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path: root/sys/arch/powerpc/mac/adb_direct.c
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/*	$NetBSD: adb_direct.c,v 1.14 2000/06/08 22:10:45 tsubai Exp $	*/

/* From: adb_direct.c 2.02 4/18/97 jpw */

/*
 * Copyright (C) 1996, 1997 John P. Wittkoski
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. All advertising materials mentioning features or use of this software
 *    must display the following acknowledgement:
 *  This product includes software developed by John P. Wittkoski.
 * 4. The name of the author may not be used to endorse or promote products
 *    derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

/*
 * This code is rather messy, but I don't have time right now
 * to clean it up as much as I would like.
 * But it works, so I'm happy. :-) jpw
 */
 
/*
 * TO DO:
 *  - We could reduce the time spent in the adb_intr_* routines
 *    by having them save the incoming and outgoing data directly 
 *    in the adbInbound and adbOutbound queues, as it would reduce
 *    the number of times we need to copy the data around. It
 *    would also make the code more readable and easier to follow.
 *  - (Related to above) Use the header part of adbCommand to 
 *    reduce the number of copies we have to do of the data.
 *  - (Related to above) Actually implement the adbOutbound queue.
 *    This is fairly easy once you switch all the intr routines
 *    over to using adbCommand structs directly.
 *  - There is a bug in the state machine of adb_intr_cuda
 *    code that causes hangs, especially on 030 machines, probably
 *    because of some timing issues. Because I have been unable to 
 *    determine the exact cause of this bug, I used the timeout function 
 *    to check for and recover from this condition. If anyone finds 
 *    the actual cause of this bug, the calls to timeout and the 
 *    adb_cuda_tickle routine can be removed.
 */

#include <sys/param.h>
#include <sys/cdefs.h>
#include <sys/systm.h>
#include <sys/timeout.h>
#include <sys/device.h>

#include <machine/param.h>
#include <machine/cpu.h>
#include <machine/adbsys.h>

#include <powerpc/mac/viareg.h>
#include <powerpc/mac/adbvar.h>

#define printf_intr printf

#ifdef DEBUG
#ifndef ADB_DEBUG
#define ADB_DEBUG
#endif
#endif

/* some misc. leftovers */
#define vPB		0x0000
#define vPB3		0x08
#define vPB4		0x10
#define vPB5		0x20
#define vSR_INT		0x04
#define vSR_OUT		0x10

/* the type of ADB action that we are currently preforming */
#define ADB_ACTION_NOTREADY	0x1	/* has not been initialized yet */
#define ADB_ACTION_IDLE		0x2	/* the bus is currently idle */
#define ADB_ACTION_OUT		0x3	/* sending out a command */
#define ADB_ACTION_IN		0x4	/* receiving data */
#define ADB_ACTION_POLLING	0x5	/* polling - II only */

/*
 * These describe the state of the ADB bus itself, although they
 * don't necessarily correspond directly to ADB states.
 * Note: these are not really used in the IIsi code.
 */
#define ADB_BUS_UNKNOWN		0x1	/* we don't know yet - all models */
#define ADB_BUS_IDLE		0x2	/* bus is idle - all models */
#define ADB_BUS_CMD		0x3	/* starting a command - II models */
#define ADB_BUS_ODD		0x4	/* the "odd" state - II models */
#define ADB_BUS_EVEN		0x5	/* the "even" state - II models */
#define ADB_BUS_ACTIVE		0x6	/* active state - IIsi models */
#define ADB_BUS_ACK		0x7	/* currently ACKing - IIsi models */

/*
 * Shortcuts for setting or testing the VIA bit states.
 * Not all shortcuts are used for every type of ADB hardware.
 */
#define ADB_SET_STATE_IDLE_II()     via_reg_or(VIA1, vBufB, (vPB4 | vPB5))
#define ADB_SET_STATE_IDLE_IISI()   via_reg_and(VIA1, vBufB, ~(vPB4 | vPB5))
#define ADB_SET_STATE_IDLE_CUDA()   via_reg_or(VIA1, vBufB, (vPB4 | vPB5))
#define ADB_SET_STATE_CMD()         via_reg_and(VIA1, vBufB, ~(vPB4 | vPB5))
#define ADB_SET_STATE_EVEN()        write_via_reg(VIA1, vBufB, \
                              (read_via_reg(VIA1, vBufB) | vPB4) & ~vPB5)
#define ADB_SET_STATE_ODD()         write_via_reg(VIA1, vBufB, \
                              (read_via_reg(VIA1, vBufB) | vPB5) & ~vPB4 )
#define ADB_SET_STATE_ACTIVE() 	    via_reg_or(VIA1, vBufB, vPB5)
#define ADB_SET_STATE_INACTIVE()    via_reg_and(VIA1, vBufB, ~vPB5)
#define ADB_SET_STATE_TIP()	    via_reg_and(VIA1, vBufB, ~vPB5)
#define ADB_CLR_STATE_TIP() 	    via_reg_or(VIA1, vBufB, vPB5)
#define ADB_SET_STATE_ACKON()	    via_reg_or(VIA1, vBufB, vPB4)
#define ADB_SET_STATE_ACKOFF()	    via_reg_and(VIA1, vBufB, ~vPB4)
#define ADB_TOGGLE_STATE_ACK_CUDA() via_reg_xor(VIA1, vBufB, vPB4)
#define ADB_SET_STATE_ACKON_CUDA()  via_reg_and(VIA1, vBufB, ~vPB4)
#define ADB_SET_STATE_ACKOFF_CUDA() via_reg_or(VIA1, vBufB, vPB4)
#define ADB_SET_SR_INPUT()	    via_reg_and(VIA1, vACR, ~vSR_OUT)
#define ADB_SET_SR_OUTPUT()	    via_reg_or(VIA1, vACR, vSR_OUT)
#define ADB_SR()		    read_via_reg(VIA1, vSR)
#define ADB_VIA_INTR_ENABLE()	    write_via_reg(VIA1, vIER, 0x84)
#define ADB_VIA_INTR_DISABLE()	    write_via_reg(VIA1, vIER, 0x04)
#define ADB_VIA_CLR_INTR()	    write_via_reg(VIA1, vIFR, 0x04)
#define ADB_INTR_IS_OFF		   (vPB3 == (read_via_reg(VIA1, vBufB) & vPB3))
#define ADB_INTR_IS_ON		   (0 == (read_via_reg(VIA1, vBufB) & vPB3))
#define ADB_SR_INTR_IS_OFF	   (0 == (read_via_reg(VIA1, vIFR) & vSR_INT))
#define ADB_SR_INTR_IS_ON	   (vSR_INT == (read_via_reg(VIA1, \
						vIFR) & vSR_INT))

/*
 * This is the delay that is required (in uS) between certain
 * ADB transactions. The actual timing delay for for each uS is
 * calculated at boot time to account for differences in machine speed.
 */
#define ADB_DELAY	150

/*
 * Maximum ADB message length; includes space for data, result, and
 * device code - plus a little for safety.
 */
#define ADB_MAX_MSG_LENGTH	16
#define ADB_MAX_HDR_LENGTH	8

#define ADB_QUEUE		32
#define ADB_TICKLE_TICKS	4

/*
 * A structure for storing information about each ADB device.
 */
struct ADBDevEntry {
	void	(*ServiceRtPtr) __P((void));
	void	*DataAreaAddr;
	int	devType;
	int	origAddr;
	int	currentAddr;
};

/*
 * Used to hold ADB commands that are waiting to be sent out.
 */
struct adbCmdHoldEntry {
	u_char	outBuf[ADB_MAX_MSG_LENGTH];	/* our message */
	u_char	*saveBuf;	/* buffer to know where to save result */
	u_char	*compRout;	/* completion routine pointer */
	u_char	*data;		/* completion routine data pointer */
};

/*
 * Eventually used for two separate queues, the queue between 
 * the upper and lower halves, and the outgoing packet queue.
 * TO DO: adbCommand can replace all of adbCmdHoldEntry eventually
 */
struct adbCommand {
	u_char	header[ADB_MAX_HDR_LENGTH];	/* not used yet */
	u_char	data[ADB_MAX_MSG_LENGTH];	/* packet data only */
	u_char	*saveBuf;	/* where to save result */
	u_char	*compRout;	/* completion routine pointer */
	u_char	*compData;	/* completion routine data pointer */
	u_int	cmd;		/* the original command for this data */
	u_int	unsol;		/* 1 if packet was unsolicited */
	u_int	ack_only;	/* 1 for no special processing */
};

