long __saveds __regargs nik_sflush(void) {
long ret;
serchangereq->IOSer.io_Command=CMD_CLEAR;
DoIO((struct IORequest *)serchangereq);
serchangereq->IOSer.io_Command=CMD_FLUSH;
ret=(long)DoIO((struct IORequest *)serchangereq);
return(ret);
}
main()
{
ulong i;
Enable_Abort = 0;
td_mp = CreatePort(0L,0L);
if(!td_mp) exit(99);
td_iob = CreateStdIO(td_mp);
if(!td_iob) {
DeletePort(td_mp);
exit(99);
}
if(OpenDevice("trackdisk.device",0L,td_iob,0L)) {
printf("Unable to open floppy device driver.\n");
DeleteStdIO(td_iob);
DeletePort(td_mp);
exit(99);
}
diskbuf = AllocMem(TD_BUFSIZE,MEMF_PUBLIC|MEMF_CHIP);
if(!diskbuf) {
printf("Unable to obtain %ld byte buffer in chip memory.\n",TD_BUFSIZE);
CloseDevice(td_iob);
DeleteStdIO(td_iob);
DeletePort(td_mp);
exit(99);
}
for(i=0;i<80;i+=NUMTRKS) {
printf("Reading tracks %ld to %ld.\n",i,i+NUMTRKS-1);
td_iob->io_Command = CMD_READ;
td_iob->io_Data = (APTR) diskbuf;
td_iob->io_Length = TD_BUFSIZE;
td_iob->io_Offset = 11L * 1024L * i;
DoIO(td_iob);
if(td_iob->io_Error) {
printf("Floppy read failed, error number %d.\n",td_iob->io_Error);
break;
}
}
td_iob->io_Command = TD_MOTOR;
td_iob->io_Length = 0;
DoIO(td_iob);
FreeMem(diskbuf,TD_BUFSIZE);
CloseDevice(td_iob);
DeleteStdIO(td_iob);
DeletePort(td_mp);
}
int main (int argc, char **argv)
{
struct timerequest *timereq = 0;
struct MsgPort *timeport;
int result = calltrap (0, 0);
if (result == 1)
fprintf (stderr, "timehack already running.\n");
else if (result == 2)
fprintf (stderr, "timehack not supported with this version of UAE.\n");
if (result != 0)
exit (5);
timeport = CreatePort (0, 0);
if (timeport)
timereq = CreateStdIO(timeport);
if (timereq == 0)
goto fail;
if (OpenDevice ("timer.device", UNIT_VBLANK, timereq, 0) != 0)
goto fail;
SetTaskPri (FindTask (NULL), 20); /* same as input.device */
for (;;) {
struct timeval cur_sys_time;
timereq->tr_node.io_Command = TR_GETSYSTIME;
DoIO(timereq);
cur_sys_time = timereq->tr_time;
calltrap (1, &timereq->tr_time);
if (timereq->tr_time.tv_secs > cur_sys_time.tv_secs
|| (timereq->tr_time.tv_secs == cur_sys_time.tv_secs
&& timereq->tr_time.tv_micro > cur_sys_time.tv_micro))
{
timereq->tr_node.io_Command = TR_SETSYSTIME;
DoIO(timereq);
}
timereq->tr_time.tv_secs = 1;
timereq->tr_time.tv_micro = 0;
timereq->tr_node.io_Command = TR_ADDREQUEST;
DoIO(timereq);
}
fail:
fprintf (stderr, "Couldn't start timehack (that's bad!)\n");
exit (5);
}
static ULONG readwriteDisk
(
struct AFSBase *afsbase,
struct Volume *volume,
ULONG start,
ULONG count,
APTR mem,
ULONG cmd
)
{
LONG retval;
struct IOHandle *ioh = &volume->ioh;
UQUAD offset;
if (start + count <= volume->countblocks)
{
ioh->ioreq->iotd_Req.io_Command = cmd;
ioh->ioreq->iotd_Req.io_Length = count*BLOCK_SIZE(volume);
ioh->ioreq->iotd_Req.io_Data = mem;
offset = (UQUAD)volume->startblock * volume->sectorsize
+ (UQUAD)start * BLOCK_SIZE(volume);
ioh->ioreq->iotd_Req.io_Offset = 0xFFFFFFFF & offset;
ioh->ioreq->iotd_Req.io_Actual = offset>>32;
retval = DoIO((struct IORequest *)&ioh->ioreq->iotd_Req);
