Changes for page 01 Lua Functions

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...	...	@@ -1370,10 +1370,15 @@
1370	1370	)))
1371	1371
1372	1372
	1373	+(% class="box errormessage" %)
1373	1373	(((
1374		-== **Data storage area（HDW/HDX）** ==
	1375	+
1375	1375	)))
1376	1376
	1378	+(((
	1379	+== **bvData storage area（HDW/HDX）** ==
	1380	+)))
	1381	+
1377	1377	The system storage area (HDW) of the V-BOX is used to store temporary data:
1378	1378
1379	1379	1. Access by word, the number range is: "@W_HDW0"-"@W_HDW299999".
...	...	@@ -1381,8 +1381,9 @@
1381	1381
1382	1382	(((
1383	1383	== **8.2 Special data area (HSW/HSX)** ==
	1389	+)))
1384	1384
1385		-(% class="box infomessage" %)
	1391	+(% class="box errormessage" %)
1386	1386	(((
1387	1387	**✎Note: **
1388	1388
...	...	@@ -1389,138 +1389,149 @@
1389	1389	* //HSW// is a system special register, so please refer to the system special register table during use. Do not use addresses that are not mentioned in the table, and use the addresses stated in the table with caution (example: restart ("@W_HSW0") Writing a value of 1 will cause V-BOX to restart).
1390	1390	* //Without any conditions. Direct use ("@W_HSW0") will cause the V-BOX to restart continuously.// When using ("@W_HSW0") address, please add judgment conditions, such as: connection to MQTT fails, there is no network, the value of a PLC address meets the condition or counts to a certain value.
1391	1391	)))
1392		-)))
1393	1393
1394		-The system data area (HSW) of the box is used for system special registers (system reserved). Use //addr_getword// to obtain the following register information:
1395	1395
	1400	+1.The system data area (HSW) of the box is used for system special registers (system reserved). Use //addr_getword// to obtain the following register information:
	1401	+
1396	1396	(% class="table-bordered" %)
1397		-|=(% style="width: 151px;" %)address|=(% style="width: 169px;" %)function|=(% style="width: 456px;" %)Read and write status: read only, write only, read and write
1398		-|(% style="width:151px" %)@W_HSW0|(% style="width:169px" %)restart|(% style="width:456px" %)read and write
1399		-|(% style="width:151px" %)@W_HSW1|(% style="width:169px" %)Box time: year|(% style="width:456px" %)read and write
1400		-|(% style="width:151px" %)@W_HSW2|(% style="width:169px" %)Box time: month|(% style="width:456px" %)read and write
1401		-|(% style="width:151px" %)@W_HSW3|(% style="width:169px" %)Box time: day|(% style="width:456px" %)read and write
1402		-|(% style="width:151px" %)@W_HSW4|(% style="width:169px" %)Box time: hour|(% style="width:456px" %)read and write
1403		-|(% style="width:151px" %)@W_HSW5|(% style="width:169px" %)Box time: minute|(% style="width:456px" %)read and write
1404		-|(% style="width:151px" %)@W_HSW6|(% style="width:169px" %)Box time: second|(% style="width:456px" %)read and write
1405		-|(% style="width:151px" %)@W_HSW7|(% style="width:169px" %)Box time: week|(% style="width:456px" %)read and write
1406		-|(% style="width:151px" %)@W_HSW8|(% style="width:169px" %)Ethernet IP1|(% style="width:456px" %)read only
1407		-|(% style="width:151px" %)@W_HSW9|(% style="width:169px" %)Ethernet IP2|(% style="width:456px" %)read only
1408		-|(% style="width:151px" %)@W_HSW10|(% style="width:169px" %)Ethernet IP3|(% style="width:456px" %)read only
1409		-|(% style="width:151px" %)@W_HSW11|(% style="width:169px" %)Ethernet IP4|(% style="width:456px" %)read only
1410		-|(% style="width:151px" %)@W_HSW12|(% style="width:169px" %)Ethernet Mask 1|(% style="width:456px" %)read only
