libata-scsi.c
124 KB
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/*
* libata-scsi.c - helper library for ATA
*
* Maintained by: Tejun Heo <tj@kernel.org>
* Please ALWAYS copy linux-ide@vger.kernel.org
* on emails.
*
* Copyright 2003-2004 Red Hat, Inc. All rights reserved.
* Copyright 2003-2004 Jeff Garzik
*
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
*
*
* libata documentation is available via 'make {ps|pdf}docs',
* as Documentation/DocBook/libata.*
*
* Hardware documentation available from
* - http://www.t10.org/
* - http://www.t13.org/
*
*/
#include <linux/slab.h>
#include <linux/kernel.h>
#include <linux/blkdev.h>
#include <linux/spinlock.h>
#include <linux/export.h>
#include <scsi/scsi.h>
#include <scsi/scsi_host.h>
#include <scsi/scsi_cmnd.h>
#include <scsi/scsi_eh.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_tcq.h>
#include <scsi/scsi_transport.h>
#include <linux/libata.h>
#include <linux/hdreg.h>
#include <linux/uaccess.h>
#include <linux/suspend.h>
#include <asm/unaligned.h>
#include "libata.h"
#include "libata-transport.h"
#define ATA_SCSI_RBUF_SIZE 4096
static DEFINE_SPINLOCK(ata_scsi_rbuf_lock);
static u8 ata_scsi_rbuf[ATA_SCSI_RBUF_SIZE];
typedef unsigned int (*ata_xlat_func_t)(struct ata_queued_cmd *qc);
static struct ata_device *__ata_scsi_find_dev(struct ata_port *ap,
const struct scsi_device *scsidev);
static struct ata_device *ata_scsi_find_dev(struct ata_port *ap,
const struct scsi_device *scsidev);
#define RW_RECOVERY_MPAGE 0x1
#define RW_RECOVERY_MPAGE_LEN 12
#define CACHE_MPAGE 0x8
#define CACHE_MPAGE_LEN 20
#define CONTROL_MPAGE 0xa
#define CONTROL_MPAGE_LEN 12
#define ALL_MPAGES 0x3f
#define ALL_SUB_MPAGES 0xff
static const u8 def_rw_recovery_mpage[RW_RECOVERY_MPAGE_LEN] = {
RW_RECOVERY_MPAGE,
RW_RECOVERY_MPAGE_LEN - 2,
(1 << 7), /* AWRE */
0, /* read retry count */
0, 0, 0, 0,
0, /* write retry count */
0, 0, 0
};
static const u8 def_cache_mpage[CACHE_MPAGE_LEN] = {
CACHE_MPAGE,
CACHE_MPAGE_LEN - 2,
0, /* contains WCE, needs to be 0 for logic */
0, 0, 0, 0, 0, 0, 0, 0, 0,
0, /* contains DRA, needs to be 0 for logic */
0, 0, 0, 0, 0, 0, 0
};
static const u8 def_control_mpage[CONTROL_MPAGE_LEN] = {
CONTROL_MPAGE,
CONTROL_MPAGE_LEN - 2,
2, /* DSENSE=0, GLTSD=1 */
0, /* [QAM+QERR may be 1, see 05-359r1] */
0, 0, 0, 0, 0xff, 0xff,
0, 30 /* extended self test time, see 05-359r1 */
};
static const char *ata_lpm_policy_names[] = {
[ATA_LPM_UNKNOWN] = "max_performance",
[ATA_LPM_MAX_POWER] = "max_performance",
[ATA_LPM_MED_POWER] = "medium_power",
[ATA_LPM_MIN_POWER] = "min_power",
};
static ssize_t ata_scsi_lpm_store(struct device *device,
struct device_attribute *attr,
const char *buf, size_t count)
{
struct Scsi_Host *shost = class_to_shost(device);
struct ata_port *ap = ata_shost_to_port(shost);
struct ata_link *link;
struct ata_device *dev;
enum ata_lpm_policy policy;
unsigned long flags;
