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|
/*
* scsi_error.c Copyright (C) 1997 Eric Youngdale
*
* SCSI error/timeout handling
* Initial versions: Eric Youngdale. Based upon conversations with
* Leonard Zubkoff and David Miller at Linux Expo,
* ideas originating from all over the place.
*
*/
#define __NO_VERSION__
#include <linux/module.h>
#include <linux/sched.h>
#include <linux/timer.h>
#include <linux/string.h>
#include <linux/malloc.h>
#include <linux/ioport.h>
#include <linux/kernel.h>
#include <linux/stat.h>
#include <linux/blk.h>
#include <linux/interrupt.h>
#include <linux/delay.h>
#include <linux/smp_lock.h>
#define __KERNEL_SYSCALLS__
#include <linux/unistd.h>
#include <asm/system.h>
#include <asm/irq.h>
#include <asm/dma.h>
#include "scsi.h"
#include "hosts.h"
#include "constants.h"
/*
* We must always allow SHUTDOWN_SIGS. Even if we are not a module,
* the host drivers that we are using may be loaded as modules, and
* when we unload these, we need to ensure that the error handler thread
* can be shut down.
*
* Note - when we unload a module, we send a SIGHUP. We mustn't
* enable SIGTERM, as this is how the init shuts things down when you
* go to single-user mode. For that matter, init also sends SIGKILL,
* so we mustn't enable that one either. We use SIGHUP instead. Other
* options would be SIGPWR, I suppose.
*/
#define SHUTDOWN_SIGS (sigmask(SIGHUP))
#ifdef DEBUG
#define SENSE_TIMEOUT SCSI_TIMEOUT
#define ABORT_TIMEOUT SCSI_TIMEOUT
#define RESET_TIMEOUT SCSI_TIMEOUT
#else
#define SENSE_TIMEOUT (10*HZ)
#define RESET_TIMEOUT (2*HZ)
#define ABORT_TIMEOUT (15*HZ)
#endif
#define STATIC
/*
* These should *probably* be handled by the host itself.
* Since it is allowed to sleep, it probably should.
*/
#define BUS_RESET_SETTLE_TIME 5*HZ
#define HOST_RESET_SETTLE_TIME 10*HZ
static const char RCSid[] = "$Header: /mnt/ide/home/eric/CVSROOT/linux/drivers/scsi/scsi_error.c,v 1.10 1997/12/08 04:50:35 eric Exp $";
STATIC int scsi_check_sense(Scsi_Cmnd * SCpnt);
STATIC int scsi_request_sense(Scsi_Cmnd *);
STATIC void scsi_send_eh_cmnd(Scsi_Cmnd * SCpnt, int timeout);
STATIC int scsi_try_to_abort_command(Scsi_Cmnd *, int);
STATIC int scsi_test_unit_ready(Scsi_Cmnd *);
STATIC int scsi_try_bus_device_reset(Scsi_Cmnd *, int timeout);
STATIC int scsi_try_bus_reset(Scsi_Cmnd *);
STATIC int scsi_try_host_reset(Scsi_Cmnd *);
STATIC int scsi_unit_is_ready(Scsi_Cmnd *);
STATIC void scsi_eh_action_done(Scsi_Cmnd *, int);
STATIC int scsi_eh_retry_command(Scsi_Cmnd *);
STATIC int scsi_eh_completed_normally(Scsi_Cmnd * SCpnt);
STATIC void scsi_restart_operations(struct Scsi_Host *);
STATIC void scsi_eh_finish_command(Scsi_Cmnd ** SClist, Scsi_Cmnd * SCpnt);
/*
* Function: scsi_add_timer()
*
* Purpose: Start timeout timer for a single scsi command.
*
* Arguments: SCset - command that is about to start running.
* timeout - amount of time to allow this command to run.
* complete - timeout function to call if timer isn't
* canceled.
*
* Returns: Nothing
*
* Notes: This should be turned into an inline function.
*
* More Notes: Each scsi command has it's own timer, and as it is added to
* the queue, we set up the timer. When the command completes,
* we cancel the timer. Pretty simple, really, especially
* compared to the old way of handling this crap.
*/
void scsi_add_timer(Scsi_Cmnd * SCset,
int timeout,
void (*complete) (Scsi_Cmnd *))
{
/*
* If the clock was already running for this command, then
* first delete the timer. The timer handling code gets rather
* confused if we don't do this.
*/
if (SCset->eh_timeout.function != NULL) {
del_timer(&SCset->eh_timeout);
}
SCset->eh_timeout.data = (unsigned long) SCset;
SCset->eh_timeout.expires = jiffies + timeout;
SCset->eh_timeout.function = (void (*)(unsigned long)) complete;
SCset->done_late = 0;
SCSI_LOG_ERROR_RECOVERY(5, printk("Adding timer for command %p at %d (%p)\n", SCset, timeout, complete));
add_timer(&SCset->eh_timeout);
}
/*
* Function: scsi_delete_timer()
*
* Purpose: Delete/cancel timer for a given function.
*
* Arguments: SCset - command that we are canceling timer for.
*
* Returns: 1 if we were able to detach the timer. 0 if we
* blew it, and the timer function has already started
* to run.
*
* Notes: This should be turned into an inline function.
*/
int scsi_delete_timer(Scsi_Cmnd * SCset)
{
int rtn;
rtn = del_timer(&SCset->eh_timeout);
SCSI_LOG_ERROR_RECOVERY(5, printk("Clearing timer for command %p %d\n", SCset, rtn));
SCset->eh_timeout.data = (unsigned long) NULL;
SCset->eh_timeout.function = NULL;
return rtn;
}
/*
* Function: scsi_times_out()
*
* Purpose: Timeout function for normal scsi commands..
*
* Arguments: SCpnt - command that is timing out.
*
* Returns: Nothing.
*
* Notes: We do not need to lock this. There is the potential for
* a race only in that the normal completion handling might
* run, but if the normal completion function determines
* that the timer has already fired, then it mustn't do
* anything.
*/
void scsi_times_out(Scsi_Cmnd * SCpnt)
{
/*
* Notify the low-level code that this operation failed and we are
* reposessing the command.
*/
#ifdef ERIC_neverdef
/*
* FIXME(eric)
* Allow the host adapter to push a queue ordering tag
* out to the bus to force the command in question to complete.
* If the host wants to do this, then we just restart the timer
* for the command. Before we really do this, some real thought
* as to the optimum way to handle this should be done. We *do*
* need to force ordering every so often to ensure that all requests
* do eventually complete, but I am not sure if this is the best way
* to actually go about it.
*
* Better yet, force a sync here, but don't block since we are in an
* interrupt.
*/
if (SCpnt->host->hostt->eh_ordered_queue_tag) {
if ((*SCpnt->host->hostt->eh_ordered_queue_tag) (SCpnt)) {
scsi_add_timer(SCpnt, SCpnt->internal_timeout,
scsi_times_out);
return;
}
}
/*
* FIXME(eric) - add a second special interface to handle this
* case. Ideally that interface can also be used to request
* a queu
*/
if (SCpnt->host->can_queue) {
SCpnt->host->hostt->queuecommand(SCpnt, NULL);
}
#endif
/* Set the serial_number_at_timeout to the current serial_number */
SCpnt->serial_number_at_timeout = SCpnt->serial_number;
SCpnt->eh_state = FAILED;
SCpnt->state = SCSI_STATE_TIMEOUT;
SCpnt->owner = SCSI_OWNER_ERROR_HANDLER;
SCpnt->host->in_recovery = 1;
SCpnt->host->host_failed++;
SCSI_LOG_TIMEOUT(3, printk("Command timed out active=%d busy=%d failed=%d\n",
atomic_read(&SCpnt->host->host_active),
SCpnt->host->host_busy,
SCpnt->host->host_failed));
/*
* If the host is having troubles, then look to see if this was the last
* command that might have failed. If so, wake up the error handler.
