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freebsd-dev/sys/dev/ppbus/ppb_msq.c
John Baldwin 2067d312d4 Add locking to ppc and ppbus and mark the whole lot MPSAFE: 
- To avoid having a bunch of locks that end up always getting acquired as
  a group, give each ppc(4) device a mutex which it shares with all the
  child devices including ppbus(4), lpt(4), plip(4), etc.  This mutex
  is then used for all the locking.
- Rework the interrupt handling stuff yet again.  Now ppbus drivers setup
  their interrupt handler during attach and tear it down during detach
  like most other drivers.  ppbus(4) only invokes the interrupt handler
  of the device that currently owns the bus (if any) when an interrupt
  occurs, however.  Also, interrupt handlers in general now accept their
  softc pointers as their argument rather than the device_t.  Another
  feature of the ppbus interrupt handlers is that they are called with
  the parent ppc device's lock already held.  This minimizes the number
  of lock operations during an interrupt.
- Mark plip(4), lpt(4), pcfclock(4), ppi(4), vpo(4) MPSAFE.
- lpbb(4) uses the ppc lock instead of Giant.
- Other plip(4) changes:
  - Add a mutex to protect the global tables in plip(4) and free them on
    module unload.
  - Add a detach routine.
  - Split out the init/stop code from the ioctl routine into separate
    functions.
- Other lpt(4) changes:
  - Use device_printf().
  - Use a dedicated callout for the lptout timer.
  - Allocate the I/O buffers at attach and detach rather than during
    open and close as this simplifies the locking at the cost of
    1024+32 bytes when the driver is attached.
- Other ppi(4) changes:
  - Use an sx lock to serialize open and close.
  - Remove unused HADBUS flag.
  - Add a detach routine.
  - Use a malloc'd buffer for each read and write to avoid races with
    concurrent read/write.
- Other pps(4) changes:
  - Use a callout rather than a callout handle with timeout().
  - Conform to the new ppbus requirements (regular mutex, non-filter
    interrupt handler).  pps(4) is probably going to have to become a
    standalone driver that doesn't use ppbus(4) to satisfy it's
    requirements for low latency as a result.
  - Use an sx lock to serialize open and close.
- Other vpo(4) changes:
  - Use the parent ppc device's lock to create the CAM sim instead of
    Giant.
- Other ppc(4) changes:
  - Fix ppc_isa's detach method to detach instead of calling attach.

Tested by:	  no one :-(
2009-01-21 23:10:06 +00:00

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/*-
* Copyright (c) 1998, 1999 Nicolas Souchu
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``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 OR CONTRIBUTORS 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.
*
*
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <machine/stdarg.h>
#include <sys/param.h>
#include <sys/lock.h>
#include <sys/mutex.h>
#include <sys/systm.h>
#include <sys/bus.h>
#include <dev/ppbus/ppbconf.h>
#include <dev/ppbus/ppb_msq.h>
#include "ppbus_if.h"
/* msq index (see PPB_MAX_XFER)
* These are device modes
*/
#define COMPAT_MSQ 0x0
#define NIBBLE_MSQ 0x1
#define PS2_MSQ 0x2
#define EPP17_MSQ 0x3
#define EPP19_MSQ 0x4
#define ECP_MSQ 0x5
/*
* Device mode to submsq conversion
*/
static struct ppb_xfer *
mode2xfer(device_t bus, struct ppb_device *ppbdev, int opcode)
{
int index, epp, mode;
struct ppb_xfer *table;
switch (opcode) {
case MS_OP_GET:
table = ppbdev->get_xfer;
break;
case MS_OP_PUT:
table = ppbdev->put_xfer;
break;
default:
panic("%s: unknown opcode (%d)", __func__, opcode);
}
/* retrieve the device operating mode */
mode = ppb_get_mode(bus);
switch (mode) {
case PPB_COMPATIBLE:
index = COMPAT_MSQ;
break;
case PPB_NIBBLE:
index = NIBBLE_MSQ;
break;
case PPB_PS2:
index = PS2_MSQ;
break;
case PPB_EPP:
switch ((epp = ppb_get_epp_protocol(bus))) {
case EPP_1_7:
index = EPP17_MSQ;
break;
case EPP_1_9:
index = EPP19_MSQ;
break;
default:
panic("%s: unknown EPP protocol (0x%x)!", __func__,
epp);
}
break;
case PPB_ECP:
index = ECP_MSQ;
break;
default:
panic("%s: unknown mode (%d)", __func__, mode);
}
return (&table[index]);
}
/*
* ppb_MS_init()
*
* Initialize device dependent submicrosequence of the current mode
*
*/
int
ppb_MS_init(device_t bus, device_t dev, struct ppb_microseq *loop, int opcode)
{
#ifdef INVARIANTS
struct ppb_data *ppb = device_get_softc(bus);
#endif
