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|
/*-
* Copyright (c) 2000 Michael Smith
* Copyright (c) 2001 Scott Long
* Copyright (c) 2000 BSDi
* Copyright (c) 2001 Adaptec, Inc.
* 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("$FreeBSD$");
/*
* Debugging support.
*/
#include "opt_aac.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/conf.h>
#include <sys/bus.h>
#include <machine/resource.h>
#include <machine/bus.h>
#include <dev/aac/aacreg.h>
#include <sys/aac_ioctl.h>
#include <dev/aac/aacvar.h>
#ifdef AAC_DEBUG
int aac_debug_enable = 0;
void aac_printstate0(void);
/*
* Dump the command queue indices
*/
void
aac_print_queues(struct aac_softc *sc)
{
device_printf(sc->aac_dev, "FIB queue header at %p queues at %p\n",
&sc->aac_queues->qt_qindex[AAC_HOST_NORM_CMD_QUEUE][0],
&sc->aac_queues->qt_HostNormCmdQueue[0]);
device_printf(sc->aac_dev, "HOST_NORM_CMD %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_HOST_NORM_CMD_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_HOST_NORM_CMD_QUEUE][
AAC_CONSUMER_INDEX],
AAC_HOST_NORM_CMD_ENTRIES);
device_printf(sc->aac_dev, "HOST_HIGH_CMD %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_HOST_HIGH_CMD_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_HOST_HIGH_CMD_QUEUE][
AAC_CONSUMER_INDEX],
AAC_HOST_HIGH_CMD_ENTRIES);
device_printf(sc->aac_dev, "ADAP_NORM_CMD %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_ADAP_NORM_CMD_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_ADAP_NORM_CMD_QUEUE][
AAC_CONSUMER_INDEX],
AAC_ADAP_NORM_CMD_ENTRIES);
device_printf(sc->aac_dev, "ADAP_HIGH_CMD %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_ADAP_HIGH_CMD_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_ADAP_HIGH_CMD_QUEUE][
AAC_CONSUMER_INDEX],
AAC_ADAP_HIGH_CMD_ENTRIES);
device_printf(sc->aac_dev, "HOST_NORM_RESP %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_HOST_NORM_RESP_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_HOST_NORM_RESP_QUEUE][
AAC_CONSUMER_INDEX],
AAC_HOST_NORM_RESP_ENTRIES);
device_printf(sc->aac_dev, "HOST_HIGH_RESP %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_HOST_HIGH_RESP_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_HOST_HIGH_RESP_QUEUE][
AAC_CONSUMER_INDEX],
AAC_HOST_HIGH_RESP_ENTRIES);
device_printf(sc->aac_dev, "ADAP_NORM_RESP %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_ADAP_NORM_RESP_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_ADAP_NORM_RESP_QUEUE][
AAC_CONSUMER_INDEX],
AAC_ADAP_NORM_RESP_ENTRIES);
device_printf(sc->aac_dev, "ADAP_HIGH_RESP %d/%d (%d)\n",
sc->aac_queues->qt_qindex[AAC_ADAP_HIGH_RESP_QUEUE][
AAC_PRODUCER_INDEX],
sc->aac_queues->qt_qindex[AAC_ADAP_HIGH_RESP_QUEUE][
AAC_CONSUMER_INDEX],
AAC_ADAP_HIGH_RESP_ENTRIES);
device_printf(sc->aac_dev, "AACQ_FREE %d/%d\n",
sc->aac_qstat[AACQ_FREE].q_length, sc->aac_qstat[AACQ_FREE].q_max);
device_printf(sc->aac_dev, "AACQ_BIO %d/%d\n",
sc->aac_qstat[AACQ_BIO].q_length, sc->aac_qstat[AACQ_BIO].q_max);
device_printf(sc->aac_dev, "AACQ_READY %d/%d\n",
