A2osX/.Docs/KERNEL.md

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Copyright

Copyright 2015 - 2020, Remy Gibert and the A2osX contributors.

Shift

ASM

A = argument index.

RETURN VALUE

CC : success
Y,A = PTR To Arg[A]
CS : Out Of Bound

ArgV

ASM

A = argument index.

RETURN VALUE

CC : success
Y,A = PTR To Arg[A]
CS : Out Of Bound

Arg2ArgV

Expand String and convert to StrV List

C

short int arg2argv(char* args, char* argv[])

ASM

>PUSHW args
>PUSHW argv
>SYSCALL Arg2ArgV

RETURN VALUE

A = Arg count

ArgVDup

ASM

Y,A = Src StrV

RETURN VALUE

X = hMem of new StrV
A = Str Count

LoadDrv

ASM

Y,A = PTR to "NAME.DRV [PARAM]" C-String

RETURN VALUE

none

InsDrv

C

void * insdrv (void * src, void * crvcsstart, void * drvcssize, void * drvend);

ASM

>PUSHW DRV.END
>PUSHW DRV.CS.SIZE
>PUSHW DRV.CS.START
>LDYA L.SRC
>SYSCALL insdrv

RETURN VALUE

Y,A = Ptr to installed driver

GetDevByName

Y,A = Ptr to device name (C-String)

RETURN VALUE

CC = OK, CS = ERROR
Y,A = FD
X = hFD

MkFD

C

short int mkfd(short int type, );

ASM

>PUSHB DevID
>PUSHW S.DIB
>SYSCALL MkFD

RETURN VALUE

MKDev

Create a hDEV

C

hDEV mkdev (S.FD *fd, const char *devname)

ASM

>PUSHW fd
>PUSHW devname
>SYSCALL mkdev

RETURN VALUE

A = hDEV

IOCTL

C

int ioctl(short int hFD, short int request, void *param);

ASM

>PUSHB hDEV
>PUSHB request
>PUSHW param
>SYSCALL IOCTL

RETURN VALUE

Y,A = ...

OpenDir

C

short int hDIR opendir (const char * dirpath);

ASM

>LDYA dirpath
>SYSCALL opendir

RETURN VALUE

CC : success
A = hDIR
CS : error
A = EC

ReadDir

C

struct dirent *readdir (short int hDIR);

ASM

lda hDIR
>SYSCALL readdir

RETURN VALUE

CC : success
X = hDIRENT
Y,A = PTR to S.DIRENT
CS : error
A = EC
note : A = 0 means no more entry

CloseDir

C

void closedir(hDIR);

ASM

lda hDIR
>SYSCALL closedir

RETURN VALUE

none, always succeed.

SetEnv

Change or add an environment variable

C / CSH

int setenv(const char *name, const char *value);

ASM

>PUSHW name
>PUSHW value
>SYSCALL setenv

RETURN VALUE

GetEnv

searches the environment list to find the environment variable name,
and returns a pointer to the corresponding value string.

C / CSH

char *getenv(const char *name, char *value);

ASM

>PUSHW name
>PUSHW value
>SYSCALL getenv

RETURN VALUE

CC : Y,A = PTR to VALUE (C-String)
CS : not found

PutEnv

Change or add an environment variable, string is 'NAME=VALUE'

C / CSH

int putenv(char *string);

ASM

>PUSHW string
>SYSCALL putenv

RETURN VALUE

UnsetEnv

Remove an environment variable

C / CSH

int unsetenv(const char *name);

ASM

>PUSHW name
>SYSCALL unsetenv

RETURN VALUE

Add32,Sub32,Mul32,IMul32,Div32,IDiv32,Mod32,IMod32,Cmp32,ICmp32

Return X+Y, X-Y, X*Y, X/Y, X mod Y....

ASM

>PUSHL X (long)
>PUSHL Y (long)
>FPU add32
...

