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test.py
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test.py
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import random, socket, string, sys, time
class Tlv():
def __init__(self, id, val):
self.id = id
self.val = val
def to_bytes(self):
raw = bytearray()
raw.append(self.id >> 8)
raw.append(self.id & 0x00ff)
raw.append(len(self.val))
raw += bytearray(self.val)
return raw
class Msg():
version = 0x01
reserved = 0xff
def __init__(self, id):
self.id = id
self.seq = random.randint(0x0000, 0xffff)
self.tlvs = []
def append_tlv(self, tlv):
self.tlvs.append(tlv)
def to_bytes(self):
raw = bytearray()
raw.append(self.version)
raw.append(self.id >> 8)
raw.append(self.id & 0x00ff)
raw.append(self.seq >> 8)
raw.append(self.seq & 0x00ff)
raw.append(self.reserved)
raw.append(self.reserved)
for t in self.tlvs:
output = t.to_bytes()
raw += output
return raw
def get_hexstring(input):
hexstring = ""
for b in bytearray(input):
hexstring += "0x%02x " % b
return hexstring.rstrip()
def send_indigo_api(ip, port):
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
server_address = (ip, port)
for output in outputs:
try:
# Send Requset
print('sending request')
sent = sock.sendto(output, server_address)
# Receive ACK
print('waiting to receive ack')
data, server = sock.recvfrom(4096)
print('received "%s"' % get_hexstring(data))
# Receive Response
print('waiting to receive response')
data, server = sock.recvfrom(4096)
print('received "%s"' % get_hexstring(data))
print('(ascii) "%s"' % (data))
time.sleep(command_interval)
except Exception as e:
print(e)
print("An exception occurred and closing socket")
sock.close()
break
print("closing socket")
sock.close()
def send_indigo_api_raw(ip, port, raw):
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
server_address = (ip, port)
try:
# Send Requset
print('sending request')
sent = sock.sendto(raw, server_address)
# Receive ACK
print('waiting to receive ack')
data, server = sock.recvfrom(4096)
print('received "%s"' % get_hexstring(data))
# Receive Response
print('waiting to receive response')
data, server = sock.recvfrom(4096)
print('received "%s"' % get_hexstring(data))
print('(ascii) "%s"' % (data))
time.sleep(command_interval)
except Exception as e:
print(e)
print("An exception occurred and closing socket")
sock.close()
print("closing socket")
sock.close()
def test_get_control_app():
m = Msg(0x5002)
return m
def test_loopback_start(lb_port=55501):
m = Msg(0x5003)
m.append_tlv(Tlv(0x0054, bytes(b'%d' % lb_port)))
return m
def test_loopback_stop():
m = Msg(0x5004)
return m
def test_loopback_send_data():
m = Msg(0x5008)
m.append_tlv(Tlv(0x0058, bytes(b'10.252.10.32')))
m.append_tlv(Tlv(0x0054, bytes(b'20480')))
m.append_tlv(Tlv(0x0067, bytes(b'12')))
m.append_tlv(Tlv(0x0069, bytes(b'1')))
m.append_tlv(Tlv(0x00c0, bytes(b'1200')))
return m
def start_loopback_client(target_host, target_port=20480, count=10, size=1000):
recv_count = 0
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
server_address = (target_host, target_port)
letters = string.ascii_lowercase
for i in range(count):
loopback_data = ''.join(random.choice(letters) for i in range(size))
try:
# Send Requset
print('[count=%d] sending loopback data len=%d %s...' % (i, len(loopback_data), loopback_data[0:50]))
sent = sock.sendto(loopback_data, server_address)
# Receive Response
data, server = sock.recvfrom(4096)
print('[count=%d] received loopback data len=%d %s...' % (i, len(data), data[0:50]))
recv_count = recv_count + 1
except:
print("[count=%d] failed to send socket")
sock.close()
print("Percentage: %d%%" % int((float(recv_count)/float(count))*100) )
def test_ap_send_disassociate():
m = Msg(0x1004)
m.append_tlv(Tlv(0x0028, bytes(b'b8:5d:0a:62:b3:ee')))
return m
def test_sta_start_up():