/* UNKNOWN is internal state, iterate from MAX_POWER */
for (policy = ATA_LPM_MAX_POWER;
policy < ARRAY_SIZE(ata_lpm_policy_names); policy++) {
const char *name = ata_lpm_policy_names[policy];
if (strncmp(name, buf, strlen(name)) == 0)
break;
}
if (policy == ARRAY_SIZE(ata_lpm_policy_names))
return -EINVAL;
spin_lock_irqsave(ap->lock, flags);
ata_for_each_link(link, ap, EDGE) {
ata_for_each_dev(dev, &ap->link, ENABLED) {
if (dev->horkage & ATA_HORKAGE_NOLPM) {
count = -EOPNOTSUPP;
goto out_unlock;
}
}
}
ap->target_lpm_policy = policy;
ata_port_schedule_eh(ap);
out_unlock:
spin_unlock_irqrestore(ap->lock, flags);
return count;
}
static ssize_t ata_scsi_lpm_show(struct device *dev,
struct device_attribute *attr, char *buf)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct ata_port *ap = ata_shost_to_port(shost);
if (ap->target_lpm_policy >= ARRAY_SIZE(ata_lpm_policy_names))
return -EINVAL;
return snprintf(buf, PAGE_SIZE, "%s\n",
ata_lpm_policy_names[ap->target_lpm_policy]);
}
DEVICE_ATTR(link_power_management_policy, S_IRUGO | S_IWUSR,
ata_scsi_lpm_show, ata_scsi_lpm_store);
EXPORT_SYMBOL_GPL(dev_attr_link_power_management_policy);
static ssize_t ata_scsi_park_show(struct device *device,
struct device_attribute *attr, char *buf)
{
struct scsi_device *sdev = to_scsi_device(device);
struct ata_port *ap;
struct ata_link *link;
struct ata_device *dev;
unsigned long now;
unsigned int uninitialized_var(msecs);
int rc = 0;
ap = ata_shost_to_port(sdev->host);
spin_lock_irq(ap->lock);
dev = ata_scsi_find_dev(ap, sdev);
if (!dev) {
rc = -ENODEV;
goto unlock;
}
if (dev->flags & ATA_DFLAG_NO_UNLOAD) {
rc = -EOPNOTSUPP;
goto unlock;
}
link = dev->link;
now = jiffies;
if (ap->pflags & ATA_PFLAG_EH_IN_PROGRESS &&
link->eh_context.unloaded_mask & (1 << dev->devno) &&
time_after(dev->unpark_deadline, now))
msecs = jiffies_to_msecs(dev->unpark_deadline - now);
else
msecs = 0;
unlock:
spin_unlock_irq(ap->lock);
return rc ? rc : snprintf(buf, 20, "%u\n", msecs);
}
static ssize_t ata_scsi_park_store(struct device *device,
struct device_attribute *attr,
const char *buf, size_t len)
{
struct scsi_device *sdev = to_scsi_device(device);
struct ata_port *ap;
struct ata_device *dev;
long int input;
unsigned long flags;
int rc;
rc = kstrtol(buf, 10, &input);
if (rc)
return rc;
if (input < -2)
return -EINVAL;
if (input > ATA_TMOUT_MAX_PARK) {
rc = -EOVERFLOW;
input = ATA_TMOUT_MAX_PARK;
}
ap = ata_shost_to_port(sdev->host);
spin_lock_irqsave(ap->lock, flags);
dev = ata_scsi_find_dev(ap, sdev);
if (unlikely(!dev)) {
rc = -ENODEV;
goto unlock;
}
if (dev->class != ATA_DEV_ATA &&
dev->class != ATA_DEV_ZAC) {
rc = -EOPNOTSUPP;
goto unlock;
}
if (input >= 0) {
if (dev->flags & ATA_DFLAG_NO_UNLOAD) {
rc = -EOPNOTSUPP;
goto unlock;
}
dev->unpark_deadline = ata_deadline(jiffies, input);
dev->link->eh_info.dev_action[dev->devno] |= ATA_EH_PARK;
ata_port_schedule_eh(ap);
complete(&ap->park_req_pending);
} else {
switch (input) {