*/
if( SCpnt->host->eh_wait == NULL ) {
panic("Error handler thread not present at %p %p %s %d",
SCpnt, SCpnt->host, __FILE__, __LINE__);
}
if (SCpnt->host->host_busy == SCpnt->host->host_failed) {
up(SCpnt->host->eh_wait);
}
}
/*
* Function scsi_block_when_processing_errors
*
* Purpose: Prevent more commands from being queued while error recovery
* is taking place.
*
* Arguments: SDpnt - device on which we are performing recovery.
*
* Returns: FALSE The device was taken offline by error recovery.
* TRUE OK to proceed.
*
* Notes: We block until the host is out of error recovery, and then
* check to see whether the host or the device is offline.
*/
int scsi_block_when_processing_errors(Scsi_Device * SDpnt)
{
SCSI_SLEEP(&SDpnt->host->host_wait, SDpnt->host->in_recovery);
SCSI_LOG_ERROR_RECOVERY(5, printk("Open returning %d\n", SDpnt->online));
return SDpnt->online;
}
/*
* Function: scsi_eh_times_out()
*
* Purpose: Timeout function for error handling.
*
* Arguments: SCpnt - command that is timing out.
*
* Returns: Nothing.
*
* Notes: During error handling, the kernel thread will be sleeping
* waiting for some action to complete on the device. Our only
* job is to record that it timed out, and to wake up the
* thread.
*/
STATIC
void scsi_eh_times_out(Scsi_Cmnd * SCpnt)
{
unsigned long flags;
int rtn = FAILED;
SCpnt->eh_state = SCSI_STATE_TIMEOUT;
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
/*
* As far as the low level driver is concerned, this command is still
* active, so we must give the low level driver a chance to abort it. (DB)
*/
spin_lock_irqsave(&io_request_lock, flags);
if (SCpnt->host->hostt->eh_abort_handler)
rtn = SCpnt->host->hostt->eh_abort_handler(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
SCpnt->request.rq_status = RQ_SCSI_DONE;
SCpnt->owner = SCSI_OWNER_ERROR_HANDLER;
SCSI_LOG_ERROR_RECOVERY(5, printk("In scsi_eh_times_out %p\n", SCpnt));
if (SCpnt->host->eh_action != NULL)
up(SCpnt->host->eh_action);
else
printk("Missing scsi error handler thread\n");
}
/*
* Function: scsi_eh_done()
*
* Purpose: Completion function for error handling.
*
* Arguments: SCpnt - command that is timing out.
*
* Returns: Nothing.
*
* Notes: During error handling, the kernel thread will be sleeping
* waiting for some action to complete on the device. Our only
* job is to record that the action completed, and to wake up the
* thread.
*/
STATIC
void scsi_eh_done(Scsi_Cmnd * SCpnt)
{
int rtn;
/*
* If the timeout handler is already running, then just set the
* flag which says we finished late, and return. We have no
* way of stopping the timeout handler from running, so we must
* always defer to it.
*/
rtn = del_timer(&SCpnt->eh_timeout);
if (!rtn) {
SCpnt->done_late = 1;
return;
}
SCpnt->request.rq_status = RQ_SCSI_DONE;
SCpnt->owner = SCSI_OWNER_ERROR_HANDLER;
SCpnt->eh_state = SUCCESS;
SCSI_LOG_ERROR_RECOVERY(5, printk("In eh_done %p result:%x\n", SCpnt,
SCpnt->result));
if (SCpnt->host->eh_action != NULL)
up(SCpnt->host->eh_action);
}
/*
* Function: scsi_eh_action_done()
*
* Purpose: Completion function for error handling.
*
* Arguments: SCpnt - command that is timing out.
* answer - boolean that indicates whether operation succeeded.
*
* Returns: Nothing.
*
* Notes: This callback is only used for abort and reset operations.
*/
STATIC
void scsi_eh_action_done(Scsi_Cmnd * SCpnt, int answer)
{
SCpnt->request.rq_status = RQ_SCSI_DONE;
SCpnt->owner = SCSI_OWNER_ERROR_HANDLER;
SCpnt->eh_state = (answer ? SUCCESS : FAILED);
if (SCpnt->host->eh_action != NULL)
up(SCpnt->host->eh_action);
}
/*
* Function: scsi_sense_valid()
*
* Purpose: Determine whether a host has automatically obtained sense
* information or not. If we have it, then give a recommendation
* as to what we should do next.
*/
int scsi_sense_valid(Scsi_Cmnd * SCpnt)
{
if (((SCpnt->sense_buffer[0] & 0x70) >> 4) != 7) {
return FALSE;
}
return TRUE;
}
/*
* Function: scsi_eh_retry_command()
*
* Purpose: Retry the original command
*
* Returns: SUCCESS - we were able to get the sense data.
* FAILED - we were not able to get the sense data.
*
* Notes: This function will *NOT* return until the command either
* times out, or it completes.
*/
STATIC int scsi_eh_retry_command(Scsi_Cmnd * SCpnt)
{
memcpy((void *) SCpnt->cmnd, (void *) SCpnt->data_cmnd,
sizeof(SCpnt->data_cmnd));
SCpnt->request_buffer = SCpnt->buffer;
SCpnt->request_bufflen = SCpnt->bufflen;
SCpnt->use_sg = SCpnt->old_use_sg;
SCpnt->cmd_len = SCpnt->old_cmd_len;
SCpnt->sc_data_direction = SCpnt->sc_old_data_direction;
SCpnt->underflow = SCpnt->old_underflow;
scsi_send_eh_cmnd(SCpnt, SCpnt->timeout_per_command);
/*
* Hey, we are done. Let's look to see what happened.
*/
return SCpnt->eh_state;
}
/*
* Function: scsi_request_sense()
*
* Purpose: Request sense data from a particular target.
*
* Returns: SUCCESS - we were able to get the sense data.
* FAILED - we were not able to get the sense data.
*
* Notes: Some hosts automatically obtain this information, others
* require that we obtain it on our own.
*
* This function will *NOT* return until the command either
* times out, or it completes.
*/
STATIC int scsi_request_sense(Scsi_Cmnd * SCpnt)
{
static unsigned char generic_sense[6] =
{REQUEST_SENSE, 0, 0, 0, 255, 0};
unsigned char scsi_result0[256], *scsi_result = NULL;
ASSERT_LOCK(&io_request_lock, 0);
memcpy((void *) SCpnt->cmnd, (void *) generic_sense,
sizeof(generic_sense));
SCpnt->cmnd[1] = SCpnt->lun << 5;
scsi_result = (!SCpnt->host->hostt->unchecked_isa_dma)
? &scsi_result0[0] : kmalloc(512, GFP_ATOMIC | GFP_DMA);
if (scsi_result == NULL) {
printk("cannot allocate scsi_result in scsi_request_sense.\n");
return FAILED;
}
/*
* Zero the sense buffer. Some host adapters automatically always request
* sense, so it is not a good idea that SCpnt->request_buffer and
* SCpnt->sense_buffer point to the same address (DB).
* 0 is not a valid sense code.
