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DroneDetector
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4 Commits
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Author SHA1 Message Date
Sergey Revyakin 45283cf7c9 удалил лишний дамп 3 days ago
Sergey Revyakin 74bb2d9ce2 добавил новые сервисы 3 days ago
Sergey Revyakin 280e576a38 добавил новые сервисы 3 days ago
Sergey Revyakin 931ac9052f поменял усиление 6 days ago
31 changed files with 1457 additions and 1056 deletions
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5
README.md
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@ -165,14 +165,15 @@ sudo systemctl status dronedetector-sdr-2400.service
```bash
sudo systemctl stop dronedetector-sdr-433.service
sudo systemctl stop dronedetector-sdr-750.service
sudo systemctl stop dronedetector-sdr-868.service
sudo systemctl stop dronedetector-sdr-3300.service
sudo systemctl stop dronedetector-sdr-4500.service
sudo systemctl stop dronedetector-sdr-5200.service
sudo systemctl stop dronedetector-sdr-5800.service
sudo systemctl stop dronedetector-sdr-915.service
sudo systemctl stop dronedetector-sdr-1200.service
sudo systemctl stop dronedetector-sdr-2400.service
sudo systemctl stop dronedetector-sdr-1500.service
sudo systemctl stop dronedetector-sdr-868.service
sudo systemctl stop dronedetector-sdr-868-915.service
```

4
common/runtime.py
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@ -70,7 +70,7 @@ def validate_env(source: str, schema: Dict[str, Callable[[str], Any]]) -> Dict[s
def resolve_hackrf_index(serial_env_key: str, source: str) -> str:
"""Resolve HackRF index from expected serial in env."""
"""Resolve HackRF osmosdr selector from expected serial in env."""
serial = validate_env(source, {serial_env_key: as_str})[serial_env_key]
try:
@ -96,4 +96,4 @@ def resolve_hackrf_index(serial_env_key: str, source: str) -> str:
f"[{source}] serial {serial!r} not found among connected HackRF devices: {serials}"
)
return str(serials.index(serial))
return serial

3
common/shared_stream_addrs.py
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@ -0,0 +1,3 @@
SHARED_VECTOR_LEN = 4096
SHARED_868_ADDR = 'tcp://127.0.0.1:35068'
SHARED_915_ADDR = 'tcp://127.0.0.1:35069'

19
deploy/systemd/dronedetector-sdr-1500.service
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@ -0,0 +1,19 @@
[Unit]
Description=DroneDetector SDR Scanner 1500 MHz
After=network-online.target
Wants=network-online.target
[Service]
Type=simple
User=__RUN_USER__
Group=__RUN_GROUP__
WorkingDirectory=__PROJECT_ROOT__
EnvironmentFile=__PROJECT_ROOT__/.env
Environment=PYTHONPATH=__PROJECT_ROOT__
ExecStartPre=/usr/local/bin/dronedetector-precheck-sdr.sh
ExecStart=__PROJECT_ROOT__/.venv-sdr/bin/python src/main_1500.py
Restart=always
RestartSec=3
[Install]
WantedBy=multi-user.target

19
deploy/systemd/dronedetector-sdr-868-915.service
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@ -0,0 +1,19 @@
[Unit]
Description=DroneDetector SDR Router 868/915 Shared HackRF
After=network-online.target
Wants=network-online.target
[Service]
Type=simple
User=__RUN_USER__
Group=__RUN_GROUP__
WorkingDirectory=__PROJECT_ROOT__
EnvironmentFile=__PROJECT_ROOT__/.env
Environment=PYTHONPATH=__PROJECT_ROOT__
ExecStartPre=/usr/local/bin/dronedetector-precheck-sdr.sh
ExecStart=__PROJECT_ROOT__/.venv-sdr/bin/python src/main_868_915_router.py
Restart=always
RestartSec=3
[Install]
WantedBy=multi-user.target

3
deploy/systemd/dronedetector-sdr-868.service
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@ -1,7 +1,8 @@
[Unit]
Description=DroneDetector SDR Scanner 868 MHz
After=network-online.target
After=network-online.target dronedetector-sdr-868-915.service
Wants=network-online.target
Requires=dronedetector-sdr-868-915.service
[Service]
Type=simple

3
deploy/systemd/dronedetector-sdr-915.service
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@ -1,7 +1,8 @@
[Unit]
Description=DroneDetector SDR Scanner 915 MHz
After=network-online.target
After=network-online.target dronedetector-sdr-868-915.service
Wants=network-online.target
Requires=dronedetector-sdr-868-915.service
[Service]
Type=simple

2
install_all.sh
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@ -10,7 +10,9 @@ RUN_GROUP="$(id -gn "${RUN_USER}")"
SDR_UNITS=(
dronedetector-sdr-433.service
dronedetector-sdr-750.service
dronedetector-sdr-868-915.service
dronedetector-sdr-868.service
dronedetector-sdr-1500.service
dronedetector-sdr-3300.service
dronedetector-sdr-4500.service
dronedetector-sdr-5200.service

98
orange_scripts/compose_send_data_915.py
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@ -1,52 +1,45 @@
from common.runtime import load_root_env, validate_env, as_float, as_int, as_str
import json
import os
import numpy as np
import requests
import os
import sys
import json
import time
load_root_env(__file__)
validate_env("orange_scripts/compose_send_data_915.py", {
"POROG_915": as_float,
"SERVER_IP_1": as_str,
"SERVER_PORT_1": as_int,
validate_env('orange_scripts/compose_send_data_915.py', {
'POROG_915': as_float,
'SERVER_IP_1': as_str,
'SERVER_PORT_1': as_int,
})
porog = float(os.getenv('POROG_915'))
server_ip_1 = os.getenv('SERVER_IP_1')
server_port_1 = os.getenv('SERVER_PORT_1')
server_ip_2 = os.getenv('SERVER_IP_2')
server_port_2 = os.getenv('SERVER_PORT_2')
PARAMS = {'split_size': 400_000, 'point_amount': 100_000}
PARAMS['show_amount'] = 0.8 * PARAMS['point_amount']
PARAMS['show_amount'] = int(0.8 * PARAMS['point_amount'])
token = 0
channel = 1
flag = 0
##############################
# HYPERPARAMETERS
##############################
f_base = 0.91e9
f_step = 20e6
f_roof = 0.98e9
##############################
# Variables
##############################
f = f_base
EOCF = 0
signal_arr = []
signal_arr = np.array([], dtype=np.complex64)
class NumpyArrayEncoder(json.JSONEncoder):
def default(self, obj):
if isinstance(obj, np.integer):
return int(obj)
elif isinstance(obj, np.ndarray):
if isinstance(obj, np.ndarray):
return obj.tolist()
else:
return super(NumpyArrayEncoder, self).default(obj)
return super().default(obj)
def send_data(sig):
@ -55,20 +48,23 @@ def send_data(sig):
print('#' * 10)
print('\nОтправка пакета ' + str(token + 1))
data_to_send = {
"freq": 915,
"channel": int(channel),
"token": int(token+1),
"data_real": np.asarray(np.array(sig, dtype=np.complex64).real, dtype=np.float32),
"data_imag": np.asarray(np.array(sig, dtype=np.complex64).imag, dtype=np.float32)
'freq': 915,
'channel': int(channel),
'token': int(token + 1),
'data_real': np.asarray(np.array(sig, dtype=np.complex64).real, dtype=np.float32),
'data_imag': np.asarray(np.array(sig, dtype=np.complex64).imag, dtype=np.float32),
}
mod_data_to_send = json.dumps(data_to_send, cls=NumpyArrayEncoder)
response = requests.post("http://{0}:{1}/receive_data".format(server_ip_1, server_port_1), json=mod_data_to_send)
response = requests.post(
'http://{0}:{1}/receive_data'.format(server_ip_1, server_port_1),
json=mod_data_to_send,
)
if response.status_code == 200:
token += 1
print(response.text)
print('#' * 10)
else:
print("Ошибка при отправке данных: ", response.status_code)
print('Ошибка при отправке данных: ', response.status_code)
print('#' * 10)
except Exception as exc:
print(str(exc))
@ -76,40 +72,48 @@ def send_data(sig):
def median(sig):
global flag
median = abs(float(np.median(sorted(np.asarray(np.abs(np.array(sig, dtype=np.complex64)), dtype=np.float32))[int(PARAMS['show_amount']):])))
flag = 0 if porog > median else 1
print(channel, median, flag)
samples = np.asarray(np.abs(np.array(sig, dtype=np.complex64)), dtype=np.float32)
med = abs(float(np.median(sorted(samples)[int(PARAMS['show_amount']):])))
flag = 0 if porog > med else 1
print(channel, med, flag)
def advance_freq():
global channel
global f
next_freq = f + f_step
if next_freq >= f_roof:
f = f_base
channel = 1
return f, True
f = next_freq
channel += 1
return f, False
def work(lvl):
global flag
global channel
global f_base
global f_step
global f_roof
global f
global EOCF
global signal_arr
y = np.array(lvl).ravel()
y = np.asarray(lvl, dtype=np.complex64).ravel()
signal_arr = np.concatenate((signal_arr, y), axis=None)
if f >= f_roof:
f = f_base
signal_arr = []
channel = 1
return f, EOCF
else:
if flag == 0 and len(signal_arr) >= PARAMS['point_amount']:
median(signal_arr[:PARAMS['point_amount']])
signal_arr = []
signal_arr = np.array([], dtype=np.complex64)
if flag == 0:
f += f_step
channel += 1
f, _ = advance_freq()
return f, EOCF
if len(signal_arr) >= PARAMS['split_size']:
send_data(signal_arr[:PARAMS['split_size']])
flag = 0
signal_arr = []
channel += 1
f += f_step
signal_arr = np.array([], dtype=np.complex64)
f, _ = advance_freq()
return f, EOCF
return f, EOCF