1411		-|(% style="width:151px" %)@W_HSW13|(% style="width:169px" %)Ethernet Mask 2|(% style="width:456px" %)read only
1412		-|(% style="width:151px" %)@W_HSW14|(% style="width:169px" %)Ethernet Mask 3|(% style="width:456px" %)read only
1413		-|(% style="width:151px" %)@W_HSW15|(% style="width:169px" %)Ethernet Mask 4|(% style="width:456px" %)read only
1414		-|(% style="width:151px" %)@W_HSW16|(% style="width:169px" %)Ethernet Gateway 1|(% style="width:456px" %)read only
1415		-|(% style="width:151px" %)@W_HSW17|(% style="width:169px" %)Ethernet Gateway 2|(% style="width:456px" %)read only
1416		-|(% style="width:151px" %)@W_HSW18|(% style="width:169px" %)Ethernet Gateway 3|(% style="width:456px" %)read only
1417		-|(% style="width:151px" %)@W_HSW19|(% style="width:169px" %)Ethernet Gateway 4|(% style="width:456px" %)read only
1418		-|(% style="width:151px" %)@W_HSW21|(% style="width:169px" %)Ethernet MAC1|(% style="width:456px" %)read only
1419		-|(% style="width:151px" %)@W_HSW22|(% style="width:169px" %)Ethernet MAC2|(% style="width:456px" %)read only
1420		-|(% style="width:151px" %)@W_HSW23|(% style="width:169px" %)Ethernet MAC3|(% style="width:456px" %)read only
1421		-|(% style="width:151px" %)@W_HSW24|(% style="width:169px" %)Ethernet MAC4|(% style="width:456px" %)read only
1422		-|(% style="width:151px" %)@W_HSW25|(% style="width:169px" %)Ethernet MAC3|(% style="width:456px" %)read only
1423		-|(% style="width:151px" %)@W_HSW26|(% style="width:169px" %)Ethernet MAC4|(% style="width:456px" %)read only
1424		-|(% style="width:151px" %)@W_HSW128|(% style="width:169px" %)WIFI IP1|(% style="width:456px" %)read only
1425		-|(% style="width:151px" %)@W_HSW129|(% style="width:169px" %)WIFI IP2|(% style="width:456px" %)read only
1426		-|(% style="width:151px" %)@W_HSW130|(% style="width:169px" %)WIFI IP3|(% style="width:456px" %)read only
1427		-|(% style="width:151px" %)@W_HSW131|(% style="width:169px" %)WIFI IP4|(% style="width:456px" %)read only
1428		-|(% style="width:151px" %)@W_HSW132|(% style="width:169px" %)WIFI Mask 1|(% style="width:456px" %)read only
1429		-|(% style="width:151px" %)@W_HSW133|(% style="width:169px" %)WIFI Mask 2|(% style="width:456px" %)read only
1430		-|(% style="width:151px" %)@W_HSW134|(% style="width:169px" %)WIFI Mask 3|(% style="width:456px" %)read only
1431		-|(% style="width:151px" %)@W_HSW135|(% style="width:169px" %)WIFI Mask 4|(% style="width:456px" %)read only
1432		-|(% style="width:151px" %)@W_HSW136|(% style="width:169px" %)WIFI Gateway 1|(% style="width:456px" %)read only
1433		-|(% style="width:151px" %)@W_HSW137|(% style="width:169px" %)WIFI Gateway 2|(% style="width:456px" %)read only
1434		-|(% style="width:151px" %)@W_HSW138|(% style="width:169px" %)WIFI Gateway 3|(% style="width:456px" %)read only
1435		-|(% style="width:151px" %)@W_HSW139|(% style="width:169px" %)WIFI Gateway 4|(% style="width:456px" %)read only
1436		-|(% style="width:151px" %)@W_HSW140|(% style="width:169px" %)WIFI MAC1|(% style="width:456px" %)read only
1437		-|(% style="width:151px" %)@W_HSW141|(% style="width:169px" %)WIFI MAC2|(% style="width:456px" %)read only
1438		-|(% style="width:151px" %)@W_HSW142|(% style="width:169px" %)WIFI MAC3|(% style="width:456px" %)read only
1439		-|(% style="width:151px" %)@W_HSW143|(% style="width:169px" %)WIFI MAC4|(% style="width:456px" %)read only
1440		-|(% style="width:151px" %)@W_HSW144|(% style="width:169px" %)WIFI MAC5|(% style="width:456px" %)read only
1441		-|(% style="width:151px" %)@W_HSW145|(% style="width:169px" %)WIFI MAC6|(% style="width:456px" %)read only
