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Kommunikation med den serielle port
Fra : Toke Gaarde Schmidt


Dato : 27-09-01 18:57

Jeg mangler et program, der styrer modtagelse og afsendelse af data via den
serielle port. Er der nogen, der ligger inde med noget kildekode, der
håndterer dette problem - helst i Turbo Pascal.

Med venlig hilsen

Toke



 
 
Thorbjoern Ravn Ande~ (28-09-2001)
Kommentar
Fra : Thorbjoern Ravn Ande~


Dato : 28-09-01 01:02

"Toke Gaarde Schmidt" <1950sol@post4.tele.dk> writes:

> Jeg mangler et program, der styrer modtagelse og afsendelse af data via den
> serielle port. Er der nogen, der ligger inde med noget kildekode, der
> håndterer dette problem - helst i Turbo Pascal.

Det letteste er formentlig at lede efter en FOSSIL driver, idet det
goer selve kommunikationen lettere. Der er godt med FOSSIL drivere
under DOS - jeg ved ikke om du arbejder under Windows, hvor det godt
kan betale sig med en Windowsudgave selvom DOS udgaverne da koerer.

Kig efter gammelt Fidonetsoftware.

--
Thorbjoern Ravn Andersen "...plus...Tubular Bells!"
http://bigfoot.com/~thunderbear

Thomas Riedel (28-09-2001)
Kommentar
Fra : Thomas Riedel


Dato : 28-09-01 08:28

Hej Toke

Her er noget ældgammel TP 5.5 kode hentet på nettet:
Du skal splitte teksten op i 2 filer: Async.pas (program) + async4u.pas
(unit)

Program Async;


{--------------------------------------------------------------------------}
{ This is a trivial little glass terminal program which simply shows
}
{ test I used of the ASYNC4U unit under Turbo 4.0 which appears to
rk. }
{ Scott
}

{--------------------------------------------------------------------------}

uses Dos, Crt, Async4U;

var inchar, outchar : char;

begin
Async_Init;
write(Async_Open(2,2400,'E',7,1));
outchar:=' ';
writeln;

repeat
if Async_Buffer_Check(inchar) then writeln(ord(inchar));
if keypressed then begin
outchar:=Readkey;
If outchar<>'!' then {Type an exclaimation point to exit}
Async_send(outchar);
end;
until outchar='!';

Async_Close;

end.

{----------------------------------------------------------------------}
{ ASYNC4U.PAS }
{ }
{ This is a faithful translation of the famous ASYNC.INC by Michael }
{ Quinlan into a Turbo 4.0 unit. No extra frills, no modification of }
{ types, nothing fancy. But with this code you should be able to }
{ delete your $I ASYNC.INC directive, add a USES ASYNC4U statement, }
{ and recompile your existing program. If you want to add support }
{ for more ports, other computers, or change to use the new data }
{ types, all good ideas, go right ahead. With this you don't have to. }
{ }
{ Scott Gurvey, November 29 1987 }
{----------------------------------------------------------------------}
{ }
{ ASYNC.INC }
{ }
{ Async Communication Routines }
{ by Michael Quinlan }
{ with a bug fixed by Scott Herr }
{ made PCjr-compatible by W. M. Miller }
{ Highly dependant on the IBM PC and PC DOS 2.0 }
{ }
{ based on the DUMBTERM program by CJ Dunford in the January 1984 }
{ issue of PC Tech Journal. }
{ }
{ Entry points: }
{ }
{ Async_Init }
{ Performs initialization. }
{ }
{ Async_Open(Port, Baud : Integer; }
{ Parity : Char; }
{ WordSize, StpBits : Integer) : Boolean }
{ Sets up interrupt vector, initialies the COM port for }
{ processing, sets pointers to the buffer. Returns FALSE if COM }
{ port not installed. }
{ }
{ Async_Buffer_Check(var C : Char) : Boolean }
{ If a character is available, returns TRUE and moves the }
{ character from the buffer to the parameter }
{ Otherwise, returns FALSE }
{ }
{ Async_Send(C : Char) }
{ Transmits the character. }
{ }
{ Async_Send_String(S : LStr) }
{ Calls Async_Send to send each character of S. }
{ }
{ Async_Close }
{ Turn off the COM port interrupts. }
{ **MUST** BE CALLED BEFORE EXITING YOUR PROGRAM; otherwise you }
{ will see some really strange errors and have to re-boot. }
{ }
{----------------------------------------------------------------------}