sc->aac_qstat[AACQ_READY].q_length,
sc->aac_qstat[AACQ_READY].q_max);
device_printf(sc->aac_dev, "AACQ_BUSY %d/%d\n",
sc->aac_qstat[AACQ_BUSY].q_length, sc->aac_qstat[AACQ_BUSY].q_max);
}
/*
* Print the command queue states for controller 0 (callable from DDB)
*/
void
aac_printstate0(void)
{
struct aac_softc *sc;
sc = devclass_get_softc(devclass_find("aac"), 0);
aac_print_queues(sc);
switch (sc->aac_hwif) {
case AAC_HWIF_I960RX:
case AAC_HWIF_NARK:
device_printf(sc->aac_dev, "IDBR 0x%08x IIMR 0x%08x "
"IISR 0x%08x\n", AAC_MEM0_GETREG4(sc, AAC_RX_IDBR),
AAC_MEM0_GETREG4(sc, AAC_RX_IIMR), AAC_MEM0_GETREG4(sc, AAC_RX_IISR));
device_printf(sc->aac_dev, "ODBR 0x%08x OIMR 0x%08x "
"OISR 0x%08x\n", AAC_MEM0_GETREG4(sc, AAC_RX_ODBR),
AAC_MEM0_GETREG4(sc, AAC_RX_OIMR), AAC_MEM0_GETREG4(sc, AAC_RX_OISR));
AAC_MEM0_SETREG4(sc, AAC_RX_OIMR, 0/*~(AAC_DB_COMMAND_READY |
AAC_DB_RESPONSE_READY | AAC_DB_PRINTF)*/);
device_printf(sc->aac_dev, "ODBR 0x%08x OIMR 0x%08x "
"OISR 0x%08x\n", AAC_MEM0_GETREG4(sc, AAC_RX_ODBR),
AAC_MEM0_GETREG4(sc, AAC_RX_OIMR), AAC_MEM0_GETREG4(sc, AAC_RX_OISR));
break;
case AAC_HWIF_STRONGARM:
/* XXX implement */
break;
}
}
/*
* Panic in a slightly informative fashion
*/
void
aac_panic(struct aac_softc *sc, char *reason)
{
aac_print_queues(sc);
panic("%s", reason);
}
/*
* Print a FIB
*/
void
aac_print_fib(struct aac_softc *sc, struct aac_fib *fib, const char *caller)
{
if (fib == NULL) {
device_printf(sc->aac_dev,
"aac_print_fib called with NULL fib\n");
return;
}
device_printf(sc->aac_dev, "%s: FIB @ %p\n", caller, fib);
device_printf(sc->aac_dev, " XferState %b\n", fib->Header.XferState,
"\20"
"\1HOSTOWNED"
"\2ADAPTEROWNED"
"\3INITIALISED"
"\4EMPTY"
"\5FROMPOOL"
"\6FROMHOST"
"\7FROMADAP"
"\10REXPECTED"
"\11RNOTEXPECTED"
"\12DONEADAP"
"\13DONEHOST"
"\14HIGH"
"\15NORM"
"\16ASYNC"
"\17PAGEFILEIO"
"\20SHUTDOWN"
"\21LAZYWRITE"
"\22ADAPMICROFIB"
"\23BIOSFIB"
"\24FAST_RESPONSE"
"\25APIFIB\n");
device_printf(sc->aac_dev, " Command %d\n", fib->Header.Command);
device_printf(sc->aac_dev, " StructType %d\n",
fib->Header.StructType);
device_printf(sc->aac_dev, " Flags 0x%x\n", fib->Header.Flags);
device_printf(sc->aac_dev, " Size %d\n", fib->Header.Size);
device_printf(sc->aac_dev, " SenderSize %d\n",
fib->Header.SenderSize);
device_printf(sc->aac_dev, " SenderAddress 0x%x\n",
fib->Header.SenderFibAddress);
device_printf(sc->aac_dev, " RcvrAddress 0x%x\n",
fib->Header.ReceiverFibAddress);
device_printf(sc->aac_dev, " SenderData 0x%x\n",
fib->Header.SenderData);
switch(fib->Header.Command) {
case ContainerCommand:
{
struct aac_blockread *br;
struct aac_blockwrite *bw;
struct aac_sg_table *sg;
int i;
br = (struct aac_blockread*)fib->data;
bw = (struct aac_blockwrite*)fib->data;
sg = NULL;
if (br->Command == VM_CtBlockRead) {
device_printf(sc->aac_dev,
" BlockRead: container %d 0x%x/%d\n",
br->ContainerId, br->BlockNumber,
br->ByteCount);
sg = &br->SgMap;
}
if (bw->Command == VM_CtBlockWrite) {
device_printf(sc->aac_dev,
