Compare commits
15 Commits
| Author | SHA1 | Date | |
|---|---|---|---|
| ecb9e92092 | |||
| 2e1ae9892b | |||
| e98e05a515 | |||
| 52095f0284 | |||
| 3f790b43de | |||
| 01e5370e1c | |||
| df4c178131 | |||
| 81e6c48350 | |||
| cd720e80e7 | |||
| 2fd05d18ed | |||
| 03011ebd5f | |||
| 4b9bc30e28 | |||
| 4966113393 | |||
| 3371c21bbd | |||
| afc87829d9 |
@@ -536,7 +536,7 @@ class CC2650Device(Device):
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self._master.log_warn('device', self.device_id, 'update_battery_info no response')
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else:
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if data is not None and len(data) == 4 :
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if data is not None and len(data) > 2 :
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battery = struct.unpack('<H', data[1:3])[0]
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if battery is not None:
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self._battery = battery
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@@ -2035,6 +2035,7 @@ class CC2650SingleMasterCentralDevice(CC2650MasterDevice, Synchronized):
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# print("local_name = ", local_name)
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# addr type is don't care in BMD380
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print('scan_response:', list(scan_response))
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local_addr_type = int(scan_response[index:index + 1][0])
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# local_addr_type = 0xFF
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index = index + 1
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@@ -882,15 +882,18 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
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if len(data) < 18:
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return None
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time_stamp: float = struct.unpack('<I', data[1:5])[0] # unit: ms 0x18030000
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current = struct.unpack('<i', data[5:9])[0] # unit: nA
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voltage = struct.unpack('<i', data[9:13])[0] # unit: uV
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impedance = struct.unpack('<i', data[13:17])[0] # unit: mOm
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cycle_number = struct.unpack('<H', data[17:19])[0]
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finish_mode_falg = data[19]
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mem_cnt = data[1]
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time_stamp: float = struct.unpack('<I', data[4:8])[0] # unit: ms 0x18030000
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current = struct.unpack('<i', data[8:12])[0] # unit: nA
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voltage = struct.unpack('<i', data[12:16])[0] # unit: uV
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impedance = struct.unpack('<i', data[16:20])[0] # unit: mOm
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cycle_number = struct.unpack('<H', data[20:22])[0]
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finish_mode_falg = data[22]
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battery = struct.unpack('<i', data[23:27])[0]
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elite_notify_times = data[27]
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mem_wrong_information = struct.unpack('<i', data[40:40+4])[0] # mem_wrong_information = green retry, green wrong, red retry, red wrong
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ram_num = data[44]
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mem_wrong_information = struct.unpack('<i', data[43:47])[0] # mem_wrong_information = green retry, green wrong, red retry, red wrong
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ram_num = data[47]
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broken_flag = data[-1]
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if (finish_mode_falg & 0b11110000 == 0b10100000):
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@@ -942,12 +945,15 @@ class I4V4Z4T4DataDecoder(RecDataDecoder):
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ret.append_data(1, voltage)
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ret.append_data(2, impedance)
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ret.append_data(3, cycle_number)
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ret.append_data(4, battery)
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ret.append_data(5, elite_notify_times)
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ret.append_data(6, mem_cnt)
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# memoryboard information
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ret.append_data(4, ram_num)
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ret.append_data(5, broken_flag)
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ret.append_data(7, ram_num)
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ret.append_data(8, broken_flag)
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try:
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ret.append_data(6, mem_wrong_information)
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ret.append_data(9, mem_wrong_information)
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# print('append_data success, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