*/
memset((void *) SCpnt->sense_buffer, 0, sizeof(SCpnt->sense_buffer));
memset((void *) scsi_result, 0, 256);
SCpnt->request_buffer = scsi_result;
SCpnt->request_bufflen = 256;
SCpnt->use_sg = 0;
SCpnt->cmd_len = COMMAND_SIZE(SCpnt->cmnd[0]);
SCpnt->sc_data_direction = SCSI_DATA_READ;
SCpnt->underflow = 0;
scsi_send_eh_cmnd(SCpnt, SENSE_TIMEOUT);
/* Last chance to have valid sense data */
if (!scsi_sense_valid(SCpnt))
memcpy((void *) SCpnt->sense_buffer,
SCpnt->request_buffer,
sizeof(SCpnt->sense_buffer));
if (scsi_result != &scsi_result0[0] && scsi_result != NULL)
kfree(scsi_result);
/*
* When we eventually call scsi_finish, we really wish to complete
* the original request, so let's restore the original data. (DB)
*/
memcpy((void *) SCpnt->cmnd, (void *) SCpnt->data_cmnd,
sizeof(SCpnt->data_cmnd));
SCpnt->request_buffer = SCpnt->buffer;
SCpnt->request_bufflen = SCpnt->bufflen;
SCpnt->use_sg = SCpnt->old_use_sg;
SCpnt->cmd_len = SCpnt->old_cmd_len;
SCpnt->sc_data_direction = SCpnt->sc_old_data_direction;
SCpnt->underflow = SCpnt->old_underflow;
/*
* Hey, we are done. Let's look to see what happened.
*/
return SCpnt->eh_state;
}
/*
* Function: scsi_test_unit_ready()
*
* Purpose: Run test unit ready command to see if the device is talking to us or not.
*
*/
STATIC int scsi_test_unit_ready(Scsi_Cmnd * SCpnt)
{
static unsigned char tur_command[6] =
{TEST_UNIT_READY, 0, 0, 0, 0, 0};
unsigned char scsi_result0[256], *scsi_result = NULL;
memcpy((void *) SCpnt->cmnd, (void *) tur_command,
sizeof(tur_command));
SCpnt->cmnd[1] = SCpnt->lun << 5;
scsi_result = (!SCpnt->host->hostt->unchecked_isa_dma)
? &scsi_result0[0] : kmalloc(512, GFP_ATOMIC | GFP_DMA);
if (scsi_result == NULL) {
printk("cannot allocate scsi_result in scsi_test_unit_ready.\n");
return FAILED;
}
/*
* Zero the sense buffer. Some host adapters automatically always request
* sense, so it is not a good idea that SCpnt->request_buffer and
* SCpnt->sense_buffer point to the same address (DB).
* 0 is not a valid sense code.
*/
memset((void *) SCpnt->sense_buffer, 0, sizeof(SCpnt->sense_buffer));
memset((void *) scsi_result, 0, 256);
SCpnt->request_buffer = scsi_result;
SCpnt->request_bufflen = 256;
SCpnt->use_sg = 0;
SCpnt->cmd_len = COMMAND_SIZE(SCpnt->cmnd[0]);
SCpnt->underflow = 0;
SCpnt->sc_data_direction = SCSI_DATA_NONE;
scsi_send_eh_cmnd(SCpnt, SENSE_TIMEOUT);
/* Last chance to have valid sense data */
if (!scsi_sense_valid(SCpnt))
memcpy((void *) SCpnt->sense_buffer,
SCpnt->request_buffer,
sizeof(SCpnt->sense_buffer));
if (scsi_result != &scsi_result0[0] && scsi_result != NULL)
kfree(scsi_result);
/*
* When we eventually call scsi_finish, we really wish to complete
* the original request, so let's restore the original data. (DB)
*/
memcpy((void *) SCpnt->cmnd, (void *) SCpnt->data_cmnd,
sizeof(SCpnt->data_cmnd));
SCpnt->request_buffer = SCpnt->buffer;
SCpnt->request_bufflen = SCpnt->bufflen;
SCpnt->use_sg = SCpnt->old_use_sg;
SCpnt->cmd_len = SCpnt->old_cmd_len;
SCpnt->sc_data_direction = SCpnt->sc_old_data_direction;
SCpnt->underflow = SCpnt->old_underflow;
/*
* Hey, we are done. Let's look to see what happened.
*/
return SCpnt->eh_state;
}
/*
* This would normally need to get the IO request lock,
* but as it doesn't actually touch anything that needs
* to be locked we can avoid the lock here..
*/
STATIC
void scsi_sleep_done(struct semaphore *sem)
{
if (sem != NULL) {
up(sem);
}
}
void scsi_sleep(int timeout)
{
DECLARE_MUTEX_LOCKED(sem);
struct timer_list timer;
init_timer(&timer);
timer.data = (unsigned long) &sem;
timer.expires = jiffies + timeout;
timer.function = (void (*)(unsigned long)) scsi_sleep_done;
SCSI_LOG_ERROR_RECOVERY(5, printk("Sleeping for timer tics %d\n", timeout));
add_timer(&timer);
down(&sem);
del_timer(&timer);
}
/*
* Function: scsi_send_eh_cmnd
*
* Purpose: Send a command out to a device as part of error recovery.
*
* Notes: The initialization of the structures is quite a bit different
* in this case, and furthermore, there is a different completion
* handler.
*/
STATIC void scsi_send_eh_cmnd(Scsi_Cmnd * SCpnt, int timeout)
{
unsigned long flags;
struct Scsi_Host *host;
ASSERT_LOCK(&io_request_lock, 0);
host = SCpnt->host;
retry:
/*
* We will use a queued command if possible, otherwise we will emulate the
* queuing and calling of completion function ourselves.
*/
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
if (host->can_queue) {
DECLARE_MUTEX_LOCKED(sem);
SCpnt->eh_state = SCSI_STATE_QUEUED;
scsi_add_timer(SCpnt, timeout, scsi_eh_times_out);
/*
* Set up the semaphore so we wait for the command to complete.
*/
SCpnt->host->eh_action = &sem;
SCpnt->request.rq_status = RQ_SCSI_BUSY;
spin_lock_irqsave(&io_request_lock, flags);
host->hostt->queuecommand(SCpnt, scsi_eh_done);
spin_unlock_irqrestore(&io_request_lock, flags);
down(&sem);
SCpnt->host->eh_action = NULL;
/*
* See if timeout. If so, tell the host to forget about it.
* In other words, we don't want a callback any more.
*/
if (SCpnt->eh_state == SCSI_STATE_TIMEOUT) {
SCpnt->eh_state = FAILED;
}
SCSI_LOG_ERROR_RECOVERY(5, printk("send_eh_cmnd: %p eh_state:%x\n",
SCpnt, SCpnt->eh_state));
} else {
int temp;
/*
* We damn well had better never use this code. There is no timeout
* protection here, since we would end up waiting in the actual low
* level driver, we don't know how to wake it up.
*/
spin_lock_irqsave(&io_request_lock, flags);
temp = host->hostt->command(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
SCpnt->result = temp;
if (scsi_eh_completed_normally(SCpnt)) {
SCpnt->eh_state = SUCCESS;
} else {
SCpnt->eh_state = FAILED;
}
}
/*
* Now examine the actual status codes to see whether the command actually
* did complete normally.
*/
if (SCpnt->eh_state == SUCCESS) {
switch (scsi_eh_completed_normally(SCpnt)) {
case SUCCESS:
SCpnt->eh_state = SUCCESS;
break;
case NEEDS_RETRY:
goto retry;
case FAILED:
default:
SCpnt->eh_state = FAILED;
break;
}
} else {
SCpnt->eh_state = FAILED;
}
}
/*
* Function: scsi_unit_is_ready()
*
* Purpose: Called after TEST_UNIT_READY is run, to test to see if
* the unit responded in a way that indicates it is ready.