RETURN VALUE

On stack (long)

FAdd,FSub,FMul,FDiv,FPwr

Return X*Y, X/Y, X+Y, X-Y

C

float pwr ( float x, float y);

ASM

>PUSHF X (float)
>PUSHF Y (float)
>FPU fmul
>FPU fdiv
>FPU fmod TODO
>FPU fadd
>FPU fsub
>FPU fpwr

RETURN VALUE

On stack (float)

Log,Sqr,Exp,Cos,Sin,Tan,ATan

Return Log(x), Sqr(x), E^X, Cos(x), Sin(X), Tan(x), ATan(x)

C

float log ( float x);
float sqr ( float x);
float exp ( float x);
float cos ( float x);
float sin ( float x);
float tan ( float x);
float atan ( float x);

ASM

>PUSHF x (Float)
>FPU log

RETURN VALUE

On stack (Float)

float

Return 'floated' long

C

`float f = (float)l;

ASM

>PUSHL l (long)
>FPU float

RETURN VALUE

On stack (float)

lrintf

Return float rounded into a long

C

long int lrintf (float x);

ASM

>PUSHF x
>FPU lrintf

RETURN VALUE

On stack (long)

MD5

Return MD5 Hash for input String

C

void md5 (const char* str, char* digest);

ASM

>PUSHW str
>PUSHW digest
>SYSCALL md5

RETURN VALUE

CC

MD5Init

Initialize a MD5 computation

C

short int md5init();

ASM

>SYSCALL MD5Init

RETURN VALUE

A = hMem To S.MD5

MD5Update

Add Data to MD5 computation

C

void md5update (short int md5, char* data, int len);

ASM

>PUSHB md5
>PUSHW data
>PUSHW len
>SYSCALL MD5Update

RETURN VALUE

MD5Finalize

C

void md5finalize (short int md5, char* digest);

ASM

>PUSHB md5
>PUSHW digest
>SYSCALL MD5Finalize

RETURN VALUE

Realloc

C

void *realloc(short int hMem, int size);

ASM

>PUSHB hMem
>PUSHW size
>SYSCALL realloc

RETURN VALUE

YA = ptr
X = hMem

GetMem

Y,A = Size Requested

RETURN VALUE

CC : success
YA = PTR to Mem (Uninitialised)

• X = hMem
  CS :
  A = EC

Free

Y,A = Ptr To Free

RETURN VALUE

none.
(X unmodified)

FreeMem

A = hMem To Free

RETURN VALUE

none.
(X unmodified)

GetMemPtr

A = hMem

RETURN VALUE

Y,A = PTR to MemBlock
(X unmodified)

NewStkObj

Y,A = Size Requested

RETURN VALUE

CC : success
YA = PTR to Mem (Uninitialised)

• X = hMem
  CS :
  A = EC

GetStkObjPtr

ASM

lda hStkObj
>SYSCALL GetStkObjPtr

RETURN VALUE

FreeStkObj

A = hMem To Free (AUX Memory)

RETURN VALUE

none.
(X,Y unmodified)

Online

Get ProDOS Volume Info

C

int online(short int volid, void *buf);

ASM

>PUSHB volid
>PUSHW buf
>SYSCALL Online

RETURN VALUE

ChTyp

Change Type of a ProDOS File

C

int chtyp(const char *filepath, short int filetype);

ASM

>PUSHW filepath
>PUSHB filetype
>SYSCALL ChTyp

RETURN VALUE

ChAux

Change AuxType of a ProDOS File

C

int chaux(const char *filepath, int auxtype);

ASM

>PUSHW filepath
>PUSHW auxtype
>SYSCALL ChAux

RETURN VALUE

SetAttr

Change Attributes of a ProDOS File

C

int setattr(const char *filepath, short int attributes);

ASM

>PUSHW filepath
>PUSHB attributes
>SYSCALL setattr

RETURN VALUE

ExecL

C / CSH

short int execl(const char *cmdline, short int flags);

ASM

>PUSHW cmdline
>PUSHB flags
>SYSCALL execl

RETURN VALUE

A = Child PSID

ExecV

C / CSH

short int execv(const char* argv[], short int flags);

ASM

>PUSHW argv
>PUSHB flags
>SYSCALL execv

RETURN VALUE

A = Child PSID

Fork

C

short int fork();

ASM

>SYSCALL fork

RETURN VALUE

A = Child PSID

Kill

C

int kill(short int pid, short int sig);