174
orange_scripts/main_915.py
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@ -1,168 +1,88 @@
from gnuradio import blocks, gr
import sys
from gnuradio import blocks, gr, zeromq
import signal
import compose_send_data_915 as my_freq
import osmosdr
import time
import sys
import threading
import subprocess
import os
from common.runtime import load_root_env, resolve_hackrf_index
import time
import compose_send_data_915 as my_freq
load_root_env(__file__)
from common.runtime import load_root_env
from common.shared_stream_addrs import SHARED_915_ADDR, SHARED_VECTOR_LEN
def get_hack_id():
return resolve_hackrf_index('HACKID_915', 'orange_scripts/main_915.py')
serial_number = os.getenv('HACKID_915')
pos = None
output = []
try:
command = 'lsusb -v -d 1d50:6089 | grep iSerial'
output.append(subprocess.check_output(command, shell=True, text=True))
except subprocess.CalledProcessError as e:
print(f"Команда завершилась с кодом возврата {e.returncode}")
print(e)
print(output)
output_lines = output[0].strip().split('\n')
print(output_lines)
serial_numbers = [line.split()[-1] for line in output_lines]
print(serial_numbers)
for i, number in enumerate(serial_numbers):
if number == serial_number:
id = i
break
if id is not None:
print('HackId is: {0}'.format(id))
return str(id)
else:
print('Такого хака нет!')
load_root_env(__file__)
class get_center_freq(gr.top_block):
class get_center_freq(gr.top_block):
def __init__(self):
gr.top_block.__init__(self, "get_center_freq")
##################################################
# Variables
##################################################
self.prob_freq = prob_freq = 0
self.top_peaks_amount = top_peaks_amount = 20
self.samp_rate = samp_rate = 20e6
self.poll_rate = poll_rate = 10000
self.num_points = num_points = 8192
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)[0]
##################################################
# Blocks
##################################################
self.probSigVec = blocks.probe_signal_vc(4096)
self.rtlsdr_source_0 = osmosdr.source(
args="numchan=" + str(1) + " " + 'hackrf=' + get_hack_id()
gr.top_block.__init__(self, 'get_center_freq')
self.prob_freq = 0
self.poll_rate = 10000
self.vector_len = SHARED_VECTOR_LEN
self.center_freq = 0
self.shared_addr = SHARED_915_ADDR
self._stop_polling = threading.Event()
self._prob_freq_thread = None
self.probSigVec = blocks.probe_signal_vc(self.vector_len)
self.shared_source_0 = zeromq.pull_source(
gr.sizeof_gr_complex,
self.vector_len,
self.shared_addr,
100,
False,
-1,
False,
)
self.rtlsdr_source_0.set_time_unknown_pps(osmosdr.time_spec_t())
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(16, 0)
self.rtlsdr_source_0.set_if_gain(16, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
self.blocks_stream_to_vector_1 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, 4096)
self.connect((self.shared_source_0, 0), (self.probSigVec, 0))
def start_polling(self):
if self._prob_freq_thread is not None:
return
def _prob_freq_probe():
while not self._stop_polling.is_set():
self.set_prob_freq(self.probSigVec.level())
time.sleep(1.0 / self.poll_rate)
##################################################
# Connections
##################################################
self.connect((self.blocks_stream_to_vector_1, 0), (self.probSigVec, 0))
self.connect((self.rtlsdr_source_0, 0), (self.blocks_stream_to_vector_1, 0))
self._prob_freq_thread = threading.Thread(target=_prob_freq_probe, daemon=True)
self._prob_freq_thread.start()
def get_prob_freq(self):
return self.prob_freq
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq)[0])
def get_top_peaks_amount(self):
return self.top_peaks_amount
def set_top_peaks_amount(self, top_peaks_amount):
self.top_peaks_amount = top_peaks_amount
def get_samp_rate(self):
return self.samp_rate
def set_samp_rate(self, samp_rate):
self.samp_rate = samp_rate
self.rtlsdr_source_0.set_sample_rate(self.samp_rate)
def get_poll_rate(self):
return self.poll_rate
def set_poll_rate(self, poll_rate):
self.poll_rate = poll_rate
def get_num_points(self):
return self.num_points
def set_num_points(self, num_points):
self.num_points = num_points
def get_flag(self):
return self.flag
def set_flag(self, flag):
self.flag = flag
def get_decimation(self):
return self.decimation
def set_decimation(self, decimation):
self.decimation = decimation
self.center_freq = my_freq.work(self.prob_freq)[0]
def get_center_freq(self):
return self.center_freq
def set_center_freq(self, center_freq):
self.center_freq = center_freq
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
def close(self):
self._stop_polling.set()
self.stop()
self.wait()
def main(top_block_cls=get_center_freq, options=None):
time.sleep(3)
tb = top_block_cls()
def sig_handler(sig=None, frame=None):
tb.stop()
tb.wait()
tb.close()
sys.exit(0)
signal.signal(signal.SIGINT, sig_handler)
signal.signal(signal.SIGTERM, sig_handler)
tb.start()
tb.start_polling()
try:
input('Press Enter to quit: ')
print('shared_pull_addr:', SHARED_915_ADDR)
except EOFError:
pass
tb.wait()

12
restart_all.sh
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@ -7,14 +7,16 @@ COMPOSE_FILE="${PROJECT_ROOT}/deploy/docker/docker-compose.yml"
SDR_UNITS=(
dronedetector-sdr-433.service
dronedetector-sdr-750.service
#dronedetector-sdr-868.service
dronedetector-sdr-868-915.service
dronedetector-sdr-868.service
dronedetector-sdr-1500.service
dronedetector-sdr-3300.service
#dronedetector-sdr-4500.service
dronedetector-sdr-4500.service
dronedetector-sdr-5200.service
dronedetector-sdr-5800.service
#dronedetector-sdr-915.service
#dronedetector-sdr-1200.service
#dronedetector-sdr-2400.service
dronedetector-sdr-915.service
dronedetector-sdr-1200.service
dronedetector-sdr-2400.service
)
log() {

