143

How can I convert UNIX timestamp (bigint) to DateTime in SQL Server?

0

17 Answers 17

406

This worked for me:

Select
    dateadd(S, [unixtime], '1970-01-01')
From [Table]

In case any one wonders why 1970-01-01, This is called Epoch time.

Below is a quote from Wikipedia:

The number of seconds that have elapsed since 00:00:00 Coordinated Universal Time (UTC), Thursday, 1 January 1970,[1][note 1] not counting leap seconds.

The Year 2038 Problem

Furthermore the DataAdd function takes an int for the seconds to add. So if you are trying to add more than 2147483647 seconds you'll get an arithmetic overflow error. To resolve this issue you can break the addition into two calls to DateAdd one for the years and one for the remaining seconds.

Declare @t as bigint = 4147483645

Select (@t / @oneyear) -- Years to add
Select (@t % @oneyear) -- Remaining seconds to add

-- Get Date given a timestamp @t
Declare @oneyear as int = 31622400
Select DateAdd(SECOND, @t % @oneyear, DateAdd(YEAR, @t / @oneyear, '1970-01-01'))

This will let you convert a timestamp that represents a year greater than 2038.

13
  • 28
    This should be marked as correct. I wish I could upvote this answer again every time I land here :)
    – BenDundee
    Sep 18, 2014 at 19:22
  • 4
    @BenDundee I really agree with you. What an elegant solution. I looked all over for a formula and finally settled on one only to have to go searching again when I started running into errors a week later. Thankfully I found this one on the second go-around. Dec 9, 2014 at 19:44
  • 2
    I have been using this solution. This formatted date was concatenad with other data, so I had a varchar... Easy! No need to bother to format those logs in the application. However, some wild time zone problems appeared! My dates were using the UTC time zone instead of the customer's time zone :( Aug 8, 2016 at 20:43
  • 3
    @Whitecat Don't know if you already solved your problem, but watch the casing! Maybe your database collation setting is set to something like 'SQL_Latin1_General_CP1_CS_AS', CS is the keyword here. It stands for "CaseSensitiv" therefor your code must match the casing! Another point could be that your System is MySql, than the name is date_add(). Regards ;)
    – Nightking
    Feb 11, 2017 at 10:15
  • 8
    This solution will be affected by the year 2038 problem because the dateadd function requires an int type. The documentation says "The number argument cannot exceed the range of int." docs.microsoft.com/en-us/sql/t-sql/functions/… en.wikipedia.org/wiki/Year_2038_problem
    – Patrick H
    Mar 28, 2018 at 21:26
61

try:

CREATE FUNCTION dbo.fn_ConvertToDateTime (@Datetime BIGINT)
RETURNS DATETIME
AS
BEGIN
    DECLARE @LocalTimeOffset BIGINT
           ,@AdjustedLocalDatetime BIGINT;
    SET @LocalTimeOffset = DATEDIFF(second,GETDATE(),GETUTCDATE())
    SET @AdjustedLocalDatetime = @Datetime - @LocalTimeOffset
    RETURN (SELECT DATEADD(second,@AdjustedLocalDatetime, CAST('1970-01-01 00:00:00' AS datetime)))
END;
GO
7
  • 3
    +1 For the UTC->local conversion. Note that the summer/wintertime will still be off if you try to translate June 10th during February.
    – Andomar
    May 25, 2010 at 12:07
  • 13
    -1 for the UTC->local conversion. It is not correctly handling daylight saving time. For me, this is misguiding. Sep 28, 2012 at 13:04
  • 1
    +1 for the creative solution! Works great. FYI, there is a syntax error in the SQL. The semi-colon at the end of the first "DECLARE" line needs to be removed since a comma follows.
    – Seth
    Sep 17, 2014 at 14:12
  • 6
    It doesn't work for me. I am trying it with 1517270400000 and getting this error: Arithmetic overflow error converting expression to data type int.
    – Danish
    Jul 5, 2018 at 7:27
  • 2
    Also was getting an overflow, normally meaning that milliseconds are involved, solved simply as: select dbo.fn_ConvertToDateTime( src_column/1000 ) from src_table; Jan 10, 2019 at 4:42
56

If anyone getting below error:

Arithmetic overflow error converting expression to data type int

due to unix timestamp is in bigint (instead of int), you can use this:

