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SynKylix.pas
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SynKylix.pas
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/// wrapper for Windows functions translated to Linux for Kylix
unit SynKylix;
{
This file is part of Synopse mORMot framework.
Synopse mORMot framework. Copyright (c) Arnaud Bouchez
Synopse Informatique - https://synopse.info
*** BEGIN LICENSE BLOCK *****
Version: MPL 1.1/GPL 2.0/LGPL 2.1
The contents of this file are subject to the Mozilla Public License Version
1.1 (the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.mozilla.org/MPL
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
for the specific language governing rights and limitations under the License.
The Original Code is Synopse mORMot framework.
The Initial Developer of the Original Code is Arnaud Bouchez
Portions created by the Initial Developer are Copyright (c)
the Initial Developer. All Rights Reserved.
Contributor(s):
Alternatively, the contents of this file may be used under the terms of
either the GNU General Public License Version 2 or later (the "GPL"), or
the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
in which case the provisions of the GPL or the LGPL are applicable instead
of those above. if you wish to allow use of your version of this file only
under the terms of either the GPL or the LGPL, and not to allow others to
use your version of this file under the terms of the MPL, indicate your
decision by deleting the provisions above and replace them with the notice
and other provisions required by the GPL or the LGPL. if you do not delete
the provisions above, a recipient may use your version of this file under
the terms of any one of the MPL, the GPL or the LGPL.
***** END LICENSE BLOCK *****
}
{$I Synopse.inc} // define HASINLINE CPU32 CPU64 OWNNORMTOUPPER
interface
uses
LibC,
Types,
Classes,
SysUtils;
type
PSystemTime = ^TSystemTime;
/// System Time, as represented in FPC for POSIX systems
// - Windows.TSystemTime do have a "w" prefix, e.g. wYear vs Year below
TSystemTime = record
Year: Word;
Month: Word;
DayOfWeek: Word;
Day: Word;
Hour: Word;
Minute: Word;
Second: Word;
Millisecond: Word;
end;
cint = integer;
cuchar = byte;
cushort = word;
const
NOERROR = 0;
NO_ERROR = 0;
INVALID_HANDLE_VALUE = THandle(-1);
INFINITE = LongWord($FFFFFFFF);
LOCALE_USER_DEFAULT = $400;
NORM_IGNORECASE = 1;
FILE_BEGIN = SEEK_SET;
FILE_CURRENT = SEEK_CUR;
FILE_END = SEEK_END;
CLOCK_REALTIME = 0;
CLOCK_MONOTONIC = 1;
CLOCK_REALTIME_COARSE = 5;
CLOCK_MONOTONIC_COARSE = 6; // see http://lwn.net/Articles/347811
var
// contains CLOCK_REALTIME_COARSE since kernel 2.6.32
CLOCK_REALTIME_TICKCOUNT: integer = CLOCK_REALTIME;
// contains CLOCK_MONOTONIC_COARSE since kernel 2.6.32
CLOCK_MONOTONIC_TICKCOUNT: integer = CLOCK_MONOTONIC;
/// compatibility function, wrapping Win32 API high resolution timer
// - this version will return the CLOCK_MONOTONIC value, with a 1 ns resolution
procedure QueryPerformanceCounter(var Value: Int64);
/// slightly faster than QueryPerformanceCounter() div 1000 - but not for Windows
procedure QueryPerformanceMicroSeconds(out Value: Int64);
/// compatibility function, wrapping Win32 API high resolution timer
function QueryPerformanceFrequency(var Value: Int64): boolean;
/// compatibility function, wrapping Win32 API file position change
function SetFilePointer(hFile: THandle; lDistanceToMove: integer;
lpDistanceToMoveHigh: Pointer; dwMoveMethod: integer): dword;
/// compatibility function, wrapping Win32 API file truncate at current position
procedure SetEndOfFile(hFile: integer);
/// compatibility function, wrapping Win32 API file flush to disk
procedure FlushFileBuffers(hFile: THandle);
/// compatibility function, wrapping Win32 API text comparison
function CompareStringW(GetThreadLocale: DWORD; dwCmpFlags: DWORD; lpString1: Pwidechar;
cchCount1: longint; lpString2: Pwidechar; cchCount2: longint): longint;
/// a wrapper around stat() to retrieve a file size
function GetFileSize(hFile: THandle; lpFileSizeHigh: PDWORD): DWORD;
/// returns the current UTC time
function GetNowUTC: TDateTime;
/// returns the current UTC time, as Unix Epoch seconds
function GetUnixUTC: Int64;
/// returns the current UTC time, as Unix Epoch milliseconds
// - will call clock_gettime(CLOCK_REALTIME_COARSE) if available
function GetUnixMSUTC: Int64;
/// returns the current UTC time as TSystemTime
procedure GetNowUTCSystem(var result: TSystemTime);
/// compatibility function, to be implemented according to the running OS
// - expect more or less the same result as the homonymous Win32 API function
// - will use CLOCK_MONOTONIC_COARSE, available since Linux 2.6.32, which
// is very fast, and has a 1 ms resolution
function GetTickCount64: Int64;
/// compatibility function, to be implemented according to the running OS
// - expect more or less the same result as the homonymous Win32 API function
function GetTickCount: cardinal;
/// compatibility function, to be implemented according to the running OS
procedure GetLocalTime(var result: TSystemTime);
/// compatibility function, available in SysUtils.pas only for Windows
function SystemTimeToDateTime(const SystemTime: TSystemTime): TDateTime;
/// wrapper around libiconv buffer conversion
// - will write any invalid chars as '?'