/*
 * A few variables that we need and their initial values.
 */
int	adbHardware = ADB_HW_UNKNOWN;
int	adbActionState = ADB_ACTION_NOTREADY;
int	adbBusState = ADB_BUS_UNKNOWN;
int	adbWaiting = 0;		/* waiting for return data from the device */
int	adbWriteDelay = 0;	/* working on (or waiting to do) a write */
int	adbOutQueueHasData = 0;	/* something in the queue waiting to go out */
int	adbNextEnd = 0;		/* the next incoming bute is the last (II) */
int	adbSoftPower = 0;	/* machine supports soft power */

int	adbWaitingCmd = 0;	/* ADB command we are waiting for */
u_char	*adbBuffer = (long)0;	/* pointer to user data area */
void	*adbCompRout = (long)0;	/* pointer to the completion routine */
void	*adbCompData = (long)0;	/* pointer to the completion routine data */
long	adbFakeInts = 0;	/* keeps track of fake ADB interrupts for
				 * timeouts (II) */
int	adbStarting = 1;	/* doing ADBReInit so do polling differently */
int	adbSendTalk = 0;	/* the intr routine is sending the talk, not
				 * the user (II) */
int	adbPolling = 0;		/* we are polling for service request */
int	adbPollCmd = 0;		/* the last poll command we sent */

u_char	adbInputBuffer[ADB_MAX_MSG_LENGTH];	/* data input buffer */
u_char	adbOutputBuffer[ADB_MAX_MSG_LENGTH];	/* data output buffer */
struct	adbCmdHoldEntry adbOutQueue;		/* our 1 entry output queue */

int	adbSentChars = 0;	/* how many characters we have sent */
int	adbLastDevice = 0;	/* last ADB dev we heard from (II ONLY) */
int	adbLastDevIndex = 0;	/* last ADB dev loc in dev table (II ONLY) */
int	adbLastCommand = 0;	/* the last ADB command we sent (II) */

struct	ADBDevEntry ADBDevTable[16];	/* our ADB device table */
int	ADBNumDevices;		/* num. of ADB devices found with ADBReInit */

struct	adbCommand adbInbound[ADB_QUEUE];	/* incoming queue */
int	adbInCount = 0;			/* how many packets in in queue */
int	adbInHead = 0;			/* head of in queue */
int	adbInTail = 0;			/* tail of in queue */
struct	adbCommand adbOutbound[ADB_QUEUE]; /* outgoing queue - not used yet */
int	adbOutCount = 0;		/* how many packets in out queue */
int	adbOutHead = 0;			/* head of out queue */
int	adbOutTail = 0;			/* tail of out queue */

int	tickle_count = 0;		/* how many tickles seen for this packet? */
int	tickle_serial = 0;		/* the last packet tickled */
int	adb_cuda_serial = 0;		/* the current packet */

volatile u_char *Via1Base;
extern int adb_polling;			/* Are we polling? */

void	pm_setup_adb __P((void));
void	pm_check_adb_devices __P((int));
void	pm_intr __P((void));
int	pm_adb_op __P((u_char *, void *, void *, int));
void	pm_init_adb_device __P((void));

/*
 * The following are private routines.
 */
#ifdef ADB_DEBUG
void	print_single __P((u_char *));
#endif
void	adb_intr __P((void));
void	adb_intr_II __P((void));
void	adb_intr_IIsi __P((void));
void	adb_intr_cuda __P((void));
void	adb_soft_intr __P((void));
int	send_adb_II __P((u_char *, u_char *, void *, void *, int));
int	send_adb_IIsi __P((u_char *, u_char *, void *, void *, int));
int	send_adb_cuda __P((u_char *, u_char *, void *, void *, int));
void	adb_intr_cuda_test __P((void));
void	adb_cuda_tickle __P((void));
void	adb_pass_up __P((struct adbCommand *));
void	adb_op_comprout __P((caddr_t, caddr_t, int));
void	adb_reinit __P((void));
int	count_adbs __P((void));
int	get_ind_adb_info __P((ADBDataBlock *, int));
int	get_adb_info __P((ADBDataBlock *, int));
int	set_adb_info __P((ADBSetInfoBlock *, int));
void	adb_setup_hw_type __P((void));
int	adb_op __P((Ptr, Ptr, Ptr, short));
int	adb_op_sync __P((Ptr, Ptr, Ptr, short));
void	adb_read_II __P((u_char *));
void	adb_hw_setup __P((void));
void	adb_hw_setup_IIsi __P((u_char *));
void	adb_comp_exec __P((void));
int	adb_cmd_result __P((u_char *));
int	adb_cmd_extra __P((u_char *));
int	adb_guess_next_device __P((void));
int	adb_prog_switch_enable __P((void));
int	adb_prog_switch_disable __P((void));
/* we should create this and it will be the public version */
int	send_adb __P((u_char *, void *, void *));

#ifdef ADB_DEBUG
/*
 * print_single
 * Diagnostic display routine. Displays the hex values of the
 * specified elements of the u_char. The length of the "string"
 * is in [0].
 */
void
print_single(str)
	u_char *str;
{
	int x;

	if (str == 0) {
		printf_intr("no data - null pointer\n");
		return;
	}
	if (*str == 0) {
		printf_intr("nothing returned\n");
		return;
	}
	if (*str > 20) {
		printf_intr("ADB: ACK > 20 no way!\n");
		*str = 20;
	}
	printf_intr("(length=0x%x):", *str);
	for (x = 1; x <= *str; x++)
		printf_intr("  0x%02x", str[x]);
	printf_intr("\n");
}
#endif

void
adb_cuda_tickle(void)
{
	volatile int s;

	if (adbActionState == ADB_ACTION_IN) {
		if (tickle_serial == adb_cuda_serial) {
			if (++tickle_count > 0) {
				s = splhigh();
				adbActionState = ADB_ACTION_IDLE;
				adbInputBuffer[0] = 0;
				ADB_SET_STATE_IDLE_CUDA();
				splx(s);
			}
		} else {
			tickle_serial = adb_cuda_serial;
			tickle_count = 0;
		}
	} else {
		tickle_serial = adb_cuda_serial;
		tickle_count = 0;
	}

	timeout((void *)adb_cuda_tickle, 0, ADB_TICKLE_TICKS);
}

/*
 * called when when an adb interrupt happens
 *
 * Cuda version of adb_intr
 * TO DO: do we want to add some calls to intr_dispatch() here to
 * grab serial interrupts?
 */
void
adb_intr_cuda(void)
{
	volatile int i, ending;
	volatile unsigned int s;
	struct adbCommand packet;

	s = splhigh();		/* can't be too careful - might be called */
	/* from a routine, NOT an interrupt */

	ADB_VIA_CLR_INTR();	/* clear interrupt */
	ADB_VIA_INTR_DISABLE();	/* disable ADB interrupt on IIs. */

switch_start:
	switch (adbActionState) {
	case ADB_ACTION_IDLE:
		/*
		 * This is an unexpected packet, so grab the first (dummy)
		 * byte, set up the proper vars, and tell the chip we are
		 * starting to receive the packet by setting the TIP bit.
		 */
		adbInputBuffer[1] = ADB_SR();
		adb_cuda_serial++;
		if (ADB_INTR_IS_OFF)	/* must have been a fake start */
			break;

		ADB_SET_SR_INPUT();
		ADB_SET_STATE_TIP();

		adbInputBuffer[0] = 1;
		adbActionState = ADB_ACTION_IN;
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("idle 0x%02x ", adbInputBuffer[1]);
#endif
		break;

	case ADB_ACTION_IN:
		adbInputBuffer[++adbInputBuffer[0]] = ADB_SR();
		/* intr off means this is the last byte (end of frame) */
		if (ADB_INTR_IS_OFF)
			ending = 1;
		else
			ending = 0;

		if (1 == ending) {	/* end of message? */
#ifdef ADB_DEBUG
			if (adb_debug) {
				printf_intr("in end 0x%02x ",
				    adbInputBuffer[adbInputBuffer[0]]);
				print_single(adbInputBuffer);
			}
#endif

			/*
			 * Are we waiting AND does this packet match what we
			 * are waiting for AND is it coming from either the
			 * ADB or RTC/PRAM sub-device? This section _should_
			 * recognize all ADB and RTC/PRAM type commands, but
			 * there may be more... NOTE: commands are always at
			 * [4], even for RTC/PRAM commands.
			 */
			/* set up data for adb_pass_up */
			memcpy(packet.data, adbInputBuffer, adbInputBuffer[0] + 1);
				
			if ((adbWaiting == 1) &&
			    (adbInputBuffer[4] == adbWaitingCmd) &&
			    ((adbInputBuffer[2] == 0x00) ||
			    (adbInputBuffer[2] == 0x01))) {
				packet.saveBuf = adbBuffer;
				packet.compRout = adbCompRout;
				packet.compData = adbCompData;
				packet.unsol = 0;
				packet.ack_only = 0;
				adb_pass_up(&packet);

				adbWaitingCmd = 0;	/* reset "waiting" vars */
				adbWaiting = 0;
				adbBuffer = (long)0;
				adbCompRout = (long)0;
				adbCompData = (long)0;
			} else {
				packet.unsol = 1;
				packet.ack_only = 0;
				adb_pass_up(&packet);
			}