SELECT DATEADD(S, CONVERT(int,LEFT(1462924862735870900, 10)), '1970-01-01')
FROM TABLE

Replace the hardcoded timestamp for your actual column with unix-timestamp

Source: MSSQL bigint Unix Timestamp to Datetime with milliseconds

5
  • 1
    Given epoch milliseconds, even better: SELECT DATEADD(ms, 1517270454852%1000, DATEADD(S, 1517270454852/1000, '1970-01-01')) Jun 28, 2020 at 4:21
  • 3
    thank you . this should be upvoted 1462924862735870900 TIMES!!!!!!!!!!!!!!!!!!!!!
    – john
    Aug 29, 2020 at 22:06
  • 1
    Glad to help @John
    – julianm
    Aug 31, 2020 at 13:20
  • 1
    I am getting Conversion failed when converting the varchar value '1.20787e+0' to data type int
    – TiyebM
    Nov 12, 2020 at 12:12
  • 2
    Your number is in scientific notation @TiyebM. And it's not a integer value (it has decimals)
    – julianm
    Nov 12, 2020 at 19:54
30

Like this

add the Unix (epoch) datetime to the base date in seconds

this will get it for now (2010-05-25 07:56:23.000)

 SELECT dateadd(s,1274756183,'19700101 05:00:00:000')

If you want to go reverse, take a look at this http://wiki.lessthandot.com/index.php/Epoch_Date

3
  • 3
    why 05:00:00 instead of 00:00:00?
    – Svisstack
    Aug 7, 2017 at 11:27
  • 4
    @Svisstack the 5 hours is for timezone difference. 5:00:00 means he's GMT-5 hours Oct 11, 2017 at 8:36
  • 1
    Works like a charm. If you need to adjust for the timezone, then certainly do that but consider this very efficient
    – clifton_h
    Apr 18, 2018 at 14:51
13

Test this:

Sql server:

SELECT dateadd(S, timestamp, '1970-01-01 00:00:00') 
     FROM 
your_table

MySql server:

SELECT
  from_unixtime(timestamp) 
FROM 
  your_table

http://www.w3resource.com/mysql/date-and-time-functions/mysql-from_unixtime-function.php

1
  • That's for the UTC timezone, isn't it? So if you're in a different time zone you modify it accordingly, e.g. if you're in the UTC+3 time zone you use: '1970-01-01 03:00:00' Am I guessing correctly?
    – luisdev
    May 6, 2021 at 8:52
8

This will do it:

declare @UNIX_TIME int
select @UNIX_TIME = 1111111111
-- Using dateadd to add seconds to 1970-01-01
select [Datetime from UNIX Time] = dateadd(!precision!,@UNIX_TIME,'1970-01-01')

Instead of !precision! use: ss,ms or mcs according to the precision of the timestamp. Bigint is capable to hold microsecond precision.

6

If the time is in milliseconds and one need to preserve them:

DECLARE @value VARCHAR(32) = '1561487667713';

SELECT DATEADD(MILLISECOND, CAST(RIGHT(@value, 3) AS INT) - DATEDIFF(MILLISECOND,GETDATE(),GETUTCDATE()), DATEADD(SECOND, CAST(LEFT(@value, 10) AS INT), '1970-01-01T00:00:00'))
5

Adding n seconds to 1970-01-01 will give you a UTC date because n, the Unix timestamp, is the number of seconds that have elapsed since 00:00:00 Coordinated Universal Time (UTC), Thursday, 1 January 1970.

In SQL Server 2016, you can convert one time zone to another using AT TIME ZONE. You just need to know the name of the time zone in Windows standard format:

SELECT *
FROM (VALUES (1514808000), (1527854400)) AS Tests(UnixTimestamp)
CROSS APPLY (SELECT DATEADD(SECOND, UnixTimestamp, '1970-01-01') AT TIME ZONE 'UTC') AS CA1(UTCDate)
CROSS APPLY (SELECT UTCDate AT TIME ZONE 'Pacific Standard Time') AS CA2(LocalDate)
| UnixTimestamp | UTCDate                    | LocalDate                  |
|---------------|----------------------------|----------------------------|
| 1514808000    | 2018-01-01 12:00:00 +00:00 | 2018-01-01 04:00:00 -08:00 |
| 1527854400    | 2018-06-01 12:00:00 +00:00 | 2018-06-01 05:00:00 -07:00 |

Or simply:

SELECT *, DATEADD(SECOND, UnixTimestamp, '1970-01-01') AT TIME ZONE 'UTC' AT TIME ZONE 'Pacific Standard Time'
FROM (VALUES (1514808000), (1527854400)) AS Tests(UnixTimestamp)
| UnixTimestamp | LocalDate                  |
|---------------|----------------------------|
| 1514808000    | 2018-01-01 04:00:00 -08:00 |
| 1527854400    | 2018-06-01 05:00:00 -07:00 |