*/
STATIC int scsi_unit_is_ready(Scsi_Cmnd * SCpnt)
{
if (SCpnt->result) {
if (((driver_byte(SCpnt->result) & DRIVER_SENSE) ||
(status_byte(SCpnt->result) & CHECK_CONDITION)) &&
((SCpnt->sense_buffer[0] & 0x70) >> 4) == 7) {
if (((SCpnt->sense_buffer[2] & 0xf) != NOT_READY) &&
((SCpnt->sense_buffer[2] & 0xf) != UNIT_ATTENTION) &&
((SCpnt->sense_buffer[2] & 0xf) != ILLEGAL_REQUEST)) {
return 0;
}
}
}
return 1;
}
/*
* Function: scsi_eh_finish_command
*
* Purpose: Handle a command that we are finished with WRT error handling.
*
* Arguments: SClist - pointer to list into which we are putting completed commands.
* SCpnt - command that is completing
*
* Notes: We don't want to use the normal command completion while we are
* are still handling errors - it may cause other commands to be queued,
* and that would disturb what we are doing. Thus we really want to keep
* a list of pending commands for final completion, and once we
* are ready to leave error handling we handle completion for real.
*/
STATIC void scsi_eh_finish_command(Scsi_Cmnd ** SClist, Scsi_Cmnd * SCpnt)
{
SCpnt->state = SCSI_STATE_BHQUEUE;
SCpnt->bh_next = *SClist;
/*
* Set this back so that the upper level can correctly free up
* things.
*/
SCpnt->use_sg = SCpnt->old_use_sg;
SCpnt->sc_data_direction = SCpnt->sc_old_data_direction;
SCpnt->underflow = SCpnt->old_underflow;
*SClist = SCpnt;
}
/*
* Function: scsi_try_to_abort_command
*
* Purpose: Ask host adapter to abort a running command.
*
* Returns: FAILED Operation failed or not supported.
* SUCCESS Succeeded.
*
* Notes: This function will not return until the user's completion
* function has been called. There is no timeout on this
* operation. If the author of the low-level driver wishes
* this operation to be timed, they can provide this facility
* themselves. Helper functions in scsi_error.c can be supplied
* to make this easier to do.
*
* Notes: It may be possible to combine this with all of the reset
* handling to eliminate a lot of code duplication. I don't
* know what makes more sense at the moment - this is just a
* prototype.
*/
STATIC int scsi_try_to_abort_command(Scsi_Cmnd * SCpnt, int timeout)
{
int rtn;
unsigned long flags;
SCpnt->eh_state = FAILED; /* Until we come up with something better */
if (SCpnt->host->hostt->eh_abort_handler == NULL) {
return FAILED;
}
/*
* scsi_done was called just after the command timed out and before
* we had a chance to process it. (DB)
*/
if (SCpnt->serial_number == 0)
return SUCCESS;
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
spin_lock_irqsave(&io_request_lock, flags);
rtn = SCpnt->host->hostt->eh_abort_handler(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
return rtn;
}
/*
* Function: scsi_try_bus_device_reset
*
* Purpose: Ask host adapter to perform a bus device reset for a given
* device.
*
* Returns: FAILED Operation failed or not supported.
* SUCCESS Succeeded.
*
* Notes: There is no timeout for this operation. If this operation is
* unreliable for a given host, then the host itself needs to put a
* timer on it, and set the host back to a consistent state prior
* to returning.
*/
STATIC int scsi_try_bus_device_reset(Scsi_Cmnd * SCpnt, int timeout)
{
unsigned long flags;
int rtn;
SCpnt->eh_state = FAILED; /* Until we come up with something better */
if (SCpnt->host->hostt->eh_device_reset_handler == NULL) {
return FAILED;
}
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
spin_lock_irqsave(&io_request_lock, flags);
rtn = SCpnt->host->hostt->eh_device_reset_handler(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
if (rtn == SUCCESS)
SCpnt->eh_state = SUCCESS;
return SCpnt->eh_state;
}
/*
* Function: scsi_try_bus_reset
*
* Purpose: Ask host adapter to perform a bus reset for a host.
*
* Returns: FAILED Operation failed or not supported.
* SUCCESS Succeeded.
*
* Notes:
*/
STATIC int scsi_try_bus_reset(Scsi_Cmnd * SCpnt)
{
unsigned long flags;
int rtn;
SCpnt->eh_state = FAILED; /* Until we come up with something better */
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
SCpnt->serial_number_at_timeout = SCpnt->serial_number;
if (SCpnt->host->hostt->eh_bus_reset_handler == NULL) {
return FAILED;
}
spin_lock_irqsave(&io_request_lock, flags);
rtn = SCpnt->host->hostt->eh_bus_reset_handler(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
if (rtn == SUCCESS)
SCpnt->eh_state = SUCCESS;
/*
* If we had a successful bus reset, mark the command blocks to expect
* a condition code of unit attention.
*/
scsi_sleep(BUS_RESET_SETTLE_TIME);
if (SCpnt->eh_state == SUCCESS) {
Scsi_Device *SDloop;
for (SDloop = SCpnt->host->host_queue; SDloop; SDloop = SDloop->next) {
if (SCpnt->channel == SDloop->channel) {
SDloop->was_reset = 1;
SDloop->expecting_cc_ua = 1;
}
}
}
return SCpnt->eh_state;
}
/*
* Function: scsi_try_host_reset
*
* Purpose: Ask host adapter to reset itself, and the bus.
*
* Returns: FAILED Operation failed or not supported.
* SUCCESS Succeeded.
*
* Notes:
*/
STATIC int scsi_try_host_reset(Scsi_Cmnd * SCpnt)
{
unsigned long flags;
int rtn;
SCpnt->eh_state = FAILED; /* Until we come up with something better */
SCpnt->owner = SCSI_OWNER_LOWLEVEL;
SCpnt->serial_number_at_timeout = SCpnt->serial_number;
if (SCpnt->host->hostt->eh_host_reset_handler == NULL) {
return FAILED;
}
spin_lock_irqsave(&io_request_lock, flags);
rtn = SCpnt->host->hostt->eh_host_reset_handler(SCpnt);
spin_unlock_irqrestore(&io_request_lock, flags);
if (rtn == SUCCESS)
SCpnt->eh_state = SUCCESS;
/*
* If we had a successful host reset, mark the command blocks to expect
* a condition code of unit attention.
*/
scsi_sleep(HOST_RESET_SETTLE_TIME);
if (SCpnt->eh_state == SUCCESS) {
Scsi_Device *SDloop;
for (SDloop = SCpnt->host->host_queue; SDloop; SDloop = SDloop->next) {
SDloop->was_reset = 1;
SDloop->expecting_cc_ua = 1;
}
}
return SCpnt->eh_state;
}
/*
* Function: scsi_decide_disposition
*
* Purpose: Examine a command block that has come back from the low-level
* and figure out what to do next.
*
* Returns: SUCCESS - pass on to upper level.
* FAILED - pass on to error handler thread.
* RETRY - command should be retried.
* SOFTERR - command succeeded, but we need to log
* a soft error.
*
* Notes: This is *ONLY* called when we are examining the status
* after sending out the actual data command. Any commands
* that are queued for error recovery (i.e. TEST_UNIT_READY)
* do *NOT* come through here.