1442		-|(% style="width:151px" %)@W_HSW146|(% style="width:169px" %)WIFI Signal value|(% style="width:456px" %)read only
1443		-|(% style="width:151px" %)@W_HSW148|(% style="width:169px" %)4G IP1|(% style="width:456px" %)read only
1444		-|(% style="width:151px" %)@W_HSW149|(% style="width:169px" %)4G IP2|(% style="width:456px" %)read only
1445		-|(% style="width:151px" %)@W_HSW150|(% style="width:169px" %)4G IP3|(% style="width:456px" %)read only
1446		-|(% style="width:151px" %)@W_HSW151|(% style="width:169px" %)4G IP4|(% style="width:456px" %)read only
1447		-|(% style="width:151px" %)@W_HSW152|(% style="width:169px" %)4G Mask 1|(% style="width:456px" %)read only
1448		-|(% style="width:151px" %)@W_HSW153|(% style="width:169px" %)4G Mask 2|(% style="width:456px" %)read only
1449		-|(% style="width:151px" %)@W_HSW154|(% style="width:169px" %)4G Mask 3|(% style="width:456px" %)read only
1450		-|(% style="width:151px" %)@W_HSW155|(% style="width:169px" %)4G Mask 4|(% style="width:456px" %)read only
1451		-|(% style="width:151px" %)@W_HSW156|(% style="width:169px" %)4G Gateway 1|(% style="width:456px" %)read only
1452		-|(% style="width:151px" %)@W_HSW157|(% style="width:169px" %)4G Gateway 2|(% style="width:456px" %)read only
1453		-|(% style="width:151px" %)@W_HSW158|(% style="width:169px" %)4G Gateway 3|(% style="width:456px" %)read only
1454		-|(% style="width:151px" %)@W_HSW159|(% style="width:169px" %)4G Gateway 4|(% style="width:456px" %)read only
1455		-|(% style="width:151px" %)@W_HSW160|(% style="width:169px" %)4G MAC1|(% style="width:456px" %)read only
1456		-|(% style="width:151px" %)@W_HSW161|(% style="width:169px" %)4G MAC2|(% style="width:456px" %)read only
1457		-|(% style="width:151px" %)@W_HSW162|(% style="width:169px" %)4G MAC3|(% style="width:456px" %)read only
1458		-|(% style="width:151px" %)@W_HSW163|(% style="width:169px" %)4G MAC4|(% style="width:456px" %)read only
1459		-|(% style="width:151px" %)@W_HSW164|(% style="width:169px" %)4G MAC5|(% style="width:456px" %)read only
1460		-|(% style="width:151px" %)@W_HSW165|(% style="width:169px" %)4G MAC6|(% style="width:456px" %)read only
1461		-|(% style="width:151px" %)@W_HSW166|(% style="width:169px" %)4G Signal value|(% style="width:456px" %)read only
	1403	+|address|function|Read and write status: read only, write only, read and write
	1404	+|@W_HSW0|restart|read and write
	1405	+|@W_HSW1|Box time: year|read and write
	1406	+|@W_HSW2|Box time: month|read and write
	1407	+|@W_HSW3|Box time: day|read and write
	1408	+|@W_HSW4|Box time: hour|read and write
	1409	+|@W_HSW5|Box time: minute|read and write
	1410	+|@W_HSW6|Box time: second|read and write
	1411	+|@W_HSW7|Box time: week|read and write
	1412	+|@W_HSW8|Ethernet IP1|read only
	1413	+|@W_HSW9|Ethernet IP2|read only
	1414	+|@W_HSW10|Ethernet IP3|read only
	1415	+|@W_HSW11|Ethernet IP4|read only
	1416	+|@W_HSW12|Ethernet Mask 1|read only
	1417	+|@W_HSW13|Ethernet Mask 2|read only
	1418	+|@W_HSW14|Ethernet Mask 3|read only
	1419	+|@W_HSW15|Ethernet Mask 4|read only
	1420	+|@W_HSW16|Ethernet Gateway 1|read only
	1421	+|@W_HSW17|Ethernet Gateway 2|read only
	1422	+|@W_HSW18|Ethernet Gateway 3|read only
	1423	+|@W_HSW19|Ethernet Gateway 4|read only
	1424	+|@W_HSW21|Ethernet MAC1|read only
	1425	+|@W_HSW22|Ethernet MAC2|read only
	1426	+|@W_HSW23|Ethernet MAC3|read only
	1427	+|@W_HSW24|Ethernet MAC4|read only
	1428	+|@W_HSW25|Ethernet MAC3|read only
	1429	+|@W_HSW26|Ethernet MAC4|read only
	1430	+|@W_HSW128|WIFI IP1|read only
	1431	+|@W_HSW129|WIFI IP2|read only