// - returns the final Dest position
function IconvBufConvert(context: iconv_t;
Src: pointer; SrcBytes, SrcCharSize: Integer;
Dest: pointer; DestBytes, DestCharSize: integer): pointer;
/// similar to Windows sleep() API call, to be truly cross-platform
// - it should have a millisecond resolution, and handle ms=0 as a switch to
// another pending thread, i.e. call sched_yield() API
procedure SleepHiRes(ms: cardinal);
/// similar to FPC's unix.GetHostName function
function GetHostName: string;
var
/// will contain the current Linux kernel revision, as one integer
// - e.g. $030d02 for 3.13.2, or $020620 for 2.6.32
KernelRevision: cardinal;
implementation
const
C_THOUSAND = Int64(1000);
C_MILLION = Int64(C_THOUSAND * C_THOUSAND);
C_BILLION = Int64(C_THOUSAND * C_THOUSAND * C_THOUSAND);
procedure QueryPerformanceCounter(var Value: Int64);
var r: TTimeSpec;
begin
clock_gettime(CLOCK_MONOTONIC,r);
value := r.tv_nsec+r.tv_sec*C_BILLION; // nanosecond resolution
end;
procedure QueryPerformanceMicroSeconds(out Value: Int64);
var r : TTimeSpec;
begin
clock_gettime(CLOCK_MONOTONIC,r);
value := r.tv_nsec div 1000+r.tv_sec*C_MILLION;
end;
function QueryPerformanceFrequency(var Value: Int64): boolean;
begin
Value := C_BILLION; // 1 second = 1e9 nanoseconds
result := true;
end;
function SetFilePointer(hFile: THandle; lDistanceToMove: integer;
lpDistanceToMoveHigh: Pointer; dwMoveMethod: integer): dword;
var offs: Int64;
begin
Int64Rec(Offs).Lo := lDistanceToMove;
if lpDistanceToMoveHigh=nil then
Int64Rec(Offs).Hi := 0 else
Int64Rec(Offs).Hi := PDWord(lpDistanceToMoveHigh)^;
offs := lseek64(hFile,offs,dwMoveMethod);
result := Int64Rec(offs).Lo;
if lpDistanceToMoveHigh<>nil then
PDWord(lpDistanceToMoveHigh)^ := Int64Rec(offs).Hi;
end;
procedure SetEndOfFile(hFile: integer);
begin
ftruncate64(hFile,lseek64(hFile,0,SEEK_CUR));
end;
procedure FlushFileBuffers(hFile: THandle);
begin
fsync(hFile);
end;
function CompareStringW(GetThreadLocale: DWORD; dwCmpFlags: DWORD; lpString1: Pwidechar;
cchCount1: longint; lpString2: Pwidechar; cchCount2: longint): longint;
var W1,W2: WideString;
begin
W1 := lpString1;
W2 := lpString2;
if dwCmpFlags and NORM_IGNORECASE<>0 then
result := WideCompareText(W1,W2) else
result := WideCompareStr(W1,W2);
end;
function GetFileSize(hFile: THandle; lpFileSizeHigh: PDWORD): DWORD;
var current,size: Int64;
begin // fstat64() returns error EBADF depending on open flags -> use lseek64
current := lseek64(hFile,0,SEEK_CUR);
size := lseek64(hFile,0,SEEK_END);
lseek64(hFile,current,SEEK_SET);
result := Int64Rec(size).Lo;
if lpFileSizeHigh<>nil then
lpFileSizeHigh^ := Int64Rec(size).Hi;
end;
const
HoursPerDay = 24;
MinsPerHour = 60;
SecsPerMin = 60;
SecsPerHour = MinsPerHour*SecsPerMin;
SecsPerDay = HoursPerDay*SecsPerHour;
C1970 = 2440588;
D0 = 1461;
D1 = 146097;
D2 = 1721119;
procedure JulianDaysNumberToGregorian(JulianDN: integer; out Year,Month,Day: Word);
var YYear,XYear,Temp,TempMonth: integer;
begin // see http://en.wikipedia.org/wiki/Julian_day
Temp := ((JulianDN-D2) shl 2)-1;
JulianDN := Temp div D1;
XYear := (Temp mod D1) or 3;
YYear := (XYear div D0);
Temp := ((((XYear mod D0)+4) shr 2)*5)-3;
Day := ((Temp mod 153)+5) div 5;
TempMonth := Temp div 153;
if TempMonth>=10 then begin
inc(YYear);
dec(TempMonth,12);
end;
inc(TempMonth,3);
Month := TempMonth;
Year := YYear+(JulianDN*100);
end;
procedure TimeValToSystemTime(const tz: TTimeVal; var result: TSystemTime);
var days, secs: integer;
begin
days := tz.tv_sec div SecsPerDay;
JulianDaysNumberToGregorian(days+c1970,result.Year,result.Month,result.Day);