			/* reset vars and signal the end of this frame */
			adbActionState = ADB_ACTION_IDLE;
			adbInputBuffer[0] = 0;
			ADB_SET_STATE_IDLE_CUDA();
			/*ADB_SET_SR_INPUT();*/

			/*
			 * If there is something waiting to be sent out,
			 * the set everything up and send the first byte.
			 */
			if (adbWriteDelay == 1) {
				delay(ADB_DELAY);	/* required */
				adbSentChars = 0;
				adbActionState = ADB_ACTION_OUT;
				/*
				 * If the interrupt is on, we were too slow
				 * and the chip has already started to send
				 * something to us, so back out of the write
				 * and start a read cycle.
				 */
				if (ADB_INTR_IS_ON) {
					ADB_SET_SR_INPUT();
					ADB_SET_STATE_IDLE_CUDA();
					adbSentChars = 0;
					adbActionState = ADB_ACTION_IDLE;
					adbInputBuffer[0] = 0;
					break;
				}
				/*
				 * If we got here, it's ok to start sending
				 * so load the first byte and tell the chip
				 * we want to send.
				 */
				ADB_SET_STATE_TIP();
				ADB_SET_SR_OUTPUT();
				write_via_reg(VIA1, vSR, adbOutputBuffer[adbSentChars + 1]);
			}
		} else {
			ADB_TOGGLE_STATE_ACK_CUDA();
#ifdef ADB_DEBUG
			if (adb_debug)
				printf_intr("in 0x%02x ",
				    adbInputBuffer[adbInputBuffer[0]]);
#endif
		}
		break;

	case ADB_ACTION_OUT:
		i = ADB_SR();	/* reset SR-intr in IFR */
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("intr out 0x%02x ", i);
#endif

		adbSentChars++;
		if (ADB_INTR_IS_ON) {	/* ADB intr low during write */
#ifdef ADB_DEBUG
			if (adb_debug)
				printf_intr("intr was on ");
#endif
			ADB_SET_SR_INPUT();	/* make sure SR is set to IN */
			ADB_SET_STATE_IDLE_CUDA();
			adbSentChars = 0;	/* must start all over */
			adbActionState = ADB_ACTION_IDLE;	/* new state */
			adbInputBuffer[0] = 0;
			adbWriteDelay = 1;	/* must retry when done with
						 * read */
			delay(ADB_DELAY);
			goto switch_start;	/* process next state right
						 * now */
			break;
		}
		if (adbOutputBuffer[0] == adbSentChars) {	/* check for done */
			if (0 == adb_cmd_result(adbOutputBuffer)) {	/* do we expect data
									 * back? */
				adbWaiting = 1;	/* signal waiting for return */
				adbWaitingCmd = adbOutputBuffer[2];	/* save waiting command */
			} else {	/* no talk, so done */
				/* set up stuff for adb_pass_up */
				memcpy(packet.data, adbInputBuffer, adbInputBuffer[0] + 1);
				packet.saveBuf = adbBuffer;
				packet.compRout = adbCompRout;
				packet.compData = adbCompData;
				packet.cmd = adbWaitingCmd;
				packet.unsol = 0;
				packet.ack_only = 1;
				adb_pass_up(&packet);

				/* reset "waiting" vars, just in case */
				adbWaitingCmd = 0;
				adbBuffer = (long)0;
				adbCompRout = (long)0;
				adbCompData = (long)0;
			}

			adbWriteDelay = 0;	/* done writing */
			adbActionState = ADB_ACTION_IDLE;	/* signal bus is idle */
			ADB_SET_SR_INPUT();
			ADB_SET_STATE_IDLE_CUDA();
#ifdef ADB_DEBUG
			if (adb_debug)
				printf_intr("write done ");
#endif
		} else {
			write_via_reg(VIA1, vSR, adbOutputBuffer[adbSentChars + 1]);	/* send next byte */
			ADB_TOGGLE_STATE_ACK_CUDA();	/* signal byte ready to
							 * shift */
#ifdef ADB_DEBUG
			if (adb_debug)
				printf_intr("toggle ");
#endif
		}
		break;

	case ADB_ACTION_NOTREADY:
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: not yet initialized\n");
#endif
		break;

	default:
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("intr: unknown ADB state\n");
#endif
	}

	ADB_VIA_INTR_ENABLE();	/* enable ADB interrupt on IIs. */

	splx(s);		/* restore */

	return;
}				/* end adb_intr_cuda */


int
send_adb_cuda(u_char * in, u_char * buffer, void *compRout, void *data, int
	command)
{
	int s, len;

#ifdef ADB_DEBUG
	if (adb_debug)
		printf_intr("SEND\n");
#endif

	if (adbActionState == ADB_ACTION_NOTREADY)
		return 1;

	/* Don't interrupt while we are messing with the ADB */
	s = splhigh();

	if ((adbActionState == ADB_ACTION_IDLE) &&	/* ADB available? */
	    (ADB_INTR_IS_OFF)) {	/* and no incoming interrupt? */
	} else
		if (adbWriteDelay == 0)	/* it's busy, but is anything waiting? */
			adbWriteDelay = 1;	/* if no, then we'll "queue"
						 * it up */
		else {
			splx(s);
			return 1;	/* really busy! */
		}

#ifdef ADB_DEBUG
	if (adb_debug)
		printf_intr("QUEUE\n");
#endif
	if ((long)in == (long)0) {	/* need to convert? */
		/*
		 * Don't need to use adb_cmd_extra here because this section
		 * will be called ONLY when it is an ADB command (no RTC or
		 * PRAM)
		 */
		if ((command & 0x0c) == 0x08)	/* copy addl data ONLY if
						 * doing a listen! */
			len = buffer[0];	/* length of additional data */
		else
			len = 0;/* no additional data */

		adbOutputBuffer[0] = 2 + len;	/* dev. type + command + addl.
						 * data */
		adbOutputBuffer[1] = 0x00;	/* mark as an ADB command */
		adbOutputBuffer[2] = (u_char)command;	/* load command */

		/* copy additional output data, if any */
		memcpy(adbOutputBuffer + 3, buffer + 1, len);
	} else
		/* if data ready, just copy over */
		memcpy(adbOutputBuffer, in, in[0] + 2);

	adbSentChars = 0;	/* nothing sent yet */
	adbBuffer = buffer;	/* save buffer to know where to save result */
	adbCompRout = compRout;	/* save completion routine pointer */
	adbCompData = data;	/* save completion routine data pointer */
	adbWaitingCmd = adbOutputBuffer[2];	/* save wait command */

	if (adbWriteDelay != 1) {	/* start command now? */
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("out start NOW");
#endif
		delay(ADB_DELAY);
		adbActionState = ADB_ACTION_OUT;	/* set next state */
		ADB_SET_SR_OUTPUT();	/* set shift register for OUT */
		write_via_reg(VIA1, vSR, adbOutputBuffer[adbSentChars + 1]);	/* load byte for output */
		ADB_SET_STATE_ACKOFF_CUDA();
		ADB_SET_STATE_TIP();	/* tell ADB that we want to send */
	}
	adbWriteDelay = 1;	/* something in the write "queue" */

	splx(s);

	if ((s & (1 << 18)) || adb_polling) /* XXX were VIA1 interrupts blocked ? */
		/* poll until byte done */
		while ((adbActionState != ADB_ACTION_IDLE) || (ADB_INTR_IS_ON)
		    || (adbWaiting == 1))
			if (ADB_SR_INTR_IS_ON) {	/* wait for "interrupt" */
				adb_intr_cuda();	/* process it */
				adb_soft_intr();
			}

	return 0;
}				/* send_adb_cuda */


void
adb_intr_II(void)
{
	panic("adb_intr_II");
}


/*
 * send_adb version for II series machines
 */
int
send_adb_II(u_char * in, u_char * buffer, void *compRout, void *data, int command)
{
	panic("send_adb_II");
}