*
* NOTE - When this routine returns FAILED, it means the error
* handler thread is woken. In cases where the error code
* indicates an error that doesn't require the error handler
* thread (i.e. we don't need to abort/reset), then this function
* should return SUCCESS.
*/
int scsi_decide_disposition(Scsi_Cmnd * SCpnt)
{
int rtn;
/*
* If the device is offline, then we clearly just pass the result back
* up to the top level.
*/
if (SCpnt->device->online == FALSE) {
SCSI_LOG_ERROR_RECOVERY(5, printk("scsi_error.c: device offline - report as SUCCESS\n"));
return SUCCESS;
}
/*
* First check the host byte, to see if there is anything in there
* that would indicate what we need to do.
*/
switch (host_byte(SCpnt->result)) {
case DID_PASSTHROUGH:
/*
* No matter what, pass this through to the upper layer.
* Nuke this special code so that it looks like we are saying
* DID_OK.
*/
SCpnt->result &= 0xff00ffff;
return SUCCESS;
case DID_OK:
/*
* Looks good. Drop through, and check the next byte.
*/
break;
case DID_NO_CONNECT:
case DID_BAD_TARGET:
case DID_ABORT:
/*
* Note - this means that we just report the status back to the
* top level driver, not that we actually think that it indicates
* success.
*/
return SUCCESS;
/*
* When the low level driver returns DID_SOFT_ERROR,
* it is responsible for keeping an internal retry counter
* in order to avoid endless loops (DB)
*
* Actually this is a bug in this function here. We should
* be mindful of the maximum number of retries specified
* and not get stuck in a loop.
*/
case DID_SOFT_ERROR:
goto maybe_retry;
case DID_BUS_BUSY:
case DID_PARITY:
case DID_ERROR:
goto maybe_retry;
case DID_TIME_OUT:
/*
* When we scan the bus, we get timeout messages for
* these commands if there is no device available.
* Other hosts report DID_NO_CONNECT for the same thing.
*/
if ((SCpnt->cmnd[0] == TEST_UNIT_READY ||
SCpnt->cmnd[0] == INQUIRY)) {
return SUCCESS;
} else {
return FAILED;
}
case DID_RESET:
/*
* In the normal case where we haven't initiated a reset, this is
* a failure.
*/
if (SCpnt->flags & IS_RESETTING) {
SCpnt->flags &= ~IS_RESETTING;
goto maybe_retry;
}
/*
* Examine the sense data to figure out how to proceed from here.
* If there is no sense data, we will be forced into the error
* handler thread, where we get to examine the thing in a lot more
* detail.
*/
return scsi_check_sense(SCpnt);
default:
return FAILED;
}
/*
* Next, check the message byte.
*/
if (msg_byte(SCpnt->result) != COMMAND_COMPLETE) {
return FAILED;
}
/*
* Now, check the status byte to see if this indicates anything special.
*/
switch (status_byte(SCpnt->result)) {
case QUEUE_FULL:
/*
* The case of trying to send too many commands to a tagged queueing
* device.
*/
return ADD_TO_MLQUEUE;
case GOOD:
case COMMAND_TERMINATED:
return SUCCESS;
case CHECK_CONDITION:
rtn = scsi_check_sense(SCpnt);
if (rtn == NEEDS_RETRY) {
goto maybe_retry;
}
return rtn;
case CONDITION_GOOD:
case INTERMEDIATE_GOOD:
case INTERMEDIATE_C_GOOD:
/*
* Who knows? FIXME(eric)
*/
return SUCCESS;
case BUSY:
case RESERVATION_CONFLICT:
goto maybe_retry;
default:
return FAILED;
}
return FAILED;
maybe_retry:
if ((++SCpnt->retries) < SCpnt->allowed) {
return NEEDS_RETRY;
} else {
/*
* No more retries - report this one back to upper level.
*/
return SUCCESS;
}
}
/*
* Function: scsi_eh_completed_normally
*
* Purpose: Examine a command block that has come back from the low-level
* and figure out what to do next.
*
* Returns: SUCCESS - pass on to upper level.
* FAILED - pass on to error handler thread.
* RETRY - command should be retried.
* SOFTERR - command succeeded, but we need to log
* a soft error.
*
* Notes: This is *ONLY* called when we are examining the status
* of commands queued during error recovery. The main
* difference here is that we don't allow for the possibility
* of retries here, and we are a lot more restrictive about what
* we consider acceptable.
*/
STATIC int scsi_eh_completed_normally(Scsi_Cmnd * SCpnt)
{
int rtn;
/*
* First check the host byte, to see if there is anything in there
* that would indicate what we need to do.
*/
if (host_byte(SCpnt->result) == DID_RESET) {
if (SCpnt->flags & IS_RESETTING) {
/*
* OK, this is normal. We don't know whether in fact the
* command in question really needs to be rerun or not -
* if this was the original data command then the answer is yes,
* otherwise we just flag it as success.
*/
SCpnt->flags &= ~IS_RESETTING;
return NEEDS_RETRY;
}
/*
* Rats. We are already in the error handler, so we now get to try
* and figure out what to do next. If the sense is valid, we have
* a pretty good idea of what to do. If not, we mark it as failed.
*/
return scsi_check_sense(SCpnt);
}
if (host_byte(SCpnt->result) != DID_OK) {
return FAILED;
}
/*
* Next, check the message byte.
*/
if (msg_byte(SCpnt->result) != COMMAND_COMPLETE) {
return FAILED;
}
/*
* Now, check the status byte to see if this indicates anything special.
*/
switch (status_byte(SCpnt->result)) {
case GOOD:
case COMMAND_TERMINATED:
return SUCCESS;
case CHECK_CONDITION:
rtn = scsi_check_sense(SCpnt);
if (rtn == NEEDS_RETRY) {
return FAILED;
}
return rtn;
case CONDITION_GOOD:
case INTERMEDIATE_GOOD:
case INTERMEDIATE_C_GOOD:
/*
* Who knows? FIXME(eric)
*/
return SUCCESS;
case BUSY:
case QUEUE_FULL:
case RESERVATION_CONFLICT:
default:
return FAILED;
}
return FAILED;
}
/*
* Function: scsi_check_sense
*
* Purpose: Examine sense information - give suggestion as to what
* we should do with it.
*/
STATIC int scsi_check_sense(Scsi_Cmnd * SCpnt)
{
if (!scsi_sense_valid(SCpnt)) {
return FAILED;
}
if (SCpnt->sense_buffer[2] & 0xe0)
return SUCCESS;
switch (SCpnt->sense_buffer[2] & 0xf) {
case NO_SENSE:
return SUCCESS;
case RECOVERED_ERROR:
return /* SOFT_ERROR */ SUCCESS;
case ABORTED_COMMAND:
return NEEDS_RETRY;
case NOT_READY:
case UNIT_ATTENTION:
/*
* If we are expecting a CC/UA because of a bus reset that we
* performed, treat this just as a retry. Otherwise this is
* information that we should pass up to the upper-level driver
* so that we can deal with it there.
*/
if (SCpnt->device->expecting_cc_ua) {
SCpnt->device->expecting_cc_ua = 0;
return NEEDS_RETRY;
}
return SUCCESS;
/* these three are not supported */
case COPY_ABORTED:
case VOLUME_OVERFLOW:
case MISCOMPARE:
return SUCCESS;
case MEDIUM_ERROR:
return NEEDS_RETRY;
case ILLEGAL_REQUEST:
case BLANK_CHECK:
case DATA_PROTECT:
case HARDWARE_ERROR:
default:
return SUCCESS;
}
}
/*
* Function: scsi_restart_operations
*
* Purpose: Restart IO operations to the specified host.