{$B-} { Short circuit boolean ON }
{$I-} { I/O hecking OFF }
{$R-} { Range checking OFF }
{$S-} { Stack checking OFF }
{$V-} { Var-str checking OFF}

UNIT ASYNC4U;

INTERFACE

USES Dos;

{ global declarations }

type
LStr = String[255]; { generic string type for parameters }

const
Async_Buffer_Max = 4095;

var
Async_OriginalVector : pointer;
Async_Buffer : Array[0..Async_Buffer_Max] of char;

Async_Open_Flag : Boolean; { true if Open but no Close }
Async_Port : Integer; { current Open port number (1 or 2) }
Async_Base : Integer; { base for current open port }
Async_Irq : Integer; { irq for current open port }

Async_Buffer_Overflow : Boolean; { True if buffer overflow has happened }
Async_Buffer_Used : Integer;
Async_MaxBufferUsed : Integer;

{ Async_Buffer is empty if Head = Tail }
Async_Buffer_Head : Integer; { Locn in Async_Buffer to put next char }
Async_Buffer_Tail : Integer; { Locn in Async_Buffer to get next char }
Async_Buffer_NewTail : Integer;

{---------------------------------------------------------------------------
-}
{ USER CALLABLE
}
{---------------------------------------------------------------------------
-}

procedure Async_Init;
{ initialize variables }

procedure Async_Close;
{ reset the interrupt system when UART interrupts no longer needed }

function Async_Open(ComPort : Integer;
BaudRate : Integer;
Parity : Char;
WordSize : Integer;
StopBits : Integer) : Boolean;
{ open a communications port }

function Async_Buffer_Check(var C : Char) : Boolean;
{ see if a character has been received; return it if yes }

procedure Async_Send(C : Char);
{ transmit a character }

procedure Async_Send_String(S : LStr);
{ transmit a string }

{---------------------------------------------------------------------------
-}

IMPLEMENTATION


const
UART_THR = $00; { offset from base of UART Registers for IBM PC }
UART_RBR = $00;
UART_IER = $01;
UART_IIR = $02;
UART_LCR = $03;
UART_MCR = $04;
UART_LSR = $05;
UART_MSR = $06;

I8088_IMR = $21; { port address of the Interrupt Mask Register }


var

Async_BIOS_Port_Table : Array[1..2] of Integer absolute $40:0;
{ This table is initialized by BIOS equipment determination
code at boot time to contain the base addresses for the
installed async adapters. A value of 0 means "not in-
stalled." }

const
Async_Num_Bauds = 8;
Async_Baud_Table : array [1..Async_Num_Bauds] of record
Baud, Bits : integer
end
= ((Baud:110; Bits:$00),
(Baud:150; Bits:$20),
(Baud:300; Bits:$40),
(Baud:600; Bits:$60),
(Baud:1200; Bits:$80),
(Baud:2400; Bits:$A0),
(Baud:4800; Bits:$C0),
(Baud:9600; Bits:$E0));


PROCEDURE DisableInterrupts; inline($FA {cli} ); {MACROS}
PROCEDURE EnableInterrupts; inline($FB {sti} );


procedure BIOS_RS232_Init(ComPort, ComParm : Integer);
{ Issue Interrupt $14 to initialize the UART }
{ See the IBM PC Technical Reference Manual for the format of ComParm }
var
Regs : registers;
begin
with Regs do
begin
ax := ComParm and $00FF; { AH=0; AL=ComParm }
dx := ComPort;
Intr($14, Regs)
end
end; { BIOS_RS232_Init }


{----------------------------------------------------------------------}
{ }
{ ISR - Interrupt Service Routine }
{ }
{----------------------------------------------------------------------}

procedure Async_Isr; INTERRUPT;
{ Interrupt Service Routine }
{ Invoked when the UART has received a byte of data from the
communication line }