/*
 * This routine is called from the II series interrupt routine
 * to determine what the "next" device is that should be polled.
 */
int
adb_guess_next_device(void)
{
	int last, i, dummy;

	if (adbStarting) {
		/*
		 * Start polling EVERY device, since we can't be sure there is
		 * anything in the device table yet
		 */
		if (adbLastDevice < 1 || adbLastDevice > 15)
			adbLastDevice = 1;
		if (++adbLastDevice > 15)	/* point to next one */
			adbLastDevice = 1;
	} else {
		/* find the next device using the device table */
		if (adbLastDevice < 1 || adbLastDevice > 15)	/* let's be parinoid */
			adbLastDevice = 2;
		last = 1;	/* default index location */

		for (i = 1; i < 16; i++)	/* find index entry */
			if (ADBDevTable[i].currentAddr == adbLastDevice) {	/* look for device */
				last = i;	/* found it */
				break;
			}
		dummy = last;	/* index to start at */
		for (;;) {	/* find next device in index */
			if (++dummy > 15)	/* wrap around if needed */
				dummy = 1;
			if (dummy == last) {	/* didn't find any other
						 * device! This can happen if
						 * there are no devices on the
						 * bus */
				dummy = 1;
				break;
			}
			/* found the next device */
			if (ADBDevTable[dummy].devType != 0)
				break;
		}
		adbLastDevice = ADBDevTable[dummy].currentAddr;
	}
	return adbLastDevice;
}


/*
 * Called when when an adb interrupt happens.
 * This routine simply transfers control over to the appropriate
 * code for the machine we are running on.
 */
void
adb_intr(void)
{
	switch (adbHardware) {
	case ADB_HW_II:
		adb_intr_II();
		break;

	case ADB_HW_IISI:
		adb_intr_IIsi();
		break;

	case ADB_HW_PB:
		pm_intr();
		break;

	case ADB_HW_CUDA:
		adb_intr_cuda();
		break;

	case ADB_HW_UNKNOWN:
		break;
	}
}


/*
 * called when when an adb interrupt happens
 *
 * IIsi version of adb_intr
 *
 */
void
adb_intr_IIsi(void)
{
	panic("adb_intr_IIsi");
}


/*****************************************************************************
 * if the device is currently busy, and there is no data waiting to go out, then
 * the data is "queued" in the outgoing buffer. If we are already waiting, then
 * we return.
 * in: if (in == 0) then the command string is built from command and buffer
 *     if (in != 0) then in is used as the command string
 * buffer: additional data to be sent (used only if in == 0)
 *         this is also where return data is stored
 * compRout: the completion routine that is called when then return value
 *	     is received (if a return value is expected)
 * data: a data pointer that can be used by the completion routine
 * command: an ADB command to be sent (used only if in == 0)
 *
 */
int
send_adb_IIsi(u_char * in, u_char * buffer, void *compRout, void *data, int
	command)
{
	panic("send_adb_IIsi");
}


/* 
 * adb_pass_up is called by the interrupt-time routines.
 * It takes the raw packet data that was received from the
 * device and puts it into the queue that the upper half
 * processes. It then signals for a soft ADB interrupt which
 * will eventually call the upper half routine (adb_soft_intr).
 *
 * If in->unsol is 0, then this is either the notification
 * that the packet was sent (on a LISTEN, for example), or the 
 * response from the device (on a TALK). The completion routine
 * is called only if the user specified one.
 *
 * If in->unsol is 1, then this packet was unsolicited and
 * so we look up the device in the ADB device table to determine
 * what it's default service routine is.
 *
 * If in->ack_only is 1, then we really only need to call
 * the completion routine, so don't do any other stuff.
 *
 * Note that in->data contains the packet header AND data,
 * while adbInbound[]->data contains ONLY data.
 *
 * Note: Called only at interrupt time. Assumes this.
 */
void
adb_pass_up(struct adbCommand *in)
{
	int start = 0, len = 0, cmd = 0;
	ADBDataBlock block;

	/* temp for testing */
	/*u_char *buffer = 0;*/
	/*u_char *compdata = 0;*/
	/*u_char *comprout = 0;*/

	if (adbInCount >= ADB_QUEUE) {
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: ring buffer overflow\n");
#endif
		return;
	}

	if (in->ack_only) {
		len = in->data[0];
		cmd = in->cmd;
		start = 0;
	} else {
		switch (adbHardware) {
		case ADB_HW_II:
			cmd = in->data[1];
			if (in->data[0] < 2)
				len = 0;
			else
				len = in->data[0]-1;
			start = 1;
			break;

		case ADB_HW_IISI:
		case ADB_HW_CUDA:
			/* If it's unsolicited, accept only ADB data for now */
			if (in->unsol)
				if (0 != in->data[2])
					return;
			cmd = in->data[4];
			if (in->data[0] < 5)
				len = 0;
			else
				len = in->data[0]-4;
			start = 4;
			break;

		case ADB_HW_PB:
			cmd = in->data[1];
			if (in->data[0] < 2)
				len = 0;
			else
				len = in->data[0]-1;
			start = 1;
			break;

		case ADB_HW_UNKNOWN:
			return;
		}

		/* Make sure there is a valid device entry for this device */
		if (in->unsol) {
			/* ignore unsolicited data during adbreinit */
			if (adbStarting)
				return;
			/* get device's comp. routine and data area */
			if (-1 == get_adb_info(&block, ADB_CMDADDR(cmd)))
				return;
		}
	}

	/*
 	 * If this is an unsolicited packet, we need to fill in
 	 * some info so adb_soft_intr can process this packet
 	 * properly. If it's not unsolicited, then use what
 	 * the caller sent us.
 	 */
	if (in->unsol) {
		adbInbound[adbInTail].compRout = (void *)block.dbServiceRtPtr;
		adbInbound[adbInTail].compData = (void *)block.dbDataAreaAddr;
		adbInbound[adbInTail].saveBuf = (void *)adbInbound[adbInTail].data;
	} else {
		adbInbound[adbInTail].compRout = (void *)in->compRout;
		adbInbound[adbInTail].compData = (void *)in->compData;
		adbInbound[adbInTail].saveBuf = (void *)in->saveBuf;
	}

#ifdef ADB_DEBUG
	if (adb_debug && in->data[1] == 2) 
		printf_intr("adb: caught error\n");
#endif

	/* copy the packet data over */
	/*
	 * TO DO: If the *_intr routines fed their incoming data
	 * directly into an adbCommand struct, which is passed to 
	 * this routine, then we could eliminate this copy.
	 */
	memcpy(adbInbound[adbInTail].data + 1, in->data + start + 1, len);
	adbInbound[adbInTail].data[0] = len;
	adbInbound[adbInTail].cmd = cmd;

	adbInCount++;
	if (++adbInTail >= ADB_QUEUE)
		adbInTail = 0;

	/*
	 * If the debugger is running, call upper half manually.
	 * Otherwise, trigger a soft interrupt to handle the rest later.
	 */
	if (adb_polling)
		adb_soft_intr();
	else
		setsoftadb();

	return;
}


/*
 * Called to process the packets after they have been
 * placed in the incoming queue.
 *
 */
void
adb_soft_intr(void)
{
	int s;
	int cmd = 0;
	u_char *buffer = 0;
	u_char *comprout = 0;
	u_char *compdata = 0;

#if 0
	s = splhigh();
	printf_intr("sr: %x\n", (s & 0x0700));
	splx(s);
#endif

/*delay(2*ADB_DELAY);*/

	while (adbInCount) {
#ifdef ADB_DEBUG
		if (adb_debug & 0x80)
			printf_intr("%x %x %x ",
			    adbInCount, adbInHead, adbInTail);
#endif
		/* get the data we need from the queue */
		buffer = adbInbound[adbInHead].saveBuf;
		comprout = adbInbound[adbInHead].compRout;
		compdata = adbInbound[adbInHead].compData;
		cmd = adbInbound[adbInHead].cmd;
	
		/* copy over data to data area if it's valid */
		/*
		 * Note that for unsol packets we don't want to copy the
		 * data anywhere, so buffer was already set to 0.
		 * For ack_only buffer was set to 0, so don't copy.
		 */
		if (buffer)
			memcpy(buffer, adbInbound[adbInHead].data,
			    adbInbound[adbInHead].data[0] + 1);

#ifdef ADB_DEBUG
			if (adb_debug & 0x80) {
				printf_intr("%p %p %p %x ",
				    buffer, comprout, compdata, (short)cmd);
				printf_intr("buf: ");
				print_single(adbInbound[adbInHead].data);
			}
#endif

		/* call default completion routine if it's valid */
		if (comprout) {
			int (*f)() = (void *)comprout;

