openwifi/user_space/side_ch_ctl_src/iq_capture.py
2020-10-19 10:13:51 +02:00

123 lines
3.5 KiB
Python
Executable File

#
# openwifi side info receive and display program
# Xianjun jiao. putaoshu@msn.com; xianjun.jiao@imec.be
#
import os
import sys
import socket
import numpy as np
import matplotlib.pyplot as plt
def display_iq(iq_capture, agc_gain, rssi_half_db):
fig_iq_capture = plt.figure(0)
fig_iq_capture.clf()
plt.xlabel("sample")
plt.ylabel("I/Q")
plt.title("I (blue) and Q (red) capture")
plt.plot(iq_capture.real, 'b')
plt.plot(iq_capture.imag, 'r')
plt.ylim(-32767, 32767)
fig_iq_capture.show()
plt.pause(0.0001)
agc_gain_lock = np.copy(agc_gain)
agc_gain_lock[agc_gain>127] = 80 # agc lock
agc_gain_lock[agc_gain<=127] = 0 # agc not lock
agc_gain_value = np.copy(agc_gain)
agc_gain_value[agc_gain>127] = agc_gain[agc_gain>127] - 128
fig_agc_gain = plt.figure(1)
fig_agc_gain.clf()
plt.xlabel("sample")
plt.ylabel("gain/lock")
plt.title("AGC gain (blue) and lock status (red)")
plt.plot(agc_gain_value, 'b')
plt.plot(agc_gain_lock, 'r')
plt.ylim(0, 82)
fig_agc_gain.show()
plt.pause(0.0001)
fig_rssi_half_db = plt.figure(2)
fig_rssi_half_db.clf()
plt.xlabel("sample")
plt.ylabel("dB")
plt.title("RSSI half dB (uncalibrated)")
plt.plot(rssi_half_db)
plt.ylim(100, 270)
fig_rssi_half_db.show()
plt.pause(0.0001)
def parse_iq(iq, iq_len):
# print(len(iq), iq_len)
num_dma_symbol_per_trans = 1 + iq_len
num_int16_per_trans = num_dma_symbol_per_trans*4 # 64bit per dma symbol
num_trans = round(len(iq)/num_int16_per_trans)
# print(len(iq), iq.dtype, num_trans)
iq = iq.reshape([num_trans, num_int16_per_trans])
timestamp = iq[:,0] + pow(2,16)*iq[:,1] + pow(2,32)*iq[:,2] + pow(2,48)*iq[:,3]
iq_capture = iq[:,4::4] + iq[:,5::4]*1j
agc_gain = iq[:,6::4]
rssi_half_db = iq[:,7::4]
# print(num_trans, iq_len, iq_capture.shape, agc_gain.shape, rssi_half_db.shape)
iq_capture = iq_capture.reshape([num_trans*iq_len,])
agc_gain = agc_gain.reshape([num_trans*iq_len,])
rssi_half_db = rssi_half_db.reshape([num_trans*iq_len,])
return timestamp, iq_capture, agc_gain, rssi_half_db
UDP_IP = "192.168.10.1" #Local IP to listen
UDP_PORT = 4000 #Local port to listen
sock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) # UDP
sock.bind((UDP_IP, UDP_PORT))
# align with side_ch_control.v and all related user space, remote files
MAX_NUM_DMA_SYMBOL = 8192
if len(sys.argv)<2:
print("Assume iq_len = 8187! (Max UDP 65507 bytes; (65507/8)-1 = 8187)")
iq_len = 8187
else:
iq_len = int(sys.argv[1])
print(iq_len)
# print(type(num_eq))
if iq_len>8187:
iq_len = 8187
print('Limit iq_len to 8187! (Max UDP 65507 bytes; (65507/8)-1 = 8187)')
num_dma_symbol_per_trans = 1 + iq_len
num_byte_per_trans = 8*num_dma_symbol_per_trans
if os.path.exists("iq.txt"):
os.remove("iq.txt")
iq_fd=open('iq.txt','a')
while True:
try:
data, addr = sock.recvfrom(MAX_NUM_DMA_SYMBOL*8) # buffer size
# print(addr)
test_residual = len(data)%num_byte_per_trans
# print(len(data)/8, num_dma_symbol_per_trans, test_residual)
if (test_residual != 0):
print("Abnormal length")
iq = np.frombuffer(data, dtype='int16')
np.savetxt(iq_fd, iq)
timestamp, iq_capture, agc_gain, rssi_half_db = parse_iq(iq, iq_len)
print(timestamp)
display_iq(iq_capture, agc_gain, rssi_half_db)
except KeyboardInterrupt:
print('User quit')
break
print('close()')
side_info_fd.close()
sock.close()