*
* Arguments: host - host that we are restarting
*
* Lock status: Assumed that locks are not held upon entry.
*
* Returns: Nothing
*
* Notes: When we entered the error handler, we blocked all further
* I/O to this device. We need to 'reverse' this process.
*/
STATIC void scsi_restart_operations(struct Scsi_Host *host)
{
Scsi_Device *SDpnt;
unsigned long flags;
ASSERT_LOCK(&io_request_lock, 0);
/*
* Next free up anything directly waiting upon the host. This will be
* requests for character device operations, and also for ioctls to queued
* block devices.
*/
SCSI_LOG_ERROR_RECOVERY(5, printk("scsi_error.c: Waking up host to restart\n"));
wake_up(&host->host_wait);
/*
* Finally we need to re-initiate requests that may be pending. We will
* have had everything blocked while error handling is taking place, and
* now that error recovery is done, we will need to ensure that these
* requests are started.
*/
spin_lock_irqsave(&io_request_lock, flags);
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
request_queue_t *q;
if ((host->can_queue > 0 && (host->host_busy >= host->can_queue))
|| (host->host_blocked)
|| (host->host_self_blocked)
|| (SDpnt->device_blocked)) {
break;
}
q = &SDpnt->request_queue;
q->request_fn(q);
}
spin_unlock_irqrestore(&io_request_lock, flags);
}
/*
* Function: scsi_unjam_host
*
* Purpose: Attempt to fix a host which has a command that failed for
* some reason.
*
* Arguments: host - host that needs unjamming.
*
* Returns: Nothing
*
* Notes: When we come in here, we *know* that all commands on the
* bus have either completed, failed or timed out. We also
* know that no further commands are being sent to the host,
* so things are relatively quiet and we have freedom to
* fiddle with things as we wish.
*
* Additional note: This is only the *default* implementation. It is possible
* for individual drivers to supply their own version of this
* function, and if the maintainer wishes to do this, it is
* strongly suggested that this function be taken as a template
* and modified. This function was designed to correctly handle
* problems for about 95% of the different cases out there, and
* it should always provide at least a reasonable amount of error
* recovery.
*
* Note3: Any command marked 'FAILED' or 'TIMEOUT' must eventually
* have scsi_finish_command() called for it. We do all of
* the retry stuff here, so when we restart the host after we
* return it should have an empty queue.
*/
STATIC int scsi_unjam_host(struct Scsi_Host *host)
{
int devices_failed;
int numfailed;
int ourrtn;
int rtn = FALSE;
int result;
Scsi_Cmnd *SCloop;
Scsi_Cmnd *SCpnt;
Scsi_Device *SDpnt;
Scsi_Device *SDloop;
Scsi_Cmnd *SCdone;
int timed_out;
ASSERT_LOCK(&io_request_lock, 0);
SCdone = NULL;
/*
* First, protect against any sort of race condition. If any of the outstanding
* commands are in states that indicate that we are not yet blocked (i.e. we are
* not in a quiet state) then we got woken up in error. If we ever end up here,
* we need to re-examine some of the assumptions.
*/
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
for (SCpnt = SDpnt->device_queue; SCpnt; SCpnt = SCpnt->next) {
if (SCpnt->state == SCSI_STATE_FAILED
|| SCpnt->state == SCSI_STATE_TIMEOUT
|| SCpnt->state == SCSI_STATE_INITIALIZING
|| SCpnt->state == SCSI_STATE_UNUSED) {
continue;
}
/*
* Rats. Something is still floating around out there. This could
* be the result of the fact that the upper level drivers are still frobbing
* commands that might have succeeded. There are two outcomes. One is that
* the command block will eventually be freed, and the other one is that
* the command will be queued and will be finished along the way.
*/
SCSI_LOG_ERROR_RECOVERY(1, printk("Error handler prematurely woken - commands still active (%p %x %d)\n", SCpnt, SCpnt->state, SCpnt->target));
/*
* panic("SCSI Error handler woken too early\n");
*
* This is no longer a problem, since now the code cares only about
* SCSI_STATE_TIMEOUT and SCSI_STATE_FAILED.
* Other states are useful only to release active commands when devices are
* set offline. If (host->host_active == host->host_busy) we can safely assume
* that there are no commands in state other then TIMEOUT od FAILED. (DB)
*
* FIXME:
* It is not easy to release correctly commands according to their state when
* devices are set offline, when the state is neither TIMEOUT nor FAILED.
* When a device is set offline, we can have some command with
* rq_status=RQ_SCSY_BUSY, owner=SCSI_STATE_HIGHLEVEL,
* state=SCSI_STATE_INITIALIZING and the driver module cannot be released.
* (DB, 17 May 1998)
*/
}
}
/*
* Next, see if we need to request sense information. if so,
* then get it now, so we have a better idea of what to do.
* FIXME(eric) this has the unfortunate side effect that if a host
* adapter does not automatically request sense information, that we end
* up shutting it down before we request it. All hosts should be doing this
* anyways, so for now all I have to say is tough noogies if you end up in here.
* On second thought, this is probably a good idea. We *really* want to give
* authors an incentive to automatically request this.
*/
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Checking to see if we need to request sense\n"));
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
for (SCpnt = SDpnt->device_queue; SCpnt; SCpnt = SCpnt->next) {
if (SCpnt->state != SCSI_STATE_FAILED || scsi_sense_valid(SCpnt)) {
continue;
}
SCSI_LOG_ERROR_RECOVERY(2, printk("scsi_unjam_host: Requesting sense for %d\n",
SCpnt->target));
rtn = scsi_request_sense(SCpnt);
if (rtn != SUCCESS) {
continue;
}
SCSI_LOG_ERROR_RECOVERY(3, printk("Sense requested for %p - result %x\n",
SCpnt, SCpnt->result));
SCSI_LOG_ERROR_RECOVERY(3, print_sense("bh", SCpnt));
result = scsi_decide_disposition(SCpnt);
/*
* If the result was normal, then just pass it along to the
* upper level.
*/
if (result == SUCCESS) {
SCpnt->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCpnt);
}
if (result != NEEDS_RETRY) {
continue;
}
/*
* We only come in here if we want to retry a
* command. The test to see whether the command
* should be retried should be keeping track of the
* number of tries, so we don't end up looping, of
* course.
*/
SCpnt->state = NEEDS_RETRY;
rtn = scsi_eh_retry_command(SCpnt);
if (rtn != SUCCESS) {
continue;
}
/*
* We eventually hand this one back to the top level.
*/
SCpnt->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCpnt);
}
}
/*
* Go through the list of commands and figure out where we stand and how bad things
* really are.
*/
numfailed = 0;
timed_out = 0;
devices_failed = 0;
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
unsigned int device_error = 0;
for (SCpnt = SDpnt->device_queue; SCpnt; SCpnt = SCpnt->next) {
if (SCpnt->state == SCSI_STATE_FAILED) {
SCSI_LOG_ERROR_RECOVERY(5, printk("Command to ID %d failed\n",
SCpnt->target));
numfailed++;
device_error++;
}
if (SCpnt->state == SCSI_STATE_TIMEOUT) {
SCSI_LOG_ERROR_RECOVERY(5, printk("Command to ID %d timedout\n",
SCpnt->target));
timed_out++;
device_error++;
}
}
if (device_error > 0) {
devices_failed++;
}
}
SCSI_LOG_ERROR_RECOVERY(2, printk("Total of %d+%d commands on %d devices require eh work\n",
numfailed, timed_out, devices_failed));
if (host->host_failed == 0) {
ourrtn = TRUE;
goto leave;
}
/*
* Next, try and see whether or not it makes sense to try and abort
* the running command. This only works out to be the case if we have
* one command that has timed out. If the command simply failed, it
* makes no sense to try and abort the command, since as far as the
* host adapter is concerned, it isn't running.