{ re-written 9/10/84 to be entirely in machine language; original source
left as comments }

begin

Inline(
$FB/ { STI }
{ get the incomming character }
{ Async_Buffer[Async_Buffer_Head] := Chr(Port[UART_RBR +
Async_Base]); }
$8B/$16/Async_Base/ { MOV DX,Async_Base }
$EC/ { IN AL,DX }
$8B/$1E/Async_Buffer_Head/ { MOV BX,Async_Buffer_Head }
$88/$87/Async_Buffer/ { MOV Async_Buffer[BX],AL }
{ Async_Buffer_NewHead := Async_Buffer_Head + 1; }
$43/ { INC BX }
{ if Async_Buffer_NewHead > Async_Buffer_Max then
Async_Buffer_NewHead := 0; }
$81/$FB/Async_Buffer_Max/ { CMP BX,Async_Buffer_Max }
$7E/$02/ { JLE L001 }
$33/$DB/ { XOR BX,BX }
{ if Async_Buffer_NewHead = Async_Buffer_Tail then
Async_Buffer_Overflow := TRUE
else }
{L001:}
$3B/$1E/Async_Buffer_Tail/ { CMP BX,Async_Buffer_Tail }
$75/$08/ { JNE L002 }
$C6/$06/Async_Buffer_Overflow/$01/ { MOV Async_Buffer_Overflow,1 }
$90/ { NOP generated by assembler for some
reason }
$EB/$16/ { JMP SHORT L003 }
{ begin
Async_Buffer_Head := Async_Buffer_NewHead;
Async_Buffer_Used := Async_Buffer_Used + 1;
if Async_Buffer_Used > Async_MaxBufferUsed then
Async_MaxBufferUsed := Async_Buffer_Used
end; }
{L002:}
$89/$1E/Async_Buffer_Head/ { MOV Async_Buffer_Head,BX }
$FF/$06/Async_Buffer_Used/ { INC Async_Buffer_Used }
$8B/$1E/Async_Buffer_Used/ { MOV BX,Async_Buffer_Used }
$3B/$1E/Async_MaxBufferUsed/ { CMP BX,Async_MaxBufferUsed }
$7E/$04/ { JLE L003 }
$89/$1E/Async_MaxBufferUsed/ { MOV Async_MaxBufferUsed,BX }
{L003:}
{ disable interrupts }
$FA/ { CLI }
{ Port[$20] := $20; } { use non-specific EOI }
$B0/$20/ { MOV AL,20h }
$E6/$20 { OUT 20h,AL }
)
end; { Async_Isr }

procedure Async_Init;
{ initialize variables }
begin
Async_Open_Flag := FALSE;
Async_Buffer_Overflow := FALSE;
Async_Buffer_Used := 0;
Async_MaxBufferUsed := 0;
end; { Async_Init }

procedure Async_Close;
{ reset the interrupt system when UART interrupts no longer needed }
var
i, m : Integer;
begin
if Async_Open_Flag then
begin

{ disable the IRQ on the 8259 }
DisableInterrupts;
i := Port[I8088_IMR]; { get the interrupt mask register }
m := 1 shl Async_Irq; { set mask to turn off interrupt }
Port[I8088_IMR] := i or m;

{ disable the 8250 data ready interrupt }
Port[UART_IER + Async_Base] := 0;

{ disable OUT2 on the 8250 }
Port[UART_MCR + Async_Base] := 0;
EnableInterrupts;

SetIntVec(Async_Irq + 8,Async_OriginalVector);

{ re-initialize our data areas so we know the port is closed }
Async_Open_Flag := FALSE

end
end; { Async_Close }

function Async_Open(ComPort : Integer;
BaudRate : Integer;
Parity : Char;
WordSize : Integer;
StopBits : Integer) : Boolean;
{ open a communications port }
var
ComParm : Integer;
i, m : Integer;
begin
if Async_Open_Flag then Async_Close;

if (ComPort = 2) and (Async_BIOS_Port_Table[2] <> 0) then
Async_Port := 2
else
Async_Port := 1; { default to COM1 }
Async_Base := Async_BIOS_Port_Table[Async_Port];
Async_Irq := Hi(Async_Base) + 1;

if (Port[UART_IIR + Async_Base] and $00F8) <> 0 then
Async_Open := FALSE
else
begin
Async_Buffer_Head := 0;
Async_Buffer_Tail := 0;
Async_Buffer_Overflow := FALSE;

{ Build the ComParm for RS232_Init }
{ See Technical Reference Manual for description }

ComParm := $0000;

