time = Resource.SENDER_GRACE_TIME
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self.hmu_retry_ok = False
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self.watchdog_lock = False
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self.__watchdog_job_id = 0
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self.__progress_callback = progress_callback
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self.rtt = None
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self.receiver_min_consecutive_height = 0
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if data != None:
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self.initiator = True
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self.callback = callback
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self.uncompressed_data = data
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compression_began = time.time()
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if must_compress or (auto_compress and len(self.uncompressed_data) < Resource.AUTO_COMPRESS_MAX_SIZE):
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RNS.log("Compressing resource data...", RNS.LOG_DEBUG)
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self.compressed_data = bz2.compress(self.uncompressed_data)
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RNS.log("Compression completed in "+str(round(time.time()-compression_began, 3))+" seconds", RNS.LOG_DEBUG)
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else:
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self.compressed_data = self.uncompressed_data
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self.uncompressed_size = len(self.uncompressed_data)
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self.compressed_size = len(self.compressed_data)
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if (self.compressed_size < self.uncompressed_size and auto_compress):
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saved_bytes = len(self.uncompressed_data) - len(self.compressed_data)
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RNS.log("Compression saved "+str(saved_bytes)+" bytes, sending compressed", RNS.LOG_DEBUG)
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self.data = b""
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self.data += RNS.Identity.get_random_hash()[:Resource.RANDOM_HASH_SIZE]
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self.data += self.compressed_data
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self.compressed = True
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self.uncompressed_data = None
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else:
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self.data = b""
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self.data += RNS.Identity.get_random_hash()[:Resource.RANDOM_HASH_SIZE]
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self.data += self.uncompressed_data
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self.uncompressed_data = self.data
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self.compressed = False
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self.compressed_data = None
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if auto_compress:
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RNS.log("Compression did not decrease size, sending uncompressed", RNS.LOG_DEBUG)
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# Resources handle encryption directly to
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# make optimal use of packet MTU on an entire
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# encrypted stream. The Resource instance will
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# use it's underlying link directly to encrypt.
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if not self.link.encryption_disabled():
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self.data = self.link.encrypt(self.data)
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self.encrypted = True
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else:
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self.encrypted = False
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self.size = len(self.data)
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self.sent_parts = 0
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hashmap_entries = int(math.ceil(self.size/float(Resource.SDU)))
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hashmap_ok = False
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while not hashmap_ok:
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hashmap_computation_began = time.time()
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RNS.log("Starting resource hashmap computation with "+str(hashmap_entries)+" entries...", RNS.LOG_DEBUG)
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self.random_hash = RNS.Identity.get_random_hash()[:Resource.RANDOM_HASH_SIZE]
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self.hash = RNS.Identity.full_hash(data+self.random_hash)