145
src/core/multichannelswitcher.py
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@ -1,63 +1,8 @@
import os
from core.data_buffer import DataBuffer
def get_centre_freq(freq):
"""
Получить название частоты по ее диапазону.
:param freq: Частота, которую обрабатываем.
:return: Название частоты.
"""
c_freq = 0
if 5.46e9 <= freq <= 6.0e9:
c_freq = 5800
if 5.0e9 <= freq <= 5.4e9:
c_freq = 5200
if 4.5e9 <= freq <= 4.7e9:
c_freq = 4500
if 3.3e9 <= freq <= 3.5e9:
c_freq = 3300
if 2.4e9 <= freq <= 2.5e9:
c_freq = 2400
if 1e9 <= freq <= 1.36e9:
c_freq = 1200
if 0.9e9 <= freq <= 0.960e9:
c_freq = 915
if 0.830e9 <= freq <= 0.890e9:
c_freq = 868
if 0.700e9 <= freq <= 0.780e9:
c_freq = 750
if 0.380e9 <= freq <= 0.500e9:
c_freq = 433
return str(c_freq)
class MultiChannel:
"""
Класс с реализацией переключателя каналов. Присутствует поддержка нескольких частот, а поэтому
Атрибуты:
steps: Массив шагов для разных частот. Ex. steps = [-20e6, -5e6, -3e6], i-ый элемент соответствует i-ой
частоте для обработке, типа 1.2, 915 и 868.
bases: Массив верхних границ диапазонов рассматриваемых частот. Ex bases = [1.36e9, 0.93e9, 0.87e9] для
1.2, 915 и 868.
roofs: То же самое, только нижних границ. Ex roofs = [1e9, 0.9e9, 0.85e9]
cur_channel: Указатель на текущий канал, который обрабатываем.
cur_roof: Указатель на нижнюю границу текущей обрабатываемой частоты.
cur_step: Указатель на шаг текущей обрабатываемой частоты.
num_chs: Массив из каналов по обрабатываемым частотам. Вычисляется автоматически исходя из границ и шага.
init_freq: Чекер на инициализацию частоты перед началом работы скрипта. Нужен из-за особенности
работы графов GNURadio и функции work в embedded Python блоке.
DB: Список из циклических буферов для соответствующих чатсот.
"""
def __init__(self, steps, bases, roofs):
"""
Инициализация класса.
:param steps: Список с шагами для соответствующих частот.
:param bases: Список верхних границ диапазонов частот, с которыми работаем.
:param roofs: Список нижних границ --//--.
"""
self.steps = steps
self.bases = bases
self.roofs = roofs
@ -69,90 +14,63 @@ class MultiChannel:
self.DB = []
def init_f(self):
"""
Инициализация начальной частоты, с которой начинаем обработку.
:return: Верхняя граница первой частоты из набора частот.
"""
self.init_freq = True
return self.bases[0]
def get_cur_channel(self):
"""
Получить текущий обрабатываемый канал.
:return: Канал обработки.
"""
return self.cur_channel
def change_channel(self):
"""
Функция смены канала. Идет от верхней границы диапазона частоты к нижней с шагом step. Если дошли до нижней
границы, то переключаемся на следующую частоту посредством переноса курсора текущего канала на верхнюю границу
новой частоты и указатель нижней границы также двигаем на следующую позицию. Если частота для обработки одна, то
указатель текущего канала возвращается в начало - верхней границы этой же частоты. Указатель нижней границы не
изменяется.
@staticmethod
def _range_finished(channel, roof, step):
if step < 0:
return channel <= roof
return channel >= roof
:return: Канал после смены.
"""
def change_channel(self):
if not self.init_freq:
return self.init_f()
if self.cur_channel <= self.cur_roof:
if self.cur_roof == self.roofs[-1]:
self.cur_channel = self.bases[0]
self.cur_roof = self.roofs[0]
self.cur_step = self.steps[0]
else:
next_roofs = self.roofs.index(self.cur_roof) + 1
self.cur_channel = self.bases[next_roofs]
self.cur_roof = self.roofs[next_roofs]
self.cur_step = self.steps[next_roofs]
current_idx = self.roofs.index(self.cur_roof)
if self._range_finished(self.cur_channel, self.cur_roof, self.cur_step):
next_idx = (current_idx + 1) % len(self.bases)
self.cur_channel = self.bases[next_idx]
self.cur_roof = self.roofs[next_idx]
self.cur_step = self.steps[next_idx]
else:
self.cur_channel += self.cur_step
# print('Канал частоты изменен на ', self.cur_channel / 1000000)
return self.get_cur_channel()
def get_num_chs(self, idx_freq):
"""
Вычисляет количество каналов на частоте исходя из верхнего, нижнего диапазонов и шага.
:param idx_freq: id частоты внутри класса. Т.е. в данный момент обрабатывается несколько частот, то id =
индексу верхней границы в bases для данной частоты, или нижней границы в roofs или шагу в steps.
В примерах из описания атрибутов индекс частоты 915 будет равен единице (т.к. идет вторым элементом в списках).
:return: Количество каналов.
"""
if (idx_freq + 1) > len(self.num_chs):
tmp = self.bases[idx_freq]
roof = self.roofs[idx_freq]
step = self.steps[idx_freq]
counter = 0
while tmp >= self.roofs[idx_freq]:
if step == 0:
raise ValueError('step must not be zero')
if step < 0:
while tmp >= roof:
counter += 1
tmp += step
else:
while tmp <= roof:
counter += 1
tmp += self.steps[idx_freq]
tmp += step
self.num_chs.append(counter)
return counter
else:
return self.num_chs[idx_freq]
def check_f(self, freq):
"""
Проверить наличие частоты в классе. Если да, то вернуть количество каналов и циклический буфер этой частоты.
:param freq: Частота.
:return: Количество каналов, циклический буфер выбранной частоты ИЛИ none.
"""
for i in range(len(self.bases)):
if self.roofs[i] <= freq <= self.bases[i]:
low = min(self.roofs[i], self.bases[i])
high = max(self.roofs[i], self.bases[i])
if low <= freq <= high:
return self.get_num_chs(i), self.DB[i]
else:
return None, None
def fill_DB(self):
"""
Инициализировать циклические буферы для всех частот в отдельный список.
:return: N0nE.
"""
def fill_DB(self, buffer_columns_size, num_of_thinning_iter, multiply_factor, num_for_alarm, freq_tag=None):
self.DB = []
for i in range(len(self.bases)):
freq = get_centre_freq(self.bases[i])
buffer_columns_size = int(os.getenv('buffer_columns_size_' + str(freq)))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_' + str(freq)))
multiply_factor = float(os.getenv('multiply_factor_' + str(freq)))
num_for_alarm = int(os.getenv('num_for_alarm_' + str(freq)))
num_chs = self.get_num_chs(i)
self.DB.append(
DataBuffer(
@ -161,16 +79,11 @@ class MultiChannel:
num_chs,
multiply_factor,
num_for_alarm,
freq_tag=str(freq),
freq_tag=freq_tag,
)
)
def db_alarms_zeros(self, circle_buffer):
"""
При отработке системы зануляет алармы во всех буферах, кроме текущего, т.к. в текущем уже занулилось.
:param circle_buffer: Циклический буфер текущей обрабатываемой частоты.
:return: None.
"""
for i in range(len(self.DB)):
if self.DB[i] != circle_buffer:
self.DB[i].alarms_fill_zeros()