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except:
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print('append_data fail, mem_wrong_information:', mem_wrong_information, hex(mem_wrong_information))
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@@ -1450,12 +1456,12 @@ class EISZeroOneDataDecoder(RecDataDecoder):
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if len(data) < 18:
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return None
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ch1 = struct.unpack('>i', data[1:5])[0] # unit: 1/1000 nA
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ch2 = struct.unpack('>i', data[5:9])[0] # unit: mV
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ch3 = struct.unpack('>i', data[9:13])[0] # unit: kOm
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time_stamp: float = struct.unpack('<I', data[13:17])[0] # unit: ms
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cycle_number = struct.unpack('>H', data[17:19])[0]
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d19 = data[19]
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ch1 = struct.unpack('>i', data[1+3:5+3])[0] # unit: 1/1000 nA
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ch2 = struct.unpack('>i', data[5+3:9+3])[0] # unit: mV
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ch3 = struct.unpack('>i', data[9+3:13+3])[0] # unit: kOm
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time_stamp: float = struct.unpack('<I', data[13+3:17+3])[0] # unit: ms
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cycle_number = struct.unpack('>H', data[17+3:19+3])[0]
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d19 = data[19+3]
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gain = (d19 & 0x0F)
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finishMode = (d19 & 0x80) >> 7
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@@ -46,7 +46,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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self._elite_data_len = 40
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self._mem_header_len = 3
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self._mem_tailer_len = 8
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self._mem_tailer_len = 6
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self._single_data_len = self._elite_data_len + self._mem_header_len + self._mem_tailer_len
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# buffer
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@@ -167,10 +167,33 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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print("read red data times", self._read_red_times)
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return data
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def _compare_green_data_addr_and_flag(self, data: Union[bytes, List[int]], device: int):
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green_data_section1 = data[3:7]
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green_data_section2 = data[7:11]
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green_data_section3 = data[11:15]
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green_data_section = []
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if green_data_section1 == green_data_section2:
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green_data_section = green_data_section1
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elif(green_data_section2 == green_data_section3 or green_data_section1 == green_data_section3):
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print("green data not equal: = ", data[3:15])
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print("green data print:", data, device, datetime.now())
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green_data_section = green_data_section3
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else:
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print("green data not equal: = ", data[3:15])
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print("green data print:", data, device, datetime.now())
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green_data_section = green_data_section3 # use last data
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return green_data_section
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def _print_ram_all_data(self):
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addr = 0
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red_length = int(7000 / 2)
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tx_temp = [0] * red_length
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tx_temp = [0] * (red_length + 3)
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while True:
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tx_temp[0] = MEM_INS_READ
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@@ -216,7 +239,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
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if (self._head_wrong_cnt[device] <= 5): # print 5 times
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print('data_first[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
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print(list(data[0:15]))
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print(list(data))
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data[0:3] = [255, 255, 255]
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# ----------------------------------------------------------------------------------------------