*/
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Checking to see if we want to try abort\n"));
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
for (SCloop = SDpnt->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->state != SCSI_STATE_TIMEOUT) {
continue;
}
rtn = scsi_try_to_abort_command(SCloop, ABORT_TIMEOUT);
if (rtn == SUCCESS) {
rtn = scsi_test_unit_ready(SCloop);
if (rtn == SUCCESS && scsi_unit_is_ready(SCloop)) {
rtn = scsi_eh_retry_command(SCloop);
if (rtn == SUCCESS) {
SCloop->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
}
}
}
/*
* If we have corrected all of the problems, then we are done.
*/
if (host->host_failed == 0) {
ourrtn = TRUE;
goto leave;
}
/*
* Either the abort wasn't appropriate, or it didn't succeed.
* Now try a bus device reset. Still, look to see whether we have
* multiple devices that are jammed or not - if we have multiple devices,
* it makes no sense to try BUS_DEVICE_RESET - we really would need
* to try a BUS_RESET instead.
*
* Does this make sense - should we try BDR on each device individually?
* Yes, definitely.
*/
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Checking to see if we want to try BDR\n"));
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
for (SCloop = SDpnt->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->state == SCSI_STATE_FAILED
|| SCloop->state == SCSI_STATE_TIMEOUT) {
break;
}
}
if (SCloop == NULL) {
continue;
}
/*
* OK, we have a device that is having problems. Try and send
* a bus device reset to it.
*
* FIXME(eric) - make sure we handle the case where multiple
* commands to the same device have failed. They all must
* get properly restarted.
*/
rtn = scsi_try_bus_device_reset(SCloop, RESET_TIMEOUT);
if (rtn == SUCCESS) {
rtn = scsi_test_unit_ready(SCloop);
if (rtn == SUCCESS && scsi_unit_is_ready(SCloop)) {
rtn = scsi_eh_retry_command(SCloop);
if (rtn == SUCCESS) {
SCloop->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
}
}
if (host->host_failed == 0) {
ourrtn = TRUE;
goto leave;
}
/*
* If we ended up here, we have serious problems. The only thing left
* to try is a full bus reset. If someone has grabbed the bus and isn't
* letting go, then perhaps this will help.
*/
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Try hard bus reset\n"));
/*
* We really want to loop over the various channels, and do this on
* a channel by channel basis. We should also check to see if any
* of the failed commands are on soft_reset devices, and if so, skip
* the reset.
*/
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
next_device:
for (SCpnt = SDpnt->device_queue; SCpnt; SCpnt = SCpnt->next) {
if (SCpnt->state != SCSI_STATE_FAILED
&& SCpnt->state != SCSI_STATE_TIMEOUT) {
continue;
}
/*
* We have a failed command. Make sure there are no other failed
* commands on the same channel that are timed out and implement a
* soft reset.
*/
for (SDloop = host->host_queue; SDloop; SDloop = SDloop->next) {
for (SCloop = SDloop->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->channel != SCpnt->channel) {
continue;
}
if (SCloop->state != SCSI_STATE_FAILED
&& SCloop->state != SCSI_STATE_TIMEOUT) {
continue;
}
if (SDloop->soft_reset && SCloop->state == SCSI_STATE_TIMEOUT) {
/*
* If this device uses the soft reset option, and this
* is one of the devices acting up, then our only
* option is to wait a bit, since the command is
* supposedly still running.
*
* FIXME(eric) - right now we will just end up falling
* through to the 'take device offline' case.
*
* FIXME(eric) - It is possible that the command completed
* *after* the error recovery procedure started, and if this
* is the case, we are worrying about nothing here.
*/
scsi_sleep(1 * HZ);
goto next_device;
}
}
}
/*
* We now know that we are able to perform a reset for the
* bus that SCpnt points to. There are no soft-reset devices
* with outstanding timed out commands.
*/
rtn = scsi_try_bus_reset(SCpnt);
if (rtn == SUCCESS) {
for (SDloop = host->host_queue; SDloop; SDloop = SDloop->next) {
for (SCloop = SDloop->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->channel != SCpnt->channel) {
continue;
}
if (SCloop->state != SCSI_STATE_FAILED
&& SCloop->state != SCSI_STATE_TIMEOUT) {
continue;
}
rtn = scsi_test_unit_ready(SCloop);
if (rtn == SUCCESS && scsi_unit_is_ready(SCloop)) {
rtn = scsi_eh_retry_command(SCloop);
if (rtn == SUCCESS) {
SCpnt->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
/*
* If the bus reset worked, but we are still unable to
* talk to the device, take it offline.
* FIXME(eric) - is this really the correct thing to do?
*/
if (rtn != SUCCESS) {
SCloop->device->online = FALSE;
SCloop->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
}
}
}
}
if (host->host_failed == 0) {
ourrtn = TRUE;
goto leave;
}
/*
* If we ended up here, we have serious problems. The only thing left
* to try is a full host reset - perhaps the firmware on the device
* crashed, or something like that.
*
* It is assumed that a succesful host reset will cause *all* information
* about the command to be flushed from both the host adapter *and* the
* device.
*
* FIXME(eric) - it isn't clear that devices that implement the soft reset
* option can ever be cleared except via cycling the power. The problem is
* that sending the host reset command will cause the host to forget
* about the pending command, but the device won't forget. For now, we
* skip the host reset option if any of the failed devices are configured
* to use the soft reset option.
*/
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
next_device2:
for (SCpnt = SDpnt->device_queue; SCpnt; SCpnt = SCpnt->next) {
if (SCpnt->state != SCSI_STATE_FAILED
&& SCpnt->state != SCSI_STATE_TIMEOUT) {
continue;
}
if (SDpnt->soft_reset && SCpnt->state == SCSI_STATE_TIMEOUT) {
/*
* If this device uses the soft reset option, and this
* is one of the devices acting up, then our only
* option is to wait a bit, since the command is
* supposedly still running.
*
* FIXME(eric) - right now we will just end up falling
* through to the 'take device offline' case.
*/
SCSI_LOG_ERROR_RECOVERY(3,
printk("scsi_unjam_host: Unable to try hard host reset\n"));
/*
* Due to the spinlock, we will never get out of this
* loop without a proper wait. (DB)
*/
scsi_sleep(1 * HZ);
goto next_device2;
}
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Try hard host reset\n"));
/*
* FIXME(eric) - we need to obtain a valid SCpnt to perform this call.
*/
rtn = scsi_try_host_reset(SCpnt);
if (rtn == SUCCESS) {
/*
* FIXME(eric) we assume that all commands are flushed from the
* controller. We should get a DID_RESET for all of the commands
* that were pending. We should ignore these so that we can
* guarantee that we are in a consistent state.
*
* I believe this to be the case right now, but this needs to be
* tested.