case -1:
dev->flags &= ~ATA_DFLAG_NO_UNLOAD;
break;
case -2:
dev->flags |= ATA_DFLAG_NO_UNLOAD;
break;
}
}
unlock:
spin_unlock_irqrestore(ap->lock, flags);
return rc ? rc : len;
}
DEVICE_ATTR(unload_heads, S_IRUGO | S_IWUSR,
ata_scsi_park_show, ata_scsi_park_store);
EXPORT_SYMBOL_GPL(dev_attr_unload_heads);
void ata_scsi_set_sense(struct ata_device *dev, struct scsi_cmnd *cmd,
u8 sk, u8 asc, u8 ascq)
{
bool d_sense = (dev->flags & ATA_DFLAG_D_SENSE);
if (!cmd)
return;
cmd->result = (DRIVER_SENSE << 24) | SAM_STAT_CHECK_CONDITION;
scsi_build_sense_buffer(d_sense, cmd->sense_buffer, sk, asc, ascq);
}
void ata_scsi_set_sense_information(struct ata_device *dev,
struct scsi_cmnd *cmd,
const struct ata_taskfile *tf)
{
u64 information;
if (!cmd)
return;
information = ata_tf_read_block(tf, dev);
if (information == U64_MAX)
return;
scsi_set_sense_information(cmd->sense_buffer,
SCSI_SENSE_BUFFERSIZE, information);
}
static void ata_scsi_set_invalid_field(struct ata_device *dev,
struct scsi_cmnd *cmd, u16 field, u8 bit)
{
ata_scsi_set_sense(dev, cmd, ILLEGAL_REQUEST, 0x24, 0x0);
/* "Invalid field in CDB" */
scsi_set_sense_field_pointer(cmd->sense_buffer, SCSI_SENSE_BUFFERSIZE,
field, bit, 1);
}
static void ata_scsi_set_invalid_parameter(struct ata_device *dev,
struct scsi_cmnd *cmd, u16 field)
{
/* "Invalid field in parameter list" */
ata_scsi_set_sense(dev, cmd, ILLEGAL_REQUEST, 0x26, 0x0);
scsi_set_sense_field_pointer(cmd->sense_buffer, SCSI_SENSE_BUFFERSIZE,
field, 0xff, 0);
}
static ssize_t
ata_scsi_em_message_store(struct device *dev, struct device_attribute *attr,
const char *buf, size_t count)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct ata_port *ap = ata_shost_to_port(shost);
if (ap->ops->em_store && (ap->flags & ATA_FLAG_EM))
return ap->ops->em_store(ap, buf, count);
return -EINVAL;
}
static ssize_t
ata_scsi_em_message_show(struct device *dev, struct device_attribute *attr,
char *buf)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct ata_port *ap = ata_shost_to_port(shost);
if (ap->ops->em_show && (ap->flags & ATA_FLAG_EM))
return ap->ops->em_show(ap, buf);
return -EINVAL;
}
DEVICE_ATTR(em_message, S_IRUGO | S_IWUSR,
ata_scsi_em_message_show, ata_scsi_em_message_store);
EXPORT_SYMBOL_GPL(dev_attr_em_message);
static ssize_t
ata_scsi_em_message_type_show(struct device *dev, struct device_attribute *attr,
char *buf)
{
struct Scsi_Host *shost = class_to_shost(dev);
struct ata_port *ap = ata_shost_to_port(shost);
return snprintf(buf, 23, "%d\n", ap->em_message_type);
}
DEVICE_ATTR(em_message_type, S_IRUGO,
ata_scsi_em_message_type_show, NULL);
EXPORT_SYMBOL_GPL(dev_attr_em_message_type);
static ssize_t
ata_scsi_activity_show(struct device *dev, struct device_attribute *attr,
char *buf)
{
struct scsi_device *sdev = to_scsi_device(dev);
struct ata_port *ap = ata_shost_to_port(sdev->host);
struct ata_device *atadev = ata_scsi_find_dev(ap, sdev);