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@@ -235,13 +258,13 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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# self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
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# if (self._head_wrong_cnt[device] < 10):
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# print('data_first[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
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# print(list(data_first[0:7]))
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# print(list(data_first))
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# if (data_second[0] != 255 or data_second[1] != 255 or data_second[2] != 255):
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# self._head_wrong_cnt[device] = self._head_wrong_cnt[device] + 1
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# if (self._head_wrong_cnt[device] < 10):
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# print('data_second[0:3] != [255, 255, 255], device:', device, ',', self._head_wrong_cnt[device], 'times')
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# print(list(data_second[0:7]))
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# print(list(data_second))
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# if (data_first[3:] == data_second[3:]):
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# data = data_first
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@@ -253,27 +276,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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# data = self.compare_green_data(data_first, data_second, data_third, len(tx_h))
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# ----------------------------------------------------------------------------------------------
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# debug use
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# green_data = []
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# green_data = data
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# print("_[Debug] @ spi green data = ", green_data)
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green_data_section1 = data[3:7]
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green_data_section2 = data[7:11]
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green_data_section3 = data[11:15]
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if green_data_section1 == green_data_section2:
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green_data_section = green_data_section1
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elif(green_data_section2 == green_data_section3 or green_data_section1 == green_data_section3):
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print("green data not equal: = ", data[3:15])
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print("green data print:", data, device, datetime.now())
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green_data_section = green_data_section3
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else:
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print("green data not equal: = ", data[3:15])
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print("green data print:", data, device, datetime.now())
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green_data_section = green_data_section3 # use last data
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green_data_section = self._compare_green_data_addr_and_flag(data, device)
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length = (green_data_section[0] << 8) | green_data_section[1]
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header = data[15]
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@@ -284,8 +287,8 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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print("length < 12")
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print("green data print:", data, device, datetime.now())
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if length == 0:
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self._print_ram_all_data()
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# if length == 0:
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# self._print_ram_all_data()
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return None
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@@ -302,7 +305,7 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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if (header != 255):
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flag_print = True
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print("green data: header is not 255: ", header)
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self._print_ram_all_data()
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# self._print_ram_all_data()
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if (elite_data_len != self._elite_data_len):
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flag_print = True
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@@ -311,18 +314,9 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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if (flag_print):
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print("green data print:", data, device, datetime.now(), '\n')
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# neulive
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# address += len(data) - 11