			(*f)(buffer, compdata, cmd);
#if 0
#ifdef __NetBSD__
			asm("	movml #0xffff,sp@-	| save all registers
				movl %0,a2 		| compdata
				movl %1,a1 		| comprout
				movl %2,a0 		| buffer
				movl %3,d0 		| cmd
				jbsr a1@ 		| go call the routine
				movml sp@+,#0xffff	| restore all registers"
			    :
			    : "g"(compdata), "g"(comprout),
				"g"(buffer), "g"(cmd)
			    : "d0", "a0", "a1", "a2");
#else					/* for macos based testing */
			asm
			{
				movem.l a0/a1/a2/d0, -(a7)
				move.l compdata, a2
				move.l comprout, a1
				move.l buffer, a0
				move.w cmd, d0
				jsr(a1)
				movem.l(a7)+, d0/a2/a1/a0
			}
#endif
#endif
		}

		s = splhigh();
		adbInCount--;
		if (++adbInHead >= ADB_QUEUE)
			adbInHead = 0;
		splx(s);

	}
	return;
}


/*
 * This is my version of the ADBOp routine. It mainly just calls the
 * hardware-specific routine.
 *
 *   data 	: pointer to data area to be used by compRout
 *   compRout	: completion routine
 *   buffer	: for LISTEN: points to data to send - MAX 8 data bytes,
 *		  byte 0 = # of bytes
 *		: for TALK: points to place to save return data
 *   command	: the adb command to send
 *   result	: 0 = success
 *		: -1 = could not complete
 */
int
adb_op(Ptr buffer, Ptr compRout, Ptr data, short command)
{
	int result;

	switch (adbHardware) {
	case ADB_HW_II:
		result = send_adb_II((u_char *)0, (u_char *)buffer,
		    (void *)compRout, (void *)data, (int)command);
		if (result == 0)
			return 0;
		else
			return -1;
		break;

	case ADB_HW_IISI:
		result = send_adb_IIsi((u_char *)0, (u_char *)buffer,
		    (void *)compRout, (void *)data, (int)command);
		/*
		 * I wish I knew why this delay is needed. It usually needs to
		 * be here when several commands are sent in close succession,
		 * especially early in device probes when doing collision
		 * detection. It must be some race condition. Sigh. - jpw
		 */
		delay(100);
		if (result == 0)
			return 0;
		else
			return -1;
		break;

	case ADB_HW_PB:
		result = pm_adb_op((u_char *)buffer, (void *)compRout,
		    (void *)data, (int)command);

		if (result == 0)
			return 0;
		else
			return -1;
		break;

	case ADB_HW_CUDA:
		result = send_adb_cuda((u_char *)0, (u_char *)buffer,
		    (void *)compRout, (void *)data, (int)command);
		if (result == 0)
			return 0;
		else
			return -1;
		break;

	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}


/*
 * adb_hw_setup
 * This routine sets up the possible machine specific hardware
 * config (mainly VIA settings) for the various models.
 */
void
adb_hw_setup(void)
{
	volatile int i;
	u_char send_string[ADB_MAX_MSG_LENGTH];

	switch (adbHardware) {
	case ADB_HW_II:
		via_reg_or(VIA1, vDirB, 0x30);	/* register B bits 4 and 5:
						 * outputs */
		via_reg_and(VIA1, vDirB, 0xf7);	/* register B bit 3: input */
		via_reg_and(VIA1, vACR, ~vSR_OUT);	/* make sure SR is set
							 * to IN (II, IIsi) */
		adbActionState = ADB_ACTION_IDLE;	/* used by all types of
							 * hardware (II, IIsi) */
		adbBusState = ADB_BUS_IDLE;	/* this var. used in II-series
						 * code only */
		write_via_reg(VIA1, vIER, 0x84);/* make sure VIA interrupts
						 * are on (II, IIsi) */
		ADB_SET_STATE_IDLE_II();	/* set ADB bus state to idle */

		ADB_VIA_CLR_INTR();	/* clear interrupt */
		break;

	case ADB_HW_IISI:
		via_reg_or(VIA1, vDirB, 0x30);	/* register B bits 4 and 5:
						 * outputs */
		via_reg_and(VIA1, vDirB, 0xf7);	/* register B bit 3: input */
		via_reg_and(VIA1, vACR, ~vSR_OUT);	/* make sure SR is set
							 * to IN (II, IIsi) */
		adbActionState = ADB_ACTION_IDLE;	/* used by all types of
							 * hardware (II, IIsi) */
		adbBusState = ADB_BUS_IDLE;	/* this var. used in II-series
						 * code only */
		write_via_reg(VIA1, vIER, 0x84);/* make sure VIA interrupts
						 * are on (II, IIsi) */
		ADB_SET_STATE_IDLE_IISI();	/* set ADB bus state to idle */

		/* get those pesky clock ticks we missed while booting */
		for (i = 0; i < 30; i++) {
			delay(ADB_DELAY);
			adb_hw_setup_IIsi(send_string);
#ifdef ADB_DEBUG
			if (adb_debug) {
				printf_intr("adb: cleanup: ");
				print_single(send_string);
			}
#endif
			delay(ADB_DELAY);
			if (ADB_INTR_IS_OFF)
				break;
		}
		break;

	case ADB_HW_PB:
		/*
		 * XXX - really PM_VIA_CLR_INTR - should we put it in
		 * pm_direct.h?
		 */
		write_via_reg(VIA1, vIFR, 0x90);	/* clear interrupt */
		break;

	case ADB_HW_CUDA:
		via_reg_or(VIA1, vDirB, 0x30);	/* register B bits 4 and 5:
						 * outputs */
		via_reg_and(VIA1, vDirB, 0xf7);	/* register B bit 3: input */
		via_reg_and(VIA1, vACR, ~vSR_OUT);	/* make sure SR is set
							 * to IN */
		write_via_reg(VIA1, vACR, (read_via_reg(VIA1, vACR) | 0x0c) & ~0x10);
		adbActionState = ADB_ACTION_IDLE;	/* used by all types of
							 * hardware */
		adbBusState = ADB_BUS_IDLE;	/* this var. used in II-series
						 * code only */
		write_via_reg(VIA1, vIER, 0x84);/* make sure VIA interrupts
						 * are on */
		ADB_SET_STATE_IDLE_CUDA();	/* set ADB bus state to idle */

		/* sort of a device reset */
		i = ADB_SR();	/* clear interrupt */
		ADB_VIA_INTR_DISABLE();	/* no interrupts while clearing */
		ADB_SET_STATE_IDLE_CUDA();	/* reset state to idle */
		delay(ADB_DELAY);
		ADB_SET_STATE_TIP();	/* signal start of frame */
		delay(ADB_DELAY);
		ADB_TOGGLE_STATE_ACK_CUDA();
		delay(ADB_DELAY);
		ADB_CLR_STATE_TIP();
		delay(ADB_DELAY);
		ADB_SET_STATE_IDLE_CUDA();	/* back to idle state */
		i = ADB_SR();	/* clear interrupt */
		ADB_VIA_INTR_ENABLE();	/* ints ok now */
		break;

	case ADB_HW_UNKNOWN:
	default:
		write_via_reg(VIA1, vIER, 0x04);/* turn interrupts off - TO
						 * DO: turn PB ints off? */
		return;
		break;
	}
}


/*
 * adb_hw_setup_IIsi
 * This is sort of a "read" routine that forces the adb hardware through a read cycle
 * if there is something waiting. This helps "clean up" any commands that may have gotten
 * stuck or stopped during the boot process.
 *
 */
void
adb_hw_setup_IIsi(u_char * buffer)
{
	panic("adb_hw_setup_IIsi");
}


/*
 * adb_reinit sets up the adb stuff
 *
 */
void
adb_reinit(void)
{
	u_char send_string[ADB_MAX_MSG_LENGTH];
	ADBDataBlock data;	/* temp. holder for getting device info */
	volatile int i, x;
	int s;
	int command;
	int result;
	int saveptr;		/* point to next free relocation address */
	int device;
	int nonewtimes;		/* times thru loop w/o any new devices */

	/* Make sure we are not interrupted while building the table. */
	if (adbHardware != ADB_HW_PB)	/* ints must be on for PB? */
		s = splhigh();

	ADBNumDevices = 0;	/* no devices yet */

	/* Let intr routines know we are running reinit */
	adbStarting = 1;

	/*
	 * Initialize the ADB table.  For now, we'll always use the same table
	 * that is defined at the beginning of this file - no mallocs.
	 */
	for (i = 0; i < 16; i++)
		ADBDevTable[i].devType = 0;

	adb_setup_hw_type();	/* setup hardware type */

	adb_hw_setup();		/* init the VIA bits and hard reset ADB */

	delay(1000);

	/* send an ADB reset first */
	adb_op_sync((Ptr)0, (Ptr)0, (Ptr)0, (short)0x00);