ASM

>PUSHB pid
>PUSHB sig
>SYSCALL kill

RETURN VALUE

LoadTxtFile

Load TXT a file in memory (with ending 0)

C

int loadtxtfile ( const char * filename );

ASM

>LDYA filename
>SYSCALL loadtxtfile

RETURN VALUE

Y,A = File Length (without ending 0)
X = hMem of Loaded File

LoadFile

Load a file in memory

C

int loadfile ( const char * filename, short int flags, short int ftype, int auxtype );

ASM

>PUSHW filename
>PUSHB flags
>PUSHB ftype
>PUSHW auxtype
>SYSCALL loadfile

RETURN VALUE

Y,A = File Length
X = hMem of Loaded File

FileSearch

Search a file in the provided PATH list
And return, if found, the full path to it.

C

int filesearch( char *filename, char *searchpath, char *fullpath, stat *filestat);

ASM

>PUSHW filename
>PUSHW fullpath
>PUSHW searchpath
>PUSHW filestat
>SYSCALL filesearch

RETURN VALUE

CC : success
DstBuf = FilePath
DstStat = S.STAT
CS : not found

GetMemStat

Y,A = Ptr to 24 bytes buffer

RETURN VALUE

Buffer filled with memory stats

GetPWUID

C

int getpwuid(short int uid, S.PW *passwd);

ASM

PUSHB uid
>PUSHW passwd
>SYSCALL getpwuid

RETURN VALUE

GetGRGID

C

int getgrgid(short int gid, S.GRP *group);

ASM

>PUSHB gid
>PUSHW group
>SYSCALL getpwname

RETURN VALUE

CloseSession

C

int closesession(short int hSID);

ASM

>PUSHB hSID
>SYSCALL CloseSession

RETURN VALUE

OpenSession

C

short int hSID opensession(const char *name, const char *passwd);

ASM

>PUSHW name
>PUSHW passwd
>SYSCALL OpenSession

RETURN VALUE

GetPWName

C

int getpwname(const char* name, S.PW *passwd);

ASM

>PUSHW name
>PUSHW passwd
>SYSCALL getpwname

RETURN VALUE

GetGRName

C

int getgrgid(const char* name, S.GRP *group);

ASM

>PUSHW name
>PUSHW group
>SYSCALL getpwname

RETURN VALUE

PutPW

C

int putpw(S.PW* passwd);

ASM

>PUSHW passwd
>SYSCALL putpw

RETURN VALUE

PutGR

C

int putgr(S.GRP *group);

ASM

>PUSHW group
>SYSCALL putgr

RETURN VALUE

SListGetData

ASM

>PUSHB hSList
>PUSHW KeyID
>PUSHW DataPtr (0 if KERNEL should allocate a buffer)
>PUSHW DataLen (Data bytes to return, 0 if String mode)
>PUSHW DataOfs (Start offset in Data)
>SYSCALL SListGetData

RETURN VALUE

Y,A = Byte Count
X = hMem (if DataPtr = 0)

SListAddData

ASM

>PUSHB hSList
>PUSHW KeyID
>PUSHW DataPtr
>PUSHW DataLen (Data bytes to add, 0 if String mode)
>SYSCALL SListAddData

RETURN VALUE

SListSetData

ASM

>PUSHB hSList
>PUSHW KeyID
>PUSHW DataPtr
>PUSHW DataLen (Data bytes to set, 0 if String mode)
>SYSCALL SListSetData

RETURN VALUE

SListGetByID

ASM

>PUSHB hSList
>PUSHW KeyID
>PUSHW KeyPtr
>SYSCALL SListGetByID

RETURN VALUE

Y,A = Next KeyID

SListNewKey

ASM

>PUSHB hSList
>PUSHW KeyPtr
>PUSHW ScopeID
>SYSCALL SListNewKey

RETURN VALUE

Y,A = KeyID
X = KeyLen

SListLookup

ASM

>PUSHB hSList
>PUSHW KeyPtr
>PUSHW ScopeID
>SYSCALL SListLookup

RETURN VALUE

Y,A = KeyID
X = Key Length

SListFree

ASM

lda hSList
>SYSCALL SListFree

RETURN VALUE

SListNew

ASM

lda Opt
>SYSCALL SListNew

RETURN VALUE

A=hSList

ChMod

change permissions of a file

C

int chmod(const char *pathname, int mode);