150
src/embedded_1500.py
Unescape Escape View File

@ -0,0 +1,150 @@
import os
import datetime
import time
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
save_data_flag = as_bool(os.getenv('save_data_flag', '0'))
module_name = os.getenv('module_name')
elems_to_save = os.getenv('elems_to_save')
file_types_to_save = os.getenv('file_types_to_save')
localhost = os.getenv('lochost')
localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_1500').split())]
f_bases = [*map(float, os.getenv('f_bases_1500').split())]
f_roofs = [*map(float, os.getenv('f_roofs_1500').split())]
signal_length = int(os.getenv('signal_length_1500'))
buffer_columns_size = int(os.getenv('buffer_columns_size_1500'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_1500'))
multiply_factor = float(os.getenv('multiply_factor_1500'))
num_for_alarm = int(os.getenv('num_for_alarm_1500'))
c_freq = os.getenv('c_freq_1500', '1500')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
smb_port = os.getenv('smb_port')
smb_user = os.getenv('smb_user')
smb_pass = os.getenv('smb_pass')
shared_folder = os.getenv('shared_folder')
the_pc_name = os.getenv('the_pc_name')
remote_pc_name = os.getenv('remote_pc_name')
smb_domain = os.getenv('smb_domain')
freq_endpoint = os.getenv('freq_endpoint')
telemetry_enabled = as_bool(os.getenv('telemetry_enabled', '1'))
telemetry_host = os.getenv('telemetry_host', '127.0.0.1')
telemetry_port = os.getenv('telemetry_port', '5020')
telemetry_endpoint = os.getenv('telemetry_endpoint', 'telemetry')
telemetry_timeout_sec = float(os.getenv('telemetry_timeout_sec', '0.30'))
elems_to_save = elems_to_save.split(',')
file_types_to_save = file_types_to_save.split(',')
tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
conn.connect(smb_host, 139)
filelist = conn.listPath(shared_folder, '/')
print(filelist)
def work(lvl):
f = multi_channel.get_cur_channel()
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
if median:
try:
num_chs, circle_buffer = multi_channel.check_f(f)
cur_channel, sigs_array, sigs_ts_array = tmp_sigs_array.fill_sig_arr(median, packet_ts=packet_ts, num_chs=num_chs)
if sigs_array:
print('Значения на {0}: {1}'.format(freq, sigs_array))
print('Пороги: ', circle_buffer.get_medians())
alarm = circle_buffer.check_alarm(sigs_array)
if alarm:
print('----ALARM---- ', freq)
multi_channel.db_alarms_zeros(circle_buffer)
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
endpoint=telemetry_endpoint,
timeout_sec=telemetry_timeout_sec,
)
except Exception as exc:
if debug_flag:
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
print(cur_channel, single_alarm)
if single_alarm:
data = pack_elems(elems_to_save, file_types_to_save, tmp_signal.get_signal())
print('SAVE CURRENT SIGNAL SROCHNO TI MENYA SLISHISH?!?!?!?')
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print('.', end='')
tmp_signal.clear()
return f

74
src/embedded_3300.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_3300').split())]
f_bases = [*map(float, os.getenv('f_bases_3300').split())]
f_roofs = [*map(float, os.getenv('f_roofs_3300').split())]
signal_length = int(os.getenv('signal_length_3300'))
buffer_columns_size = int(os.getenv('buffer_columns_size_3300'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_3300'))
multiply_factor = float(os.getenv('multiply_factor_3300'))
num_for_alarm = int(os.getenv('num_for_alarm_3300'))
c_freq = os.getenv('c_freq_3300', '3300')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

74
src/embedded_433.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_433').split())]
f_bases = [*map(float, os.getenv('f_bases_433').split())]
f_roofs = [*map(float, os.getenv('f_roofs_433').split())]
signal_length = int(os.getenv('signal_length_433'))
buffer_columns_size = int(os.getenv('buffer_columns_size_433'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_433'))
multiply_factor = float(os.getenv('multiply_factor_433'))
num_for_alarm = int(os.getenv('num_for_alarm_433'))
c_freq = os.getenv('c_freq_433', '433')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

74
src/embedded_4500.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_4500').split())]
f_bases = [*map(float, os.getenv('f_bases_4500').split())]
f_roofs = [*map(float, os.getenv('f_roofs_4500').split())]
signal_length = int(os.getenv('signal_length_4500'))
buffer_columns_size = int(os.getenv('buffer_columns_size_4500'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_4500'))
multiply_factor = float(os.getenv('multiply_factor_4500'))
num_for_alarm = int(os.getenv('num_for_alarm_4500'))
c_freq = os.getenv('c_freq_4500', '4500')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

74
src/embedded_5200.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_5200').split())]
f_bases = [*map(float, os.getenv('f_bases_5200').split())]
f_roofs = [*map(float, os.getenv('f_roofs_5200').split())]
signal_length = int(os.getenv('signal_length_5200'))
buffer_columns_size = int(os.getenv('buffer_columns_size_5200'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_5200'))
multiply_factor = float(os.getenv('multiply_factor_5200'))
num_for_alarm = int(os.getenv('num_for_alarm_5200'))
c_freq = os.getenv('c_freq_5200', '5200')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

74
src/embedded_5800.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_5800').split())]
f_bases = [*map(float, os.getenv('f_bases_5800').split())]
f_roofs = [*map(float, os.getenv('f_roofs_5800').split())]
signal_length = int(os.getenv('signal_length_5800'))
buffer_columns_size = int(os.getenv('buffer_columns_size_5800'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_5800'))
multiply_factor = float(os.getenv('multiply_factor_5800'))
num_for_alarm = int(os.getenv('num_for_alarm_5800'))
c_freq = os.getenv('c_freq_5800', '5800')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

77
src/embedded_750.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_750').split())]
f_bases = [*map(float, os.getenv('f_bases_750').split())]
f_roofs = [*map(float, os.getenv('f_roofs_750').split())]
signal_length = int(os.getenv('signal_length_750'))
buffer_columns_size = int(os.getenv('buffer_columns_size_750'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_750'))
multiply_factor = float(os.getenv('multiply_factor_750'))
num_for_alarm = int(os.getenv('num_for_alarm_750'))
c_freq = os.getenv('c_freq_750', '750')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,20 +67,15 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
if median:
print(1)
try:
num_chs, circle_buffer = multi_channel.check_f(f)
print(num_chs, circle_buffer)
cur_channel, sigs_array, sigs_ts_array = tmp_sigs_array.fill_sig_arr(median, packet_ts=packet_ts, num_chs=num_chs)
print(3)
if sigs_array:
print('Значения на {0}: {1}'.format(freq, sigs_array))
@ -97,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -127,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -149,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