	1432	+|@W_HSW130|WIFI IP3|read only
	1433	+|@W_HSW131|WIFI IP4|read only
	1434	+|@W_HSW132|WIFI Mask 1|read only
	1435	+|@W_HSW133|WIFI Mask 2|read only
	1436	+|@W_HSW134|WIFI Mask 3|read only
	1437	+|@W_HSW135|WIFI Mask 4|read only
	1438	+|@W_HSW136|WIFI Gateway 1|read only
	1439	+|@W_HSW137|WIFI Gateway 2|read only
	1440	+|@W_HSW138|WIFI Gateway 3|read only
	1441	+|@W_HSW139|WIFI Gateway 4|read only
	1442	+|@W_HSW140|WIFI MAC1|read only
	1443	+|@W_HSW141|WIFI MAC2|read only
	1444	+|@W_HSW142|WIFI MAC3|read only
	1445	+|@W_HSW143|WIFI MAC4|read only
	1446	+|@W_HSW144|WIFI MAC5|read only
	1447	+|@W_HSW145|WIFI MAC6|read only
	1448	+|@W_HSW146|WIFI Signal value|read only
	1449	+|@W_HSW148|4G IP1|read only
	1450	+|@W_HSW149|4G IP2|read only
	1451	+|@W_HSW150|4G IP3|read only
	1452	+|@W_HSW151|4G IP4|read only
	1453	+|@W_HSW152|4G Mask 1|read only
	1454	+|@W_HSW153|4G Mask 2|read only
	1455	+|@W_HSW154|4G Mask 3|read only
	1456	+|@W_HSW155|4G Mask 4|read only
	1457	+|@W_HSW156|4G Gateway 1|read only
	1458	+|@W_HSW157|4G Gateway 2|read only
	1459	+|@W_HSW158|4G Gateway 3|read only
	1460	+|@W_HSW159|4G Gateway 4|read only
	1461	+|@W_HSW160|4G MAC1|read only
	1462	+|@W_HSW161|4G MAC2|read only
	1463	+|@W_HSW162|4G MAC3|read only
	1464	+|@W_HSW163|4G MAC4|read only
	1465	+|@W_HSW164|4G MAC5|read only
	1466	+|@W_HSW165|4G MAC6|read only
	1467	+|@W_HSW166|4G Signal value|read only
1462	1462
1463		-**Others**
	1469	+2. Other
1464	1464
1465		-* Access password: addr_getstring("@W_HSW27", 16)
1466		-* Machine code: addr_getstring("@W_HSW60", 64)
1467		-* Positioning method (@W_HSW167): (read only)
1468		-** Latitude and longitude
1469		-*** Longitude: addr_getdouble("@W_HSW168") (read only)
1470		-*** Latitude: addr_getdouble("@W_HSW172") (read only)
1471		-** Base station positioning
1472		-*** LAC: addr_getdword("@W_HSW168") (read only)
1473		-*** CI: addr_getdword("@W_HSW172") (read only)
1474		-* Convert base station to latitude and longitude via API
1475		-** Longitude: addr_getdouble("@W_HSW187") (read only)
1476		-** Latitude: addr_getdouble("@W_HSW183") (read only)
1477		-* Operator information: addr_getdword("@W_HSW181") (read only)
1478		-* Networking mode: addr_getword("@W_HSW177") (read only)
1479		-** 0: Ethernet
1480		-** 1: WIFI
1481		-** 2: 4G
1482		-** 3: 2G
1483		-* Map fence flag: addr_getword("@W_HSW178") (read only)
1484		-** 0: No map fence is drawn
1485		-** 1: Draw a map fence and the box is in the fence
1486		-** 2: Draw a map fence and the box is not in the fence
1487		-* SIM card status addr_getword("@W_HSW179") (read only)
1488		-** 1: No card detected
1489		-** 2: Card insertion detected
1490		-** 3: The card status is abnormal
1491		-* MQTT status addr_getword("@W_HSW180") (read only)
1492		-** 1: online, 2: offline
1493		-* IO interface, X is read only, Y is read and write (H series)
1494		-** addr_getbit(addr1), addr_setbit(addr2)
1495		-** addr1:"@B_Y0" "@B_Y1" "@B_X0" "@B_X1"
1496		-** addr2:"@B_Y0" "@B_Y1"
1497		-* Obtaining IMEI (read only)
1498		-** addr_getstring("@W_HSW191",17)
1499		-* Obtaining ICCID (read only)
1500		-** addr_getstring("@W_HSW225",15)
	1471	+2.1 Access password: addr_getstring("@W_HSW27", 16)
1501	1501
1502		-(((
1503		-== **Power-down storage area (HAW/HAX)** ==
	1473	+2.2 Machine code: addr_getstring("@W_HSW60", 64)
1504	1504
1505		-The system storage area (HAW) is used for the system power-down hold registers:
	1475	+2.3 Positioning method (@W_HSW167): (read only)
1506	1506
1507		-1. Accessed as a word, numbered in the range: "@W_HAW0"-"@W_HAW199999".