m = Msg(0x2008)
m.append_tlv(Tlv(0x0097, bytes(b'udp:10240')))
return m
def test_sta_configure():
m = Msg(0x2001)
m.append_tlv(Tlv(0x0035, bytes(b'Indigo_1600155580'))) # SSID
m.append_tlv(Tlv(0x003a, bytes(b'12345678'))) # PSK
m.append_tlv(Tlv(0x003b, bytes(b'RSN'))) # PROTO
m.append_tlv(Tlv(0x003d, bytes(b'CCMP'))) # PAIRWISE
m.append_tlv(Tlv(0x003c, bytes(b'1'))) # STA_IEEE80211_W
m.append_tlv(Tlv(0x0036, bytes(b'WPA-PSK'))) # KEY_MGMT
return m
def test_sta_associate():
m = Msg(0x2000)
return m
def test_sta_disconnect():
m = Msg(0x2002)
return m
def test_ap_start():
m = Msg(0x1000)
return m
def test_ap_stop():
m = Msg(0x1001)
return m
def test_get_mac_addr():
m = Msg(0x5001)
return m
def test_ap_configure():
# Bytes to DUT : 01 10 02 01 51 ff ff 00 01 11 49 6e 64 69 67 6f 5f 31 36 30 32 38 33 39 35 39 34
# 00 07 01 31
# 00 02 02 31 31
# 00 1e 01 67
# 00 0e 20 30 31 32 33 34 35 36 37 38 39 61 62 63 64 65 66 30 31 32 33 34 35 36 37 38 39 61 62 63 64 65 66
# 00 0b 01 32
# 00 0c 03 53 41 45
# 00 0d 04 43 43 4d 50
m = Msg(0x1002)
m.append_tlv(Tlv(0x0001, bytes(b'Indigo_1602839594')))
m.append_tlv(Tlv(0x0007, bytes(b'1')))
m.append_tlv(Tlv(0x0002, bytes(b'11')))
m.append_tlv(Tlv(0x001e, bytes(b'g')))
m.append_tlv(Tlv(0x000e, bytes(b'0123456789abcdef0123456789abcdef')))
m.append_tlv(Tlv(0x000b, bytes(b'2')))
m.append_tlv(Tlv(0x000c, bytes(b'SAE')))
m.append_tlv(Tlv(0x000d, bytes(b'CCMP')))
# m.append_tlv(Tlv(0x000d, [0x43, 0x43, 0x4d, 0x50] ))
return m
def test_assign_static_ip():
# Bytes to DUT : 01 50 06 00 cc ff ff 00 55 0b 31 39 32 2e 31 36 38 2e 31 2e 31
m = Msg(0x5006)
m.append_tlv(Tlv(0x0055, bytes(b'192.168.1.1')))
return m
def test_device_reset():
# REQ: 01 50 07 01 4f ff ff 00 5c 01 32 00 57 01 30
# RSP: 01 00 01 01 4f ff ff a0 01 01 30 a0 00 15 41 43 4b 3a 20 43 6f 6d 6d 61 6e 64 20 72 65 63 65 69 76 65 64
m = Msg(0x5007)
m.append_tlv(Tlv(0x005c, bytes(0x32)))
m.append_tlv(Tlv(0x0057, bytes(0x30)))
return m
def test_hex_file(ip, port, fn):
raw = bytearray()
f = open(fn, "r")
txt = f.read()
data = txt.split(", ")
for d in data:
hex_int = int(d, 16)
raw.append(hex_int & 0x00ff)
send_indigo_api_raw(ip, port, raw)
command_interval = 1
outputs = []
# ContrlAppC ip and port
peer_ip = '10.252.10.139'
peer_port = 9004
if len(sys.argv) == 1:
m = test_get_control_app()
outputs.append(m.to_bytes())
elif len(sys.argv) >= 2:
if sys.argv[1] == "get_control_app":
m = test_get_control_app()
outputs.append(m.to_bytes())
elif sys.argv[1] == "loopback_start":
if len(sys.argv) == 3:
m = test_loopback_start(int(sys.argv[2]))
else:
m = test_loopback_start()
outputs.append(m.to_bytes())
elif sys.argv[1] == "loopback_test":
start_loopback_client(peer_ip, 20480, 10, 1000)
m = test_get_control_app()
outputs.append(m.to_bytes())
elif sys.argv[1] == "loopback_send_data":
m = test_loopback_send_data()
outputs.append(m.to_bytes())
elif sys.argv[1] == "loopback_stop":
m = test_loopback_stop()
outputs.append(m.to_bytes())
elif sys.argv[1] == "device_reset":
m = test_device_reset()
outputs.append(m.to_bytes())
elif sys.argv[1] == "ap_start":
m = test_ap_start()
outputs.append(m.to_bytes())
elif sys.argv[1] == "ap_stop":
m = test_ap_stop()
outputs.append(m.to_bytes())
elif sys.argv[1] == "ap_configure":
m = test_ap_configure()
outputs.append(m.to_bytes())
elif sys.argv[1] == "sta_start_up":
m = test_sta_start_up()
outputs.append(m.to_bytes())
elif sys.argv[1] == "sta_disconnect":
m = test_sta_disconnect()
outputs.append(m.to_bytes())
elif sys.argv[1] == "assign_static_ip":
m = test_assign_static_ip()
elif sys.argv[1] == "get_mac_addr":
m = test_get_mac_addr()
outputs.append(m.to_bytes())
elif sys.argv[1] == "file":
test_hex_file(peer_ip, peer_port, sys.argv[2])
sys.exit()
else:
m = test_get_control_app()
outputs.append(m.to_bytes())
send_indigo_api(peer_ip, peer_port)