74
src/embedded_868.py
Unescape Escape View File

@ -1,30 +1,14 @@
import os
import datetime
import time
from common.runtime import load_root_env, validate_env, as_bool, as_str
from common.runtime import load_root_env, as_bool
from smb.SMBConnection import SMBConnection
from utils.datas_processing import pack_elems, agregator, send_data, send_telemetry, save_data, remote_save_data
from utils.jammer_state_flag import is_jammer_active
from core.sig_n_medi_collect import Signal, SignalsArray, get_signal_length
from core.multichannelswitcher import MultiChannel, get_centre_freq
from core.sig_n_medi_collect import Signal, SignalsArray
from core.multichannelswitcher import MultiChannel
load_root_env(__file__)
freq_suffix = os.path.splitext(os.path.basename(__file__))[0].split("_")[-1]
validate_env(__file__, {
"send_to_module_flag": as_bool,
"save_data_flag": as_bool,
"elems_to_save": as_str,
"file_types_to_save": as_str,
"lochost": as_str,
"locport": as_str,
"freq_endpoint": as_str,
"path_to_save_medians": as_str,
"path_to_save_alarms": as_str,
"module_name": as_str,
f"f_step_{freq_suffix}": as_str,
f"f_bases_{freq_suffix}": as_str,
f"f_roofs_{freq_suffix}": as_str,
})
debug_flag = as_bool(os.getenv('debug_flag', '0'))
send_to_module_flag = as_bool(os.getenv('send_to_module_flag', '0'))
@ -37,6 +21,12 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_868').split())]
f_bases = [*map(float, os.getenv('f_bases_868').split())]
f_roofs = [*map(float, os.getenv('f_roofs_868').split())]
signal_length = int(os.getenv('signal_length_868'))
buffer_columns_size = int(os.getenv('buffer_columns_size_868'))
num_of_thinning_iter = int(os.getenv('num_of_thinning_iter_868'))
multiply_factor = float(os.getenv('multiply_factor_868'))
num_for_alarm = int(os.getenv('num_for_alarm_868'))
c_freq = os.getenv('c_freq_868', '868')
path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
@ -61,7 +51,13 @@ tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
f = multi_channel.init_f()
multi_channel.fill_DB()
multi_channel.fill_DB(
buffer_columns_size,
num_of_thinning_iter,
multiply_factor,
num_for_alarm,
c_freq,
)
if debug_flag:
conn = SMBConnection(smb_user, smb_pass, the_pc_name, remote_pc_name, use_ntlm_v2=True)
@ -71,10 +67,8 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
freq = c_freq
median = tmp_signal.fill_signal(lvl, signal_length)
packet_ts = tmp_signal.get_last_packet_ts()
@ -94,28 +88,26 @@ def work(lvl):
elif not is_jammer_active():
circle_buffer.update(sigs_array, packet_timestamps=sigs_ts_array)
if telemetry_enabled:
try:
max_idx = max(range(len(sigs_array)), key=lambda idx: sigs_array[idx])
dbfs_current = float(sigs_array[max_idx])
dbfs_threshold = circle_buffer.get_threshold(max_idx)
channel_thresholds = circle_buffer.get_thresholds()
alarm_channels = circle_buffer.get_last_alarm_channels() if alarm else []
send_telemetry(
data={
"freq": str(freq),
"ts": time.time(),
"dbfs_current": dbfs_current,
"dbfs_threshold": dbfs_threshold,
"alarm": bool(alarm),
"channel_idx": int(max_idx),
"channels_total": int(len(sigs_array)),
"channel_values": [float(v) for v in sigs_array],
"channel_thresholds": channel_thresholds,
"alarm_channels": alarm_channels,
'freq': str(freq),
'ts': time.time(),
'dbfs_current': dbfs_current,
'dbfs_threshold': dbfs_threshold,
'alarm': bool(alarm),
'channel_idx': int(max_idx),
'channels_total': int(len(sigs_array)),
'channel_values': [float(v) for v in sigs_array],
'channel_thresholds': channel_thresholds,
'alarm_channels': alarm_channels,
},
host=telemetry_host,
port=telemetry_port,
@ -124,18 +116,16 @@ def work(lvl):
)
except Exception as exc:
if debug_flag:
print(f"telemetry send failed: {exc}")
print(f'telemetry send failed: {exc}')
if send_to_module_flag:
send_data(agregator(freq, alarm), localhost, localport, freq_endpoint)
if save_data_flag:
if not circle_buffer.check_init() and circle_buffer.current_column - 1 == 0:
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)),
list(range(num_chs)))
save_data(path_to_save_medians, freq, 'DateTime', 'ALARM', 'max signal', list(range(num_chs)), list(range(num_chs)))
if circle_buffer.check_init():
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array,
circle_buffer.get_medians())
save_data(path_to_save_medians, freq, datetime.datetime.now(), alarm, max(sigs_array), sigs_array, circle_buffer.get_medians())
if debug_flag:
single_alarm = circle_buffer.check_single_alarm(median, cur_channel)
@ -146,14 +136,14 @@ def work(lvl):
try:
remote_save_data(conn, data, module_name, freq, shared_folder, path_to_save_alarms)
except Exception as e:
print(f"Ошибка: {e}")
print(f'Ошибка: {e}')
else:
print('VSE OKI DOKI SIGNAL SOKHRANYAT NE NUZHNO!!!')
f = multi_channel.change_channel()
except Exception as e:
print(str(e))
print(".", end='')
print('.', end='')
tmp_signal.clear()

104
src/main_1500.py
Unescape Escape View File

@ -0,0 +1,104 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
from gnuradio import blocks
from gnuradio import gr
import signal
import sys
import threading
import time
import osmosdr
import embedded_1500 as my_freq
from common.runtime import load_root_env, resolve_hackrf_index
load_root_env(__file__)
def get_hack_id():
return resolve_hackrf_index('hack_1500', 'src/main_1500.py')
class get_center_freq(gr.top_block):
def __init__(self):
gr.top_block.__init__(self, 'get_center_freq')
self.prob_freq = 0
self.samp_rate = 20e6
self.poll_rate = 10000
self.vector_len = 4096
self.center_freq = my_freq.work(self.prob_freq)
self._prob_freq_thread = None
self.probSigVec = blocks.probe_signal_vc(self.vector_len)
self.rtlsdr_source_0 = osmosdr.source(
args='numchan=' + str(1) + ' ' + 'hackrf=' + get_hack_id()
)
self.rtlsdr_source_0.set_time_unknown_pps(osmosdr.time_spec_t())
self.rtlsdr_source_0.set_sample_rate(self.samp_rate)
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(self.vector_len)
self.blocks_stream_to_vector_1 = blocks.stream_to_vector(gr.sizeof_gr_complex * 1, self.vector_len)
self.connect((self.blocks_stream_to_vector_1, 0), (self.probSigVec, 0))
self.connect((self.rtlsdr_source_0, 0), (self.blocks_stream_to_vector_1, 0))
def _prob_freq_probe():
while True:
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / self.poll_rate)
self._prob_freq_thread = threading.Thread(target=_prob_freq_probe, daemon=True)
self._prob_freq_thread.start()
def get_prob_freq(self):
return self.prob_freq
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
def get_center_freq(self):
return self.center_freq
def set_center_freq(self, center_freq):
self.center_freq = center_freq
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
def main(top_block_cls=get_center_freq, options=None):
tb = top_block_cls()
def sig_handler(sig=None, frame=None):
tb.stop()
tb.wait()
sys.exit(0)
signal.signal(signal.SIGINT, sig_handler)
signal.signal(signal.SIGTERM, sig_handler)
tb.start()
try:
print('СЕРВИСНАЯ ИНФОРМАЦИЯ: ')
print('debug_flag: ', my_freq.debug_flag)
print('save_data_flag: ', my_freq.save_data_flag)
print('send_to_module_flag: ', my_freq.send_to_module_flag)
except EOFError:
pass
tb.wait()
if __name__ == '__main__':
main()

47
src/main_3300.py
Unescape Escape View File

@ -18,6 +18,7 @@ import time
import threading
import subprocess
import os
import numpy as np
from common.runtime import load_root_env, resolve_hackrf_index
@ -82,6 +83,14 @@ class get_center_freq(gr.top_block):
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)
self.read_pipe_settle_sec = float(os.getenv('read_pipe_settle_sec_hf', '0.003'))
self.read_pipe_windows_per_update = max(1, int(os.getenv('read_pipe_windows_per_update_hf', '3')) )
self.read_pipe_vec_len = 4096
self.read_pipe_window_sec = self.read_pipe_vec_len / self.samp_rate
self.read_pipe_poll_sec = float(os.getenv('read_pipe_poll_sec_hf', str(self.read_pipe_window_sec)))
self.read_pipe_poll_sec = max(self.read_pipe_window_sec, self.read_pipe_poll_sec)
self.read_pipe_next_at = time.monotonic()
self.read_pipe_settle_until = 0.0
##################################################
# Blocks
@ -94,21 +103,42 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(100, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
now = time.monotonic()
if now < self.read_pipe_settle_until:
time.sleep(min(self.read_pipe_poll_sec, self.read_pipe_settle_until - now))
continue
windows = []
for i in range(self.read_pipe_windows_per_update):
windows.append(np.array(self.probSigVec.level()).ravel())
if i + 1 < self.read_pipe_windows_per_update:
time.sleep(self.read_pipe_window_sec)
if len(windows) == 1:
val = windows[0]
else:
val = np.concatenate(windows, axis=None)
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
self.read_pipe_next_at += self.read_pipe_poll_sec
sleep_for = self.read_pipe_next_at - time.monotonic()
if sleep_for > 0:
time.sleep(sleep_for)
else:
self.read_pipe_next_at = time.monotonic()
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
@ -128,7 +158,12 @@ class get_center_freq(gr.top_block):
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
next_center = my_freq.work(self.prob_freq)
if next_center is None:
return
if next_center != self.center_freq:
self.set_center_freq(next_center)
self.read_pipe_settle_until = time.monotonic() + self.read_pipe_settle_sec
def get_top_peaks_amount(self):
return self.top_peaks_amount

6
src/main_433.py
Unescape Escape View File

@ -94,9 +94,9 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(10, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)