{ Set up the bits for the baud rate }
i := 0;
repeat
i := i + 1
until (Async_Baud_Table[i].Baud = BaudRate) or (i = Async_Num_Bauds);
ComParm := ComParm or Async_Baud_Table[i].Bits;

if Parity in ['E', 'e'] then ComParm := ComParm or $0018
else if Parity in ['O', 'o'] then ComParm := ComParm or $0008
else ComParm := ComParm or $0000; { default to No parity }

if WordSize = 7 then ComParm := ComParm or $0002
else ComParm := ComParm or $0003; { default to 8 data bits }

if StopBits = 2 then ComParm := ComParm or $0004
else ComParm := ComParm or $0000; { default to 1 stop bit }

{ use the BIOS COM port initialization routine to save typing the code }
BIOS_RS232_Init(Async_Port - 1, ComParm);

GetIntVec(Async_Irq + 8, Async_OriginalVector);
SetIntVec(Async_Irq + 8, @Async_Isr);

{ read the RBR and reset any possible pending error conditions }
{ first turn off the Divisor Access Latch Bit to allow access to RBR,
etc. }

DisableInterrupts;

Port[UART_LCR + Async_Base] := Port[UART_LCR + Async_Base] and $7F;
{ read the Line Status Register to reset any errors it indicates }
i := Port[UART_LSR + Async_Base];
{ read the Receiver Buffer Register in case it contains a character }
i := Port[UART_RBR + Async_Base];

{ enable the irq on the 8259 controller }
i := Port[I8088_IMR]; { get the interrupt mask register }
m := (1 shl Async_Irq) xor $00FF;
Port[I8088_IMR] := i and m;

{ enable the data ready interrupt on the 8250 }
Port[UART_IER + Async_Base] := $01; { enable data ready interrupt }

{ enable OUT2 on 8250 }
i := Port[UART_MCR + Async_Base];
Port[UART_MCR + Async_Base] := i or $08;

EnableInterrupts;
Async_Open_Flag := TRUE; { bug fix by Scott Herr }
Async_Open := TRUE
end
end; { Async_Open }

function Async_Buffer_Check(var C : Char) : Boolean;
{ see if a character has been received; return it if yes }
begin
if Async_Buffer_Head = Async_Buffer_Tail then
Async_Buffer_Check := FALSE
else
begin
C := Async_Buffer[Async_Buffer_Tail];
Async_Buffer_Tail := Async_Buffer_Tail + 1;
if Async_Buffer_Tail > Async_Buffer_Max then
Async_Buffer_Tail := 0;
Async_Buffer_Used := Async_Buffer_Used - 1;
Async_Buffer_Check := TRUE
end
end; { Async_Buffer_Check }

procedure Async_Send(C : Char);
{ transmit a character }
var
i, m, counter : Integer;
begin
Port[UART_MCR + Async_Base] := $0B; { turn on OUT2, DTR, and RTS }

{ wait for CTS }
counter := MaxInt;
while (counter <> 0) and ((Port[UART_MSR + Async_Base] and $10) = 0) do
counter := counter - 1;

{ wait for Transmit Hold Register Empty (THRE) }
if counter <> 0 then counter := MaxInt;
while (counter <> 0) and ((Port[UART_LSR + Async_Base] and $20) = 0) do
counter := counter - 1;

if counter <> 0 then
begin
{ send the character }
DisableInterrupts;
Port[UART_THR + Async_Base] := Ord(C);
EnableInterrupts
end
else
writeln('<<<TIMEOUT>>>');

end; { Async_Send }

procedure Async_Send_String(S : LStr);
{ transmit a string }
var
i : Integer;
begin
for i := 1 to length(S) do
Async_Send(S[i])
end; { Async_Send_String }
end. { ASYNC4U UNIT }

--
Thomas Riedel, LogiHouse
"Toke Gaarde Schmidt" <1950sol@post4.tele.dk> wrote in message
news:3bb36894$0$239$edfadb0f@dspool01.news.tele.dk...
> Jeg mangler et program, der styrer modtagelse og afsendelse af data via
den
> serielle port. Er der nogen, der ligger inde med noget kildekode, der
> håndterer dette problem - helst i Turbo Pascal.
>
> Med venlig hilsen
>
> Toke
>
>



Stig Johansen (28-09-2001)
Kommentar
Fra : Stig Johansen


Dato : 28-09-01 09:36

Hej.