	/*
	 * Probe for ADB devices. Probe devices 1-15 quickly to determine
	 * which device addresses are in use and which are free. For each
	 * address that is in use, move the device at that address to a higher
	 * free address. Continue doing this at that address until no device
	 * responds at that address. Then move the last device that was moved
	 * back to the original address. Do this for the remaining addresses
	 * that we determined were in use.
	 * 
	 * When finished, do this entire process over again with the updated
	 * list of in use addresses. Do this until no new devices have been
	 * found in 20 passes though the in use address list. (This probably
	 * seems long and complicated, but it's the best way to detect multiple
	 * devices at the same address - sometimes it takes a couple of tries
	 * before the collision is detected.)
	 */

	/* initial scan through the devices */
	for (i = 1; i < 16; i++) {
		send_string[0] = 0;
		command = ADBTALK(i, 3);
		result = adb_op_sync((Ptr)send_string, (Ptr)0,
		    (Ptr)0, (short)command);

		if (send_string[0] != 0) {
			/* check for valid device handler */
			switch (send_string[2]) {
			case 0:
			case 0xfd:
			case 0xfe:
			case 0xff:
				continue;	/* invalid, skip */
			}

			/* found a device */
			++ADBNumDevices;
			KASSERT(ADBNumDevices < 16);
			ADBDevTable[ADBNumDevices].devType =
				(int)send_string[2];
			ADBDevTable[ADBNumDevices].origAddr = i;
			ADBDevTable[ADBNumDevices].currentAddr = i;
			ADBDevTable[ADBNumDevices].DataAreaAddr =
			    (long)0;
			ADBDevTable[ADBNumDevices].ServiceRtPtr = (void *)0;
			pm_check_adb_devices(i);	/* tell pm driver device
							 * is here */
		}
	}

	/* find highest unused address */
	for (saveptr = 15; saveptr > 0; saveptr--)
		if (-1 == get_adb_info(&data, saveptr))
			break;

#ifdef ADB_DEBUG
	if (adb_debug & 0x80) {
		printf_intr("first free is: 0x%02x\n", saveptr);
		printf_intr("devices: %i\n", ADBNumDevices);
	}
#endif

	nonewtimes = 0;		/* no loops w/o new devices */
	while (saveptr > 0 && nonewtimes++ < 11) {
		for (i = 1; i <= ADBNumDevices; i++) {
			device = ADBDevTable[i].currentAddr;
#ifdef ADB_DEBUG
			if (adb_debug & 0x80)
				printf_intr("moving device 0x%02x to 0x%02x "
				    "(index 0x%02x)  ", device, saveptr, i);
#endif

			/* send TALK R3 to address */
			command = ADBTALK(device, 3);
			adb_op_sync((Ptr)send_string, (Ptr)0,
			    (Ptr)0, (short)command);

			/* move device to higher address */
			command = ADBLISTEN(device, 3);
			send_string[0] = 2;
			send_string[1] = (u_char)(saveptr | 0x60);
			send_string[2] = 0xfe;
			adb_op_sync((Ptr)send_string, (Ptr)0,
			    (Ptr)0, (short)command);
			delay(500);

			/* send TALK R3 - anything at new address? */
			command = ADBTALK(saveptr, 3);
			adb_op_sync((Ptr)send_string, (Ptr)0,
			    (Ptr)0, (short)command);
			delay(500);

			if (send_string[0] == 0) {
#ifdef ADB_DEBUG
				if (adb_debug & 0x80)
					printf_intr("failed, continuing\n");
#endif
				continue;
			}

			/* send TALK R3 - anything at old address? */
			command = ADBTALK(device, 3);
			result = adb_op_sync((Ptr)send_string, (Ptr)0,
			    (Ptr)0, (short)command);
			if (send_string[0] != 0) {
				/* check for valid device handler */
				switch (send_string[2]) {
				case 0:
				case 0xfd:
				case 0xfe:
				case 0xff:
					continue;	/* invalid, skip */
				}

				/* new device found */
				/* update data for previously moved device */
				ADBDevTable[i].currentAddr = saveptr;
#ifdef ADB_DEBUG
				if (adb_debug & 0x80)
					printf_intr("old device at index %i\n",i);
#endif
				/* add new device in table */
#ifdef ADB_DEBUG
				if (adb_debug & 0x80)
					printf_intr("new device found\n");
#endif
				if (saveptr > ADBNumDevices) {
					++ADBNumDevices;
					KASSERT(ADBNumDevices < 16);
				}
				ADBDevTable[ADBNumDevices].devType =
					(int)send_string[2];
				ADBDevTable[ADBNumDevices].origAddr = device;
				ADBDevTable[ADBNumDevices].currentAddr = device;
				/* These will be set correctly in adbsys.c */
				/* Until then, unsol. data will be ignored. */
				ADBDevTable[ADBNumDevices].DataAreaAddr =
				    (long)0;
				ADBDevTable[ADBNumDevices].ServiceRtPtr =
				    (void *)0;
				/* find next unused address */
				for (x = saveptr; x > 0; x--) {
					if (-1 == get_adb_info(&data, x)) {
						saveptr = x;
						break;
					}
				}
				if (x == 0)
					saveptr = 0;
#ifdef ADB_DEBUG
				if (adb_debug & 0x80)
					printf_intr("new free is 0x%02x\n",
					    saveptr);
#endif
				nonewtimes = 0;
				/* tell pm driver device is here */
				pm_check_adb_devices(device);
			} else {
#ifdef ADB_DEBUG
				if (adb_debug & 0x80)
					printf_intr("moving back...\n");
#endif
				/* move old device back */
				command = ADBLISTEN(saveptr, 3);
				send_string[0] = 2;
				send_string[1] = (u_char)(device | 0x60);
				send_string[2] = 0xfe;
				adb_op_sync((Ptr)send_string, (Ptr)0,
				    (Ptr)0, (short)command);
				delay(1000);
			}
		}
	}

#ifdef ADB_DEBUG
	if (adb_debug) {
		for (i = 1; i <= ADBNumDevices; i++) {
			x = get_ind_adb_info(&data, i);
			if (x != -1)
				printf_intr("index 0x%x, addr 0x%x, type 0x%x\n",
				    i, x, data.devType);
		}
	}
#endif

#ifndef MRG_ADB
	/* enable the programmer's switch, if we have one */
	adb_prog_switch_enable();
#endif

#ifdef ADB_DEBUG
	if (adb_debug) {
		if (0 == ADBNumDevices)	/* tell user if no devices found */
			printf_intr("adb: no devices found\n");
	}
#endif

	adbStarting = 0;	/* not starting anymore */
#ifdef ADB_DEBUG
	if (adb_debug)
		printf_intr("adb: ADBReInit complete\n");
#endif

	if (adbHardware == ADB_HW_CUDA)
		timeout((void *)adb_cuda_tickle, 0, ADB_TICKLE_TICKS);

	if (adbHardware != ADB_HW_PB)	/* ints must be on for PB? */
		splx(s);
}


#if 0
/*
 * adb_comp_exec
 * This is a general routine that calls the completion routine if there is one.
 * NOTE: This routine is now only used by pm_direct.c
 *       All the code in this file (adb_direct.c) uses 
 *       the adb_pass_up routine now.
 */
void
adb_comp_exec(void)
{
	if ((long)0 != adbCompRout) /* don't call if empty return location */
#ifdef __NetBSD__
		asm("	movml #0xffff,sp@-	| save all registers
			movl %0,a2		| adbCompData
			movl %1,a1		| adbCompRout
			movl %2,a0		| adbBuffer
			movl %3,d0		| adbWaitingCmd
			jbsr a1@		| go call the routine
			movml sp@+,#0xffff	| restore all registers"
		    :
		    : "g"(adbCompData), "g"(adbCompRout),
			"g"(adbBuffer), "g"(adbWaitingCmd)
		    : "d0", "a0", "a1", "a2");
#else /* for Mac OS-based testing */
		asm {
			movem.l a0/a1/a2/d0, -(a7)
			move.l adbCompData, a2
			move.l adbCompRout, a1
			move.l adbBuffer, a0
			move.w adbWaitingCmd, d0
			jsr(a1)
			movem.l(a7) +, d0/a2/a1/a0
		}
#endif
}
#endif