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# tx_d = self._tx_buffer_data
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# red_length = len(tx_d)
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address = 12
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red_length = int(length / 2)
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tx_d = [0] * red_length
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# elite read len(_tx_buffer_data) byte
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# address = 12
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# tx_d = self._tx_buffer_data
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tx_d = [0] * (red_length + 3)
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while True:
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tx_d[0] = MEM_INS_READ
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@@ -377,11 +371,40 @@ class MultiExtMemSpiInterface(LowLevelHardwareInterface):
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# * red data formate:
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# * ramHdr, ramHdr, ramHdr, (3B)
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# * 255, #, data_length, (3B)
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# * data, (20B)
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# * data, (40B)
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# * red_wrong, red_retry_cnt, green_wrong, green_retry_cnt, (4B)
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# * 255, #, data_length, (3B)
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# * check_num, (1B)
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# * */
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# read again if check num is wrong
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index = 0
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check_number_print = False
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for i in range(0, len(rx), self._single_data_len):
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check_sum = sum(rx[i : i + self._single_data_len - 1]) & 0b11111111
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# print(check_sum, rx[i + self._single_data_len - 1])
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if (check_sum != rx[i + self._single_data_len - 1]):
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# print('check_sum wrong, origin value:', 'check_sum =', check_sum, rx[i : i + self._single_data_len])
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tx_d = [0] * (self._single_data_len + 3)
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address = 12 + self._single_data_len * index
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tx_d[0] = MEM_INS_READ
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tx_d[1] = ((address >> 8) & 0xFF)
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tx_d[2] = (address & 0xFF)
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data = []
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data = self._spi.send_byte(tx_d)
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data[0:3] = [255, 255, 255]
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rx[i : i + self._single_data_len] = data[3:]
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print('check_sum wrong, read again:', 'check_sum =', check_sum, rx[i : i + self._single_data_len])
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check_number_print = True
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index = index + 1
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if check_number_print:
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print('check_sum wrong:', device, datetime.now())
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for i in range(0, len(rx), self._single_data_len):
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print(rx[i:i+self._single_data_len])
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print()
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# mark read
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self._spi.send_byte(self.MEM_INS_MARKED1)
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self._spi.send_byte(self.MEM_INS_MARKED2)
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@@ -1353,7 +1353,6 @@ class RecordingFileWriter:
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mini_id_dict[ch] = {}
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for scale in self._mini_scale_list:
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mini_id_dict[ch][scale] = self._recording_mini_dict[str(scale)][ch]._id_db
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print('self._meta._id_db, mini_id_dict', self._meta._id_db, mini_id_dict)
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self._database.put_queue(['data_meta_update_all_channel_mini_id', self._meta._id_db, mini_id_dict])
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data_save = False
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@@ -126,6 +126,9 @@ class DataServer(SocketServer, DataAPI):
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self.database_process = DataBaseProcess('data_server', self.log_verbose, self._queue_db, self._queue_ds_dict, self._queue_db_error)
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self.database_process.start()
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self._no_data_total_duration = 0
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self._recv_memory_cost_time = 0
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@logging_info