Bemærk, at den er skrevet til de gamle UART's (uden buffer).
Det virker sansynligvis ikke på nuværende hardware (under 10-12 år gamle).

mvh
Stig Johansen.


"Thomas Riedel" <thr@image.danmark> wrote in message
news:rDVs7.800$Ay.114434@news010.worldonline.dk...
> Hej Toke
>
> Her er noget ældgammel TP 5.5 kode hentet på nettet:
> Du skal splitte teksten op i 2 filer: Async.pas (program) + async4u.pas
> (unit)
>
> Program Async;
>
>
>
{--------------------------------------------------------------------------}
> { This is a trivial little glass terminal program which simply shows
> }
> { test I used of the ASYNC4U unit under Turbo 4.0 which appears to
> rk. }
> { Scott
> }
>
>
{--------------------------------------------------------------------------}
>
> uses Dos, Crt, Async4U;
>
> var inchar, outchar : char;
>
> begin
> Async_Init;
> write(Async_Open(2,2400,'E',7,1));
> outchar:=' ';
> writeln;
>
> repeat
> if Async_Buffer_Check(inchar) then writeln(ord(inchar));
> if keypressed then begin
> outchar:=Readkey;
> If outchar<>'!' then {Type an exclaimation point to exit}
> Async_send(outchar);
> end;
> until outchar='!';
>
> Async_Close;
>
> end.
>
> {----------------------------------------------------------------------}
> { ASYNC4U.PAS }
> { }
> { This is a faithful translation of the famous ASYNC.INC by Michael }
> { Quinlan into a Turbo 4.0 unit. No extra frills, no modification of }
> { types, nothing fancy. But with this code you should be able to }
> { delete your $I ASYNC.INC directive, add a USES ASYNC4U statement, }
> { and recompile your existing program. If you want to add support }
> { for more ports, other computers, or change to use the new data }
> { types, all good ideas, go right ahead. With this you don't have to. }
> { }
> { Scott Gurvey, November 29 1987 }
> {----------------------------------------------------------------------}
> { }
> { ASYNC.INC }
> { }
> { Async Communication Routines }
> { by Michael Quinlan }
> { with a bug fixed by Scott Herr }
> { made PCjr-compatible by W. M. Miller }
> { Highly dependant on the IBM PC and PC DOS 2.0 }
> { }
> { based on the DUMBTERM program by CJ Dunford in the January 1984 }
> { issue of PC Tech Journal. }
> { }
> { Entry points: }
> { }
> { Async_Init }
> { Performs initialization. }
> { }
> { Async_Open(Port, Baud : Integer; }
> { Parity : Char; }
> { WordSize, StpBits : Integer) : Boolean }
> { Sets up interrupt vector, initialies the COM port for }
> { processing, sets pointers to the buffer. Returns FALSE if COM }
> { port not installed. }
> { }
> { Async_Buffer_Check(var C : Char) : Boolean }
> { If a character is available, returns TRUE and moves the }
> { character from the buffer to the parameter }
> { Otherwise, returns FALSE }
> { }
> { Async_Send(C : Char) }
> { Transmits the character. }
> { }
> { Async_Send_String(S : LStr) }
> { Calls Async_Send to send each character of S. }
> { }
> { Async_Close }
> { Turn off the COM port interrupts. }
> { **MUST** BE CALLED BEFORE EXITING YOUR PROGRAM; otherwise you }
> { will see some really strange errors and have to re-boot. }
> { }
> {----------------------------------------------------------------------}
>
> {$B-} { Short circuit boolean ON }
> {$I-} { I/O hecking OFF }
> {$R-} { Range checking OFF }
> {$S-} { Stack checking OFF }
> {$V-} { Var-str checking OFF}
>
> UNIT ASYNC4U;
>
> INTERFACE
>
> USES Dos;
>
> { global declarations }
>
> type
> LStr = String[255]; { generic string type for parameters }