ASM

>PUSHW pathname
>PUSHW mode
>SYSCALL chmod

RETURN VALUE

FStat

Return information about a hFILE

C

int fstat(short int hFILE, struct stat *statbuf);

ASM

>PUSHB hFILE
>PUSHW statbuf
>SYSCALL fstat

RETURN VALUE

Stat

Return information about a file

C

int stat(const char *pathname, struct stat *statbuf);

ASM

>PUSHW pathname
>PUSHW statbuf
>SYSCALL stat

RETURN VALUE

MKDir

create a directory

C

int mkdir(const char *pathname, int mode);

ASM

>PUSHW pathname
>PUSHW mode
>SYSCALL mkdir

RETURN VALUE

CC : success
CS : error
A = EC

MKFIFO

return a pathname to a new FIFO

C

hFILE mkfifo(const char *pathname, int mode);

ASM

>PUSHW pathname
>PUSHW mode
>SYSCALL mkfifo

RETURN VALUE

CC = OK, CS = ERROR
A = hFILE

MkNod

Create a special or ordinary file.
(CDEV, BDEV, DSOCK, SSOCK, PIPE)

C

hFILE mknod(const char *pathname, int mode, hFD fd);

ASM

>PUSHW pathname
>PUSHW mode
>PUSHB fd
>SYSCALL mknod

RETURN VALUE

CC = OK, CS = ERROR
A = hFILE

pipe

C

hFD pipe(int size);

ASM

>LDYA size
>SYSCALL pipe

RETURN VALUE

CC = OK, CS = ERROR
A = hFD

fputc (BLOCKING)

Print A (char) to hFILE

C

int fputc ( hFILE stream , short int character );

ASM

>PUSHB stream
>PUSHB character
>SYSCALL fputc

RETURN VALUE

CC = success

putchar (BLOCKING)

Print A (char) to StdOut

C

int putchar ( short int character );

ASM

lda character
>SYSCALL putchar

RETURN VALUE

CC = success

puts (BLOCKING)

Write Str to StdOut, appends '\r\n'

C

int puts ( const char * str );

ASM

>LDYAI str
>SYSCALL PutS

RETURN VALUE

CC = success

fputs (BLOCKING)

Write Str to hFILE

C

int fputs (hFILE stream, const char * str );

ASM

>PUSHB stream
>PUSHW str
>SYSCALL fputs

RETURN VALUE

CC = success

fgets (BLOCKING)

read bytes from stream into the array
pointed to by s, until n-1 bytes are read, or a is read and
transferred to s, or an end-of-file condition is encountered. The
string is then terminated with a null byte.

C

char *fgets(hFILE stream, char * s, int n);

ASM

>PUSHB hFILE
>PUSHW s
>PUSHW n
>SYSCALL fgets

RETURN VALUE

Y,A: s
CC = success

getchar (BLOCKING)

Get char from StdIn

C

short int getchar ( );

ASM

>SYSCALL getchar

RETURN VALUE

CC = success
A = char

getc (BLOCKING)

Get char from Node

C

short int getc ( short int stream );

ASM

lda stream
>SYSCALL getc

RETURN VALUE

CC = success
A = char

ungetc

push byte back into input stream

C

short int ungetc(short int c, short int stream);

ASM

>PUSHB c
>PUSHB stream
>SYSCALL ungetc

RETURN VALUE

CC = success
A = char

FOpen

Open a file

C

short int fopen ( const char *filename, short int flags, short int ftype, int auxtype );

ASM

>PUSHW filename
>PUSHB flags

• O.RDONLY : if R and exists -> ERROR
• O.WRONLY : if W and exists -> CREATE
• O.TRUNC : Reset Size To 0
• O.APPEND : Append
• O.TEXT : Open/Append in Text mode
• O.CREATE : Create if not exists
  >PUSHB ftype
>PUSHW auxtype
  TODO: replace flags/ftype/auxtype with mode="w+,t=TYP,x=AUXTYPE"
• r = O_RDONLY
• r+ = O_RDWR
• w = O_WRONLY | O_CREAT | O_TRUNC
• w+ = O_RDWR | O_CREAT | O_TRUNC
• a = O_WRONLY | O_CREAT | O_APPEND
• a+ = O_RDWR | O_CREAT | O_APPEND
• ,t=123 or t=$ff or t=TXT
• ,x=12345 or x=$ffff