Notes:

  • You can chop off the timezone information by casting DATETIMEOFFSET to DATETIME.
  • The conversion takes daylight savings time into account. Pacific time was UTC-08:00 on January 2018 and UTC-07:00 on Jun 2018.
3

@DanielLittle has the easiest and most elegant answer to the specific question. However, if you are interested in converting to a specific timezone AND taking into account DST (Daylight Savings Time), the following works well:

CAST(DATEADD(S, [UnixTimestamp], '1970-01-01') AT TIME ZONE 'UTC' AT TIME ZONE 'Pacific Standard Time' AS Datetime)

Note: This solution only works on SQL Server 2016 and above (and Azure).

To create a function:

CREATE FUNCTION dbo.ConvertUnixTime (@input INT)
RETURNS Datetime
AS BEGIN
    DECLARE @Unix Datetime

    SET @Unix = CAST(DATEADD(S, @Input, '1970-01-01') AT TIME ZONE 'UTC' AT TIME ZONE 'Pacific Standard Time' AS Datetime)

    RETURN @Unix
END

You can call the function like so:

SELECT   dbo.ConvertUnixTime([UnixTimestamp])
FROM     YourTable
2
  • How does this accommodate other UTC timezones? E.g. UTC+2 or UTC+5?
    – luisdev
    Nov 23, 2020 at 7:40
  • Finally an answer that takes time zones into consideration! A list of time zones in SQL server can easily be found here: database.guide/…
    – specimen
    Dec 2, 2021 at 9:18
2

This is building off the work Daniel Little did for this question, but taking into account daylight savings time (works for dates 01-01 1902 and greater due to int limit on dateadd function):

We first need to create a table that will store the date ranges for daylight savings time (source: History of time in the United States):

CREATE TABLE [dbo].[CFG_DAY_LIGHT_SAVINGS_TIME](
  [BEGIN_DATE] [datetime] NULL,
  [END_DATE] [datetime] NULL,
  [YEAR_DATE] [smallint] NULL
) ON [PRIMARY]