1508		-1. Accessed by bit, the numbering range is: "@B_HAX0.0"-"@B_HAX199999.15".
	1477	+~1. Latitude and longitude
1509	1509
1510		-(% class="box infomessage" %)
1511		-(((
1512		-**✎Note:** HAW/HAX is a power-down hold, that is, the registers of this type can retain the data before power-down in case of power-down.
1513		-)))
	1479	+Longitude: addr_getdouble("@W_HSW168") (read only)
1514	1514
	1481	+Latitude: addr_getdouble("@W_HSW172") (read only)
	1482	+
	1483	+2. Base station positioning
	1484	+
	1485	+LAC: addr_getdword("@W_HSW168") (read only)
	1486	+
	1487	+CI: addr_getdword("@W_HSW172") (read only)
	1488	+
	1489	+2.4 Convert base station to latitude and longitude via API
	1490	+
	1491	+Longitude: addr_getdouble("@W_HSW187") (read only)
	1492	+
	1493	+Latitude: addr_getdouble("@W_HSW183") (read only)
	1494	+
	1495	+2.5 Operator information: addr_getdword("@W_HSW181") (read only)
	1496	+
	1497	+2.6 Networking mode: addr_getword("@W_HSW177") (read only)
	1498	+
	1499	+0: Ethernet, 1: WIFI, 2: 4G, 3: 2G
	1500	+
	1501	+2.7 Map fence flag: addr_getword("@W_HSW178") (read only)
	1502	+
	1503	+0: No map fence is drawn
	1504	+
	1505	+1: Draw a map fence and the box is in the fence
	1506	+
	1507	+2: Draw a map fence and the box is not in the fence
	1508	+
	1509	+2.8 SIM card status addr_getword("@W_HSW179") (read only)
	1510	+
	1511	+1: No card detected
	1512	+
	1513	+2: Card insertion detected
	1514	+
	1515	+3: The card status is abnormal
	1516	+
	1517	+2.9 MQTT status addr_getword("@W_HSW180") (read only)
	1518	+
	1519	+1: online, 2: offline
	1520	+
	1521	+2.10 IO interface, X is read only, Y is read and write (H series)
	1522	+
	1523	+addr_getbit(addr1), addr_setbit(addr2)
	1524	+
	1525	+addr1:"@B_Y0" "@B_Y1" "@B_X0" "@B_X1"
	1526	+
	1527	+addr2:"@B_Y0" "@B_Y1"
	1528	+
	1529	+(((
1515	1515	= **9 General Functions** =
1516	1516	)))
1517	1517
1518	1518	(((
1519		-== **send_sms_ira(string number, string message)** ==
	1534	+== **9.1 send_sms_ira(string number, string message)** ==
1520	1520	)))
1521	1521
1522		-**Function:** Use IRA character set to send English text messages
	1537	+**Function:**
1523	1523
	1539	+Use IRA character set to send English text messages
	1540	+
1524	1524	**Parameters:**
1525	1525
1526	1526	//number: //number (up to 32 characters, the excess will be discarded)
...	...	@@ -1554,11 +1554,13 @@
1554	1554	Failed: multi
1555	1555
1556	1556	(((
1557		-== **sms_get_state(number id)** ==
	1574	+== **9.3 sms_get_state(number id)** ==
1558	1558	)))
1559	1559
1560		-**Function:** Get the status of the SMS
	1577	+**Function:**
1561	1561
	1579	+Get the status of the SMS
	1580	+
1562	1562	**parameter:**
1563	1563
1564	1564	//id~:// SMS corresponding id
...	...	@@ -1570,11 +1570,13 @@
1570	1570	Failed: multi
1571	1571
1572	1572	(((
1573		-== **jwt_encode(table head, table payload, string aud, number iat, number exp, string key, int jwttype)** ==
	1592	+== **9.4 jwt_encode(table head, table payload, string aud, number iat, number exp, string key, int jwttype)** ==
1574	1574	)))
1575	1575
1576		-**Function:** Convert data to JWT format
	1595	+**Function:**
1577	1577
	1597	+Convert data to JWT format
	1598	+
1578	1578	**parameter:**
1579	1579
1580	1580	//aud: //project name
...	...	@@ -1619,20 +1619,19 @@
1619	1619
1620	1620	//key~:// the private key required for encryption
1621	1621
1622		-**For example:**
	1643	+For example:
1623	1623
1624		-{{code language="LUA"}}
1625	1625	function jwt.main()
1626	1626
1627		-local PRIVATE_KEY = [[-- Please enter the secret key--]]
	1647	+local PRIVATE_KEY = ~[~[~-~- Please enter the secret key~-~-]]
1628	1628
1629	1629	local JWTType=0
1630	1630