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self.expected_proof = RNS.Identity.full_hash(data+self.hash)
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if original_hash == None:
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self.original_hash = self.hash
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else:
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self.original_hash = original_hash
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self.parts = []
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self.hashmap = b""
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collision_guard_list = []
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for i in range(0,hashmap_entries):
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data = self.data[i*Resource.SDU:(i+1)*Resource.SDU]
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map_hash = self.get_map_hash(data)
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if map_hash in collision_guard_list:
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RNS.log("Found hash collision in resource map, remapping...", RNS.LOG_VERBOSE)
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hashmap_ok = False
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break
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else:
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hashmap_ok = True
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collision_guard_list.append(map_hash)
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if len(collision_guard_list) > ResourceAdvertisement.COLLISION_GUARD_SIZE:
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collision_guard_list.pop(0)
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part = RNS.Packet(link, data, context=RNS.Packet.RESOURCE)
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part.pack()
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part.map_hash = map_hash
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self.hashmap += part.map_hash
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self.parts.append(part)
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RNS.log("Hashmap computation concluded in "+str(round(time.time()-hashmap_computation_began, 3))+" seconds", RNS.LOG_DEBUG)
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if advertise:
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self.advertise()
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else:
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pass
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def hashmap_update_packet(self, plaintext):
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if not self.status == Resource.FAILED:
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self.last_activity = time.time()
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self.retries_left = self.max_retries
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update = umsgpack.unpackb(plaintext[RNS.Identity.HASHLENGTH//8:])
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self.hashmap_update(update[0], update[1])
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def hashmap_update(self, segment, hashmap):
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if not self.status == Resource.FAILED:
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self.status = Resource.TRANSFERRING
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seg_len = ResourceAdvertisement.HASHMAP_MAX_LEN
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hashes = len(hashmap)//Resource.MAPHASH_LEN
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for i in range(0,hashes):
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if self.hashmap[i+segment*seg_len] == None:
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self.hashmap_height += 1
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self.hashmap[i+segment*seg_len] = hashmap[i*Resource.MAPHASH_LEN:(i+1)*Resource.MAPHASH_LEN]
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self.waiting_for_hmu = False
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self.request_next()
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def get_map_hash(self, data):
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# TODO: This will break if running unencrypted,
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# uncompressed transfers on streams with long blocks
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# of identical bytes. Doing so would be very silly
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# anyways but maybe it should be handled gracefully.
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return RNS.Identity.full_hash(data+self.random_hash)[:Resource.MAPHASH_LEN]
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def advertise(self):
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"""
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Advertise the resource. If the other end of the link accepts
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the resource advertisement it will begin transferring.