47
src/main_4500.py
Unescape Escape View File

@ -18,6 +18,7 @@ import time
import threading
import subprocess
import os
import numpy as np
from common.runtime import load_root_env, resolve_hackrf_index
@ -82,6 +83,14 @@ class get_center_freq(gr.top_block):
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)
self.read_pipe_settle_sec = float(os.getenv('read_pipe_settle_sec_hf', '0.003'))
self.read_pipe_windows_per_update = max(1, int(os.getenv('read_pipe_windows_per_update_hf', '3')) )
self.read_pipe_vec_len = 4096
self.read_pipe_window_sec = self.read_pipe_vec_len / self.samp_rate
self.read_pipe_poll_sec = float(os.getenv('read_pipe_poll_sec_hf', str(self.read_pipe_window_sec)))
self.read_pipe_poll_sec = max(self.read_pipe_window_sec, self.read_pipe_poll_sec)
self.read_pipe_next_at = time.monotonic()
self.read_pipe_settle_until = 0.0
##################################################
# Blocks
@ -94,21 +103,42 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(100, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
now = time.monotonic()
if now < self.read_pipe_settle_until:
time.sleep(min(self.read_pipe_poll_sec, self.read_pipe_settle_until - now))
continue
windows = []
for i in range(self.read_pipe_windows_per_update):
windows.append(np.array(self.probSigVec.level()).ravel())
if i + 1 < self.read_pipe_windows_per_update:
time.sleep(self.read_pipe_window_sec)
if len(windows) == 1:
val = windows[0]
else:
val = np.concatenate(windows, axis=None)
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
self.read_pipe_next_at += self.read_pipe_poll_sec
sleep_for = self.read_pipe_next_at - time.monotonic()
if sleep_for > 0:
time.sleep(sleep_for)
else:
self.read_pipe_next_at = time.monotonic()
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
@ -128,7 +158,12 @@ class get_center_freq(gr.top_block):
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
next_center = my_freq.work(self.prob_freq)
if next_center is None:
return
if next_center != self.center_freq:
self.set_center_freq(next_center)
self.read_pipe_settle_until = time.monotonic() + self.read_pipe_settle_sec
def get_top_peaks_amount(self):
return self.top_peaks_amount

45
src/main_5200.py
Unescape Escape View File

@ -18,6 +18,7 @@ import time
import threading
import subprocess
import os
import numpy as np
from common.runtime import load_root_env, resolve_hackrf_index
load_root_env(__file__)
@ -81,6 +82,14 @@ class get_center_freq(gr.top_block):
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)
self.read_pipe_settle_sec = float(os.getenv('read_pipe_settle_sec_hf', '0.003'))
self.read_pipe_windows_per_update = max(1, int(os.getenv('read_pipe_windows_per_update_hf', '3')) )
self.read_pipe_vec_len = 4096
self.read_pipe_window_sec = self.read_pipe_vec_len / self.samp_rate
self.read_pipe_poll_sec = float(os.getenv('read_pipe_poll_sec_hf', str(self.read_pipe_window_sec)))
self.read_pipe_poll_sec = max(self.read_pipe_window_sec, self.read_pipe_poll_sec)
self.read_pipe_next_at = time.monotonic()
self.read_pipe_settle_until = 0.0
##################################################
# Blocks
@ -94,20 +103,41 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(100, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(24, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
now = time.monotonic()
if now < self.read_pipe_settle_until:
time.sleep(min(self.read_pipe_poll_sec, self.read_pipe_settle_until - now))
continue
windows = []
for i in range(self.read_pipe_windows_per_update):
windows.append(np.array(self.probSigVec.level()).ravel())
if i + 1 < self.read_pipe_windows_per_update:
time.sleep(self.read_pipe_window_sec)
if len(windows) == 1:
val = windows[0]
else:
val = np.concatenate(windows, axis=None)
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
self.read_pipe_next_at += self.read_pipe_poll_sec
sleep_for = self.read_pipe_next_at - time.monotonic()
if sleep_for > 0:
time.sleep(sleep_for)
else:
self.read_pipe_next_at = time.monotonic()
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
@ -127,7 +157,12 @@ class get_center_freq(gr.top_block):
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
next_center = my_freq.work(self.prob_freq)
if next_center is None:
return
if next_center != self.center_freq:
self.set_center_freq(next_center)
self.read_pipe_settle_until = time.monotonic() + self.read_pipe_settle_sec
def get_top_peaks_amount(self):
return self.top_peaks_amount

45
src/main_5800.py
Unescape Escape View File

@ -18,6 +18,7 @@ import time
import threading
import subprocess
import os
import numpy as np
from common.runtime import load_root_env, resolve_hackrf_index
@ -82,6 +83,14 @@ class get_center_freq(gr.top_block):
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)
self.read_pipe_settle_sec = float(os.getenv('read_pipe_settle_sec_hf', '0.003'))
self.read_pipe_windows_per_update = max(1, int(os.getenv('read_pipe_windows_per_update_hf', '3')) )
self.read_pipe_vec_len = 4096
self.read_pipe_window_sec = self.read_pipe_vec_len / self.samp_rate
self.read_pipe_poll_sec = float(os.getenv('read_pipe_poll_sec_hf', str(self.read_pipe_window_sec)))
self.read_pipe_poll_sec = max(self.read_pipe_window_sec, self.read_pipe_poll_sec)
self.read_pipe_next_at = time.monotonic()
self.read_pipe_settle_until = 0.0
##################################################
# Blocks
@ -94,21 +103,42 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(5, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
now = time.monotonic()
if now < self.read_pipe_settle_until:
time.sleep(min(self.read_pipe_poll_sec, self.read_pipe_settle_until - now))
continue
windows = []
for i in range(self.read_pipe_windows_per_update):
windows.append(np.array(self.probSigVec.level()).ravel())
if i + 1 < self.read_pipe_windows_per_update:
time.sleep(self.read_pipe_window_sec)
if len(windows) == 1:
val = windows[0]
else:
val = np.concatenate(windows, axis=None)
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
self.read_pipe_next_at += self.read_pipe_poll_sec
sleep_for = self.read_pipe_next_at - time.monotonic()
if sleep_for > 0:
time.sleep(sleep_for)
else:
self.read_pipe_next_at = time.monotonic()
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
@ -128,7 +158,12 @@ class get_center_freq(gr.top_block):
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
next_center = my_freq.work(self.prob_freq)
if next_center is None:
return
if next_center != self.center_freq:
self.set_center_freq(next_center)
self.read_pipe_settle_until = time.monotonic() + self.read_pipe_settle_sec
def get_top_peaks_amount(self):
return self.top_peaks_amount

6
src/main_750.py
Unescape Escape View File

@ -94,9 +94,9 @@ class get_center_freq(gr.top_block):
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(100, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_gain(24, 0)
self.rtlsdr_source_0.set_if_gain(24, 0)
self.rtlsdr_source_0.set_bb_gain(100, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)