1631		-local payload = {{key="test1",value="test1",type="0"},
	1651	+local payload = ~{~{key="test1",value="test1",type="0"},
1632	1632
1633	1633	{key="test",value="123122131",type="1"}}
1634	1634
1635		-local head = {{ key="name",value="data",type="0"},
	1655	+local head = ~{~{ key="name",value="data",type="0"},
1636	1636
1637	1637	{key="test2",value="test2",type="0"}}
1638	1638
...	...	@@ -1647,14 +1647,15 @@
1647	1647	print(en)
1648	1648
1649	1649	End
1650		-{{/code}}
1651	1651
1652	1652	(((
1653		-== **convertohex(number type, number value)** ==
	1672	+== **9.5 convertohex(number type, number value)** ==
1654	1654	)))
1655	1655
1656		-**Function:** Convert data into hexadecimal data
	1675	+**Function:**
1657	1657
	1677	+Convert data into hexadecimal data
	1678	+
1658	1658	**parameter:**
1659	1659
1660	1660	//type~:// incoming data type 0:word 1:dword 2:float
...	...	@@ -1667,169 +1667,106 @@
1667	1667
1668	1668	Failed: multi
1669	1669
1670		-== **crc.init(table prarm)** ==
1671		-
1672		-**Function:** Initialize the CRC
1673		-
1674		-**Parameters:**
1675		-
1676		-prarm is a Lua table and needs to contain the following fields.
1677		-
1678		-* string prarm name, see table 9-1 for details of the parameter model name When this parameter is passed in, the default table parameters are used and the poly,init,xorout,refin,and refout passed in are invalid.
1679		-* number prarm.width: the width, i.e. the number of CRC bits.
1680		-* number [prarm.poly]: short for the generated item in hexadecimal. For example, CRC-32 is 0x04C11DB7, ignoring the highest bit "1", i.e., the complete generation item is 0x104C11DB7.
1681		-* number [prarm.init]: the initialization preset value of the register (crc) at the beginning of the algorithm in hexadecimal.
1682		-* number [prarm.xorout]: the final CRC value obtained after heterodyning the calculation result with this parameter.
1683		-* number [prarm.refin]: whether each byte of the data to be measured is inverted by bit, true or false.
1684		-* number [prarm.refout]: after the calculation or before the heterodyning output, whether the whole data is inverted by bit, true or false.
1685		-
1686		-Return:
1687		-
1688		-Success: crc object
1689		-
1690		-Failure: multi, error code
1691		-
1692	1692	(((
1693		-|=Parameter model name|=poly|=init|=xorout|=refin|=refout
1694		-|crc8|0x07|0x00|0x00|false|false
1695		-|crc8_cdma2000|0x9B|0xFF|0x00|false|false
1696		-|crc8_darc|0x39|0x00|0x00|true|true
1697		-|crc8_dvb_s2|0xD5|0x00|0x00|false|false
1698		-|crc8_ebu|0x1D|0xFF|0x00|true|true
1699		-|crc8_i_code|0x1D|0xFD|0x00|false|false
1700		-|crc8_itu|0x07|0x00|0x55|false|false
1701		-|crc8_maxim|0x31|0x00|0x00|true|true
1702		-|crc8_rohc|0x07|0xFF|0x00|true|true
1703		-|crc8_wcdma|0x9B|0x00|0x00|true|true
1704		-|crc8_sae_j1850|0x1D|0xFF|0xFF|false|false
1705		-|crc8_opensafety|0x2F|0x00|0x00|false|false
1706		-|crc16_tms37157|0x1021|0x3791|0x0000|true|true
1707		-|crc16_a|0x1021|0x6363|0x0000|true|true
1708		-|crc16_riello|0x1021|0x554D|0x0000|true|true
1709		-|crc16_ccitt_false|0x1021|0xFFFF|0x0000|false|false
1710		-|crc16_arc|0x8005|0x0000|0x0000|true|true
1711		-|crc16_arc_ccitt|0x1021|0x1D0F|0x0000|false|false
1712		-|crc16_buypass|0x8005|0x0000|0x0000|false|false
1713		-|crc16_cdma2000|0xC867|0xFFFF|0x0000|false|false
1714		-|crc16_dds110|0x8005|0x800D|0x0000|false|false
1715		-|crc16_dect_r|0x0589|0x0000|0x0001|false|false
1716		-|crc16_dect_x|0x0589|0x0000|0x0000|false|false
1717		-|crc16_dnp|0x3D65|0x0000|0xFFFF|true|true
1718		-|crc16_en_13757|0x3D65|0x0000|0xFFFF|false|false
1719		-|crc16_genibus|0x1021|0xFFFF|0xFFFF|false|false
1720		-|crc16_maxim|0x8005|0x0000|0xFFFF|true|true