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"""
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thread = threading.Thread(target=self.__advertise_job)
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thread.setDaemon(True)
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thread.start()
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def __advertise_job(self):
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data = ResourceAdvertisement(self).pack()
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self.advertisement_packet = RNS.Packet(self.link, data, context=RNS.Packet.RESOURCE_ADV)
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while not self.link.ready_for_new_resource():
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self.status = Resource.QUEUED
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sleep(0.25)
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try:
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self.advertisement_packet.send()
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self.last_activity = time.time()
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self.adv_sent = self.last_activity
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self.rtt = None
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self.status = Resource.ADVERTISED
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self.link.register_outgoing_resource(self)
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RNS.log("Sent resource advertisement for "+RNS.prettyhexrep(self.hash), RNS.LOG_DEBUG)
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except Exception as e:
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RNS.log("Could not advertise resource, the contained exception was: "+str(e), RNS.LOG_ERROR)
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self.cancel()
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return
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self.watchdog_job()
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def watchdog_job(self):
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thread = threading.Thread(target=self.__watchdog_job)
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thread.setDaemon(True)
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thread.start()
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def __watchdog_job(self):
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self.__watchdog_job_id += 1
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this_job_id = self.__watchdog_job_id
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while self.status < Resource.ASSEMBLING and this_job_id == self.__watchdog_job_id:
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while self.watchdog_lock:
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sleep(0.025)
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sleep_time = None
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if self.status == Resource.ADVERTISED:
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sleep_time = (self.adv_sent+self.default_timeout)-time.time()
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if sleep_time < 0:
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if self.retries_left <= 0:
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RNS.log("Resource transfer timeout after sending advertisement", RNS.LOG_DEBUG)
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self.cancel()
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sleep_time = 0.001
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else:
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try:
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RNS.log("No part requests received, retrying resource advertisement...", RNS.LOG_DEBUG)
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self.retries_left -= 1
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self.advertisement_packet.resend()
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self.last_activity = time.time()
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self.adv_sent = self.last_activity
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sleep_time = 0.001
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except Exception as e:
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RNS.log("Could not resend advertisement packet, cancelling resource", RNS.LOG_VERBOSE)
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self.cancel()
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elif self.status == Resource.TRANSFERRING:
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if not self.initiator:
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rtt = self.link.rtt if self.rtt == None else self.rtt
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sleep_time = self.last_activity + (rtt*self.timeout_factor) + Resource.RETRY_GRACE_TIME - time.time()
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if sleep_time < 0:
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if self.retries_left > 0:
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RNS.log("Timed out waiting for parts, requesting retry", RNS.LOG_DEBUG)