>
> const
> Async_Buffer_Max = 4095;
>
> var
> Async_OriginalVector : pointer;
> Async_Buffer : Array[0..Async_Buffer_Max] of char;
>
> Async_Open_Flag : Boolean; { true if Open but no Close }
> Async_Port : Integer; { current Open port number (1 or 2) }
> Async_Base : Integer; { base for current open port }
> Async_Irq : Integer; { irq for current open port }
>
> Async_Buffer_Overflow : Boolean; { True if buffer overflow has
happened }
> Async_Buffer_Used : Integer;
> Async_MaxBufferUsed : Integer;
>
> { Async_Buffer is empty if Head = Tail }
> Async_Buffer_Head : Integer; { Locn in Async_Buffer to put next
char }
> Async_Buffer_Tail : Integer; { Locn in Async_Buffer to get next
char }
> Async_Buffer_NewTail : Integer;
>
>
{---------------------------------------------------------------------------
> -}
> { USER CALLABLE
> }
>
{---------------------------------------------------------------------------
> -}
>
> procedure Async_Init;
> { initialize variables }
>
> procedure Async_Close;
> { reset the interrupt system when UART interrupts no longer needed }
>
> function Async_Open(ComPort : Integer;
> BaudRate : Integer;
> Parity : Char;
> WordSize : Integer;
> StopBits : Integer) : Boolean;
> { open a communications port }
>
> function Async_Buffer_Check(var C : Char) : Boolean;
> { see if a character has been received; return it if yes }
>
> procedure Async_Send(C : Char);
> { transmit a character }
>
> procedure Async_Send_String(S : LStr);
> { transmit a string }
>
>
{---------------------------------------------------------------------------
> -}
>
> IMPLEMENTATION
>
>
> const
> UART_THR = $00; { offset from base of UART Registers for IBM PC }
> UART_RBR = $00;
> UART_IER = $01;
> UART_IIR = $02;
> UART_LCR = $03;
> UART_MCR = $04;
> UART_LSR = $05;
> UART_MSR = $06;
>
> I8088_IMR = $21; { port address of the Interrupt Mask Register }
>
>
> var
>
> Async_BIOS_Port_Table : Array[1..2] of Integer absolute $40:0;
> { This table is initialized by BIOS equipment determination
> code at boot time to contain the base addresses for the
> installed async adapters. A value of 0 means "not in-
> stalled." }
>
> const
> Async_Num_Bauds = 8;
> Async_Baud_Table : array [1..Async_Num_Bauds] of record
> Baud, Bits : integer
> end
> = ((Baud:110; Bits:$00),
> (Baud:150; Bits:$20),
> (Baud:300; Bits:$40),
> (Baud:600; Bits:$60),
> (Baud:1200; Bits:$80),
> (Baud:2400; Bits:$A0),
> (Baud:4800; Bits:$C0),
> (Baud:9600; Bits:$E0));
>
>
> PROCEDURE DisableInterrupts; inline($FA {cli} ); {MACROS}
> PROCEDURE EnableInterrupts; inline($FB {sti} );
>
>
> procedure BIOS_RS232_Init(ComPort, ComParm : Integer);
> { Issue Interrupt $14 to initialize the UART }
> { See the IBM PC Technical Reference Manual for the format of ComParm }
> var
> Regs : registers;
> begin
> with Regs do
> begin
> ax := ComParm and $00FF; { AH=0; AL=ComParm }
> dx := ComPort;
> Intr($14, Regs)
> end
> end; { BIOS_RS232_Init }
>
>
> {----------------------------------------------------------------------}
> { }
> { ISR - Interrupt Service Routine }
> { }
> {----------------------------------------------------------------------}
>
> procedure Async_Isr; INTERRUPT;
> { Interrupt Service Routine }
> { Invoked when the UART has received a byte of data from the
> communication line }
>
> { re-written 9/10/84 to be entirely in machine language; original source
> left as comments }
>
> begin
>
> Inline(
> $FB/ { STI }
> { get the incomming character }