1721		-|crc16_mcrf4xx|0x1021|0xFFFF|0x0000|true|true
1722		-|crc16_t10_dif|0x8BB7|0x0000|0x0000|false|false
1723		-|crc16_teledisk|0xA097|0x0000|0x0000|false|false
1724		-|crc16_usb|0x8005|0xFFFF|0xFFFF|true|true
1725		-|crc16_kermit|0x1021|0x0000|0x0000|true|true
1726		-
1727		-(% class="wikigeneratedid" %)
1728		-Table 9-1
1729		-
1730		-== **crc:calc(string crcValue)** ==
1731		-
1732		-**Function:** Calculate CRC result
1733		-
1734		-**Parameter:**
1735		-
1736		-crcValue: the value to be calculated
1737		-
1738		-**Return:**
1739		-
1740		-Succeed: calculated result
1741		-
1742		-Failed: multi, error code
	1692	+== **9.6 set_network(table config)** ==
1743	1743	)))
1744	1744
1745		-Example:
	1695	+**Function:**
1746	1746
1747		-{{code language="LUA"}}
1748		-function crcTest.main()
	1697	+Set V-BOX network, take effect after restart
1749	1749
1750		-local param = {
	1699	+**parameter:**
1751	1751
1752		-name = '',
	1701	+//config~:// incoming network configuration table
1753	1753
1754		-width = 64,
	1703	+1. connectMode: the way V-BOX connects to the server, 0: Ethernet, 1: WIFI, 2: 4G, 3: 2G, it is not allowed to be empty.
	1704	+1. ethernetEnable: Whether to enable Ethernet, 1: enable, 0: disable, and it is not allowed to be empty.
	1705	+1. ethernetLanIp: Set the LAN IP address. Only V-BOX with three network ports support this configuration, and other models of V-BOX do not support setting LAN IP. This item is allowed to be empty.
	1706	+1. ethernetIpMode: Whether to enable Ethernet static IP, 1: Enable static IP, 0: DHCP, not allowed to be empty.
	1707	+1. ethernetIp: The IP address needs to be configured when the Ethernet static IP is used, and it is not allowed to be empty.
	1708	+1. ethernetNetmask: The subnet mask needs to be configured when Ethernet static IP is used, and it is not allowed to be empty.
	1709	+1. ethernetGateway: The gateway can be configured when Ethernet static IP is used.
1755	1755
1756		-poly = 0x42F0E1EBA9EA3693,
	1711	+1. When using the Ethernet network, if the Gateway is empty, V-BOX will not connect to the server.
	1712	+1. If you only use Ethernet to directly connect to the PLC for communication, you do not need to configure a gateway.
1757	1757
1758		-init = 0xFFFFFFFFFFFFFFFF,
	1714	+1. ethernetFirstDns: You can configure the preferred DNS server when the Ethernet static IP is used, and it is allowed to be empty. If you use the Ethernet network and do not fill in the DNS server, V-BOX will not be connected to the server.
	1715	+1. ethernetSpareDns: Alternate DNS server can be configured when the Ethernet static IP is used, and it is allowed to be empty.
	1716	+1. wifiEnable: Whether to enable WIFI, 1: enable, 0: disable, it is not allowed to be empty. If it is a model that does not include WIFI, directly disable it.
	1717	+1. wifiName: WIFI name, if WIFI is enabled, it is not allowed to be empty.
	1718	+1. wifiPassword: WIFI password, it is allowed to be empty.
	1719	+1. wifiIpMode: Whether to enable WIFI static IP, 1: Enable static IP, 0: DHCP, not allowed to be empty.
	1720	+1. wifiIp: IP address needs to be configured when WIFI static IP is used, it is not allowed to be empty.
	1721	+1. wifiNetmask: The subnet mask needs to be configured when WIFI static IP is used, and it is not allowed to be empty.
	1722	+1. wifiGateway: The gateway can be configured when WIFI static IP is used, and it is not allowed to be empty.
	1723	+1. wifiFirstDns: You can configure the preferred DNS server when the WIFI static IP is used, and it is allowed to be empty. If you use the WIFI network and do not fill in the DNS server, V-BOX will not be connected to the server.