GO

INSERT INTO CFG_DAY_LIGHT_SAVINGS_TIME VALUES
('2001-04-01 02:00:00.000',   '2001-10-27 01:59:59.997',    2001),
('2002-04-07 02:00:00.000',   '2002-10-26 01:59:59.997',    2002),
('2003-04-06 02:00:00.000',   '2003-10-25 01:59:59.997',    2003),
('2004-04-04 02:00:00.000',   '2004-10-30 01:59:59.997',    2004),
('2005-04-03 02:00:00.000',   '2005-10-29 01:59:59.997',    2005),
('2006-04-02 02:00:00.000',   '2006-10-28 01:59:59.997',    2006),
('2007-03-11 02:00:00.000',   '2007-11-03 01:59:59.997',    2007),
('2008-03-09 02:00:00.000',   '2008-11-01 01:59:59.997',    2008),
('2009-03-08 02:00:00.000',   '2009-10-31 01:59:59.997',    2009),
('2010-03-14 02:00:00.000',   '2010-11-06 01:59:59.997',    2010),
('2011-03-13 02:00:00.000',   '2011-11-05 01:59:59.997',    2011),
('2012-03-11 02:00:00.000',   '2012-11-03 01:59:59.997',    2012),
('2013-03-10 02:00:00.000',   '2013-11-02 01:59:59.997',    2013),
('2014-03-09 02:00:00.000',   '2014-11-01 01:59:59.997',    2014),
('2015-03-08 02:00:00.000',   '2015-10-31 01:59:59.997',    2015),
('2016-03-13 02:00:00.000',   '2016-11-05 01:59:59.997',    2016),
('2017-03-12 02:00:00.000',   '2017-11-04 01:59:59.997',    2017),
('2018-03-11 02:00:00.000',   '2018-11-03 01:59:59.997',    2018),
('2019-03-10 02:00:00.000',   '2019-11-02 01:59:59.997',    2019),
('2020-03-08 02:00:00.000',   '2020-10-31 01:59:59.997',    2020),
('2021-03-14 02:00:00.000',   '2021-11-06 01:59:59.997',    2021),
('2022-03-13 02:00:00.000',   '2022-11-05 01:59:59.997',    2022),
('2023-03-12 02:00:00.000',   '2023-11-04 01:59:59.997',    2023),
('2024-03-10 02:00:00.000',   '2024-11-02 01:59:59.997',    2024),
('2025-03-09 02:00:00.000',   '2025-11-01 01:59:59.997',    2025),
('1967-04-30 02:00:00.000',   '1967-10-29 01:59:59.997',    1967),
('1968-04-28 02:00:00.000',   '1968-10-27 01:59:59.997',    1968),
('1969-04-27 02:00:00.000',   '1969-10-26 01:59:59.997',    1969),
('1970-04-26 02:00:00.000',   '1970-10-25 01:59:59.997',    1970),
('1971-04-25 02:00:00.000',   '1971-10-31 01:59:59.997',    1971),
('1972-04-30 02:00:00.000',   '1972-10-29 01:59:59.997',    1972),
('1973-04-29 02:00:00.000',   '1973-10-28 01:59:59.997',    1973),
('1974-01-06 02:00:00.000',   '1974-10-27 01:59:59.997',    1974),
('1975-02-23 02:00:00.000',   '1975-10-26 01:59:59.997',    1975),
('1976-04-25 02:00:00.000',   '1976-10-31 01:59:59.997',    1976),
('1977-04-24 02:00:00.000',   '1977-10-31 01:59:59.997',    1977),
('1978-04-30 02:00:00.000',   '1978-10-29 01:59:59.997',    1978),
('1979-04-29 02:00:00.000',   '1979-10-28 01:59:59.997',    1979),
('1980-04-27 02:00:00.000',   '1980-10-26 01:59:59.997',    1980),
('1981-04-26 02:00:00.000',   '1981-10-25 01:59:59.997',    1981),
('1982-04-25 02:00:00.000',   '1982-10-25 01:59:59.997',    1982),
('1983-04-24 02:00:00.000',   '1983-10-30 01:59:59.997',    1983),
('1984-04-29 02:00:00.000',   '1984-10-28 01:59:59.997',    1984),
('1985-04-28 02:00:00.000',   '1985-10-27 01:59:59.997',    1985),
('1986-04-27 02:00:00.000',   '1986-10-26 01:59:59.997',    1986),
('1987-04-05 02:00:00.000',   '1987-10-25 01:59:59.997',    1987),
('1988-04-03 02:00:00.000',   '1988-10-30 01:59:59.997',    1988),
('1989-04-02 02:00:00.000',   '1989-10-29 01:59:59.997',    1989),
('1990-04-01 02:00:00.000',   '1990-10-28 01:59:59.997',    1990),
('1991-04-07 02:00:00.000',   '1991-10-27 01:59:59.997',    1991),
('1992-04-05 02:00:00.000',   '1992-10-25 01:59:59.997',    1992),
('1993-04-04 02:00:00.000',   '1993-10-31 01:59:59.997',    1993),
('1994-04-03 02:00:00.000',   '1994-10-30 01:59:59.997',    1994),
('1995-04-02 02:00:00.000',   '1995-10-29 01:59:59.997',    1995),
('1996-04-07 02:00:00.000',   '1996-10-27 01:59:59.997',    1996),
('1997-04-06 02:00:00.000',   '1997-10-26 01:59:59.997',    1997),
('1998-04-05 02:00:00.000',   '1998-10-25 01:59:59.997',    1998),
('1999-04-04 02:00:00.000',   '1999-10-31 01:59:59.997',    1999),
('2000-04-02 02:00:00.000',   '2000-10-29 01:59:59.997',    2000)
GO

Now we create a function for each American timezone. This is assuming the unix time is in milliseconds. If it is in seconds, remove the /1000 from the code:

Pacific

create function [dbo].[UnixTimeToPacific] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @pacificdatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @pacificdatetime =  dateadd(hour,case when @interimdatetime between begin_date and end_date then -7 else -8 end  ,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)
     if @pacificdatetime is null 
       select @pacificdatetime= dateadd(hour, -7, @interimdatetime)
return @pacificdatetime    
end

Eastern

create function [dbo].[UnixTimeToEastern] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @easterndatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @easterndatetime =  dateadd(hour,case when @interimdatetime between begin_date and end_date then -4 else -5 end  ,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)
     if @easterndatetime is null 
       select @easterndatetime= dateadd(hour, -4, @interimdatetime)
return @easterndatetime    
end

Central

create function [dbo].[UnixTimeToCentral] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @centraldatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @centraldatetime =  dateadd(hour,case when @interimdatetime between begin_date and end_date then -5 else -6 end  ,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)
     if @centraldatetime is null 
       select @centraldatetime= dateadd(hour, -5, @interimdatetime)
return @centraldatetime    
end