/*
 * adb_cmd_result
 *
 * This routine lets the caller know whether the specified adb command string
 * should expect a returned result, such as a TALK command.
 *
 * returns: 0 if a result should be expected
 *          1 if a result should NOT be expected
 */
int
adb_cmd_result(u_char *in)
{
	switch (adbHardware) {
	case ADB_HW_II:
		/* was it an ADB talk command? */
		if ((in[1] & 0x0c) == 0x0c)
			return 0;
		return 1;

	case ADB_HW_IISI:
	case ADB_HW_CUDA:
		/* was it an ADB talk command? */
		if ((in[1] == 0x00) && ((in[2] & 0x0c) == 0x0c))
			return 0;
		/* was it an RTC/PRAM read date/time? */
		if ((in[1] == 0x01) && (in[2] == 0x03))
			return 0;
		return 1;

	case ADB_HW_PB:
		return 1;

	case ADB_HW_UNKNOWN:
	default:
		return 1;
	}
}


/*
 * adb_cmd_extra
 *
 * This routine lets the caller know whether the specified adb command string
 * may have extra data appended to the end of it, such as a LISTEN command.
 *
 * returns: 0 if extra data is allowed
 *          1 if extra data is NOT allowed
 */
int
adb_cmd_extra(u_char *in)
{
	switch (adbHardware) {
		case ADB_HW_II:
		if ((in[1] & 0x0c) == 0x08)	/* was it a listen command? */
			return 0;
		return 1;

	case ADB_HW_IISI:
	case ADB_HW_CUDA:
		/*
		 * TO DO: support needs to be added to recognize RTC and PRAM
		 * commands
		 */
		if ((in[2] & 0x0c) == 0x08)	/* was it a listen command? */
			return 0;
		/* add others later */
		return 1;

	case ADB_HW_PB:
		return 1;

	case ADB_HW_UNKNOWN:
	default:
		return 1;
	}
}


/*
 * adb_op_sync
 *
 * This routine does exactly what the adb_op routine does, except that after
 * the adb_op is called, it waits until the return value is present before
 * returning.
 *
 * NOTE: The user specified compRout is ignored, since this routine specifies
 * it's own to adb_op, which is why you really called this in the first place
 * anyway.
 */
int
adb_op_sync(Ptr buffer, Ptr compRout, Ptr data, short command)
{
	int result;
	volatile int flag = 0;

	result = adb_op(buffer, (void *)adb_op_comprout,
	    (void *)&flag, command);	/* send command */
	if (result == 0)		/* send ok? */
		while (0 == flag)
			/* wait for compl. routine */;

	return result;
}


/*
 * adb_op_comprout
 *
 * This function is used by the adb_op_sync routine so it knows when the
 * function is done.
 */
void 
adb_op_comprout(buffer, compdata, cmd)
	caddr_t buffer, compdata;
	int cmd;
{
	short *p = (short *)compdata;

	*p = 1;
}

void 
adb_setup_hw_type(void)
{
	switch (adbHardware) {
	case ADB_HW_CUDA:
		adbSoftPower = 1;
		return;

	case ADB_HW_PB:
		adbSoftPower = 1;
		pm_setup_adb();
		return;

	default:
		panic("unknown adb hardware");
	}
#if 0
	response = 0; /*mac68k_machine.machineid;*/

	/*
	 * Determine what type of ADB hardware we are running on.
	 */
	switch (response) {
	case MACH_MACC610:		/* Centris 610 */
	case MACH_MACC650:		/* Centris 650 */
	case MACH_MACII:		/* II */
	case MACH_MACIICI:		/* IIci */
	case MACH_MACIICX:		/* IIcx */
	case MACH_MACIIX:		/* IIx */
	case MACH_MACQ610:		/* Quadra 610 */
	case MACH_MACQ650:		/* Quadra 650 */
	case MACH_MACQ700:		/* Quadra 700 */
	case MACH_MACQ800:		/* Quadra 800 */
	case MACH_MACSE30:		/* SE/30 */
		adbHardware = ADB_HW_II;
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: using II series hardware support\n");
#endif
		break;

	case MACH_MACCLASSICII:		/* Classic II */
	case MACH_MACLCII:		/* LC II, Performa 400/405/430 */
	case MACH_MACLCIII:		/* LC III, Performa 450 */
	case MACH_MACIISI:		/* IIsi */
	case MACH_MACIIVI:		/* IIvi */
	case MACH_MACIIVX:		/* IIvx */
	case MACH_MACP460:		/* Performa 460/465/467 */
	case MACH_MACP600:		/* Performa 600 */
		adbHardware = ADB_HW_IISI;
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: using IIsi series hardware support\n");
#endif
		break;

	case MACH_MACPB140:		/* PowerBook 140 */
	case MACH_MACPB145:		/* PowerBook 145 */
	case MACH_MACPB150:		/* PowerBook 150 */
	case MACH_MACPB160:		/* PowerBook 160 */
	case MACH_MACPB165:		/* PowerBook 165 */
	case MACH_MACPB165C:		/* PowerBook 165c */
	case MACH_MACPB170:		/* PowerBook 170 */
	case MACH_MACPB180:		/* PowerBook 180 */
	case MACH_MACPB180C:		/* PowerBook 180c */
		adbHardware = ADB_HW_PB;
		pm_setup_adb();
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: using PowerBook 100-series hardware support\n");
#endif
		break;

	case MACH_MACPB210:		/* PowerBook Duo 210 */
	case MACH_MACPB230:		/* PowerBook Duo 230 */
	case MACH_MACPB250:		/* PowerBook Duo 250 */
	case MACH_MACPB270:		/* PowerBook Duo 270 */
	case MACH_MACPB280:		/* PowerBook Duo 280 */
	case MACH_MACPB280C:		/* PowerBook Duo 280c */
	case MACH_MACPB500:		/* PowerBook 500 series */
		adbHardware = ADB_HW_PB;
		pm_setup_adb();
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: using PowerBook Duo-series and PowerBook 500-series hardware support\n");
#endif
		break;

	case MACH_MACC660AV:		/* Centris 660AV */
	case MACH_MACCCLASSIC:		/* Color Classic */
	case MACH_MACCCLASSICII:	/* Color Classic II */
	case MACH_MACLC475:		/* LC 475, Performa 475/476 */
	case MACH_MACLC475_33:		/* Clock-chipped 47x */
	case MACH_MACLC520:		/* LC 520 */
	case MACH_MACLC575:		/* LC 575, Performa 575/577/578 */
	case MACH_MACP550:		/* LC 550, Performa 550 */
	case MACH_MACP580:		/* Performa 580/588 */
	case MACH_MACQ605:		/* Quadra 605 */
	case MACH_MACQ605_33:		/* Clock-chipped Quadra 605 */
	case MACH_MACQ630:		/* LC 630, Performa 630, Quadra 630 */
	case MACH_MACQ840AV:		/* Quadra 840AV */
		adbHardware = ADB_HW_CUDA;
#ifdef ADB_DEBUG
		if (adb_debug)
			printf_intr("adb: using Cuda series hardware support\n");
#endif
		break;
	default:
		adbHardware = ADB_HW_UNKNOWN;
#ifdef ADB_DEBUG
		if (adb_debug) {
			printf_intr("adb: hardware type unknown for this machine\n");
			printf_intr("adb: ADB support is disabled\n");
		}
#endif
		break;
	}

	/*
	 * Determine whether this machine has ADB based soft power.
	 */
	switch (response) {
	case MACH_MACCCLASSIC:		/* Color Classic */
	case MACH_MACCCLASSICII:	/* Color Classic II */
	case MACH_MACIISI:		/* IIsi */
	case MACH_MACIIVI:		/* IIvi */
	case MACH_MACIIVX:		/* IIvx */
	case MACH_MACLC520:		/* LC 520 */
	case MACH_MACLC575:		/* LC 575, Performa 575/577/578 */
	case MACH_MACP550:		/* LC 550, Performa 550 */
	case MACH_MACP600:		/* Performa 600 */
	case MACH_MACQ630:		/* LC 630, Performa 630, Quadra 630 */
	case MACH_MACQ840AV:		/* Quadra 840AV */
		adbSoftPower = 1;
		break;
	}
#endif
}
	
int 
count_adbs(void)
{
	int i;
	int found;

	found = 0;

	for (i = 1; i < 16; i++)
		if (0 != ADBDevTable[i].devType)
			found++;

	return found;
}

int 
get_ind_adb_info(ADBDataBlock * info, int index)
{
	if ((index < 1) || (index > 15))	/* check range 1-15 */
		return (-1);