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def setup(self):
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self._available_channel.clear()
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@@ -669,7 +672,13 @@ class DataServer(SocketServer, DataAPI):
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print("q size= ", self._configurations[device]._queue_rec.qsize())
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self._configurations[device].put_rec_queue(data)
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self._no_data_total_duration = 0
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ret = True
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else:
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time_diff = time() - self._recv_memory_cost_time
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self._no_data_total_duration += time_diff
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print('data is None', device, datetime.now(), self._no_data_total_duration)
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self._recv_memory_cost_time = time()
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return ret
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@@ -160,7 +160,7 @@ class DataBaseProcess(Process):
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getattr(self, do)(*args)
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return None
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@calculate_time
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@calculate_time(1)
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def data_meta_write(self, _data: JSON_OBJECT, device_id, _uuid = None, _id = None):
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if _id > 0:
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sql_str = 'UPDATE "public"."recording_data_metas" SET '
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@@ -376,7 +376,7 @@ class DataBaseProcess(Process):
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print('recording error', e)
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return None
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# @calculate_time
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@calculate_time(1)
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def data_raw_recording_new(self, _id_dict, _channel_list, _data_dict, _end_time_dict, _size_dict):
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try:
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para_list = []
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@@ -446,7 +446,7 @@ class DataBaseProcess(Process):
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return True
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# @calculate_time
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@calculate_time(1)
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def data_mini_recording_new(self, _id_dict, _channel_list, _data_mean_dict):
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try:
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para_list = []
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@@ -508,17 +508,13 @@ class DataBaseProcess(Process):
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return True
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# @calculate_time
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@calculate_time(1)
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def data_meta_update_all_channel_raw_id(self, meta_id:str, raw_id_dict:dict):
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try:
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sql_str = "UPDATE recording_data_metas SET raw_data = "
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sql_str = "UPDATE recording_data_metas SET raw_data = jsonb_insert(raw_data, '{%s, -1}', '%s', TRUE) WHERE id = %s;"
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sql_set = []
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for ch in raw_id_dict.keys():
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sql_str += "jsonb_insert(raw_data -> %s, '{-1}', '%s', TRUE) ||"
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sql_set.extend([ch, raw_id_dict[ch]])
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sql_str[:-2] + "WHERE id = %s;"
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sql_set.append(meta_id)
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print(sql_str, sql_set)
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sql_set.append([ch, raw_id_dict[ch], meta_id])
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with self._psql_conn as conn:
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with conn.cursor() as sql_cursor:
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execute_batch(sql_cursor, sql_str, sql_set)
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@@ -539,7 +535,7 @@ class DataBaseProcess(Process):
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return True
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# @calculate_time
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@calculate_time(1)
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def data_meta_update_all_channel_mini_id(self, meta_id, mini_id_dict):
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try:
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sql_str = "UPDATE recording_data_metas SET mini_data = jsonb_insert(mini_data, '{%s, %s, -1}', '%s', TRUE) WHERE id = %s;"
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@@ -98,6 +98,11 @@ class RecordingProcess(Process):