RETURN VALUE

CC : A = hFILE
CS : A = EC

FClose

Close a file

C

int fclose ( short int stream );

ASM

lda stream
>SYSCALL FClose

RETURN VALUE

FRead (BLOCKING)

Read bytes from file

C

int fread (short int stream, void * ptr, int count );

ASM

>PUSHB stream
>PUSHW ptr
>PUSHW count
>SYSCALL fread

RETURN VALUE

Y,A = Bytes Read

FWrite (BLOCKING)

Write bytes to file

C

int fwrite ( short int stream, const void * ptr, int count );

ASM

>PUSHB stream
>PUSHW ptr
>PUSHW count
>SYSCALL fwrite

RETURN VALUE

Y,A = Bytes Written

FFlush

C

int fflush( short int stream );

ASM

lda stream
>SYSCALL fflush

FSeek

Set the file-position indicator for hFILE

C

int fseek( short int stream, long offset, short int whence );

ASM

>PUSHB stream
>PUSHL offset
>PUSHB whence
>SYSCALL fseek

FEOF

Test the end-of-file indicator for hFILE

C

short int feof( short int stream );

ASM

lda stream
>SYSCALL feof

RETURN VALUE

CC :
A = $ff EOF
A = 0 NOT EOF
CS :

FTell

Return the current value of the file-position indicator

C

long ftell( short int stream );

ASM

lda stream
>SYSCALL ftell

RETURN VALUE

On stack (long)

Remove

Remove a file or directory

C

int remove ( const char *pathname );

ASM

>LDYA pathname
>SYSCALL remove

RETURN VALUE

Rename

Rename a file

C

int rename ( const char * oldpath, const char * newpath );

ASM

>PUSHW oldpath
>PUSHW newpath
>SYSCALL rename

RETURN VALUE

PrintF (BLOCKING)

FPrintF (BLOCKING)

SPrintF

Prints C-Style String

C

int printf ( const char *format, ... );
int fprintf ( short int stream, const char *format, ... );
int sprintf ( char *str, const char *format, ... );

ASM

PrintF : (example is for printing Y,A as integer : format="%I", 2 bytes)
>PUSHW format
>PUSHW i
...
>PUSHBI 2 #bytecount
>SYSCALL PrintF
FPrintF :
>PUSHB hFILE
>PUSHW format
>PUSHW i
...
>PUSHBI 2 #bytecount
>SYSCALL fprintf
SPrintF :
>PUSHW str
>PUSHW format
>PUSHW i
...
>PUSHBI 2 #bytecount
>SYSCALL sprintf

RETURN VALUE

CC : success, Y,A = bytes sent
CS : error, A = code from Output
Specifiers :

• %b : pull 1 byte to Print BIN
• %d : pull 1 byte unsigned DEC 0..255
• %D : pull 2 bytes unsigned DEC 0..65535
• %u : pull 4 bytes long unsigned DEC 0..4294967295
• %e : pull 5 Bytes float (-)1.23456789e+12
• %f : pull 5 Bytes float (-)3.1415
• %h : pull 1 byte to Print HEX
• %H : pull 2 bytes to Print HEX
• %i : pull 1 byte to Print signed DEC -128..127
• %I : pull 2 bytes to Print signed DEC -32768..32767
• %L : pull 4 bytes signed DEC -2147483648..2147483647
• %s : pull 2 bytes ptr to C-Style String
• %S : pull 2 bytes ptr to P-Style String

Modifiers for len and padding :

• %d : '9' '12'
• %2d : ' 9' '12'
• %02d : '09' '12'
• %11s : 'ABCDEFGH '
• %011s : 'ABCDEFGH000'
• %2f : '3.14'

ScanF (BLOCKING)

FScanF (BLOCKING)