#ifdef ADB_DEBUG
	if (adb_debug & 0x80)
		printf_intr("index 0x%x devType is: 0x%x\n", index,
		    ADBDevTable[index].devType);
#endif
	if (0 == ADBDevTable[index].devType)	/* make sure it's a valid entry */
		return (-1);

	info->devType = ADBDevTable[index].devType;
	info->origADBAddr = ADBDevTable[index].origAddr;
	info->dbServiceRtPtr = (Ptr)ADBDevTable[index].ServiceRtPtr;
	info->dbDataAreaAddr = (Ptr)ADBDevTable[index].DataAreaAddr;

	return (ADBDevTable[index].currentAddr);
}

int 
get_adb_info(ADBDataBlock * info, int adbAddr)
{
	int i;

	if ((adbAddr < 1) || (adbAddr > 15))	/* check range 1-15 */
		return (-1);

	for (i = 1; i < 15; i++)
		if (ADBDevTable[i].currentAddr == adbAddr) {
			info->devType = ADBDevTable[i].devType;
			info->origADBAddr = ADBDevTable[i].origAddr;
			info->dbServiceRtPtr = (Ptr)ADBDevTable[i].ServiceRtPtr;
			info->dbDataAreaAddr = ADBDevTable[i].DataAreaAddr;
			return 0;	/* found */
		}

	return (-1);		/* not found */
}

int 
set_adb_info(ADBSetInfoBlock * info, int adbAddr)
{
	int i;

	if ((adbAddr < 1) || (adbAddr > 15))	/* check range 1-15 */
		return (-1);

	for (i = 1; i < 15; i++)
		if (ADBDevTable[i].currentAddr == adbAddr) {
			ADBDevTable[i].ServiceRtPtr =
			    (void *)(info->siServiceRtPtr);
			ADBDevTable[i].DataAreaAddr = info->siDataAreaAddr;
			return 0;	/* found */
		}

	return (-1);		/* not found */

}

#ifndef MRG_ADB

/* caller should really use machine-independant version: getPramTime */
/* this version does pseudo-adb access only */
int 
adb_read_date_time(unsigned long *time)
{
	u_char output[ADB_MAX_MSG_LENGTH];
	int result;
	volatile int flag = 0;

	switch (adbHardware) {
	case ADB_HW_II:
		return -1;

	case ADB_HW_IISI:
		output[0] = 0x02;	/* 2 byte message */
		output[1] = 0x01;	/* to pram/rtc device */
		output[2] = 0x03;	/* read date/time */
		result = send_adb_IIsi((u_char *)output, (u_char *)output,
		    (void *)adb_op_comprout, (int *)&flag, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		while (0 == flag)	/* wait for result */
			;

		*time = (long)(*(long *)(output + 1));
		return 0;

	case ADB_HW_PB:
		pm_read_date_time(time);
		return 0;

	case ADB_HW_CUDA:
		output[0] = 0x02;	/* 2 byte message */
		output[1] = 0x01;	/* to pram/rtc device */
		output[2] = 0x03;	/* read date/time */
		result = send_adb_cuda((u_char *)output, (u_char *)output,
		    (void *)adb_op_comprout, (void *)&flag, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		while (0 == flag)	/* wait for result */
			;

		memcpy(time, output + 1, 4);
		return 0;

	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}

/* caller should really use machine-independant version: setPramTime */
/* this version does pseudo-adb access only */
int 
adb_set_date_time(unsigned long time)
{
	u_char output[ADB_MAX_MSG_LENGTH];
	int result;
	volatile int flag = 0;

	switch (adbHardware) {

	case ADB_HW_CUDA:
		output[0] = 0x06;	/* 6 byte message */
		output[1] = 0x01;	/* to pram/rtc device */
		output[2] = 0x09;	/* set date/time */
		output[3] = (u_char)(time >> 24);
		output[4] = (u_char)(time >> 16);
		output[5] = (u_char)(time >> 8);
		output[6] = (u_char)(time);
		result = send_adb_cuda((u_char *)output, (u_char *)0,
		    (void *)adb_op_comprout, (void *)&flag, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		while (0 == flag)	/* wait for send to finish */
			;

		return 0;

	case ADB_HW_PB:
		pm_set_date_time(time);
		return 0;

	case ADB_HW_II:
	case ADB_HW_IISI:
	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}


int 
adb_poweroff(void)
{
	u_char output[ADB_MAX_MSG_LENGTH];
	int result;

	if (!adbSoftPower)
		return -1;

	adb_polling = 1;

	switch (adbHardware) {
	case ADB_HW_IISI:
		output[0] = 0x02;	/* 2 byte message */
		output[1] = 0x01;	/* to pram/rtc/soft-power device */
		output[2] = 0x0a;	/* set date/time */
		result = send_adb_IIsi((u_char *)output, (u_char *)0,
		    (void *)0, (void *)0, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		for (;;);		/* wait for power off */

		return 0;

	case ADB_HW_PB:
		pm_adb_poweroff();

		for (;;);		/* wait for power off */

		return 0;

	case ADB_HW_CUDA:
		output[0] = 0x02;	/* 2 byte message */
		output[1] = 0x01;	/* to pram/rtc/soft-power device */
		output[2] = 0x0a;	/* set date/time */
		result = send_adb_cuda((u_char *)output, (u_char *)0,
		    (void *)0, (void *)0, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		for (;;);		/* wait for power off */

		return 0;

	case ADB_HW_II:			/* II models don't do ADB soft power */
	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}

int 
adb_prog_switch_enable(void)
{
	u_char output[ADB_MAX_MSG_LENGTH];
	int result;
	volatile int flag = 0;

	switch (adbHardware) {
	case ADB_HW_IISI:
		output[0] = 0x03;	/* 3 byte message */
		output[1] = 0x01;	/* to pram/rtc/soft-power device */
		output[2] = 0x1c;	/* prog. switch control */
		output[3] = 0x01;	/* enable */
		result = send_adb_IIsi((u_char *)output, (u_char *)0,
		    (void *)adb_op_comprout, (void *)&flag, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		while (0 == flag)	/* wait for send to finish */
			;

		return 0;

	case ADB_HW_PB:
		return -1;

	case ADB_HW_II:		/* II models don't do prog. switch */
	case ADB_HW_CUDA:	/* cuda doesn't do prog. switch TO DO: verify this */
	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}

int 
adb_prog_switch_disable(void)
{
	u_char output[ADB_MAX_MSG_LENGTH];
	int result;
	volatile int flag = 0;

	switch (adbHardware) {
	case ADB_HW_IISI:
		output[0] = 0x03;	/* 3 byte message */
		output[1] = 0x01;	/* to pram/rtc/soft-power device */
		output[2] = 0x1c;	/* prog. switch control */
		output[3] = 0x01;	/* disable */
		result = send_adb_IIsi((u_char *)output, (u_char *)0,
			(void *)adb_op_comprout, (void *)&flag, (int)0);
		if (result != 0)	/* exit if not sent */
			return -1;

		while (0 == flag)	/* wait for send to finish */
			;

		return 0;

	case ADB_HW_PB:
		return -1;

	case ADB_HW_II:		/* II models don't do prog. switch */
	case ADB_HW_CUDA:	/* cuda doesn't do prog. switch */
	case ADB_HW_UNKNOWN:
	default:
		return -1;
	}
}

int 
CountADBs(void)
{
	return (count_adbs());
}

void 
ADBReInit(void)
{
	adb_reinit();
}

int 
GetIndADB(ADBDataBlock * info, int index)
{
	return (get_ind_adb_info(info, index));
}

int 
GetADBInfo(ADBDataBlock * info, int adbAddr)
{
	return (get_adb_info(info, adbAddr));
}

int 
SetADBInfo(ADBSetInfoBlock * info, int adbAddr)
{
	return (set_adb_info(info, adbAddr));
}

int 
ADBOp(Ptr buffer, Ptr compRout, Ptr data, short commandNum)
{
	return (adb_op(buffer, compRout, data, commandNum));
}

#endif

int
setsoftadb()
{
	timeout((void *)adb_soft_intr, NULL, 1);
	return 0;
}

void
adb_cuda_autopoll()
{
	volatile int flag = 0;
	int result;
	u_char output[16];
	extern void adb_op_comprout();

	output[0] = 0x03;	/* 3-byte message */
	output[1] = 0x01;	/* to pram/rtc device */
	output[2] = 0x01;	/* cuda autopoll */
	output[3] = 0x01;
	result = send_adb_cuda(output, output, adb_op_comprout,
		(void *)&flag, 0);
	if (result != 0)	/* exit if not sent */
		return;

	while (flag == 0);	/* wait for result */
}

void
adb_restart()
{
	volatile int flag = 0;
	int result;
	u_char output[16];

	adb_polling = 1;

	switch (adbHardware) {
	case ADB_HW_CUDA:
		output[0] = 0x02;	/* 2 byte message */
		output[1] = 0x01;	/* to pram/rtc/soft-power device */
		output[2] = 0x11;	/* restart */
		result = send_adb_cuda((u_char *)output, (u_char *)0,
				       (void *)0, (void *)0, (int)0);
		if (result != 0)	/* exit if not sent */
			return;
		while (1);		/* not return */

	case ADB_HW_PB:
		pm_adb_restart();
		while (1);		/* not return */
	}
}