if (atadev && ap->ops->sw_activity_show &&
(ap->flags & ATA_FLAG_SW_ACTIVITY))
return ap->ops->sw_activity_show(atadev, buf);
return -EINVAL;
}
static ssize_t
ata_scsi_activity_store(struct device *dev, struct device_attribute *attr,
const char *buf, size_t count)
{
struct scsi_device *sdev = to_scsi_device(dev);
struct ata_port *ap = ata_shost_to_port(sdev->host);
struct ata_device *atadev = ata_scsi_find_dev(ap, sdev);
enum sw_activity val;
int rc;
if (atadev && ap->ops->sw_activity_store &&
(ap->flags & ATA_FLAG_SW_ACTIVITY)) {
val = simple_strtoul(buf, NULL, 0);
switch (val) {
case OFF: case BLINK_ON: case BLINK_OFF:
rc = ap->ops->sw_activity_store(atadev, val);
if (!rc)
return count;
else
return rc;
}
}
return -EINVAL;
}
DEVICE_ATTR(sw_activity, S_IWUSR | S_IRUGO, ata_scsi_activity_show,
ata_scsi_activity_store);
EXPORT_SYMBOL_GPL(dev_attr_sw_activity);
struct device_attribute *ata_common_sdev_attrs[] = {
&dev_attr_unload_heads,
NULL
};
EXPORT_SYMBOL_GPL(ata_common_sdev_attrs);
static void ata_scsi_invalid_field(struct ata_device *dev,
struct scsi_cmnd *cmd, u16 field)
{
ata_scsi_set_invalid_field(dev, cmd, field, 0xff);
cmd->scsi_done(cmd);
}
/**
* ata_std_bios_param - generic bios head/sector/cylinder calculator used by sd.
* @sdev: SCSI device for which BIOS geometry is to be determined
* @bdev: block device associated with @sdev
* @capacity: capacity of SCSI device
* @geom: location to which geometry will be output
*
* Generic bios head/sector/cylinder calculator
* used by sd. Most BIOSes nowadays expect a XXX/255/16 (CHS)
* mapping. Some situations may arise where the disk is not
* bootable if this is not used.
*
* LOCKING:
* Defined by the SCSI layer. We don't really care.
*
* RETURNS:
* Zero.
*/
int ata_std_bios_param(struct scsi_device *sdev, struct block_device *bdev,
sector_t capacity, int geom[])
{
geom[0] = 255;
geom[1] = 63;
sector_div(capacity, 255*63);
geom[2] = capacity;
return 0;
}
/**
* ata_scsi_unlock_native_capacity - unlock native capacity
* @sdev: SCSI device to adjust device capacity for
*
* This function is called if a partition on @sdev extends beyond
* the end of the device. It requests EH to unlock HPA.
*
* LOCKING:
* Defined by the SCSI layer. Might sleep.
*/
void ata_scsi_unlock_native_capacity(struct scsi_device *sdev)
{
struct ata_port *ap = ata_shost_to_port(sdev->host);
struct ata_device *dev;
unsigned long flags;
spin_lock_irqsave(ap->lock, flags);
dev = ata_scsi_find_dev(ap, sdev);
if (dev && dev->n_sectors < dev->n_native_sectors) {
dev->flags |= ATA_DFLAG_UNLOCK_HPA;
dev->link->eh_info.action |= ATA_EH_RESET;
ata_port_schedule_eh(ap);
}
spin_unlock_irqrestore(ap->lock, flags);
ata_port_wait_eh(ap);
}
/**
* ata_get_identity - Handler for HDIO_GET_IDENTITY ioctl
* @ap: target port
* @sdev: SCSI device to get identify data for
* @arg: User buffer area for identify data
*
* LOCKING:
* Defined by the SCSI layer. We don't really care.