Mountain

create function [dbo].[UnixTimeToMountain] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @mountaindatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @mountaindatetime =  dateadd(hour,case when @interimdatetime between begin_date and end_date then -6 else -7 end  ,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)
     if @mountaindatetime is null 
       select @mountaindatetime= dateadd(hour, -6, @interimdatetime)
return @mountaindatetime    
end

Hawaii

create function [dbo].[UnixTimeToHawaii] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @hawaiidatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @hawaiidatetime =  dateadd(hour,-10,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)

return @hawaiidatetime    
end

Arizona

create function [dbo].[UnixTimeToArizona] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @arizonadatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @arizonadatetime =  dateadd(hour,-7,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)

return @arizonadatetime    
end

Alaska

create function [dbo].[UnixTimeToAlaska] 
 (@unixtime bigint)
   returns datetime
   as
   begin
     declare @alaskadatetime datetime
     declare @interimdatetime datetime = dateadd(s, @unixtime/1000, '1970-01-01')
     select  @alaskadatetime =  dateadd(hour,case when @interimdatetime between begin_date and end_date then -8 else -9 end  ,@interimdatetime)
     from cfg_day_light_savings_time  where  year_date = datepart(year,@interimdatetime)
     if @alaskadatetime is null 
       select @alaskadatetime= dateadd(hour, -8, @interimdatetime)
return @alaskadatetime    
end
2
//BIGINT UNIX TIMESTAMP CONVERSION upto Millisecond Accuracy
CREATE FUNCTION [dbo].[ConvertUnixTimestamp] (@Datetime [BIGINT]) RETURNS DATETIME
AS
BEGIN

    RETURN DATEADD(MILLISECOND, cast(@Datetime as bigint) % 1000, 
    DATEADD(SECOND, (cast(@Datetime as bigint) / 1000)%60, 
    DATEADD(MINUTE, ((cast(@Datetime as bigint) / 1000)/60)%60, 
    DATEADD(HOUR, ((cast(@Datetime as bigint) / 1000)/60)/60, '19700101'))))
END
2

I had to face this problem, too. Unfortunately, none of the answers (here and in dozens of other pages) has been satisfactory to me, as I still cannot reach dates beyond the year 2038 due to 32 bit integer casts somewhere.

A solution that did work for me in the end was to use float variables, so I could have at least a max date of 2262-04-11T23:47:16.854775849. Still, this doesn't cover the entire datetime domain, but it is sufficient for my needs and may help others encountering the same problem.

-- date variables
declare @ts bigint; -- 64 bit time stamp, 100ns precision
declare @d datetime2(7) = GETUTCDATE(); -- 'now'
-- select @d = '2262-04-11T23:47:16.854775849'; -- this would be the max date

-- constants:
declare @epoch datetime2(7) = cast('1970-01-01T00:00:00' as datetime2(7));
declare @epochdiff int = 25567; -- = days between 1900-01-01 and 1970-01-01
declare @ticksofday bigint = 864000000000; -- = (24*60*60*1000*1000*10)

-- helper variables:
declare @datepart float;
declare @timepart float;
declare @restored datetime2(7);

-- algorithm:
select @ts = DATEDIFF_BIG(NANOSECOND, @epoch, @d) / 100; -- 'now' in ticks according to unix epoch
select @timepart = (@ts % @ticksofday) / @ticksofday; -- extract time part and scale it to fractional part (i. e. 1 hour is 1/24th of a day)
select @datepart = (@ts - @timepart) / @ticksofday; -- extract date part and scale it to fractional part
select @restored = cast(@epochdiff + @datepart + @timepart as datetime); -- rebuild parts to a datetime value

-- query original datetime, intermediate timestamp and restored datetime for comparison
select
  @d original,
  @ts unix64,
  @restored restored
;

-- example result for max date:
-- +-----------------------------+-------------------+-----------------------------+
-- | original                    | unix64            | restored                    |
-- +-----------------------------+-------------------+-----------------------------+
-- | 2262-04-11 23:47:16.8547758 | 92233720368547758 | 2262-04-11 23:47:16.8533333 |
-- +-----------------------------+-------------------+-----------------------------+

There are some points to consider:

  • 100ns precision is the requirement in my case, however this seems to be the standard resolution for 64 bit unix timestamps. If you use any other resolution, you have to adjust @ticksofday and the first line of the algorithm accordingly.
  • I'm using other systems that have their problems with time zones etc. and I found the best solution for me would be always using UTC. For your needs, this may differ.
  • 1900-01-01 is the origin date for datetime2, just as is the epoch 1970-01-01 for unix timestamps.
  • floats helped me to solve the year-2038-problem and integer overflows and such, but keep in mind that floating point numbers are not very performant and may slow down processing of a big amount of timestamps. Also, floats may lead to loss of precision due to roundoff errors, as you can see in the comparison of the example results for the max date above (here, the error is about 1.4425ms).
  • In the last line of the algorithm there is a cast to datetime. Unfortunately, there is no explicit cast from numeric values to datetime2 allowed, but it is allowed to cast numerics to datetime explicitly and this, in turn, is cast implicitly to datetime2. This may be correct, for now, but may change in future versions of SQL Server: Either there will be a dateadd_big() function or the explicit cast to datetime2 will be allowed or the explicit cast to datetime will be disallowed, so this may either break or there may come an easier way some day.
2

For GMT, here is the easiest way:

Select dateadd(s, @UnixTime+DATEDIFF (S, GETUTCDATE(), GETDATE()), '1970-01-01')
2
CREATE FUNCTION dbo.ConvertUnixToDateTime(@Datetime BIGINT)
RETURNS DATETIME
AS
BEGIN 
    RETURN (SELECT DATEADD(second,@Datetime, CAST('1970-01-01' AS datetime)))
END;
GO
1

Better? This function converts unixtime in milliseconds to datetime. It's lost milliseconds, but still very useful for filtering.

CREATE FUNCTION [dbo].[UnixTimestampToGMTDatetime] 
(@UnixTimestamp bigint)
RETURNS datetime
AS
BEGIN
       DECLARE @GMTDatetime datetime
       select @GMTDatetime = 
       CASE
       WHEN dateadd(ss, @UnixTimestamp/1000, '1970-01-01') 
       BETWEEN 
           Convert(DATETIME, Convert(VARCHAR(4), Year(dateadd(ss, @UnixTimestamp/1000, '1970-01-01') )) + '-03-' + Convert(VARCHAR(2), (31 - (5 * Year(dateadd(ss, @UnixTimestamp/1000, '1970-01-01') )/4 + 4) % 7)) + ' 01:00:00', 20)
       AND
           Convert(DATETIME, Convert(VARCHAR(4), Year(dateadd(ss, @UnixTimestamp/1000, '1970-01-01') )) + '-10-' + Convert(VARCHAR(2), (31 - (5 * Year(dateadd(ss, @UnixTimestamp/1000, '1970-01-01') )/4 + 1) % 7)) + ' 02:00:00', 20)
       THEN Dateadd(hh, 1, dateadd(ss, @UnixTimestamp/1000, '1970-01-01'))
       ELSE Dateadd(hh, 0, dateadd(ss, @UnixTimestamp/1000, '1970-01-01'))
       END
RETURN @GMTDatetime    
END
1

Solution can be the following:

DECLARE @UnixTimeStamp bigint = 1564646400000 /*2019-08-01 11:00 AM*/

DECLARE @LocalTimeOffset bigint = DATEDIFF(MILLISECOND, GETDATE(), GETUTCDATE());
DECLARE @AdjustedTimeStamp bigint = @UnixTimeStamp - @LocalTimeOffset;
SELECT [DateTime] = DATEADD(SECOND, @AdjustedTimeStamp % 1000, DATEADD(SECOND, @AdjustedTimeStamp / 1000, '19700101'));
0

Here's the function I use, which works for dates larger than 2038 by doing a two-step dateadd(). It returns UTC, but see e.g. Kenny's answer for timezone and DST handling.

IF OBJECT_ID('dbo.fn_ConvertUnixToDateTime') IS NULL
  EXEC ('CREATE function dbo.fn_ConvertUnixToDateTime() returns int AS begin RETURN 0 end;')
GO
go 
alter function dbo.fn_ConvertUnixToDateTime (@unixTimestamp BIGINT)
RETURNS DATETIME
AS
/* 
    Converts unix timestamp to utc datetime. 

    To work with larger timestamps it does a two-part add, since dateadd()
    function only allows you to add int values, not bigint. 
*/ 
BEGIN
    RETURN (SELECT DATEADD( second
                        ,   @unixTimestamp % 3600
                        ,   dateadd(    hour
                                    ,   @unixTimestamp / 3600
                                    ,   CAST('1970-01-01 00:00:00' AS datetime)
                                    )
                        )
            )

END;

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