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if self.window > self.window_min:
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self.window -= 1
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if self.window_max > self.window_min:
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self.window_max -= 1
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if (self.window_max - self.window) > (self.window_flexibility-1):
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self.window_max -= 1
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sleep_time = 0.001
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self.retries_left -= 1
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self.waiting_for_hmu = False
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self.request_next()
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else:
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self.cancel()
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sleep_time = 0.001
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else:
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max_wait = self.rtt * self.timeout_factor * self.max_retries + self.sender_grace_time
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sleep_time = self.last_activity + max_wait - time.time()
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if sleep_time < 0:
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RNS.log("Resource timed out waiting for part requests", RNS.LOG_DEBUG)
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self.cancel()
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sleep_time = 0.001
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elif self.status == Resource.AWAITING_PROOF:
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sleep_time = self.last_part_sent + (self.rtt*self.timeout_factor+self.sender_grace_time) - time.time()
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if sleep_time < 0:
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if self.retries_left <= 0:
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RNS.log("Resource timed out waiting for proof", RNS.LOG_DEBUG)
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self.cancel()
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sleep_time = 0.001
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else:
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RNS.log("All parts sent, but no resource proof received, querying network cache...", RNS.LOG_DEBUG)
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self.retries_left -= 1
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expected_data = self.hash + self.expected_proof
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expected_proof_packet = RNS.Packet(self.link, expected_data, packet_type=RNS.Packet.PROOF, context=RNS.Packet.RESOURCE_PRF)
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expected_proof_packet.pack()
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RNS.Transport.cache_request(expected_proof_packet.packet_hash, self.link)
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self.last_part_sent = time.time()
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sleep_time = 0.001
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if sleep_time == 0:
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RNS.log("Warning! Link watchdog sleep time of 0!", RNS.LOG_WARNING)
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if sleep_time == None or sleep_time < 0:
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RNS.log("Timing error, cancelling resource transfer.", RNS.LOG_ERROR)
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self.cancel()
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if sleep_time != None:
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sleep(sleep_time)
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def assemble(self):
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if not self.status == Resource.FAILED:
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try:
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self.status = Resource.ASSEMBLING
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stream = b"".join(self.parts)
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if self.encrypted:
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data = self.link.decrypt(stream)
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else:
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data = stream
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# Strip off random hash
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data = data[Resource.RANDOM_HASH_SIZE:]
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if self.compressed:
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self.data = bz2.decompress(data)
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else:
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self.data = data
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calculated_hash = RNS.Identity.full_hash(self.data+self.random_hash)
