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https://github.com/liberatedsystems/openCom-Companion.git
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130 lines
5.0 KiB
Python
130 lines
5.0 KiB
Python
import os
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import math
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import RNS
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import RNS.vendor.umsgpack as mp
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def simulate(link_speed=9600, audio_slot_ms=70, codec_rate=1200, method="msgpack"):
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# Simulated on-air link speed
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LINK_SPEED = link_speed
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# Packing method, can be "msgpack" or "protobuf"
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PACKING_METHOD = method
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# The target audio slot time
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TARGET_MS = audio_slot_ms
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# Packets needed per second for half-duplex audio
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PACKETS_PER_SECOND = 1000/TARGET_MS
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# Effective audio encoder bitrate
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CODEC_RATE = codec_rate
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# Maximum number of supported audio modes
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MAX_ENUM = 127
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# Per-packet overhead on a established link is 19
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# bytes, 3 for header and context, 16 for link ID
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RNS_OVERHEAD = 19
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# Physical-layer overhead. For RNode, this is 1
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# byte per RNS packet.
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PHY_OVERHEAD = 1
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# Total transport overhead
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TRANSPORT_OVERHEAD = PHY_OVERHEAD+RNS_OVERHEAD
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# Calculate parameters
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AUDIO_LEN = int(math.ceil(CODEC_RATE/(1000/TARGET_MS)/8))
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PER_BYTE_LATENCY_MS = 1000/(LINK_SPEED/8)
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# Pack the message with msgpack to get real-
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# world packed message size
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if PACKING_METHOD == "msgpack":
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# Calculate msgpack overhead
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PL_LEN = len(mp.packb([MAX_ENUM, os.urandom(AUDIO_LEN)]))
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PACKING_OVERHEAD = PL_LEN-AUDIO_LEN
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elif PACKING_METHOD == "protobuf":
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# For protobuf, assume the 8 bytes of stated overhead
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PACKING_OVERHEAD = 8
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PL_LEN = AUDIO_LEN+PACKING_OVERHEAD
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else:
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print("Unsupported packing method")
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exit(1)
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# Calculate required encrypted token blocks
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BLOCKSIZE = 16
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REQUIRED_BLOCKS = math.ceil((PL_LEN+1)/BLOCKSIZE)
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ENCRYPTED_PAYLOAD_LEN = REQUIRED_BLOCKS*BLOCKSIZE
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BLOCK_HEADROOM = (REQUIRED_BLOCKS*BLOCKSIZE) - PL_LEN - 1
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# The complete on-air packet length
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PACKET_LEN = PHY_OVERHEAD+RNS_OVERHEAD+ENCRYPTED_PAYLOAD_LEN
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PACKET_LATENCY = round(PACKET_LEN*PER_BYTE_LATENCY_MS, 1)
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# TODO: This should include any additional
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# airtime consumption such as preamble and TX-tail.
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PACKET_AIRTIME = PACKET_LEN*PER_BYTE_LATENCY_MS
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AIRTIME_PCT = (PACKET_AIRTIME/TARGET_MS) * 100
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# Maximum amount of concurrent full-duplex
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# calls that can coexist on the same channel
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CONCURRENT_CALLS = math.floor(100/AIRTIME_PCT)
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# Calculate latencies
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TRANSPORT_LATENCY = round((PHY_OVERHEAD+RNS_OVERHEAD)*PER_BYTE_LATENCY_MS, 1)
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PAYLOAD_LATENCY = round(ENCRYPTED_PAYLOAD_LEN*PER_BYTE_LATENCY_MS, 1)
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RAW_DATA_LATENCY = round(AUDIO_LEN*PER_BYTE_LATENCY_MS, 1)
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PACKING_LATENCY = round(PACKING_OVERHEAD*PER_BYTE_LATENCY_MS, 1)
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DATA_LATENCY = round(ENCRYPTED_PAYLOAD_LEN*PER_BYTE_LATENCY_MS, 1)
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ENCRYPTION_LATENCY = round((ENCRYPTED_PAYLOAD_LEN-PL_LEN)*PER_BYTE_LATENCY_MS, 1)
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if ENCRYPTED_PAYLOAD_LEN-PL_LEN == 1:
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E_OPT_STR = "(optimal)"
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else:
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E_OPT_STR = "(sub-optimal)"
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TOTAL_LATENCY = round(TARGET_MS+PACKET_LATENCY, 1)
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print( "\n===== Simulation Parameters ===\n")
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print(f" Packing method : {method}")
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print(f" Sampling delay : {TARGET_MS}ms")
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print(f" Codec bitrate : {CODEC_RATE} bps")
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print(f" Audio data : {AUDIO_LEN} bytes")
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print(f" Packing overhead : {PACKING_OVERHEAD} bytes")
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print(f" Payload length : {PL_LEN} bytes")
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print(f" AES blocks needed : {REQUIRED_BLOCKS}")
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print(f" Encrypted payload : {ENCRYPTED_PAYLOAD_LEN} bytes")
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print(f" Transport overhead : {TRANSPORT_OVERHEAD} bytes ({RNS_OVERHEAD} from RNS, {PHY_OVERHEAD} from PHY)")
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print(f" On-air length : {PACKET_LEN} bytes")
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print(f" Packet airtime : {PACKET_AIRTIME}ms")
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print( "\n===== Results for "+RNS.prettyspeed(LINK_SPEED)+" Link Speed ===\n")
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print(f" Final latency : {TOTAL_LATENCY}ms")
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print(f" Recording latency : contributes {TARGET_MS}ms")
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print(f" Packet transport : contributes {PACKET_LATENCY}ms")
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print(f" Payload : contributes {PAYLOAD_LATENCY}ms")
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print(f" Audio data : contributes {RAW_DATA_LATENCY}ms")
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print(f" Packing format : contributes {PACKING_LATENCY}ms")
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print(f" Encryption : contributes {ENCRYPTION_LATENCY}ms {E_OPT_STR}")
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print(f" RNS+PHY overhead : contributes {TRANSPORT_LATENCY}ms")
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print(f"")
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print(f" Half-duplex airtime : {round(AIRTIME_PCT, 2)}% of link capacity")
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print(f" Concurrent calls : {int(CONCURRENT_CALLS)}\n")
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print(f" Full-duplex airtime : {round(AIRTIME_PCT*2, 2)}% of link capacity")
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print(f" Concurrent calls : {int(CONCURRENT_CALLS/2)}")
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if BLOCK_HEADROOM != 0:
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print("")
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print(f" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
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print(f" Unaligned AES block! Each packet could fit")
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print(f" {BLOCK_HEADROOM} bytes of additional audio data")
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print(f" !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!")
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print( "\n= With mspack =================")
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simulate(method="msgpack")
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#print("\n\n= With protobuf ===============")
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#simulate(method="protobuf")
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