struct ppb_device *ppbdev = (struct ppb_device *)device_get_ivars(dev);
struct ppb_xfer *xfer = mode2xfer(bus, ppbdev, opcode);
mtx_assert(ppb->ppc_lock, MA_OWNED);
xfer->loop = loop;
return (0);
}
/*
* ppb_MS_exec()
*
* Execute any microsequence opcode - expensive
*
*/
int
ppb_MS_exec(device_t bus, device_t dev, int opcode, union ppb_insarg param1,
union ppb_insarg param2, union ppb_insarg param3, int *ret)
{
struct ppb_microseq msq[] = {
{ MS_UNKNOWN, { { MS_UNKNOWN }, { MS_UNKNOWN }, { MS_UNKNOWN } } },
MS_RET(0)
};
/* initialize the corresponding microseq */
msq[0].opcode = opcode;
msq[0].arg[0] = param1;
msq[0].arg[1] = param2;
msq[0].arg[2] = param3;
/* execute the microseq */
return (ppb_MS_microseq(bus, dev, msq, ret));
}
/*
* ppb_MS_loop()
*
* Execute a microseq loop
*
*/
int
ppb_MS_loop(device_t bus, device_t dev, struct ppb_microseq *prolog,
struct ppb_microseq *body, struct ppb_microseq *epilog,
int iter, int *ret)
{
struct ppb_microseq loop_microseq[] = {
MS_CALL(0), /* execute prolog */
MS_SET(MS_UNKNOWN), /* set size of transfer */
/* loop: */
MS_CALL(0), /* execute body */
MS_DBRA(-1 /* loop: */),
MS_CALL(0), /* execute epilog */
MS_RET(0)
};
/* initialize the structure */
loop_microseq[0].arg[0].p = (void *)prolog;
loop_microseq[1].arg[0].i = iter;
loop_microseq[2].arg[0].p = (void *)body;
loop_microseq[4].arg[0].p = (void *)epilog;
/* execute the loop */
return (ppb_MS_microseq(bus, dev, loop_microseq, ret));
}
/*
* ppb_MS_init_msq()
*
* Initialize a microsequence - see macros in ppb_msq.h
*
*/
int
ppb_MS_init_msq(struct ppb_microseq *msq, int nbparam, ...)
{
int i;
int param, ins, arg, type;
va_list p_list;
va_start(p_list, nbparam);
for (i=0; i<nbparam; i++) {
/* retrieve the parameter descriptor */
param = va_arg(p_list, int);
ins = MS_INS(param);
arg = MS_ARG(param);
type = MS_TYP(param);
/* check the instruction position */
if (arg >= PPB_MS_MAXARGS)
panic("%s: parameter out of range (0x%x)!",
__func__, param);
#if 0
printf("%s: param = %d, ins = %d, arg = %d, type = %d\n",
__func__, param, ins, arg, type);
#endif
/* properly cast the parameter */
switch (type) {
case MS_TYP_INT:
msq[ins].arg[arg].i = va_arg(p_list, int);
break;
case MS_TYP_CHA:
msq[ins].arg[arg].i = (int)va_arg(p_list, int);
break;
case MS_TYP_PTR:
msq[ins].arg[arg].p = va_arg(p_list, void *);
break;
case MS_TYP_FUN:
msq[ins].arg[arg].f = va_arg(p_list, void *);
break;
default:
panic("%s: unknown parameter (0x%x)!", __func__,
param);
}
}
return (0);
}
/*
* ppb_MS_microseq()
*
* Interprete a microsequence. Some microinstructions are executed at adapter
* level to avoid function call overhead between ppbus and the adapter
*/
int
ppb_MS_microseq(device_t bus, device_t dev, struct ppb_microseq *msq, int *ret)
{
struct ppb_data *ppb = (struct ppb_data *)device_get_softc(bus);
struct ppb_device *ppbdev = (struct ppb_device *)device_get_ivars(dev);
struct ppb_microseq *mi; /* current microinstruction */
int error;
struct ppb_xfer *xfer;
/* microsequence executed to initialize the transfer */
struct ppb_microseq initxfer[] = {
MS_PTR(MS_UNKNOWN), /* set ptr to buffer */
MS_SET(MS_UNKNOWN), /* set transfer size */
MS_RET(0)
};
mtx_assert(ppb->ppc_lock, MA_OWNED);
if (ppb->ppb_owner != dev)
return (EACCES);
#define INCR_PC (mi ++)
mi = msq;
for (;;) {
switch (mi->opcode) {
case MS_OP_PUT:
case MS_OP_GET:
/* attempt to choose the best mode for the device */
xfer = mode2xfer(bus, ppbdev, mi->opcode);
/* figure out if we should use ieee1284 code */
if (!xfer->loop) {
if (mi->opcode == MS_OP_PUT) {
if ((error = PPBUS_WRITE(
device_get_parent(bus),
(char *)mi->arg[0].p,
mi->arg[1].i, 0)))
goto error;
INCR_PC;
goto next;
} else
panic("%s: IEEE1284 read not supported", __func__);
}
/* XXX should use ppb_MS_init_msq() */
initxfer[0].arg[0].p = mi->arg[0].p;
initxfer[1].arg[0].i = mi->arg[1].i;
/* initialize transfer */
ppb_MS_microseq(bus, dev, initxfer, &error);
if (error)
goto error;
/* the xfer microsequence should not contain any
* MS_OP_PUT or MS_OP_GET!
*/
ppb_MS_microseq(bus, dev, xfer->loop, &error);
if (error)
goto error;
INCR_PC;
break;
case MS_OP_RET:
if (ret)
*ret = mi->arg[0].i; /* return code */
return (0);
default:
/* executing microinstructions at ppc level is
* faster. This is the default if the microinstr
* is unknown here
*/
if ((error = PPBUS_EXEC_MICROSEQ(
device_get_parent(bus), &mi)))
goto error;
break;
}
next:
continue;
}
error:
return (error);
}
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