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if calculated_hash == self.hash:
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self.file = open(self.storagepath, "ab")
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self.file.write(self.data)
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self.file.close()
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self.status = Resource.COMPLETE
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self.prove()
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else:
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self.status = Resource.CORRUPT
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except Exception as e:
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RNS.log("Error while assembling received resource.", RNS.LOG_ERROR)
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RNS.log("The contained exception was: "+str(e), RNS.LOG_ERROR)
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self.status = Resource.CORRUPT
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self.link.resource_concluded(self)
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if self.segment_index == self.total_segments:
|
|
if self.callback != None:
|
|
self.data = open(self.storagepath, "rb")
|
|
self.callback(self)
|
|
|
|
try:
|
|
self.data.close()
|
|
os.unlink(self.storagepath)
|
|
except Exception as e:
|
|
RNS.log("Error while cleaning up resource files, the contained exception was:", RNS.LOG_ERROR)
|
|
RNS.log(str(e))
|
|
else:
|
|
RNS.log("Resource segment "+str(self.segment_index)+" of "+str(self.total_segments)+" received, waiting for next segment to be announced", RNS.LOG_DEBUG)
|
|
|
|
|
|
def prove(self):
|
|
if not self.status == Resource.FAILED:
|
|
try:
|
|
proof = RNS.Identity.full_hash(self.data+self.hash)
|
|
proof_data = self.hash+proof
|
|
proof_packet = RNS.Packet(self.link, proof_data, packet_type=RNS.Packet.PROOF, context=RNS.Packet.RESOURCE_PRF)
|
|
proof_packet.send()
|
|
except Exception as e:
|
|
RNS.log("Could not send proof packet, cancelling resource", RNS.LOG_DEBUG)
|
|
RNS.log("The contained exception was: "+str(e), RNS.LOG_DEBUG)
|
|
self.cancel()
|
|
|
|
def validate_proof(self, proof_data):
|
|
if not self.status == Resource.FAILED:
|
|
if len(proof_data) == RNS.Identity.HASHLENGTH//8*2:
|
|
if proof_data[RNS.Identity.HASHLENGTH//8:] == self.expected_proof:
|
|
self.status = Resource.COMPLETE
|
|
self.link.resource_concluded(self)
|
|
if self.segment_index == self.total_segments:
|
|
# If all segments were processed, we'll
|
|
# signal that the resource sending concluded
|
|
if self.callback != None:
|
|
self.callback(self)
|
|
else:
|
|
# Otherwise we'll recursively create the
|
|
# next segment of the resource
|
|
Resource(self.input_file, self.link, callback = self.callback, segment_index = self.segment_index+1, original_hash=self.original_hash)
|
|
else:
|
|
pass
|
|
else:
|
|
pass
|
|
|
|
|
|
def receive_part(self, packet):
|
|
while self.receiving_part:
|
|
sleep(0.001)
|
|
|
|
self.receiving_part = True
|
|
self.last_activity = time.time()
|
|
self.retries_left = self.max_retries
|
|
|
|
if self.req_resp == None:
|
|
self.req_resp = self.last_activity
|
|
rtt = self.req_resp-self.req_sent
|
|
if self.rtt == None:
|
|
self.rtt = rtt
|
|
self.watchdog_job()
|
|
elif self.rtt < rtt:
|
|
self.rtt = rtt
|
|
|
|
if not self.status == Resource.FAILED:
|
|
self.status = Resource.TRANSFERRING
|
|
part_data = packet.data
|
|
part_hash = self.get_map_hash(part_data)
|
|
|
|
i = self.consecutive_completed_height
|
|
for map_hash in self.hashmap[self.consecutive_completed_height:self.consecutive_completed_height+self.window]:
|
|
if map_hash == part_hash:
|
|
if self.parts[i] == None:
|
|
# Insert data into parts list
|
|
self.parts[i] = part_data
|
|
self.received_count += 1
|
|
self.outstanding_parts -= 1
|
|
|
|
# Update consecutive completed pointer
|
|
if i == self.consecutive_completed_height + 1:
|
|
self.consecutive_completed_height = i
|
|
|
|
cp = self.consecutive_completed_height + 1
|
|
while cp < len(self.parts) and self.parts[cp] != None:
|
|
self.consecutive_completed_height = cp
|
|
cp += 1
|
|
|
|
i += 1
|
|
|
|
self.receiving_part = False
|
|
|
|
if self.__progress_callback != None:
|
|
self.__progress_callback(self)
|
|
|
|
if self.outstanding_parts == 0 and self.received_count == self.total_parts:
|
|
self.assemble()
|
|
elif self.outstanding_parts == 0:
|
|
# TODO: Figure out if there is a mathematically
|
|
# optimal way to adjust windows
|
|
if self.window < self.window_max:
|
|
self.window += 1
|
|
if (self.window - self.window_min) > (self.window_flexibility-1):
|
|
self.window_min += 1
|
|
|
|
self.request_next()
|
|
else:
|
|
self.receiving_part = False
|
|
|
|
# Called on incoming resource to send a request for more data
|
|
def request_next(self):
|
|
while self.receiving_part:
|
|
sleep(0.001)
|
|
|
|
if not self.status == Resource.FAILED:
|
|
if not self.waiting_for_hmu:
|
|
self.outstanding_parts = 0
|
|
hashmap_exhausted = Resource.HASHMAP_IS_NOT_EXHAUSTED
|
|
requested_hashes = b""
|
|
|
|
offset = (1 if self.consecutive_completed_height > 0 else 0)