ioh->flags |= IOHF_MOTOR_OFF;
}
void dotimer(ULONG unit,ULONG timercmd,struct timeval *t)
{
struct PortIO {
struct timerequest treq;
struct MsgPort port;
} *portio;
if ((portio = lib_AllocMem(sizeof(*portio), MEMF_CLEAR | MEMF_PUBLIC))) {
portio->port.mp_Node.ln_Type = NT_MSGPORT;
if ((BYTE)(portio->port.mp_SigBit = AllocSignal(-1)) >= 0) {
portio->port.mp_SigTask = FindTask(NULL);
NEWLIST(&portio->port.mp_MsgList);
portio->treq.tr_node.io_Message.mn_Node.ln_Type = NT_REPLYMSG;
portio->treq.tr_node.io_Message.mn_ReplyPort = &portio->port;
if (!(OpenDevice(TIMERNAME, unit, &portio->treq.tr_node, 0))) {
portio->treq.tr_node.io_Command = timercmd;
portio->treq.tr_time.tv_secs = t->tv_secs;
portio->treq.tr_time.tv_micro = t->tv_micro;
if (!DoIO(&portio->treq.tr_node)) {
t->tv_secs = portio->treq.tr_time.tv_secs;
t->tv_micro = portio->treq.tr_time.tv_micro;
}
CloseDevice(&portio->treq.tr_node);
}
FreeSignal(portio->port.mp_SigBit);
}
lib_FreeMem(portio,sizeof(struct PortIO));
}
}
void MH2Int_MakeMenusInactive(struct Window *win, UWORD menupick, struct IntuitionBase *IntuitionBase)
{
struct InputEvent ie;
struct IOStdReq ior;
struct MsgPort replyport;
memset( &replyport, 0, sizeof( replyport ) );
ie.ie_NextEvent = 0;
ie.ie_Class = IECLASS_MENU;
ie.ie_SubClass = IESUBCLASS_MENUSTOP;
ie.ie_Code = menupick;
ie.ie_EventAddress = win;
replyport.mp_Node.ln_Type = NT_MSGPORT;
replyport.mp_Flags = PA_SIGNAL;
replyport.mp_SigBit = SIGB_INTUITION;
replyport.mp_SigTask = FindTask(NULL);
NEWLIST(&replyport.mp_MsgList);
ior = *(GetPrivIBase(IntuitionBase)->InputIO);
ior.io_Message.mn_ReplyPort = &replyport;
ior.io_Command = IND_WRITEEVENT;
ior.io_Data = &ie;
ior.io_Length = sizeof(struct InputEvent);
DoIO((struct IORequest *)&ior);
}
void SendEvent(LONG event) {
struct IOStdReq *InputRequest;
struct MsgPort *InputPort;
struct InputEvent *ie;
if ((InputPort = (struct MsgPort*)CreateMsgPort())) {
if ((InputRequest = (struct IOStdReq*)CreateIORequest(InputPort, sizeof(struct IOStdReq)))) {
if (!OpenDevice("input.device", 0, (struct IORequest*)InputRequest, 0)) {
if ((ie = AllocVec(sizeof(struct InputEvent), MEMF_PUBLIC | MEMF_CLEAR))) {
ie->ie_Class = event;
InputRequest->io_Command = IND_WRITEEVENT;
InputRequest->io_Data = ie;
InputRequest->io_Length = sizeof(struct InputEvent);
DoIO((struct IORequest*)InputRequest);
FreeVec(ie);
}
CloseDevice((struct IORequest*)InputRequest);
}
DeleteIORequest((struct IORequest *)InputRequest);
}
DeleteMsgPort (InputPort);
}
}
int DoSCSI(UBYTE *data, int datasize, Bit8u *cmd,int cmdsize, UBYTE direction)
{
struct SCSICmd scmd;
CDIO->iotd_Req.io_Command = HD_SCSICMD;
CDIO->iotd_Req.io_Data = &scmd;
CDIO->iotd_Req.io_Length = sizeof(scmd);
scmd.scsi_Data = (UWORD *)data;
scmd.scsi_Length = datasize;
scmd.scsi_SenseActual = 0;
scmd.scsi_SenseData = sensebuf;
scmd.scsi_SenseLength = SENSELEN;
scmd.scsi_Command = cmd;
scmd.scsi_CmdLength = cmdsize;
scmd.scsi_Flags = SCSIF_AUTOSENSE | direction;
DoIO((struct IORequest *)CDIO);
if (CDIO->iotd_Req.io_Error != 0) {