	1724	+1. wifiSpareDns: Alternate DNS server can be configured when the WIFI static IP is used, and it is allowed to be empty.
	1725	+1. mobileEnable: Whether to enable the mobile network, 1: enable, 0: disable, it is not allowed to be empty, if it does not include 4G models, directly disable it.
	1726	+1. mobileApnMode: Whether to manually configure the APN, 0: Use the default APN, 1: Manually configure the APN, it is not allowed to be empty.
	1727	+1. apnName: APN name, if you choose to manually configure APN, it is not allowed to be empty.
	1728	+1. apnPassword: APN username, it is allowed to be empty.
	1729	+1. apnUserName: APN number, it is allowed to be empty.
	1730	+1. apnNumber: APN number, it is allowed to be empty.
1759	1759
1760		-xorout = 0xFFFFFFFFFFFFFFFF,
	1732	+**Return:**
1761	1761
1762		-refin = 1,
	1734	+Succeed: true
1763	1763
1764		-refout = 1
	1736	+Faied: multi
1765	1765
1766		-}
	1738	+(((
	1739	+== **9.7 remote_com_start(string config)** ==
	1740	+)))
1767	1767
1768		-crc64,err = crc.init(param)
	1742	+**Function:**
1769	1769
1770		-if not crc64 then
	1744	+start serial port pass-through
1771	1771
1772		-print("Crc init failed:", err)
1773		-else
	1746	+**Parameter:**
1774	1774
1775		-crcvalue = crc64:calc("123456789")
	1748	+//config: //incoming serial port parameter configuration, JSON format
1776	1776
1777		-print(string.format("crc64 calc :0X%16X", crcvalue))
	1750	+1. type:0, serial port pass-through
	1751	+1. port: serial port number marked on the V-BOX
	1752	+1. comtype:0-RS232, 1-RS485, 2-RS422
	1753	+1. baudrate: Baud Rate
	1754	+1. data_length: Data Bits
	1755	+1. stop_bit: Stop Bit
	1756	+1. check_bit: Check Bit
1778	1778
1779		-end
	1758	+**Return:**
1780	1780
1781		-end
1782		-{{/code}}
	1760	+Succeed: true
1783	1783
1784		-= **11 Special function for V-NET** =
	1762	+Failed: multi
1785	1785
1786		-== **normal_get_alldata()** ==
	1764	+(((
	1765	+== **9.8 remote_com_stop()** ==
	1766	+)))
1787	1787
1788		-**Function: **Obtain the data of all the monitoring points
	1768	+**Function:**
1789	1789
1790		-**Parameter: None**
	1770	+close serial port pass-through
1791	1791
1792	1792	**Return:**
1793	1793
1794		-Succeed: table two-dimensional arrays, as follows:
	1774	+Succeed: true
1795	1795
1796		-* Each item is a monitoring point and contains 4 attributes:
1797		-** 1: ID
1798		-** 2: status
1799		-** 3: tag name
1800		-** 4: value
1801		-* Status contains 3 enumerated values
1802		-** 0: offline
1803		-** 1: online
1804		-** 2: timeout
1805		-* Customization returns an empty table if there is no configuration, otherwise returns "field name/field content"
	1776	+Failed: multi
1806	1806
1807		-For example:
	1778	+(((
	1779	+== **9.9 remote_com_state()** ==
	1780	+)))
1808	1808
1809		-{
	1782	+**Function:**
1810	1810
1811		-[1]= {[1]=1234, [2]=1, [3]='temp', [4]='23.5'},
	1784	+query the serial port pass-through status and pass-through server domain name and port
1812	1812
1813		-[2]= {[1]=1235, [2]=1, [3]='humi', [4]='67'},
1814		-
1815		-...
1816		-
1817		-[n]= {[1]=xxxx, [2]=x, [3]='xxxx', [4]='xx.x'},
1818		-
1819		-}
1820		-
1821		-Failed: table, empty table
1822		-
1823		-== **normal_setdata_byname(string name, string data)** ==
1824		-
1825		-**Function:** Write data to the monitoring point name
1826		-
1827		-**Parameter:**
1828		-
1829		-name: the name of mo
1830		-
1831	1831	**Return:**
1832	1832
1833		-Succeed: calculated result
	1788	+Succeed:
1834	1834
1835		-Failed: multi, error code
	1790	+1. number, current pass-through status: 0-none 1,2-starting pass-through 3-penetrating 4,5-finishing pass-through 6-pass-through error
	1791	+1. string, pass-through server domain name and port number, xxxx (domain name): xxx (port number)
	1792	+
	1793	+Failed: multi