|
|
i = 0; pn = self.consecutive_completed_height+offset
|
|
search_start = pn
|
|
|
|
for part in self.parts[search_start:search_start+self.window]:
|
|
if part == None:
|
|
part_hash = self.hashmap[pn]
|
|
if part_hash != None:
|
|
requested_hashes += part_hash
|
|
self.outstanding_parts += 1
|
|
i += 1
|
|
else:
|
|
hashmap_exhausted = Resource.HASHMAP_IS_EXHAUSTED
|
|
|
|
pn += 1
|
|
if i >= self.window or hashmap_exhausted == Resource.HASHMAP_IS_EXHAUSTED:
|
|
break
|
|
|
|
hmu_part = bytes([hashmap_exhausted])
|
|
if hashmap_exhausted == Resource.HASHMAP_IS_EXHAUSTED:
|
|
last_map_hash = self.hashmap[self.hashmap_height-1]
|
|
hmu_part += last_map_hash
|
|
self.waiting_for_hmu = True
|
|
|
|
requested_data = b""
|
|
request_data = hmu_part + self.hash + requested_hashes
|
|
request_packet = RNS.Packet(self.link, request_data, context = RNS.Packet.RESOURCE_REQ)
|
|
|
|
try:
|
|
request_packet.send()
|
|
self.last_activity = time.time()
|
|
self.req_sent = self.last_activity
|
|
self.req_resp = None
|
|
except Exception as e:
|
|
RNS.log("Could not send resource request packet, cancelling resource", RNS.LOG_DEBUG)
|
|
RNS.log("The contained exception was: "+str(e), RNS.LOG_DEBUG)
|
|
self.cancel()
|
|
|
|
# Called on outgoing resource to make it send more data
|
|
def request(self, request_data):
|
|
if not self.status == Resource.FAILED:
|
|
rtt = time.time() - self.adv_sent
|
|
if self.rtt == None:
|
|
self.rtt = rtt
|
|
|
|
if self.status != Resource.TRANSFERRING:
|
|
self.status = Resource.TRANSFERRING
|
|
self.watchdog_job()
|
|
|
|
self.retries_left = self.max_retries
|
|
|
|
wants_more_hashmap = True if request_data[0] == Resource.HASHMAP_IS_EXHAUSTED else False
|
|
pad = 1+Resource.MAPHASH_LEN if wants_more_hashmap else 1
|
|
|
|
requested_hashes = request_data[pad+RNS.Identity.HASHLENGTH//8:]
|
|
|
|
for i in range(0,len(requested_hashes)//Resource.MAPHASH_LEN):
|
|
requested_hash = requested_hashes[i*Resource.MAPHASH_LEN:(i+1)*Resource.MAPHASH_LEN]
|
|
|
|
search_start = self.receiver_min_consecutive_height
|
|
search_end = self.receiver_min_consecutive_height+ResourceAdvertisement.COLLISION_GUARD_SIZE
|
|
for part in self.parts[search_start:search_end]:
|
|
if part.map_hash == requested_hash:
|
|
try:
|
|
if not part.sent:
|
|
part.send()
|
|
self.sent_parts += 1
|
|
else:
|
|
part.resend()
|
|
self.last_activity = time.time()
|
|
self.last_part_sent = self.last_activity
|
|
break
|
|
except Exception as e:
|
|
RNS.log("Resource could not send parts, cancelling transfer!", RNS.LOG_DEBUG)
|
|
RNS.log("The contained exception was: "+str(e), RNS.LOG_DEBUG)
|
|
self.cancel()
|
|
|
|
if wants_more_hashmap:
|
|
last_map_hash = request_data[1:Resource.MAPHASH_LEN+1]
|
|
|
|
part_index = self.receiver_min_consecutive_height
|
|
search_start = part_index
|
|
search_end = self.receiver_min_consecutive_height+ResourceAdvertisement.COLLISION_GUARD_SIZE
|
|
for part in self.parts[search_start:search_end]:
|
|
part_index += 1
|
|
if part.map_hash == last_map_hash:
|
|
break
|
|
|
|
self.receiver_min_consecutive_height = max(part_index-1-Resource.WINDOW_MAX, 0)
|
|
|
|
if part_index % ResourceAdvertisement.HASHMAP_MAX_LEN != 0:
|
|
RNS.log("Resource sequencing error, cancelling transfer!", RNS.LOG_ERROR)
|
|
self.cancel()
|
|
else:
|
|
segment = part_index // ResourceAdvertisement.HASHMAP_MAX_LEN
|
|
|
|
|
|
hashmap_start = segment*ResourceAdvertisement.HASHMAP_MAX_LEN
|
|
hashmap_end = min((segment+1)*ResourceAdvertisement.HASHMAP_MAX_LEN, len(self.parts))
|
|
|
|
hashmap = b""
|
|
for i in range(hashmap_start,hashmap_end):
|
|
hashmap += self.hashmap[i*Resource.MAPHASH_LEN:(i+1)*Resource.MAPHASH_LEN]
|
|
|
|
hmu = self.hash+umsgpack.packb([segment, hashmap])
|
|
hmu_packet = RNS.Packet(self.link, hmu, context = RNS.Packet.RESOURCE_HMU)
|
|
|
|
try:
|
|
hmu_packet.send()
|
|
self.last_activity = time.time()
|
|
except Exception as e:
|
|
RNS.log("Could not send resource HMU packet, cancelling resource", RNS.LOG_DEBUG)
|
|
RNS.log("The contained exception was: "+str(e), RNS.LOG_DEBUG)
|
|
self.cancel()
|
|
|
|
if self.sent_parts == len(self.parts):
|
|
self.status = Resource.AWAITING_PROOF
|
|
|
|
if self.__progress_callback != None:
|
|
self.__progress_callback(self)
|
|
|
|
def cancel(self):
|
|
"""
|
|
Cancels transferring the resource.
|
|
"""
|
|
if self.status < Resource.COMPLETE:
|
|
self.status = Resource.FAILED
|
|
if self.initiator:
|
|
if self.link.status == RNS.Link.ACTIVE:
|
|
try:
|
|
cancel_packet = RNS.Packet(self.link, self.hash, context=RNS.Packet.RESOURCE_ICL)
|
|
cancel_packet.send()
|
|
except Exception as e:
|
|
RNS.log("Could not send resource cancel packet, the contained exception was: "+str(e), RNS.LOG_ERROR)
|
|
self.link.cancel_outgoing_resource(self)
|
|
else:
|
|
self.link.cancel_incoming_resource(self)
|
|
|
|
if self.callback != None:
|
|
self.link.resource_concluded(self)
|
|
self.callback(self)
|
|
|
|
def progress_callback(self, callback):
|
|
self.__progress_callback = callback
|
|
|
|
def progress(self):
|
|
"""
|
|
:returns: The current progress of the resource transfer as a *float* between 0.0 and 1.0.