198
src/main_868.py
Unescape Escape View File

@ -1,205 +1,97 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# SPDX-License-Identifier: GPL-3.0
#
# GNU Radio Python Flow Graph
# Title: get_center_freq
# GNU Radio version: 3.8.1.0
from gnuradio import blocks
from gnuradio import gr
import sys
from gnuradio import zeromq
import signal
import embedded_868 as my_freq # embedded python module
import osmosdr
import time
import sys
import threading
import subprocess
import os
from common.runtime import load_root_env, resolve_hackrf_index
import time
load_root_env(__file__)
import embedded_868 as my_freq
def get_hack_id():
return resolve_hackrf_index('hack_868', 'src/main_868.py')
serial_number = os.getenv('hack_868')
pos = None
output = []
try:
# command = '/home/orangepi/hackrf/host/build/hackrf-tools/src/hackrf_info'
command = 'lsusb -v -d 1d50:6089 | grep iSerial'
output.append(subprocess.check_output(command, shell=True, text=True))
# indexes = [line.split(":")[1].strip() for line in output_lines if "Index" in line]
# serial_numbers = [line.split(":")[1].strip() for line in output_lines if "Serial number" in line]
# print(indexes)
# print(serial_numbers)
# for i, number in enumerate(serial_numbers):
# if number == serial_number:
# pos = i
# break
# if pos is not None:
# id = indexes[pos]
# else:
# print('Такого хака нет!')
except subprocess.CalledProcessError as e:
print(f"Команда завершилась с кодом возврата {e.returncode}")
print(e)
print(output)
output_lines = output[0].strip().split('\n')
print(output_lines)
serial_numbers = [line.split()[-1] for line in output_lines]
print(serial_numbers)
for i, number in enumerate(serial_numbers):
if number == serial_number:
id = i
break
if id is not None:
print('HackId is: {0}'.format(id))
return str(id)
else:
print('Такого хака нет!')
from common.runtime import load_root_env
from common.shared_stream_addrs import SHARED_868_ADDR, SHARED_VECTOR_LEN
load_root_env(__file__)
class get_center_freq(gr.top_block):
def __init__(self):
gr.top_block.__init__(self, "get_center_freq")
##################################################
# Variables
##################################################
self.prob_freq = prob_freq = 0
self.top_peaks_amount = top_peaks_amount = 20
self.samp_rate = samp_rate = 20e6
self.poll_rate = poll_rate = 10000
self.num_points = num_points = 8192
self.flag = flag = 1
self.decimation = decimation = 1
self.center_freq = center_freq = my_freq.work(prob_freq)
##################################################
# Blocks
##################################################
self.probSigVec = blocks.probe_signal_vc(4096)
self.rtlsdr_source_0 = osmosdr.source(
args="numchan=" + str(1) + " " + 'hackrf=' + get_hack_id()
gr.top_block.__init__(self, 'get_center_freq')
self.prob_freq = 0
self.poll_rate = 10000
self.vector_len = SHARED_VECTOR_LEN
self.center_freq = 0
self.shared_addr = SHARED_868_ADDR
self._stop_polling = threading.Event()
self._prob_freq_thread = None
self.probSigVec = blocks.probe_signal_vc(self.vector_len)
self.shared_source_0 = zeromq.pull_source(
gr.sizeof_gr_complex,
self.vector_len,
self.shared_addr,
100,
False,
-1,
False,
)
self.rtlsdr_source_0.set_time_unknown_pps(osmosdr.time_spec_t())
self.rtlsdr_source_0.set_sample_rate(samp_rate)
self.rtlsdr_source_0.set_center_freq(center_freq, 0)
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_gain(100, 0)
self.rtlsdr_source_0.set_if_gain(100, 0)
self.rtlsdr_source_0.set_bb_gain(0, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_bandwidth(0, 0)
self.rtlsdr_source_0.set_min_output_buffer(4096)
def _prob_freq_probe():
while True:
val = self.probSigVec.level()
try:
self.set_prob_freq(val)
except AttributeError:
pass
time.sleep(1.0 / (poll_rate))
_prob_freq_thread = threading.Thread(target=_prob_freq_probe)
_prob_freq_thread.daemon = True
_prob_freq_thread.start()
self.blocks_stream_to_vector_1 = blocks.stream_to_vector(gr.sizeof_gr_complex*1, 4096)
self.connect((self.shared_source_0, 0), (self.probSigVec, 0))
def start_polling(self):
if self._prob_freq_thread is not None:
return
def _prob_freq_probe():
while not self._stop_polling.is_set():
self.set_prob_freq(self.probSigVec.level())
time.sleep(1.0 / self.poll_rate)
##################################################
# Connections
##################################################
self.connect((self.blocks_stream_to_vector_1, 0), (self.probSigVec, 0))
self.connect((self.rtlsdr_source_0, 0), (self.blocks_stream_to_vector_1, 0))
self._prob_freq_thread = threading.Thread(target=_prob_freq_probe, daemon=True)
self._prob_freq_thread.start()
def get_prob_freq(self):
return self.prob_freq
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
self.set_center_freq(my_freq.work(self.prob_freq))
def get_top_peaks_amount(self):
return self.top_peaks_amount
def set_top_peaks_amount(self, top_peaks_amount):
self.top_peaks_amount = top_peaks_amount
def get_samp_rate(self):
return self.samp_rate
def set_samp_rate(self, samp_rate):
self.samp_rate = samp_rate
self.rtlsdr_source_0.set_sample_rate(self.samp_rate)
def get_poll_rate(self):
return self.poll_rate
def set_poll_rate(self, poll_rate):
self.poll_rate = poll_rate
def get_num_points(self):
return self.num_points
def set_num_points(self, num_points):
self.num_points = num_points
def get_flag(self):
return self.flag
def set_flag(self, flag):
self.flag = flag
def get_decimation(self):
return self.decimation
def set_decimation(self, decimation):
self.decimation = decimation
self.center_freq = my_freq.work(self.prob_freq)
def get_center_freq(self):
return self.center_freq
def set_center_freq(self, center_freq):
self.center_freq = center_freq
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
def close(self):
self._stop_polling.set()
self.stop()
self.wait()
def main(top_block_cls=get_center_freq, options=None):
#for k in range(0, 3):
# light_diods_on_boot()
tb = top_block_cls()
def sig_handler(sig=None, frame=None):
tb.stop()
tb.wait()
tb.close()
sys.exit(0)
signal.signal(signal.SIGINT, sig_handler)
signal.signal(signal.SIGTERM, sig_handler)
tb.start()
tb.start_polling()
try:
print('СЕРВИСНАЯ ИНФОРМАЦИЯ: ')
print('shared_pull_addr:', SHARED_868_ADDR)
print('debug_flag:', my_freq.debug_flag)
print('save_data_flag:', my_freq.save_data_flag)
print('send_to_module_flag:', my_freq.send_to_module_flag)
#print('multiply_factor: ', float(os.getenv('multiply_factor_' + '1200')))
#print('multiply_factor: ', float(os.getenv('multiply_factor_' + '715')))
except EOFError:
pass
#tb.stop()
tb.wait()

122
src/main_868_915_router.py
Unescape Escape View File

@ -0,0 +1,122 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
from gnuradio import blocks
from gnuradio import gr
import signal
import sys
import threading
import time
import osmosdr
from common.runtime import load_root_env, resolve_hackrf_index
from common.shared_stream_addrs import SHARED_VECTOR_LEN
from shared_router_868_915 import SharedRouter868915
load_root_env(__file__)
def get_hack_id():
return resolve_hackrf_index('hack_868', 'src/main_868_915_router.py')
class get_center_freq(gr.top_block):
def __init__(self):
gr.top_block.__init__(self, 'get_center_freq')
self.prob_freq = 0
self.poll_rate = 10000
self.vector_len = SHARED_VECTOR_LEN
self.router = SharedRouter868915()
self.active_lane = self.router.get_active_name()
self.center_freq = self.router.get_start_freq()
self._stop_polling = threading.Event()
self._prob_freq_thread = None
self.probSigVec = blocks.probe_signal_vc(self.vector_len)
self.rtlsdr_source_0 = osmosdr.source(
args='numchan=' + str(1) + ' ' + 'hackrf=' + get_hack_id()
)
self.rtlsdr_source_0.set_time_unknown_pps(osmosdr.time_spec_t())
self.rtlsdr_source_0.set_freq_corr(0, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_min_output_buffer(self.vector_len)
self.apply_active_frontend()
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
self.blocks_stream_to_vector_1 = blocks.stream_to_vector(gr.sizeof_gr_complex * 1, self.vector_len)
self.connect((self.rtlsdr_source_0, 0), (self.blocks_stream_to_vector_1, 0))
self.connect((self.blocks_stream_to_vector_1, 0), (self.probSigVec, 0))
def start_polling(self):
if self._prob_freq_thread is not None:
return
def _prob_freq_probe():
while not self._stop_polling.is_set():
self.set_prob_freq(self.probSigVec.level())
time.sleep(1.0 / self.poll_rate)
self._prob_freq_thread = threading.Thread(target=_prob_freq_probe, daemon=True)
self._prob_freq_thread.start()
def apply_active_frontend(self):
frontend = self.router.get_active_frontend()
self.rtlsdr_source_0.set_sample_rate(frontend['sample_rate'])
self.rtlsdr_source_0.set_gain(frontend['gain'], 0)
self.rtlsdr_source_0.set_if_gain(frontend['if_gain'], 0)
self.rtlsdr_source_0.set_bb_gain(frontend['bb_gain'], 0)
self.rtlsdr_source_0.set_bandwidth(frontend['bandwidth'], 0)
def get_prob_freq(self):
return self.prob_freq
def set_prob_freq(self, prob_freq):
self.prob_freq = prob_freq
next_center, lane_switched = self.router.route_vector(self.prob_freq)
if lane_switched:
self.active_lane = self.router.get_active_name()
self.apply_active_frontend()
if next_center != self.center_freq:
self.set_center_freq(next_center)
def get_center_freq(self):
return self.center_freq
def set_center_freq(self, center_freq):
self.center_freq = center_freq
self.rtlsdr_source_0.set_center_freq(self.center_freq, 0)
def close(self):
self._stop_polling.set()
try:
self.router.close()
finally:
self.stop()
self.wait()
def main(top_block_cls=get_center_freq, options=None):
tb = top_block_cls()
def sig_handler(sig=None, frame=None):
tb.close()
sys.exit(0)
signal.signal(signal.SIGINT, sig_handler)
signal.signal(signal.SIGTERM, sig_handler)
tb.start()
tb.start_polling()
try:
print('shared_router_active_lane:', tb.router.get_active_name())
print('shared_router_start_freq:', tb.get_center_freq())
except EOFError:
pass
tb.wait()
if __name__ == '__main__':
main()