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self._last_cnt = [-1, -1, -1, -1, -1, -1, -1, -1]
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self._wrong_cnt = 0
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# elite data length
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self._elite_data_len = 40
|
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self._mem_header_len = 3
|
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self._mem_tailer_len = 6
|
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self._single_data_len = self._elite_data_len + self._mem_header_len + self._mem_tailer_len
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|
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def ensure_data_format(self) -> DataDecodeFormat:
|
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if isinstance(self._data_format, (str, bytes)):
|
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@@ -160,7 +165,11 @@ class RecordingProcess(Process):
|
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"""
|
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q = None
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try:
|
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now = time()
|
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q = self._queue_rec.get()
|
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get_queue_time_cost = time() - now
|
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if get_queue_time_cost > 1.1:
|
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print('get queue cost time', get_queue_time_cost, 'q_size', self._queue_rec.qsize())
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except:
|
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return False
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finally:
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@@ -186,7 +195,7 @@ class RecordingProcess(Process):
|
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current_time = time()
|
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if self._timer is not None:
|
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if current_time - self._timer > 1.5:
|
||||
print('time, sync_data routine_time', current_time, current_time - self._timer)
|
||||
print('time, sync_data routine_time', 'device:', self._device, datetime.now(), current_time, current_time - self._timer)
|
||||
self._isTimeOut = True
|
||||
self._timer = current_time
|
||||
|
||||
@@ -286,6 +295,7 @@ class RecordingProcess(Process):
|
||||
self._last_cnt[7] = head_counter - 1
|
||||
last_data_cnt = self._last_cnt[7]
|
||||
|
||||
# dont save to section when head or id is wrong
|
||||
if (head != 255 or device_id != device):
|
||||
save = False
|
||||
last_data_cnt = last_data_cnt + 1
|
||||
@@ -328,60 +338,57 @@ class RecordingProcess(Process):
|
||||
|
||||
return save
|
||||
|
||||
def _check_jump_ram(self, raw_data: bytes, colum_now: int, colum_total: int, save: bool, device: int):
|
||||
i = colum_now
|
||||
def _check_jump_ram(self, raw_data: bytes, colum_now: int, colum_total: int, save: bool, device: int, data_len: int):
|
||||
col = colum_now
|
||||
save = False
|
||||
|
||||
if (raw_data[i][0] == 255 and raw_data[i][3] == device):
|
||||
if colum_total < 3:
|
||||
print('this ram data < 3 records, need to fix, colum_total = ', colum_total)
|
||||
if colum_total == 1:
|
||||
print('raw_data[0]', raw_data[0])
|
||||
if raw_data[col][0] != 255 or raw_data[col][3] != device:
|
||||
return save
|
||||
|
||||
elif colum_total == 2:
|
||||
print('raw_data[0]', raw_data[0])
|
||||
print('raw_data[1]', raw_data[1])
|
||||
if colum_total == 1:
|
||||
print('this ram data < 3 records, colum_total = ', colum_total)
|
||||
print('raw_data[0]', raw_data[0])
|
||||
return save
|
||||
|
||||
else:
|
||||
elif colum_total == 2:
|
||||
print('this ram data < 3 records, colum_total = ', colum_total)
|
||||
print('raw_data[0]', raw_data[0])
|
||||
print('raw_data[1]', raw_data[1])
|
||||
if (raw_data[col + 1][1] - raw_data[col][1] == 1) or (raw_data[col][1] == 255 and raw_data[col + 1][1] == 0):
|
||||
save = True
|
||||
|
||||
if((raw_data[i + 1][1] - raw_data[i][1] == 1 and raw_data[i + 2][1] - raw_data[i + 1][1] == 1) or
|
||||
(raw_data[i][1] == 255 and raw_data[i + 1][1] == 0 and raw_data[i + 2][1] == 1) or
|
||||
(raw_data[i][1] == 254 and raw_data[i + 1][1] == 255 and raw_data[i + 2][1] == 0)):
|
||||
elif colum_total >= 3:
|
||||
if (raw_data[col + 1][1] - raw_data[col][1] == 1 and raw_data[col + 2][1] - raw_data[col + 1][1] == 1) or\
|
||||
(raw_data[col][1] == 255 and raw_data[col + 1][1] == 0 and raw_data[col + 2][1] == 1) or\
|
||||
(raw_data[col][1] == 254 and raw_data[col + 1][1] == 255 and raw_data[col + 2][1] == 0):
|
||||
save = True
|
||||
|
||||
if ((raw_data[i][1] == 255 and raw_data[i + 1][1] == 0 and raw_data[i + 2][1] == 1) or
|
||||
(raw_data[i][1] == 254 and raw_data[i + 1][1] == 255 and raw_data[i + 2][1] == 0)):
|
||||
print('cnt = [254, 255, 0] or [255, 0, 1]')
|
||||
if save == True:
|
||||
self._skip_ram_cnt += 1
|
||||
last_data_cnt = raw_data[col][1]
|
||||
if (device == 4):
|
||||
print('self._last_cnt[4]:', self._last_cnt[4], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 5):
|
||||
print('self._last_cnt[5]:', self._last_cnt[5], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 6):
|
||||
print('self._last_cnt[6]:', self._last_cnt[6], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 7):
|
||||
print('self._last_cnt[7]:', self._last_cnt[7], ', last_data_cnt:', last_data_cnt)
|
||||
|
||||
print('skip RAM, but data is right, solve data', list(raw_data[col][0:3]),'|', list(raw_data[colum_total-1][0:3]), 'skip Ram', self._skip_ram_cnt, 'times \n')