secs := abs(tz.tv_sec mod SecsPerDay);
result.hour := secs div SecsPerHour;
secs := secs mod SecsPerHour;
result.minute := secs div SecsPerMin;
result.second := secs mod SecsPerMin;
result.MilliSecond := tz.tv_usec div 1000;
end;
function GetNowUTC: TDateTime;
var SystemTime: TSystemTime;
begin
GetNowUTCSystem(SystemTime);
result := SystemTimeToDateTime(SystemTime);
end;
function GetUnixUTC: Int64;
var r: TTimeSpec;
begin
clock_gettime(CLOCK_REALTIME_TICKCOUNT,r); // faster than gettimeofday
result := r.tv_sec;
end;
function GetUnixMSUTC: Int64;
var r: TTimeSpec;
begin
clock_gettime(CLOCK_REALTIME_TICKCOUNT,r);
result := Int64(r.tv_sec)*C_THOUSAND+(cardinal(r.tv_nsec) div 1000000); // in ms
end;
procedure GetNowUTCSystem(var result: TSystemTime);
var tz: TTimeVal;
begin
gettimeofday(tz,nil);
TimeValToSystemTime(tz,result);
end;
procedure GetLocalTime(var result: TSystemTime);
var tv: TTimeVal;
ut: TUnixTime;
t: TTime_T;
begin
gettimeofday(tv,nil);
t := tv.tv_sec;
localtime_r(@t,ut);
result.Year := ut.tm_year+1900;
result.Month := ut.tm_mon+1;
result.Day := ut.tm_mday;
result.Hour := ut.tm_hour;
result.Minute := ut.tm_min;
result.Second := ut.tm_sec;
result.MilliSecond := tv.tv_usec div 1000;
end;
function GetTickCount64: Int64;
var r: TTimeSpec;
begin
clock_gettime(CLOCK_MONOTONIC_TICKCOUNT,r);
result := Int64(r.tv_sec)*C_THOUSAND+(cardinal(r.tv_nsec) div 1000000); // in ms
end;
function GetTickCount: cardinal;
begin
result := cardinal(GetTickCount64);
end;
function SystemTimeToDateTime(const SystemTime: TSystemTime): TDateTime;
var time: TDateTime;
begin
with SystemTime do begin
result := EncodeDate(Year,Month,Day);
time := EncodeTime(Hour,Minute,Second,MilliSecond);
if result>=0 then
result := result+time else
result := result-time;
end;
end;
function IconvBufConvert(context: iconv_t;
Src: pointer; SrcBytes, SrcCharSize: Integer;
Dest: pointer; DestBytes, DestCharSize: integer): pointer;
var SrcBytesLeft, DestBytesLeft, Zero: size_t;
LastError: Integer;
pNil: pointer;
begin
DestBytesLeft := DestBytes;
SrcBytesLeft := SrcBytes;
repeat
if LibC.iconv(context,PChar(Src),SrcBytesLeft,Dest,DestBytesLeft)<>size_t(-1) then
break; // success
LastError := GetLastError;
if (LastError=E2BIG) and (SrcBytesLeft>0) and (DestBytesLeft>0) then
continue;
if (LastError<>EINVAL) and (LastError<>EILSEQ) then
raise Exception.CreateFmt('SynKylix: iconv() fatal error %d',[LastError]);
Zero := 0;
pNil := nil;
LibC.iconv(context,PChar(pNil),Zero,pNil,Zero); // reset
inc(PByte(Src),SrcCharSize);
dec(SrcBytesLeft,SrcCharSize);
PWord(Dest)^ := ord('?');
inc(PByte(Dest),DestCharSize);
dec(DestBytesLeft,DestCharSize);
until false;
result := Dest;
end;
procedure SleepHiRes(ms: cardinal);
begin
if ms=0 then
usleep(1) else // sched_yield() is buggy on multi CPU
usleep(ms shl 10); // from ms to us
end;
function GetHostName: string;
var tmp: array[byte] of AnsiChar;
begin
LibC.gethostname(tmp,sizeof(tmp)-1);
result := tmp;
end;
procedure GetKernelRevision;
var uts: UtsName;
P: PByte;
function GetNext: cardinal;
var c: cardinal;
begin
result := 0;
repeat
c := P^-48;
if c>9 then
break else
result := result*10+c;
inc(P);
until false;
if P^=ord('.') then
inc(P);
end;
begin
uname(uts);
P := @uts.release;
KernelRevision := GetNext shl 16+GetNext shl 8+GetNext;
if KernelRevision>=$020620 then begin // expects kernel 2.6.32 or higher
CLOCK_MONOTONIC_TICKCOUNT := CLOCK_MONOTONIC_COARSE;
CLOCK_REALTIME_TICKCOUNT := CLOCK_REALTIME_COARSE;
end;
end;
initialization
GetKernelRevision;
end.