BX_PANIC(("DoSCSI: error %d", CDIO->iotd_Req.io_Error));
}
return CDIO->iotd_Req.io_Error;
}
bx_bool
cdrom_interface::insert_cdrom(char *dev)
{
Bit8u cdb[6];
Bit8u buf[2*BX_CD_FRAMESIZE];
Bit8u i = 0;
memset(cdb,0,sizeof(cdb));
cdb[0] = SCSI_DA_START_STOP_UNIT;
cdb[4] = 1 | 2;
DoSCSI(0, 0,cdb,sizeof(cdb),SCSIF_READ);
/*Check if there's a valid media present in the drive*/
CDIO->iotd_Req.io_Data = buf;
CDIO->iotd_Req.io_Command = CMD_READ;
CDIO->iotd_Req.io_Length = BX_CD_FRAMESIZE;
CDIO->iotd_Req.io_Offset = BX_CD_FRAMESIZE;
for(i = 0; i < 200; i++) /*it takes a while for the cdrom to validate*/
{
DoIO((struct IORequest *)CDIO);
if (CDIO->iotd_Req.io_Error == 0)
break;
Delay (10);
}
if (CDIO->iotd_Req.io_Error != 0)
return false;
else
return true;
}
void _glfwPlatformSetMouseCursorPos( int x, int y )
{
struct IEPointerPixel ppxl;
struct InputEvent event;
// Adjust coordinates to window client area upper left corner
x += _glfwWin.Window->LeftEdge;
y += _glfwWin.Window->TopEdge;
/* Set up IEPointerPixel fields */
ppxl.iepp_Screen = _glfwWin.Screen;
ppxl.iepp_Position.X = x;
ppxl.iepp_Position.Y = y;
/* Set up InputEvent fields */
event.ie_EventAddress = (APTR)&ppxl; /* IEPointerPixel */
event.ie_NextEvent = NULL;
event.ie_Class = IECLASS_NEWPOINTERPOS; /* new mouse pos */
event.ie_SubClass = IESUBCLASS_PIXEL; /* on pixel */
event.ie_Code = IECODE_NOBUTTON;
event.ie_Qualifier = 0; /* absolute pos */
/* Set up I/O request */
_glfwWin.InputIO->io_Data = (APTR)&event;
_glfwWin.InputIO->io_Length = sizeof(struct InputEvent);
_glfwWin.InputIO->io_Command = IND_WRITEEVENT;
/* Perform I/O (move mouse cursor) */
DoIO( (struct IORequest *)_glfwWin.InputIO );
}
static void write_sid(unsigned char reg, unsigned char data, int chipno)
{
unsigned char tData[2];
if (gSIDs == 0) {
return;
}
if (gSwapSIDs) {
chipno = 1 - chipno;
}
if (gCatweaselReq[chipno] == NULL) {
return;
}
tData[0] = reg;
tData[1] = data;
gCatweaselReq[chipno]->iotd_Req.io_Length = 2;
gCatweaselReq[chipno]->iotd_Req.io_Command = CMD_WRITE;
gCatweaselReq[chipno]->iotd_Req.io_Data = tData;
gCatweaselReq[chipno]->iotd_Req.io_Offset = 0;
DoIO((struct IORequest *)gCatweaselReq[chipno]);
}
static unsigned char read_sid(unsigned char reg, int chipno)
{
unsigned char tData[2];
if (gSIDs == 0) {
return 0;
}
if (gSwapSIDs) {
chipno = 1 - chipno;
}
if (gCatweaselReq[chipno] == NULL) {
return 0;
}
tData[0] = reg;
gCatweaselReq[chipno]->iotd_Req.io_Length = 2;
gCatweaselReq[chipno]->iotd_Req.io_Command = CMD_READ;
gCatweaselReq[chipno]->iotd_Req.io_Data = tData;
gCatweaselReq[chipno]->iotd_Req.io_Offset = 0;
DoIO((struct IORequest *)gCatweaselReq[chipno]);
return ((unsigned char*)(gCatweaselReq[chipno]->iotd_Req.io_Data))[1];
}
void eka(char tecken) {
conwritereq->io_Command=CMD_WRITE;
conwritereq->io_Data=(APTR)&tecken;
conwritereq->io_Length=1;
DoIO((struct IORequest *)conwritereq);
if(tecken == '\n')
incantrader();
}
LONG getGeometry
(struct AFSBase *afsbase, struct IOHandle *ioh, struct DriveGeometry *dg)
{
ioh->ioreq->iotd_Req.io_Command = TD_GETGEOMETRY;