173
src/shared_router_868_915.py
Unescape Escape View File

@ -0,0 +1,173 @@
import os
import numpy as np
import zmq
from common.runtime import load_root_env
from common.shared_stream_addrs import SHARED_868_ADDR, SHARED_915_ADDR
from core.multichannelswitcher import MultiChannel
from core.sig_n_medi_collect import Signal
load_root_env(__file__)
class Scheduler868:
def __init__(self):
self.signal_length = int(os.getenv('signal_length_868'))
self.multi_channel = MultiChannel(
[*map(float, os.getenv('f_step_868').split())],
[*map(float, os.getenv('f_bases_868').split())],
[*map(float, os.getenv('f_roofs_868').split())],
)
self.base_freq = float(self.multi_channel.init_f())
self.signal = Signal()
def get_current_freq(self):
return float(self.multi_channel.get_cur_channel())
def process(self, lvl):
current_before = self.get_current_freq()
metric = self.signal.fill_signal(lvl, self.signal_length)
if metric == 0:
return current_before, False
next_freq = float(self.multi_channel.change_channel())
self.signal.clear()
lane_complete = next_freq == self.base_freq and current_before != self.base_freq
return next_freq, lane_complete
class Scheduler915:
def __init__(self):
self.porog = float(os.getenv('POROG_915'))
self.point_amount = 100_000
self.split_size = 400_000
self.show_amount = int(0.8 * self.point_amount)
self.f_base = 0.91e9
self.f_step = 20e6
self.f_roof = 0.98e9
self.f = self.f_base
self.channel = 1
self.flag = 0
self.signal_arr = np.array([], dtype=np.complex64)
def get_current_freq(self):
return float(self.f)
def _median(self, sig):
samples = np.asarray(np.abs(np.array(sig, dtype=np.complex64)), dtype=np.float32)
sorted_samples = sorted(samples)
median = abs(float(np.median(sorted_samples[self.show_amount:])))
self.flag = 0 if self.porog > median else 1
def _advance(self):
next_freq = self.f + self.f_step
if next_freq >= self.f_roof:
self.f = self.f_base
self.channel = 1
return float(self.f), True
self.f = next_freq
self.channel += 1
return float(self.f), False
def process(self, lvl):
y = np.asarray(lvl, dtype=np.complex64).ravel()
self.signal_arr = np.concatenate((self.signal_arr, y), axis=None)
if self.flag == 0 and len(self.signal_arr) >= self.point_amount:
self._median(self.signal_arr[:self.point_amount])
self.signal_arr = np.array([], dtype=np.complex64)
if self.flag == 0:
return self._advance()
if len(self.signal_arr) >= self.split_size:
self.flag = 0
self.signal_arr = np.array([], dtype=np.complex64)
return self._advance()
return float(self.f), False
class SharedRouter868915:
def __init__(self):
self.frontends = {
'868': {
'sample_rate': 20e6,
'gain': 24,
'if_gain': 24,
'bb_gain': 100,
'bandwidth': 0,
},
'915': {
'sample_rate': 20e6,
'gain': 16,
'if_gain': 16,
'bb_gain': 0,
'bandwidth': 0,
},
}
self.schedulers = {
'868': Scheduler868(),
'915': Scheduler915(),
}
self.context = zmq.Context.instance()
self.sockets = {
'868': self._make_socket(SHARED_868_ADDR),
'915': self._make_socket(SHARED_915_ADDR),
}
self.active_name = '868'
self.switch_counter = 0
def _make_socket(self, addr):
sock = self.context.socket(zmq.PUSH)
sock.setsockopt(zmq.SNDHWM, 64)
sock.setsockopt(zmq.LINGER, 0)
sock.setsockopt(zmq.IMMEDIATE, 1)
sock.bind(addr)
return sock
def close(self):
for sock in self.sockets.values():
try:
sock.close(0)
except Exception:
pass
def get_active_name(self):
return self.active_name
def get_active_freq(self):
return self.schedulers[self.active_name].get_current_freq()
def get_active_frontend(self):
return dict(self.frontends[self.active_name])
def get_start_freq(self):
return self.get_active_freq()
def route_vector(self, lvl):
vector = np.asarray(lvl, dtype=np.complex64).ravel()
active_name = self.active_name
try:
self.sockets[active_name].send(vector.tobytes(), zmq.NOBLOCK)
except zmq.Again:
pass
next_freq, lane_complete = self.schedulers[active_name].process(vector)
lane_switched = False
if lane_complete:
previous = self.active_name
self.active_name = '915' if self.active_name == '868' else '868'
next_freq = self.get_active_freq()
self.switch_counter += 1
lane_switched = True
print(
f'[shared-router-868-915] switch#{self.switch_counter}: '
f'{previous} -> {self.active_name}, tune={next_freq}'
)
return float(next_freq), lane_switched

16
src/unused/embedded_1200.py
Unescape Escape View File

@ -21,7 +21,8 @@ localport = os.getenv('locport')
f_step = [*map(float, os.getenv('f_step_1200').split())]
f_bases = [*map(float, os.getenv('f_bases_1200').split())]
f_roofs = [*map(float, os.getenv('f_roofs_1200').split())]
path_to_save_medians = os.getenv('path_to_save_medians')
c_freq = as_str(os.getenv(f'c_freq_{freq_suffix}', freq_suffix))path_to_save_medians = os.getenv('path_to_save_medians')
path_to_save_alarms = os.getenv('path_to_save_alarms')
smb_host = os.getenv('smb_host')
smb_port = os.getenv('smb_port')
@ -37,7 +38,13 @@ file_types_to_save = file_types_to_save.split(',')
tmp_signal = Signal()
tmp_sigs_array = SignalsArray()
multi_channel = MultiChannel(f_step, f_bases, f_roofs)
multi_channel = MultiChannel(
f_step,
f_bases,
f_roofs,
config_tags=[freq_suffix] * len(f_step),
report_freqs=[c_freq] * len(f_step),
)
f = multi_channel.init_f()
multi_channel.fill_DB()
@ -51,8 +58,9 @@ if debug_flag:
def work(lvl):
f = multi_channel.get_cur_channel()
freq = get_centre_freq(f)
signal_length = get_signal_length(freq)
config_tag = multi_channel.get_config_tag(f)
freq = multi_channel.get_report_freq(f)
signal_length = get_signal_length(config_tag)
median, signal, abs_signal = tmp_signal.fill_sig(lvl, signal_length)
if median != -1:

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