*/
for (SDloop = host->host_queue; SDloop; SDloop = SDloop->next) {
for (SCloop = SDloop->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->state != SCSI_STATE_FAILED
&& SCloop->state != SCSI_STATE_TIMEOUT) {
continue;
}
rtn = scsi_test_unit_ready(SCloop);
if (rtn == SUCCESS && scsi_unit_is_ready(SCloop)) {
rtn = scsi_eh_retry_command(SCloop);
if (rtn == SUCCESS) {
SCpnt->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
if (rtn != SUCCESS) {
SCloop->device->online = FALSE;
SCloop->host->host_failed--;
scsi_eh_finish_command(&SCdone, SCloop);
}
}
}
}
}
}
/*
* If we solved all of the problems, then let's rev up the engines again.
*/
if (host->host_failed == 0) {
ourrtn = TRUE;
goto leave;
}
/*
* If the HOST RESET failed, then for now we assume that the entire host
* adapter is too hosed to be of any use. For our purposes, however, it is
* easier to simply take the devices offline that correspond to commands
* that failed.
*/
SCSI_LOG_ERROR_RECOVERY(1, printk("scsi_unjam_host: Take device offline\n"));
for (SDpnt = host->host_queue; SDpnt; SDpnt = SDpnt->next) {
for (SCloop = SDpnt->device_queue; SCloop; SCloop = SCloop->next) {
if (SCloop->state == SCSI_STATE_FAILED || SCloop->state == SCSI_STATE_TIMEOUT) {
SCloop->device->online = FALSE;
/*
* This should pass the failure up to the top level driver, and
* it will have to try and do something intelligent with it.
*/
SCloop->host->host_failed--;
if (SCloop->state == SCSI_STATE_TIMEOUT) {
SCloop->result |= (DRIVER_TIMEOUT << 24);
}
SCSI_LOG_ERROR_RECOVERY(3, printk("Finishing command for device %d %x\n",
SCloop->device->id, SCloop->result));
scsi_eh_finish_command(&SCdone, SCloop);
}
}
}
if (host->host_failed != 0) {
panic("scsi_unjam_host: Miscount of number of failed commands.\n");
}
SCSI_LOG_ERROR_RECOVERY(3, printk("scsi_unjam_host: Returning\n"));
ourrtn = FALSE;
leave:
/*
* We should have a list of commands that we 'finished' during the course of
* error recovery. This should be the same as the list of commands that timed out
* or failed. We are currently holding these things in a linked list - we didn't
* put them in the bottom half queue because we wanted to keep things quiet while
* we were working on recovery, and passing them up to the top level could easily
* cause the top level to try and queue something else again.
*
* Start by marking that the host is no longer in error recovery.
*/
host->in_recovery = 0;
/*
* Take the list of commands, and stick them in the bottom half queue.
* The current implementation of scsi_done will do this for us - if need
* be we can create a special version of this function to do the
* same job for us.
*/
for (SCpnt = SCdone; SCpnt != NULL; SCpnt = SCdone) {
SCdone = SCpnt->bh_next;
SCpnt->bh_next = NULL;
/*
* Oh, this is a vile hack. scsi_done() expects a timer
* to be running on the command. If there isn't, it assumes
* that the command has actually timed out, and a timer
* handler is running. That may well be how we got into
* this fix, but right now things are stable. We add
* a timer back again so that we can report completion.
* scsi_done() will immediately remove said timer from
* the command, and then process it.
*/
scsi_add_timer(SCpnt, 100, scsi_eh_times_out);
scsi_done(SCpnt);
}
return (ourrtn);
}
/*
* Function: scsi_error_handler
*
* Purpose: Handle errors/timeouts of scsi commands, try and clean up
* and unjam the bus, and restart things.
*
* Arguments: host - host for which we are running.
*
* Returns: Never returns.
*
* Notes: This is always run in the context of a kernel thread. The
* idea is that we start this thing up when the kernel starts
* up (one per host that we detect), and it immediately goes to
* sleep and waits for some event (i.e. failure). When this
* takes place, we have the job of trying to unjam the bus
* and restarting things.
*
*/
void scsi_error_handler(void *data)
{
struct Scsi_Host *host = (struct Scsi_Host *) data;
int rtn;
DECLARE_MUTEX_LOCKED(sem);
/*
* We only listen to signals if the HA was loaded as a module.
* If the HA was compiled into the kernel, then we don't listen
* to any signals.
*/
if( host->loaded_as_module ) {
siginitsetinv(¤t->blocked, SHUTDOWN_SIGS);
} else {
siginitsetinv(¤t->blocked, 0);
}
lock_kernel();
/*
* Flush resources
*/
daemonize();
/*
* Set the name of this process.
*/
sprintf(current->comm, "scsi_eh_%d", host->host_no);
host->eh_wait = &sem;
host->ehandler = current;
unlock_kernel();
/*
* Wake up the thread that created us.
*/
SCSI_LOG_ERROR_RECOVERY(3, printk("Wake up parent %d\n", host->eh_notify->count.counter));
up(host->eh_notify);
while (1) {
/*
* If we get a signal, it means we are supposed to go
* away and die. This typically happens if the user is
* trying to unload a module.
*/
SCSI_LOG_ERROR_RECOVERY(1, printk("Error handler sleeping\n"));
/*
* Note - we always use down_interruptible with the semaphore
* even if the module was loaded as part of the kernel. The
* reason is that down() will cause this thread to be counted
* in the load average as a running process, and down
* interruptible doesn't. Given that we need to allow this
* thread to die if the driver was loaded as a module, using
* semaphores isn't unreasonable.
*/
down_interruptible(&sem);
if( host->loaded_as_module ) {
if (signal_pending(current))
break;
}
SCSI_LOG_ERROR_RECOVERY(1, printk("Error handler waking up\n"));
host->eh_active = 1;
/*
* We have a host that is failing for some reason. Figure out
* what we need to do to get it up and online again (if we can).
* If we fail, we end up taking the thing offline.
*/
if (host->hostt->eh_strategy_handler != NULL) {
rtn = host->hostt->eh_strategy_handler(host);
} else {
rtn = scsi_unjam_host(host);
}
host->eh_active = 0;
/*
* Note - if the above fails completely, the action is to take
* individual devices offline and flush the queue of any
* outstanding requests that may have been pending. When we
* restart, we restart any I/O to any other devices on the bus
* which are still online.
*/
scsi_restart_operations(host);
}
SCSI_LOG_ERROR_RECOVERY(1, printk("Error handler exiting\n"));
/*
* Make sure that nobody tries to wake us up again.
*/
host->eh_wait = NULL;
/*
* Knock this down too. From this point on, the host is flying
* without a pilot. If this is because the module is being unloaded,
* that's fine. If the user sent a signal to this thing, we are
* potentially in real danger.
*/
host->in_recovery = 0;
host->eh_active = 0;
host->ehandler = NULL;
/*
* If anyone is waiting for us to exit (i.e. someone trying to unload
* a driver), then wake up that process to let them know we are on
* the way out the door. This may be overkill - I *think* that we
* could probably just unload the driver and send the signal, and when
* the error handling thread wakes up that it would just exit without
* needing to touch any memory associated with the driver itself.
*/
if (host->eh_notify != NULL)
up(host->eh_notify);
}
/*
* Overrides for Emacs so that we follow Linus's tabbing style.
* Emacs will notice this stuff at the end of the file and automatically
* adjust the settings for this buffer only. This must remain at the end
* of the file.
* ---------------------------------------------------------------------------
* Local variables:
* c-indent-level: 4
* c-brace-imaginary-offset: 0
* c-brace-offset: -4
* c-argdecl-indent: 4
* c-label-offset: -4
* c-continued-statement-offset: 4
* c-continued-brace-offset: 0
* indent-tabs-mode: nil
* tab-width: 8
* End:
*/
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