|
|
"""
|
|
if self.initiator:
|
|
# TODO: Remove
|
|
# progress = self.sent_parts / len(self.parts)
|
|
self.processed_parts = (self.segment_index-1)*math.ceil(Resource.MAX_EFFICIENT_SIZE/Resource.SDU)
|
|
self.processed_parts += self.sent_parts
|
|
self.progress_total_parts = float(self.grand_total_parts)
|
|
else:
|
|
self.processed_parts = (self.segment_index-1)*math.ceil(Resource.MAX_EFFICIENT_SIZE/Resource.SDU)
|
|
self.processed_parts += self.received_count
|
|
if self.split:
|
|
self.progress_total_parts = float(math.ceil(self.total_size/Resource.SDU))
|
|
else:
|
|
self.progress_total_parts = float(self.total_parts)
|
|
|
|
|
|
progress = self.processed_parts / self.progress_total_parts
|
|
return progress
|
|
|
|
def __str__(self):
|
|
return RNS.prettyhexrep(self.hash)+str(self.link)
|
|
|
|
|
|
class ResourceAdvertisement:
|
|
HASHMAP_MAX_LEN = 73
|
|
COLLISION_GUARD_SIZE = 2*Resource.WINDOW_MAX+HASHMAP_MAX_LEN
|
|
|
|
def __init__(self, resource=None):
|
|
if resource != None:
|
|
self.t = resource.size # Transfer size
|
|
self.d = resource.total_size # Total uncompressed data size
|
|
self.n = len(resource.parts) # Number of parts
|
|
self.h = resource.hash # Resource hash
|
|
self.r = resource.random_hash # Resource random hash
|
|
self.o = resource.original_hash # First-segment hash
|
|
self.m = resource.hashmap # Resource hashmap
|
|
self.c = resource.compressed # Compression flag
|
|
self.e = resource.encrypted # Encryption flag
|
|
self.s = resource.split # Split flag
|
|
self.i = resource.segment_index # Segment index
|
|
self.l = resource.total_segments # Total segments
|
|
self.f = 0x00 | self.s << 2 | self.c << 1 | self.e # Flags
|
|
|
|
def pack(self, segment=0):
|
|
hashmap_start = segment*ResourceAdvertisement.HASHMAP_MAX_LEN
|
|
hashmap_end = min((segment+1)*(ResourceAdvertisement.HASHMAP_MAX_LEN), self.n)
|
|
|
|
hashmap = b""
|
|
for i in range(hashmap_start,hashmap_end):
|
|
hashmap += self.m[i*Resource.MAPHASH_LEN:(i+1)*Resource.MAPHASH_LEN]
|
|
|
|
dictionary = {
|
|
"t": self.t, # Transfer size
|
|
"d": self.d, # Data size
|
|
"n": self.n, # Number of parts
|
|
"h": self.h, # Resource hash
|
|
"r": self.r, # Resource random hash
|
|
"o": self.o, # Original hash
|
|
"i": self.i, # Segment index
|
|
"l": self.l, # Total segments
|
|
"f": self.f, # Resource flags
|
|
"m": hashmap
|
|
}
|
|
|
|
return umsgpack.packb(dictionary)
|
|
|
|
@staticmethod
|
|
def unpack(data):
|
|
dictionary = umsgpack.unpackb(data)
|
|
|
|
adv = ResourceAdvertisement()
|
|
adv.t = dictionary["t"]
|
|
adv.d = dictionary["d"]
|
|
adv.n = dictionary["n"]
|
|
adv.h = dictionary["h"]
|
|
adv.r = dictionary["r"]
|
|
adv.o = dictionary["o"]
|
|
adv.m = dictionary["m"]
|
|
adv.f = dictionary["f"]
|
|
adv.i = dictionary["i"]
|
|
adv.l = dictionary["l"]
|
|
adv.e = True if (adv.f & 0x01) == 0x01 else False
|
|
adv.c = True if ((adv.f >> 1) & 0x01) == 0x01 else False
|
|
adv.s = True if ((adv.f >> 2) & 0x01) == 0x01 else False
|
|
|
|
return adv |