" BlockWrite: container %d 0x%x/%d "
"(%s)\n", bw->ContainerId,
bw->BlockNumber, bw->ByteCount,
bw->Stable == CSTABLE ? "stable" :
"unstable");
sg = &bw->SgMap;
}
if (sg != NULL) {
device_printf(sc->aac_dev,
" %d s/g entries\n", sg->SgCount);
for (i = 0; i < sg->SgCount; i++)
device_printf(sc->aac_dev, " 0x%08x/%d\n",
sg->SgEntry[i].SgAddress,
sg->SgEntry[i].SgByteCount);
}
break;
}
default:
device_printf(sc->aac_dev, " %16D\n", fib->data, " ");
device_printf(sc->aac_dev, " %16D\n", fib->data + 16, " ");
break;
}
}
/*
* Describe an AIF we have received.
*/
void
aac_print_aif(struct aac_softc *sc, struct aac_aif_command *aif)
{
switch(aif->command) {
case AifCmdEventNotify:
device_printf(sc->aac_dev, "EventNotify(%d)\n", aif->seqNumber);
switch(aif->data.EN.type) {
case AifEnGeneric: /* Generic notification */
device_printf(sc->aac_dev, "(Generic) %.*s\n",
(int)sizeof(aif->data.EN.data.EG),
aif->data.EN.data.EG.text);
break;
case AifEnTaskComplete: /* Task has completed */
device_printf(sc->aac_dev, "(TaskComplete)\n");
break;
case AifEnConfigChange: /* Adapter configuration change
* occurred */
device_printf(sc->aac_dev, "(ConfigChange)\n");
break;
case AifEnContainerChange: /* Adapter specific container
* configuration change */
device_printf(sc->aac_dev, "(ContainerChange) "
"container %d,%d\n",
aif->data.EN.data.ECC.container[0],
aif->data.EN.data.ECC.container[1]);
break;
case AifEnDeviceFailure: /* SCSI device failed */
device_printf(sc->aac_dev, "(DeviceFailure) "
"handle %d\n",
aif->data.EN.data.EDF.deviceHandle);
break;
case AifEnMirrorFailover: /* Mirror failover started */
device_printf(sc->aac_dev, "(MirrorFailover) "
"container %d failed, "
"migrating from slice %d to %d\n",
aif->data.EN.data.EMF.container,
aif->data.EN.data.EMF.failedSlice,
aif->data.EN.data.EMF.creatingSlice);
break;
case AifEnContainerEvent: /* Significant container
* event */
device_printf(sc->aac_dev, "(ContainerEvent) "
"container %d event "
"%d\n", aif->data.EN.data.ECE.container,
aif->data.EN.data.ECE.eventType);
break;
case AifEnFileSystemChange: /* File system changed */
device_printf(sc->aac_dev, "(FileSystemChange)\n");
break;
case AifEnConfigPause: /* Container pause event */
device_printf(sc->aac_dev, "(ConfigPause)\n");
break;
case AifEnConfigResume: /* Container resume event */
device_printf(sc->aac_dev, "(ConfigResume)\n");
break;
case AifEnFailoverChange: /* Failover space assignment
* changed */
device_printf(sc->aac_dev, "(FailoverChange)\n");
break;
case AifEnRAID5RebuildDone: /* RAID5 rebuild finished */
device_printf(sc->aac_dev, "(RAID5RebuildDone)\n");
break;
case AifEnEnclosureManagement: /* Enclosure management event */
device_printf(sc->aac_dev, "(EnclosureManagement) "
"EMPID %d unit %d "
"event %d\n", aif->data.EN.data.EEE.empID,
aif->data.EN.data.EEE.unitID,
aif->data.EN.data.EEE.eventType);
break;
case AifEnBatteryEvent: /* Significant NV battery
* event */
device_printf(sc->aac_dev, "(BatteryEvent) %d "
"(state was %d, is %d\n",