SScanF

Read formatted data from string

C

int scanf( const char *format, ... );
int fscanf( short int stream, const char *format, ... );
int sscanf ( const char *s, const char *format, ... );

ASM

ScanF :
>PUSHW format
>PUSHW ptr
...
>PUSHB bytecount
>SYSCALL scanf
FScanF :
>PUSHB stream
>PUSHW format
>PUSHW ptr
...
>PUSHB bytecount
>SYSCALL fscanf
SScanF :
>PUSHW s
>PUSHW format
>PUSHW ptr
...
>PUSHB bytecount
>SYSCALL sscanf
Specifiers :

• %i : short int
• %d : byte
• %I : int
• %D : word
• %L : long int
• %U : dword
• %h : HEX byte
• %H : HEX word
• %s : string

TODO : %10s

RETURN VALUE

A = Number of arguments filled.

StrToF

Convert String to 40 bits Float

C

float strtof (const char* str, char** endptr );

ASM

>PUSHW str
>PUSHWI EndPtr
>SYSCALL StrToF

RETURN VALUE

On stack (float)

AToF

Convert String to 40 bits Float

C

float atof ( const char* str );

ASM

>LDYA str
>SYSCALL atof

RETURN VALUE

On stack (float)

StrToL/StrToUL

Convert String to 32 bits (unsigned) int

C

long strtol (const char* str, char** endptr, int base);
unsigned long strtoul (const char* str, char** endptr, int base);

ASM

>PUSHW str
>PUSHW EndPtr
>PUSHB Base
>SYSCALL StrToL

RETURN VALUE

On stack (long)

atol

Convert String to 32 bits long

C

long atol ( const char * str );

ASM

>LDYA str
>SYSCALL atol

RETURN VALUE

On stack (long)

atoi

Convert String to 16 bits int

C

int atoi ( const char * str );

ASM

>LDYAI str
>SYSCALL atoi

RETURN VALUE

Y,A = int

RealPath

Return the canonicalized absolute pathname

C / CSH

char *realpath(const char *path, char *resolvedpath);

ASM

>PUSHW path
>PUSHW resolvedpath
>SYSCALL realpath

RETURN VALUE

CC : success
Y,A = Ptr to Full Path (C-String Buffer, MLI.MAXPATH+1)
X = hMem of Full Path
CS : A = Error Code

Expand

C

char *expand(const char *str, char *expanded);

ASM

>PUSHW str
>PUSHW expanded
>SYSCALL expand

RETURN VALUE

if expanded == null
Y,A = PTR to Expanded String
X = hMem to Expanded String
if expanded = null
Y,A = strlen

LoadStkObj

Load a file in AUX memory (Stock Objects)
PUSHW = PATH (Handled by....
PUSHB = MODE ...
PUSHB = TYPE ...
PUSHW = AUXTYPE ...FOpen)

RETURN VALUE

Y,A = File Length
X = hMem of Loaded Object in AUX mem

GetStkObj

C

int *ptr getstkobj (short int hStkObj);

ASM

lda hStkObj
>SYSCALL GetStkObj

RETURN VALUE

CC : success
X = hMem
Y,A = ptr
CS : error
A = EC

StrLen

Returns Length of C-String

C

int strlen ( char * str);

ASM

>LDYAI str
>SYSCALL strlen

RETURN VALUE

Y,A = String length

StrCat

Concatenate strings

C

char * strcat ( char * destination, const char * source );

ASM

>PUSHWI destination
>PUSHWI source
>SYSCALL strcat

RETURN VALUE

Y,A = destination

StrCpy

Copy string

C

char * strcpy ( char * destination, const char * source );

ASM

>PUSHWI destination
>PUSHWI source
>SYSCALL strcpy

RETURN VALUE

Y,A = destination

StrDup

Create a new copy of this C-String

C

char * strdup ( char * str);

ASM

Y,A = Ptr to source C-String
CC : success
Y,A = PTR to String
X = hMem (C-String)
CS : error
A = SYS error code

StrUpr/StrLwr

Convert string to UPPERCASE/lowercase

C

int strupr ( char * str);
int strlwr ( char * str);