ioh->ioreq->iotd_Req.io_Data = dg;
ioh->ioreq->iotd_Req.io_Length = sizeof(struct DriveGeometry);
return DoIO((struct IORequest *)&ioh->ioreq->iotd_Req);
}
/*******************************************
Name : flush
Descr.: flush buffers and update disk (sync)
Input : volume - volume to flush
Output: DOSTRUE
********************************************/
BOOL flush(struct AFSBase *afsbase, struct Volume *volume) {
flushCache(afsbase, volume);
volume->ioh.ioreq->iotd_Req.io_Command = CMD_UPDATE;
DoIO((struct IORequest *)&volume->ioh.ioreq->iotd_Req);
clearCache(afsbase, volume->blockcache);
return DOSTRUE;
}
static BOOL WritePAR(APTR buf, ULONG size)
{
ParIO->io_Command = CMD_WRITE;
ParIO->io_Data = buf;
ParIO->io_Length = size;
return (DoIO((struct IORequest *)ParIO) == 0) ? TRUE : FALSE;
}
void check64BitSupport(struct AFSBase *afsbase, struct Volume *volume) {
struct NSDeviceQueryResult nsdq;
UWORD *cmdcheck;
if (
(
(volume->startblock+(volume->countblocks))* /* last block */
(volume->SizeBlock*4/512) /* 1 portion (block) equals 512 (bytes) */
)>8388608)
{
nsdq.SizeAvailable = 0;
nsdq.DevQueryFormat = 0;
volume->ioh.ioreq->iotd_Req.io_Command = NSCMD_DEVICEQUERY;
volume->ioh.ioreq->iotd_Req.io_Data = &nsdq;
volume->ioh.ioreq->iotd_Req.io_Length = sizeof(struct NSDeviceQueryResult);
if (DoIO((struct IORequest *)volume->ioh.ioreq) == IOERR_NOCMD)
{
D(bug("[afs] initVolume-NSD: device doesn't understand NSD-Query\n"));
}
else
{
if (
(volume->ioh.ioreq->iotd_Req.io_Actual > sizeof(struct NSDeviceQueryResult)) ||
(volume->ioh.ioreq->iotd_Req.io_Actual == 0) ||
(volume->ioh.ioreq->iotd_Req.io_Actual != nsdq.SizeAvailable)
)
{
D(bug("[afs] initVolume-NSD: WARNING wrong io_Actual using NSD\n"));
}
else
{
D(bug("[afs] initVolume-NSD: using NSD commands\n"));
if (nsdq.DeviceType != NSDEVTYPE_TRACKDISK)
D(bug("[afs] initVolume-NSD: WARNING no trackdisk type\n"));
for (cmdcheck=nsdq.SupportedCommands; *cmdcheck; cmdcheck++)
{
if (*cmdcheck == NSCMD_TD_READ64)
volume->ioh.cmdread = NSCMD_TD_READ64;
if (*cmdcheck == NSCMD_TD_WRITE64)
volume->ioh.cmdwrite = NSCMD_TD_WRITE64;
if (*cmdcheck == NSCMD_TD_SEEK64)
volume->ioh.cmdseek = NSCMD_TD_SEEK64;
if (*cmdcheck == NSCMD_TD_FORMAT64)
volume->ioh.cmdformat = NSCMD_TD_FORMAT64;
}
if (
(volume->ioh.cmdread != NSCMD_TD_READ64) ||
(volume->ioh.cmdwrite != NSCMD_TD_WRITE64)
)
D(bug("[afs] initVolume-NSD: WARNING no READ64/WRITE64\n"));
}
}
}
else
{
D(bug("[afs] initVolume-NSD: no need for NSD\n"));
}
}
long __saveds __regargs nik_swrite(char *databuffer,long size) {
serwritereq->IOSer.io_Command=CMD_WRITE;
serwritereq->IOSer.io_Length=size;
serwritereq->IOSer.io_Data=(APTR)databuffer;
if(DoIO((struct IORequest *)serwritereq) || carrierdropped()) {
return(-1L);
}
return(0L);
}
void DoSyncAction(void (*func)(struct IntuiActionMsg *, struct IntuitionBase *),
struct IntuiActionMsg *msg,
struct IntuitionBase *IntuitionBase)
{
struct IIHData *iihd = (struct IIHData *)GetPrivIBase(IntuitionBase)->InputHandler->is_Data;
struct Task *me = FindTask(NULL);