aif->data.EN.data.EBE.transition_type,
aif->data.EN.data.EBE.current_state,
aif->data.EN.data.EBE.prior_state);
break;
case AifEnAddContainer: /* A new container was
* created. */
device_printf(sc->aac_dev, "(AddContainer)\n");
break;
case AifEnDeleteContainer: /* A container was deleted. */
device_printf(sc->aac_dev, "(DeleteContainer)\n");
break;
case AifEnBatteryNeedsRecond: /* The battery needs
* reconditioning */
device_printf(sc->aac_dev, "(BatteryNeedsRecond)\n");
break;
case AifEnClusterEvent: /* Some cluster event */
device_printf(sc->aac_dev, "(ClusterEvent) event %d\n",
aif->data.EN.data.ECLE.eventType);
break;
case AifEnDiskSetEvent: /* A disk set event occured. */
device_printf(sc->aac_dev, "(DiskSetEvent) event %d "
"diskset %jd creator %jd\n",
aif->data.EN.data.EDS.eventType,
(intmax_t)aif->data.EN.data.EDS.DsNum,
(intmax_t)aif->data.EN.data.EDS.CreatorId);
break;
case AifDenMorphComplete: /* A morph operation
* completed */
device_printf(sc->aac_dev, "(MorphComplete)\n");
break;
case AifDenVolumeExtendComplete: /* A volume expand operation
* completed */
device_printf(sc->aac_dev, "(VolumeExtendComplete)\n");
break;
default:
device_printf(sc->aac_dev, "(%d)\n", aif->data.EN.type);
break;
}
break;
case AifCmdJobProgress:
{
char *status;
switch(aif->data.PR[0].status) {
case AifJobStsSuccess:
status = "success"; break;
case AifJobStsFinished:
status = "finished"; break;
case AifJobStsAborted:
status = "aborted"; break;
case AifJobStsFailed:
status = "failed"; break;
case AifJobStsSuspended:
status = "suspended"; break;
case AifJobStsRunning:
status = "running"; break;
default:
status = "unknown status"; break;
}
device_printf(sc->aac_dev, "JobProgress (%d) - %s (%d, %d)\n",
aif->seqNumber, status,
aif->data.PR[0].currentTick,
aif->data.PR[0].finalTick);
switch(aif->data.PR[0].jd.type) {
case AifJobScsiZero: /* SCSI dev clear operation */
device_printf(sc->aac_dev, "(ScsiZero) handle %d\n",
aif->data.PR[0].jd.client.scsi_dh);
break;
case AifJobScsiVerify: /* SCSI device Verify operation
* NO REPAIR */
device_printf(sc->aac_dev, "(ScsiVerify) handle %d\n",
aif->data.PR[0].jd.client.scsi_dh);
break;
case AifJobScsiExercise: /* SCSI device Exercise
* operation */
device_printf(sc->aac_dev, "(ScsiExercise) handle %d\n",
aif->data.PR[0].jd.client.scsi_dh);
break;
case AifJobScsiVerifyRepair: /* SCSI device Verify operation
* WITH repair */
device_printf(sc->aac_dev,
"(ScsiVerifyRepair) handle %d\n",
aif->data.PR[0].jd.client.scsi_dh);
break;
case AifJobCtrZero: /* Container clear operation */
device_printf(sc->aac_dev,
"(ContainerZero) container %d\n",
aif->data.PR[0].jd.client.container.src);
break;
case AifJobCtrCopy: /* Container copy operation */
device_printf(sc->aac_dev,
"(ContainerCopy) container %d to %d\n",
aif->data.PR[0].jd.client.container.src,
aif->data.PR[0].jd.client.container.dst);
break;
case AifJobCtrCreateMirror: /* Container Create Mirror
* operation */
device_printf(sc->aac_dev,
"(ContainerCreateMirror) container %d\n",