ASM

>LDYAI str
>SYSCALL strupr
>SYSCALL strlwr

RETURN VALUE

Uppercased/lowercased String in Buffer
Y,A = str

StrCmp

Compare 2 strings

C

int strcmp(const char *s1, const char *s2);

ASM

>PUSHWI s1
>PUSHWI s2
>SYSCALL strcmp

RETURN VALUE

CC : match
CS : no match
CC, Y,A=0
CS, Y,A > 0 or < 0

StrCaseCmp

Compare 2 strings, ignoring case

C

int strcasecmp(const char *s1, const char *s2);

ASM

>PUSHWI s1
>PUSHWI s2
>SYSCALL strcasecmp

RETURN VALUE

CC : match
CS : no match
CC, Y,A=0
CS, Y,A > 0 or < 0

StrVSet

ASM

>PUSHB hSTRV
>PUSHW id
>PUSHW ptr
>SYSCALL StrVSet

RETURN VALUE

StrVGet

ASM

>PUSHB hSTRV
>PUSHW id
>PUSHW ptr
>SYSCALL StrVGet

RETURN VALUE

CC: Y,A = Ptr
CS: Y,A = NULL

StrVNew

ASM

>LDYA size
>SYSCALL StrVNew

RETURN VALUE

StrVFree

ASM

lda hSTRV
>SYSCALL StrVFree

RETURN VALUE

Time

Get System Time in Buffer

C

void time (struct tm* timeptr);

ASM

>PUSHW timer
>SYSCALL time

RETURN VALUE

S.TIME filled with System date/time

StrFTime

C

Convert S.TIME struct to CSTR
void strftime (char* str, const char* format, const struct tm* timeptr );

ASM

>PUSHW str
>PUSHW format

• %a : Abbreviated weekday name : Thu
• %A : Full weekday name : Thursday
• %b : Abbreviated month name : Aug
• %B : Full month name : August
• %d : Day of the month, zero-padded (01-31)
• %H : Hour in 24h format (00-23) 14
• %I : Hour in 12h format (01-12) 02
• %m : Month as a decimal number (01-12) 08
• %M : Minute (00-59) 55
• %p : AM or PM designation PM
• %S : Second (00-61) 02
• %w : Weekday as a decimal number with Sunday as 0 (0-6)
• %y : Year, last two digits (00-99)
• %Y : Year four digits 2001

>PUSHW timeptr
>SYSCALL strftime

RETURN VALUE

none. always succeed.

PTime2Time

Convert ProDOS Time To S.TIME

C

void PTime2Time (long* ptime, const struct tm* timeptr );

ASM

>PUSHW ptime
>PUSHW timer
>SYSCALL PTime2Time

RETURN VALUE

CTime2Time

Convert CTime Time To S.TIME

C

void CTime2Time (long* ctime, const struct tm* timeptr );

ASM

>PUSHW ctime
>PUSHW timer
>SYSCALL CTime2Time

RETURN VALUE

open

C

hFD open(const char *pathname, short int flags);

ASM

>PUSHW pathname
>PUSHB flags
>SYSCALL open

RETURN VALUE

A = hFD
REG File created on ProDOS : T=TXT,X=$0000

close

C

int close(hFD fd);

ASM

lda fd
>SYSCALL close

read

C

int read(hFD fd, void *buf, int count);

ASM

>PUSHB fd
>PUSHW buf
>PUSHW count
>SYSCALL read

RETURN VALUE

CC: Y,A = bytes read
CS: A = EC

write

C

int write(hFD fd, const void *buf, int count);

ASM

>PUSHB fd
>PUSHW buf
>PUSHW count
>SYSCALL write

RETURN VALUE

CC: Y,A = bytes written
CS: A = EC

LSeek

Set the file-position indicator for hFD

C

int lseek( short int hFD, long offset, short int whence );

ASM

>PUSHB hFD
>PUSHL offset
>PUSHB whence
>SYSCALL fseek

ChOwn

C

short int chown(const char *pathname, short int owner, short int group);

ASM

>PUSHW pathname
>PUSHB owner
>PUSHB group
>SYSCALL chown

RETURN VALUE

License

A2osX is licensed under the GNU General Public License.

This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

The full A2osX license can be found Here.

*** End of Auto generated file ***