if (me == iihd->InputDeviceTask)
{
func(msg, IntuitionBase);
}
else
{
#ifdef __MORPHOS__
struct IOStdReq req;
struct MsgPort port;
struct InputEvent ie;
#endif
msg->handler = func;
msg->task = me;
msg->done = FALSE;
ObtainSemaphore(&GetPrivIBase(IntuitionBase)->IntuiActionLock);
AddTail((struct List *)GetPrivIBase(IntuitionBase)->IntuiActionQueue, (struct Node *)msg);
ReleaseSemaphore(&GetPrivIBase(IntuitionBase)->IntuiActionLock);
#ifdef __MORPHOS__
port.mp_Flags = PA_SIGNAL;
port.mp_SigTask = me;
port.mp_SigBit = SIGB_INTUITION;
NEWLIST(&port.mp_MsgList);
req.io_Message.mn_ReplyPort = &port;
req.io_Device = GetPrivIBase(IntuitionBase)->InputIO->io_Device;
req.io_Unit = GetPrivIBase(IntuitionBase)->InputIO->io_Unit;
req.io_Command = IND_WRITEEVENT;
req.io_Length = sizeof(ie);
req.io_Data = &ie;
ie.ie_Class = IECLASS_NULL;
#endif
if (!msg->done)
{
#ifdef __MORPHOS__
DoIO((APTR)&req);
#else
AddNullEvent();
#endif
while (!msg->done)
{
Wait(SIGF_INTUITION);
}
}
}
}
static void myDoIO(struct IOStdReq *ioreq, LONG CMD, LONG FLAGS, LONG OFFSET,
LONG LENGTH, LONG DATA)
{
if(CMD>=0) ioreq->io_Command = CMD;
if(FLAGS>=0) ioreq->io_Flags = FLAGS;
if(OFFSET>=0) ioreq->io_Offset = OFFSET;
if(LENGTH>=0) ioreq->io_Length = LENGTH;
if(DATA>=0) ioreq->io_Data = (void*)DATA;
DoIO((struct IORequest*)ioreq);
}
void wait_for_timer(struct timerequest *tr, struct timeval *tv )
{
tr->tr_node.io_Command = TR_ADDREQUEST; /* add a new timer request */
/* structure assignment */
tr->tr_time = *tv;
/* post request to the timer -- will go to sleep till done */
DoIO((struct IORequest *) tr );
}
void remChangeInt(struct AFSBase *afsbase, struct IOHandle *ioh) {
if (
(ioh->iochangeint != NULL) &&
(ioh->iochangeint->iotd_Req.io_Error == 0)
)
{
ioh->iochangeint->iotd_Req.io_Command = TD_REMCHANGEINT;
DoIO((struct IORequest *)&ioh->iochangeint->iotd_Req);
}
}
long __saveds __regargs nik_sread(char *databuffer,long size,long timeout) {
ULONG signals,sersig=1L << serreadport->mp_SigBit,
timersig=1L << timerport->mp_SigBit;
if(timeout) {
serreadreq->IOSer.io_Command=CMD_READ;
serreadreq->IOSer.io_Length=size;
serreadreq->IOSer.io_Data=(APTR)databuffer;
SendIO((struct IORequest *)serreadreq);
timerreq->tr_node.io_Command=TR_ADDREQUEST;
timerreq->tr_time.tv_secs=timeout/1000000;
timerreq->tr_time.tv_micro=timeout%1000000;
timerreq->tr_node.io_Message.mn_ReplyPort=timerport;
SendIO((struct IORequest *)timerreq);
for(;;) {
signals=Wait(sersig | timersig);
if((signals & sersig) && CheckIO((struct IORequest *)serreadreq)) {
WaitIO((struct IORequest *)serreadreq);
AbortIO((struct IORequest *)timerreq);
WaitIO((struct IORequest *)timerreq);
if(serreadreq->IOSer.io_Error || carrierdropped()) return(-1L);
return((long)serreadreq->IOSer.io_Actual);
}
if((signals & timersig) && CheckIO((struct IORequest *)timerreq)) {
WaitIO((struct IORequest *)timerreq);
AbortIO((struct IORequest *)serreadreq);
WaitIO((struct IORequest *)serreadreq);
/* printf("Timeout! Size=%d Timeout=%d Actual=%d",size,timeout,serreadreq->IOSer.io_Actual); */