aif->data.PR[0].jd.client.container.src);
/* XXX two containers? */
break;
case AifJobCtrMergeMirror: /* Container Merge Mirror
* operation */
device_printf(sc->aac_dev,
"(ContainerMergeMirror) container %d\n",
aif->data.PR[0].jd.client.container.src);
/* XXX two containers? */
break;
case AifJobCtrScrubMirror: /* Container Scrub Mirror
* operation */
device_printf(sc->aac_dev,
"(ContainerScrubMirror) container %d\n",
aif->data.PR[0].jd.client.container.src);
break;
case AifJobCtrRebuildRaid5: /* Container Rebuild Raid5
* operation */
device_printf(sc->aac_dev,
"(ContainerRebuildRaid5) container %d\n",
aif->data.PR[0].jd.client.container.src);
break;
case AifJobCtrScrubRaid5: /* Container Scrub Raid5
* operation */
device_printf(sc->aac_dev,
"(ContainerScrubRaid5) container %d\n",
aif->data.PR[0].jd.client.container.src);
break;
case AifJobCtrMorph: /* Container morph operation */
device_printf(sc->aac_dev,
"(ContainerMorph) container %d\n",
aif->data.PR[0].jd.client.container.src);
/* XXX two containers? */
break;
case AifJobCtrPartCopy: /* Container Partition copy
* operation */
device_printf(sc->aac_dev,
"(ContainerPartCopy) container %d to "
"%d\n",
aif->data.PR[0].jd.client.container.src,
aif->data.PR[0].jd.client.container.dst);
break;
case AifJobCtrRebuildMirror: /* Container Rebuild Mirror
* operation */
device_printf(sc->aac_dev,
"(ContainerRebuildMirror) container "
"%d\n",
aif->data.PR[0].jd.client.container.src);
break;
case AifJobCtrCrazyCache: /* crazy cache */
device_printf(sc->aac_dev,
"(ContainerCrazyCache) container %d\n",
aif->data.PR[0].jd.client.container.src);
/* XXX two containers? */
break;
case AifJobFsCreate: /* File System Create
* operation */
device_printf(sc->aac_dev, "(FsCreate)\n");
break;
case AifJobFsVerify: /* File System Verify
* operation */
device_printf(sc->aac_dev, "(FsVerivy)\n");
break;
case AifJobFsExtend: /* File System Extend
* operation */
device_printf(sc->aac_dev, "(FsExtend)\n");
break;
case AifJobApiFormatNTFS: /* Format a drive to NTFS */
device_printf(sc->aac_dev, "(FormatNTFS)\n");
break;
case AifJobApiFormatFAT: /* Format a drive to FAT */
device_printf(sc->aac_dev, "(FormatFAT)\n");
break;
case AifJobApiUpdateSnapshot: /* update the read/write half
* of a snapshot */
device_printf(sc->aac_dev, "(UpdateSnapshot)\n");
break;
case AifJobApiFormatFAT32: /* Format a drive to FAT32 */
device_printf(sc->aac_dev, "(FormatFAT32)\n");
break;
case AifJobCtlContinuousCtrVerify: /* Adapter operation */
device_printf(sc->aac_dev, "(ContinuousCtrVerify)\n");
break;
default:
device_printf(sc->aac_dev, "(%d)\n",
aif->data.PR[0].jd.type);
break;
}
break;
}
case AifCmdAPIReport:
device_printf(sc->aac_dev, "APIReport (%d)\n", aif->seqNumber);
break;
case AifCmdDriverNotify:
device_printf(sc->aac_dev, "DriverNotify (%d)\n",
aif->seqNumber);
break;
default:
device_printf(sc->aac_dev, "AIF %d (%d)\n", aif->command,
aif->seqNumber);
break;
}
}
#endif /* AAC_DEBUG */
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