254 lines
6.7 KiB
Lua
254 lines
6.7 KiB
Lua
--------------------------------------------------------------------------------
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-- DS3231 I2C module for NODEMCU
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-- NODEMCU TEAM
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-- LICENCE: http://opensource.org/licenses/MIT
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-- Tobie Booth <tbooth@hindbra.in>
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--------------------------------------------------------------------------------
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require("bit")
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require("i2c")
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local moduleName = ...
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local M = {}
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_G[moduleName] = M
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-- Constants:
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M.EVERYSECOND = 6
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M.EVERYMINUTE = 7
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M.SECOND = 1
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M.MINUTE = 2
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M.HOUR = 3
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M.DAY = 4
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M.DATE = 5
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M.DISABLE = 0
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-- Default value for i2c communication
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local id = 0
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--device address
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local dev_addr = 0x68
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local function decToBcd(val)
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if val == nil then return 0 end
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return((((val/10) - ((val/10)%1)) *16) + (val%10))
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end
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local function bcdToDec(val)
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return((((val/16) - ((val/16)%1)) *10) + (val%16))
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end
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local function addAlarmBit(val,day)
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if day == 1 then return bit.bor(val,64) end
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return bit.bor(val,128)
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end
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--get time from DS3231
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function M.getTime()
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x00)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local c=i2c.read(id, 7)
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i2c.stop(id)
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return bcdToDec(tonumber(string.byte(c, 1))),
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bcdToDec(tonumber(string.byte(c, 2))),
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bcdToDec(tonumber(string.byte(c, 3))),
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bcdToDec(tonumber(string.byte(c, 4))),
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bcdToDec(tonumber(string.byte(c, 5))),
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bcdToDec(tonumber(string.byte(c, 6))),
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bcdToDec(tonumber(string.byte(c, 7)))
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end
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--set time for DS3231
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-- enosc setted to 1 disables oscilation on battery, stopping time
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function M.setTime(second, minute, hour, day, date, month, year, disOsc)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x00)
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i2c.write(id, decToBcd(second))
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i2c.write(id, decToBcd(minute))
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i2c.write(id, decToBcd(hour))
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i2c.write(id, decToBcd(day))
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i2c.write(id, decToBcd(date))
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i2c.write(id, decToBcd(month))
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i2c.write(id, decToBcd(year))
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local c = string.byte(i2c.read(id, 1), 1)
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i2c.stop(id)
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if disOsc == 1 then c = bit.bor(c,128)
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else c = bit.band(c,127) end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.write(id, c)
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i2c.stop(id)
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end
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-- Reset alarmId flag to let alarm to be triggered again
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function M.reloadAlarms ()
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if bit == nil or bit.band == nil or bit.bor == nil then
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print("[ERROR] Module bit is required to use alarm function")
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return nil
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end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0F)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local d = string.byte(i2c.read(id, 1), 1)
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i2c.stop(id)
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-- Both flag needs to be 0 to let alarms trigger
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d = bit.band(d,252)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0F)
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i2c.write(id, d)
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i2c.stop(id)
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print('[LOG] Alarms reloaded')
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end
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-- Enable alarmId bit. Let it to be triggered
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function M.enableAlarm (almId)
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if bit == nil or bit.band == nil or bit.bor == nil then
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print("[ERROR] Module bit is required to use alarm function")
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return nil
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end
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if almId ~= 1 and almId ~= 2 then print('[ERROR] Wrong alarm id (1 or 2): '..almId) return end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local c = string.byte(i2c.read(id, 1), 1)
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i2c.stop(id)
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c = bit.bor(c,4)
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if almId == 1 then c = bit.bor(c,1)
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else c = bit.bor(c,2) end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.write(id, c)
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i2c.stop(id)
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M.reloadAlarms()
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print('[LOG] Alarm '..almId..' enabled')
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end
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-- If almID equals 1 or 2 disable that alarm, otherwise disables both.
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function M.disableAlarm (almId)
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if bit == nil or bit.band == nil or bit.bor == nil then
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print("[ERROR] Module bit is required to use alarm function")
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return nil
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end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local c = string.byte(i2c.read(id, 1), 1)
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i2c.stop(id)
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if almId == 1 then c = bit.band(c, 254)
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elseif almId == 2 then c = bit.band(c, 253)
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else
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almId = '1 and 2'
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c = bit.band(c, 252)
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end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.write(id, c)
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i2c.stop(id)
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print('[LOG] Alarm '..almId..' disabled')
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end
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-- almId can be 1 or 2;
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-- almType should be taken from constants
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function M.setAlarm (almId, almType, second, minute, hour, date)
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if bit == nil or bit.band == nil or bit.bor == nil then
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print("[ERROR] Module bit is required to use alarm function")
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return nil
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end
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if almId ~= 1 and almId ~= 2 then print('[ERROR] Wrong alarm id (1 or 2): '..almId) return end
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M.enableAlarm(almId)
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second = decToBcd(second)
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minute = decToBcd(minute)
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hour = decToBcd(hour)
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date = decToBcd(date)
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if almType == M.EVERYSECOND or almType == M.EVERYMINUTE then
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second = addAlarmBit(second)
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minute = addAlarmBit(minute)
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hour = addAlarmBit(hour)
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date = addAlarmBit(date)
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elseif almType == M.SECOND then
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minute = addAlarmBit(minute)
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hour = addAlarmBit(hour)
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date = addAlarmBit(date)
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elseif almType == M.MINUTE then
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hour = addAlarmBit(hour)
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date = addAlarmBit(date)
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elseif almType == M.HOUR then
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date = addAlarmBit(date)
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elseif almType == M.DAY then
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date = addAlarmBit(date,1)
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end
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local almStart = 0x07
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if almId == 2 then almStart = 0x0B end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, almStart)
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if almId == 1 then i2c.write(id, second) end
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i2c.write(id, minute)
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i2c.write(id, hour)
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i2c.write(id, date)
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i2c.stop(id)
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print('[LOG] Alarm '..almId..' setted')
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end
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-- Get Control and Status bytes
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function M.getBytes ()
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0E)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local c = i2c.read(id, 2)
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i2c.stop(id)
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return tonumber(string.byte(c, 1)), tonumber(string.byte(c, 2))
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end
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-- Resetting RTC Stop Flag
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function M.resetStopFlag ()
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if bit == nil or bit.band == nil or bit.bor == nil then
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print("[ERROR] Module bit is required to reset stop flag")
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return nil
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end
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0F)
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i2c.stop(id)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.RECEIVER)
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local s = string.byte(i2c.read(id, 1))
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i2c.stop(id)
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s = bit.band(s,127)
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i2c.start(id)
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i2c.address(id, dev_addr, i2c.TRANSMITTER)
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i2c.write(id, 0x0F)
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i2c.write(id, s)
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i2c.stop(id)
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print('[LOG] RTC stop flag resetted')
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end
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return M
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