return((long)serreadreq->IOSer.io_Actual);
}
}
} else {
serreadreq->IOSer.io_Command=SDCMD_QUERY;
DoIO((struct IORequest *)serreadreq);
serreadreq->IOSer.io_Command=CMD_READ;
if(serreadreq->IOSer.io_Actual > size) serreadreq->IOSer.io_Length=size;
else serreadreq->IOSer.io_Length=serreadreq->IOSer.io_Actual;
serreadreq->IOSer.io_Data=(APTR)databuffer;
DoIO((struct IORequest *)serreadreq);
return((long)serreadreq->IOSer.io_Actual);
}
}
BYTE OpenTimer(struct timerequest *treq) {
BYTE error;
error=OpenDevice(TIMERNAME,UNIT_VBLANK,(struct IORequest *)treq,0);
if(!error) {
treq->tr_node.io_Command=TR_ADDREQUEST;
treq->tr_node.io_Message.mn_ReplyPort=timerport;
treq->tr_time.tv_secs=0;
treq->tr_time.tv_micro=10;
if(DoIO((struct IORequest *)timerreq)) printf("Fel DoIO i OpenTimer()\n");
}
return(error);
}
int main(void)
{
struct IOStdReq *ior;
struct MsgPort *mp;
char buff[10];
Printf("main\n");
if (mp = (struct MsgPort *)CreatePort(0,0))
{
Printf("got port\n");
if (ior = (struct IOStdReq *)
CreateExtIO(mp, sizeof(struct IOStdReq)))
{
Printf("got extio\n");
if (OpenDevice("example.device",0,(struct IORequest*)ior,0) == 0)
{
Printf("opened device\n");
ior->io_Data = buff;
ior->io_Command = CMD_READ;
ior->io_Length = 1;
DoIO((struct IORequest *)ior);
Printf("done read\n");
ior->io_Data = buff;
ior->io_Command = CMD_WRITE;
ior->io_Length = 1;
DoIO((struct IORequest *)ior);
Printf("done write\n");
CloseDevice((struct IORequest *)ior);
}
DeleteExtIO((struct IORequest *)ior);
}
DeletePort(mp);
}
Printf("done\n");
return 0;
}
BOOL UsePrefs(void)
{
ULONG secs;
secs = Date2Amiga(&clockdata);
TimerIO->tr_node.io_Command = TR_SETSYSTIME;
TimerIO->tr_time.tv_secs = secs;
TimerIO->tr_time.tv_micro = 0;
DoIO(&TimerIO->tr_node);
return TRUE;
}
void timer_usleep(void *t, int us)
{
struct timer_s *timer = t;
if (timer != NULL) {
/* setup */
timer->TimerIO.tr_node.io_Command = TR_ADDREQUEST;
timer->TimerIO.tr_time.tv_secs = us / 1000000;
timer->TimerIO.tr_time.tv_micro = us % 1000000;
/* send & wait request */
DoIO((struct IORequest *)&timer->TimerIO);
}
}
bx_bool
cdrom_interface::read_block(Bit8u* buf, int lba, int blocksize)
{
CDIO->iotd_Req.io_Data = buf;
CDIO->iotd_Req.io_Command = CMD_READ;
CDIO->iotd_Req.io_Length = BX_CD_FRAMESIZE;
CDIO->iotd_Req.io_Offset = lba * BX_CD_FRAMESIZE;
DoIO((struct IORequest *)CDIO);
if (CDIO->iotd_Req.io_Error != 0) {
BX_PANIC(("Error %d reading CD data sector: %ld", CDIO->iotd_Req.io_Error, lba));
return 0;
}
return 1;
}
LONG set_new_time(LONG secs)
{
struct timerequest *tr;
tr = create_timer( UNIT_MICROHZ );
/* non zero return says error */
if (tr == 0 )
return( -1 );
tr->tr_time.tv_secs = secs;
tr->tr_time.tv_micro = 0;
tr->tr_node.io_Command = TR_SETSYSTIME;
DoIO((struct IORequest *) tr );
delete_timer(tr);
return(0);
}
void
putchar(int c)
{
struct Console *mc = ConsoleBase;
char buf = c;
mc->cnior->length = 1;
mc->cnior->buf = &buf;
mc->cnior->cmd = Cmd_Wr;
#ifdef SERCONSOLE
if (use_serconsole)
RawPutChar((int32_t)c);
#endif
(void)DoIO(mc->cnior);
}