|
||||
|
||||
save = True
|
||||
self._skip_ram_cnt += 1
|
||||
last_data_cnt = raw_data[i][1]
|
||||
if (device == 4):
|
||||
print('self._last_cnt[4]:', self._last_cnt[4], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 5):
|
||||
print('self._last_cnt[5]:', self._last_cnt[5], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 6):
|
||||
print('self._last_cnt[6]:', self._last_cnt[6], ', last_data_cnt:', last_data_cnt)
|
||||
if (device == 7):
|
||||
print('self._last_cnt[7]:', self._last_cnt[7], ', last_data_cnt:', last_data_cnt)
|
||||
|
||||
print('skip RAM, but data is right, solve data', list(raw_data[i][0:3]),'|', list(raw_data[colum_total-1][0:3]), 'skip Ram', self._skip_ram_cnt, 'times \n')
|
||||
# print('data:')
|
||||
# print('|', list(raw_data[0]))
|
||||
# print('|', list(raw_data[1]))
|
||||
# print('| ... ... ...')
|
||||
# print('| ... ... ...')
|
||||
# print('|', list(raw_data[colum_total-1]))
|
||||
if (device == 4):
|
||||
self._last_cnt[4] = last_data_cnt
|
||||
|
||||
if (device == 4):
|
||||
self._last_cnt[4] = last_data_cnt
|
||||
elif (device == 5):
|
||||
self._last_cnt[5] = last_data_cnt
|
||||
|
||||
elif (device == 5):
|
||||
self._last_cnt[5] = last_data_cnt
|
||||
elif (device == 6):
|
||||
self._last_cnt[6] = last_data_cnt
|
||||
|
||||
elif (device == 6):
|
||||
self._last_cnt[6] = last_data_cnt
|
||||
elif (device == 7):
|
||||
self._last_cnt[7] = last_data_cnt
|
||||
|
||||
elif (device == 7):
|
||||
self._last_cnt[7] = last_data_cnt
|
||||
return save
|
||||
|
||||
def _neu_foreach_data_section(self, data: bytes):
|
||||
@@ -496,54 +503,59 @@ class RecordingProcess(Process):
|
||||
:return:
|
||||
"""
|
||||
raw_data = []
|
||||
index = 0
|
||||
elite_data_len = 40
|
||||
mem_header_len = 3
|
||||
mem_tailer_len = 8
|
||||
single_data_len = elite_data_len + mem_header_len + mem_tailer_len
|
||||
device = self._device
|
||||
records = 0
|
||||
print_flag = False
|
||||
device = self._device
|
||||
single_data_len = self._single_data_len
|
||||
mem_header_len = self._mem_header_len
|
||||
|
||||
# packet section data use two microarray
|
||||
for i in range(0, len(data), single_data_len):
|
||||
index = index + 1
|
||||
for j in range(index, index + 1):
|
||||
raw_data.append(data[i : i + single_data_len])
|
||||
|
||||
records = records + 1
|
||||
raw_data.append(data[i : i + single_data_len])
|
||||
if len(data[i : i + 10]) < 10:
|
||||
print('data dont be package:', raw_data[records - 1], 'index:', records - 1)
|
||||
del raw_data[records - 1]
|
||||
records = records - 1
|
||||
|
||||
# check cnt
|
||||
for i in range(index):
|
||||
for i in range(records):
|
||||
|
||||
# if jump cnt, don't save data
|
||||
save = self._check_cnt(raw_data[i], device)
|
||||
|
||||
# # if jump Ram, also can handle data
|
||||
if save == False:
|
||||
save = self._check_jump_ram(raw_data, i, index, save, device)
|
||||
save = self._check_jump_ram(raw_data, i, records, save, device, single_data_len)
|
||||
|
||||
if (save == True):
|
||||
section = raw_data[i]
|
||||
|
||||
if (section[0 : mem_header_len] == section[single_data_len - 3: single_data_len]):
|
||||
section = section + b'\x00'
|
||||
|
||||
else:
|
||||
section = section + b'\x01'
|
||||
print('header != tailer,',
|
||||
list(section[0 : mem_header_len]),
|
||||
list(section[single_data_len - 3: single_data_len]),
|
||||
'device:', device, ',', datetime.now())
|
||||
check_sum = sum(section[0 : single_data_len - 1]) & 0b11111111
|
||||
|
||||
if (check_sum != section[single_data_len - 1]):
|
||||
print('check number not match,',
|
||||
list(section[0 : mem_header_len]), section[-1], '!=', check_sum, 'device:', device, ',', datetime.now())
|
||||
if (i-1 >= 0):
|
||||
print('header != tailer', list(raw_data[i-1]), 'raw:', i-1)
|
||||
print('header != tailer', list(section), 'raw:', i)
|
||||
if (i+1 <= index):
|
||||
print('header != tailer', list(raw_data[i+1]), 'raw:', i+1, '\n')
|
||||
|
||||
section = section[3:]
|
||||
print('check number not match', list(raw_data[i-1]), 'raw:', i-1)
|
||||
|
||||
print('check number not match', list(raw_data[i]), 'raw:', i)
|
||||
|
||||
if (i+1 <= records):
|
||||
print('check number not match', list(raw_data[i+1]), 'raw:', i+1, '\n')
|
||||
section = section + b'\x01'
|
||||
|
||||
print('delete data:', list(raw_data[i][0:3]), 'raw:', i, '\n')
|
||||
continue
|
||||
else:
|
||||
section = section + b'\x00'
|
||||
|
||||
# section = section[3:]
|
||||
yield None, section
|
||||
|
||||
else:
|
||||
print_flag = True
|
||||
print('delete data:', list(raw_data[i][0:3]), 'raw:', i+1, '\n')
|
||||
print('delete data:', list(raw_data[i][0:3]), 'raw:', i, '\n')
|
||||
|
||||
# if print_flag:
|
||||
# print('delete data context:')
|
||||
|
||||
@@ -523,13 +523,15 @@ def logging_error(f):
|
||||
return _logger
|
||||
|
||||
|
||||
def calculate_time(func, time_limit=None):
|
||||
def warp(*args, **kwargs):
|
||||
now = time()
|
||||
func(*args, **kwargs)
|
||||
if time_limit == None:
|
||||
print(func.__name__,'cost:', time() - now)
|
||||
else:
|
||||
if time() - now > time_limit:
|
||||
def calculate_time(time_limit=None):
|
||||
def actual_calculate_time(func):
|
||||
def warp(*args, **kwargs):
|
||||
now = time()
|
||||
func(*args, **kwargs)
|
||||
if time_limit == None:
|
||||
print(func.__name__,'cost:', time() - now)
|
||||
return warp
|
||||
else:
|
||||
if time() - now > time_limit:
|
||||
print(func.__name__,'cost:', time() - now)
|
||||
return warp
|
||||
return actual_calculate_time
|
||||
|
||||
Reference in New Issue
Block a user