> { Async_Buffer[Async_Buffer_Head] := Chr(Port[UART_RBR +
> Async_Base]); }
> $8B/$16/Async_Base/ { MOV DX,Async_Base }
> $EC/ { IN AL,DX }
> $8B/$1E/Async_Buffer_Head/ { MOV BX,Async_Buffer_Head }
> $88/$87/Async_Buffer/ { MOV Async_Buffer[BX],AL }
> { Async_Buffer_NewHead := Async_Buffer_Head + 1; }
> $43/ { INC BX }
> { if Async_Buffer_NewHead > Async_Buffer_Max then
> Async_Buffer_NewHead := 0; }
> $81/$FB/Async_Buffer_Max/ { CMP BX,Async_Buffer_Max }
> $7E/$02/ { JLE L001 }
> $33/$DB/ { XOR BX,BX }
> { if Async_Buffer_NewHead = Async_Buffer_Tail then
> Async_Buffer_Overflow := TRUE
> else }
> {L001:}
> $3B/$1E/Async_Buffer_Tail/ { CMP BX,Async_Buffer_Tail }
> $75/$08/ { JNE L002 }
> $C6/$06/Async_Buffer_Overflow/$01/ { MOV Async_Buffer_Overflow,1 }
> $90/ { NOP generated by assembler for some
> reason }
> $EB/$16/ { JMP SHORT L003 }
> { begin
> Async_Buffer_Head := Async_Buffer_NewHead;
> Async_Buffer_Used := Async_Buffer_Used + 1;
> if Async_Buffer_Used > Async_MaxBufferUsed then
> Async_MaxBufferUsed := Async_Buffer_Used
> end; }
> {L002:}
> $89/$1E/Async_Buffer_Head/ { MOV Async_Buffer_Head,BX }
> $FF/$06/Async_Buffer_Used/ { INC Async_Buffer_Used }
> $8B/$1E/Async_Buffer_Used/ { MOV BX,Async_Buffer_Used }
> $3B/$1E/Async_MaxBufferUsed/ { CMP BX,Async_MaxBufferUsed }
> $7E/$04/ { JLE L003 }
> $89/$1E/Async_MaxBufferUsed/ { MOV Async_MaxBufferUsed,BX }
> {L003:}
> { disable interrupts }
> $FA/ { CLI }
> { Port[$20] := $20; } { use non-specific EOI }
> $B0/$20/ { MOV AL,20h }
> $E6/$20 { OUT 20h,AL }
> )
> end; { Async_Isr }
>
> procedure Async_Init;
> { initialize variables }
> begin
> Async_Open_Flag := FALSE;
> Async_Buffer_Overflow := FALSE;
> Async_Buffer_Used := 0;
> Async_MaxBufferUsed := 0;
> end; { Async_Init }
>
> procedure Async_Close;
> { reset the interrupt system when UART interrupts no longer needed }
> var
> i, m : Integer;
> begin
> if Async_Open_Flag then
> begin
>
> { disable the IRQ on the 8259 }
> DisableInterrupts;
> i := Port[I8088_IMR]; { get the interrupt mask register }
> m := 1 shl Async_Irq; { set mask to turn off interrupt }
> Port[I8088_IMR] := i or m;
>
> { disable the 8250 data ready interrupt }
> Port[UART_IER + Async_Base] := 0;
>
> { disable OUT2 on the 8250 }
> Port[UART_MCR + Async_Base] := 0;
> EnableInterrupts;
>
> SetIntVec(Async_Irq + 8,Async_OriginalVector);
>
> { re-initialize our data areas so we know the port is closed }
> Async_Open_Flag := FALSE
>
> end
> end; { Async_Close }
>
> function Async_Open(ComPort : Integer;
> BaudRate : Integer;
> Parity : Char;
> WordSize : Integer;
> StopBits : Integer) : Boolean;
> { open a communications port }
> var
> ComParm : Integer;
> i, m : Integer;
> begin
> if Async_Open_Flag then Async_Close;
>
> if (ComPort = 2) and (Async_BIOS_Port_Table[2] <> 0) then
> Async_Port := 2
> else
> Async_Port := 1; { default to COM1 }
> Async_Base := Async_BIOS_Port_Table[Async_Port];
> Async_Irq := Hi(Async_Base) + 1;
>
> if (Port[UART_IIR + Async_Base] and $00F8) <> 0 then
> Async_Open := FALSE
> else
> begin
> Async_Buffer_Head := 0;
> Async_Buffer_Tail := 0;
> Async_Buffer_Overflow := FALSE;
>
> { Build the ComParm for RS232_Init }
> { See Technical Reference Manual for description }
>
> ComParm := $0000;
>
> { Set up the bits for the baud rate }
> i := 0;
> repeat
> i := i + 1
> until (Async_Baud_Table[i].Baud = BaudRate) or (i =
Async_Num_Bauds);
> ComParm := ComParm or Async_Baud_Table[i].Bits;
>
