Optimised resource transfers, fixed resource transfer regression, removed txdelay from UDPInterface.
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@ -20,7 +20,7 @@ import RNS.vendor.umsgpack as umsgpack
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APP_NAME = "example_utilitites"
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# We'll also define a default timeout, in seconds
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APP_TIMEOUT = 15.0
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APP_TIMEOUT = 45.0
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##########################################################
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#### Server Part #########################################
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@ -5,15 +5,15 @@ Header Types
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type 1 00 Two byte header, one 10 byte address field
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type 2 01 Two byte header, two 10 byte address fields
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type 3 10 Reserved
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type 4 11 Reserved for extended header format
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type 4 11 Reserved
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Propagation Types
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-----------------
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broadcast 00
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transport 01
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relay 10
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tunnel 11
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reserved 10
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reserved 11
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Destination Types
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@ -11,10 +11,6 @@ class UdpInterface(Interface):
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def __init__(self, owner, name, bindip=None, bindport=None, forwardip=None, forwardport=None):
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self.IN = True
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self.OUT = False
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# TODO: Optimise so this is not needed
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self.transmit_delay = 0.001
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self.name = name
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if (bindip != None and bindport != None):
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@ -45,7 +41,6 @@ class UdpInterface(Interface):
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self.owner.inbound(data, self)
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def processOutgoing(self,data):
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time.sleep(self.transmit_delay)
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udp_socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
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udp_socket.setsockopt(socket.SOL_SOCKET, socket.SO_BROADCAST, 1)
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udp_socket.sendto(data, (self.forward_ip, self.forward_port))
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@ -15,13 +15,25 @@ class Resource:
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SDU = RNS.Packet.MDU
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RANDOM_HASH_SIZE = 4
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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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#
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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 hasmap
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# the resource in about 10 seconds.
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MAX_EFFICIENT_SIZE = 16 * 1024 * 1024
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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 = 32 * 1024 * 1024
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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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MAX_RETRIES = 2
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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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@ -72,6 +84,8 @@ class Resource:
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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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@ -344,14 +358,10 @@ class Resource:
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sleep(sleep_time)
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def assemble(self):
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# TODO: Optimise assembly. It's way too
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# slow for larger files
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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""
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for part in self.parts:
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stream += part
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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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@ -412,6 +422,10 @@ class Resource:
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def receive_part(self, packet):
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while self.receiving_part:
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sleep(0.001)
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self.receiving_part = True
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self.last_activity = time.time()
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self.retries_left = self.max_retries
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@ -439,21 +453,25 @@ class Resource:
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self.outstanding_parts -= 1
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# Update consecutive completed pointer
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if i == 0 or self.parts[i-1] != None and i == self.consecutive_completed_height:
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self.consecutive_completed_height = i+1
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cp = i+1
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while cp < len(self.parts) and self.parts[cp] != None:
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self.consecutive_completed_height = cp
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cp += 1
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if i == self.consecutive_completed_height + 1:
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self.consecutive_completed_height = i
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cp = self.consecutive_completed_height + 1
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while cp < len(self.parts) and self.parts[cp] != None:
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self.consecutive_completed_height = cp
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cp += 1
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i += 1
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self.receiving_part = False
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if self.__progress_callback != None:
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self.__progress_callback(self)
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if self.outstanding_parts == 0 and self.received_count == self.total_parts:
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self.assemble()
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elif self.outstanding_parts == 0:
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# TODO: Figure out if ther is a mathematically
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# TODO: Figure out if there is a mathematically
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# optimal way to adjust windows
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if self.window < self.window_max:
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self.window += 1
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@ -461,18 +479,25 @@ class Resource:
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self.window_min += 1
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self.request_next()
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else:
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self.receiving_part = False
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# Called on incoming resource to send a request for more data
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def request_next(self):
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while self.receiving_part:
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sleep(0.001)
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if not self.status == Resource.FAILED:
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if not self.waiting_for_hmu:
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self.outstanding_parts = 0
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hashmap_exhausted = Resource.HASHMAP_IS_NOT_EXHAUSTED
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requested_hashes = b""
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i = 0; pn = self.consecutive_completed_height
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for part in self.parts[self.consecutive_completed_height:self.consecutive_completed_height+self.window]:
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offset = (1 if self.consecutive_completed_height > 0 else 0)
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i = 0; pn = self.consecutive_completed_height+offset
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search_start = pn
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for part in self.parts[search_start:search_start+self.window]:
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if part == None:
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part_hash = self.hashmap[pn]
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if part_hash != None:
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@ -622,7 +647,6 @@ class Resource:
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class ResourceAdvertisement:
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# TODO: Can this be allocated dynamically? Keep in mind hashmap_update inference
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HASHMAP_MAX_LEN = 84
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COLLISION_GUARD_SIZE = 2*Resource.WINDOW_MAX+HASHMAP_MAX_LEN
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2
setup.py
2
setup.py
@ -5,7 +5,7 @@ with open("README.md", "r") as fh:
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setuptools.setup(
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name="rns",
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version="0.1.5",
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version="0.1.6",
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author="Mark Qvist",
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author_email="mark@unsigned.io",
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description="Self-configuring, encrypted and resilient mesh networking stack for LoRa, packet radio, WiFi and everything in between",
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