> if Parity in ['E', 'e'] then ComParm := ComParm or $0018
> else if Parity in ['O', 'o'] then ComParm := ComParm or $0008
> else ComParm := ComParm or $0000; { default to No parity }
>
> if WordSize = 7 then ComParm := ComParm or $0002
> else ComParm := ComParm or $0003; { default to 8 data bits }
>
> if StopBits = 2 then ComParm := ComParm or $0004
> else ComParm := ComParm or $0000; { default to 1 stop bit }
>
> { use the BIOS COM port initialization routine to save typing the code }
> BIOS_RS232_Init(Async_Port - 1, ComParm);
>
> GetIntVec(Async_Irq + 8, Async_OriginalVector);
> SetIntVec(Async_Irq + 8, @Async_Isr);
>
> { read the RBR and reset any possible pending error conditions }
> { first turn off the Divisor Access Latch Bit to allow access to RBR,
> etc. }
>
> DisableInterrupts;
>
> Port[UART_LCR + Async_Base] := Port[UART_LCR + Async_Base] and $7F;
> { read the Line Status Register to reset any errors it indicates }
> i := Port[UART_LSR + Async_Base];
> { read the Receiver Buffer Register in case it contains a character }
> i := Port[UART_RBR + Async_Base];
>
> { enable the irq on the 8259 controller }
> i := Port[I8088_IMR]; { get the interrupt mask register }
> m := (1 shl Async_Irq) xor $00FF;
> Port[I8088_IMR] := i and m;
>
> { enable the data ready interrupt on the 8250 }
> Port[UART_IER + Async_Base] := $01; { enable data ready interrupt }
>
> { enable OUT2 on 8250 }
> i := Port[UART_MCR + Async_Base];
> Port[UART_MCR + Async_Base] := i or $08;
>
> EnableInterrupts;
> Async_Open_Flag := TRUE; { bug fix by Scott Herr }
> Async_Open := TRUE
> end
> end; { Async_Open }
>
> function Async_Buffer_Check(var C : Char) : Boolean;
> { see if a character has been received; return it if yes }
> begin
> if Async_Buffer_Head = Async_Buffer_Tail then
> Async_Buffer_Check := FALSE
> else
> begin
> C := Async_Buffer[Async_Buffer_Tail];
> Async_Buffer_Tail := Async_Buffer_Tail + 1;
> if Async_Buffer_Tail > Async_Buffer_Max then
> Async_Buffer_Tail := 0;
> Async_Buffer_Used := Async_Buffer_Used - 1;
> Async_Buffer_Check := TRUE
> end
> end; { Async_Buffer_Check }
>
> procedure Async_Send(C : Char);
> { transmit a character }
> var
> i, m, counter : Integer;
> begin
> Port[UART_MCR + Async_Base] := $0B; { turn on OUT2, DTR, and RTS }
>
> { wait for CTS }
> counter := MaxInt;
> while (counter <> 0) and ((Port[UART_MSR + Async_Base] and $10) = 0) do
> counter := counter - 1;
>
> { wait for Transmit Hold Register Empty (THRE) }
> if counter <> 0 then counter := MaxInt;
> while (counter <> 0) and ((Port[UART_LSR + Async_Base] and $20) = 0) do
> counter := counter - 1;
>
> if counter <> 0 then
> begin
> { send the character }
> DisableInterrupts;
> Port[UART_THR + Async_Base] := Ord(C);
> EnableInterrupts
> end
> else
> writeln('<<<TIMEOUT>>>');
>
> end; { Async_Send }
>
> procedure Async_Send_String(S : LStr);
> { transmit a string }
> var
> i : Integer;
> begin
> for i := 1 to length(S) do
> Async_Send(S[i])
> end; { Async_Send_String }
> end. { ASYNC4U UNIT }
>
> --
> Thomas Riedel, LogiHouse
> "Toke Gaarde Schmidt" <1950sol@post4.tele.dk> wrote in message
> news:3bb36894$0$239$edfadb0f@dspool01.news.tele.dk...
> > Jeg mangler et program, der styrer modtagelse og afsendelse af data via
> den
> > serielle port. Er der nogen, der ligger inde med noget kildekode, der
> > håndterer dette problem - helst i Turbo Pascal.
> >
> > Med venlig hilsen
> >
> > Toke
> >
> >
>
>



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