*
* RETURNS:
* Zero on success, negative errno on error.
*/
static int ata_get_identity(struct ata_port *ap, struct scsi_device *sdev,
void __user *arg)
{
struct ata_device *dev = ata_scsi_find_dev(ap, sdev);
u16 __user *dst = arg;
char buf[40];
if (!dev)
return -ENOMSG;
if (copy_to_user(dst, dev->id, ATA_ID_WORDS * sizeof(u16)))
return -EFAULT;
ata_id_string(dev->id, buf, ATA_ID_PROD, ATA_ID_PROD_LEN);
if (copy_to_user(dst + ATA_ID_PROD, buf, ATA_ID_PROD_LEN))
return -EFAULT;
ata_id_string(dev->id, buf, ATA_ID_FW_REV, ATA_ID_FW_REV_LEN);
if (copy_to_user(dst + ATA_ID_FW_REV, buf, ATA_ID_FW_REV_LEN))
return -EFAULT;
ata_id_string(dev->id, buf, ATA_ID_SERNO, ATA_ID_SERNO_LEN);
if (copy_to_user(dst + ATA_ID_SERNO, buf, ATA_ID_SERNO_LEN))
return -EFAULT;
return 0;
}
/**
* ata_cmd_ioctl - Handler for HDIO_DRIVE_CMD ioctl
* @scsidev: Device to which we are issuing command
* @arg: User provided data for issuing command
*
* LOCKING:
* Defined by the SCSI layer. We don't really care.
*
* RETURNS:
* Zero on success, negative errno on error.
*/
int ata_cmd_ioctl(struct scsi_device *scsidev, void __user *arg)
{
int rc = 0;
u8 scsi_cmd[MAX_COMMAND_SIZE];
u8 args[4], *argbuf = NULL, *sensebuf = NULL;
int argsize = 0;
enum dma_data_direction data_dir;
int cmd_result;
if (arg == NULL)
return -EINVAL;
if (copy_from_user(args, arg, sizeof(args)))
return -EFAULT;
sensebuf = kzalloc(SCSI_SENSE_BUFFERSIZE, GFP_NOIO);
if (!sensebuf)
return -ENOMEM;
memset(scsi_cmd, 0, sizeof(scsi_cmd));
if (args[3]) {
argsize = ATA_SECT_SIZE * args[3];
argbuf = kmalloc(argsize, GFP_KERNEL);
if (argbuf == NULL) {
rc = -ENOMEM;
goto error;
}
scsi_cmd[1] = (4 << 1); /* PIO Data-in */
scsi_cmd[2] = 0x0e; /* no off.line or cc, read from dev,
block count in sector count field */
data_dir = DMA_FROM_DEVICE;
} else {
scsi_cmd[1] = (3 << 1); /* Non-data */
scsi_cmd[2] = 0x20; /* cc but no off.line or data xfer */
data_dir = DMA_NONE;
}
scsi_cmd[0] = ATA_16;
scsi_cmd[4] = args[2];
if (args[0] == ATA_CMD_SMART) { /* hack -- ide driver does this too */
scsi_cmd[6] = args[3];
scsi_cmd[8] = args[1];
scsi_cmd[10] = 0x4f;
scsi_cmd[12] = 0xc2;
} else {
scsi_cmd[6] = args[1];
}
scsi_cmd[14] = args[0];
/* Good values for timeout and retries? Values below
from scsi_ioctl_send_command() for default case... */
cmd_result = scsi_execute(scsidev, scsi_cmd, data_dir, argbuf, argsize,
sensebuf, (10*HZ), 5, 0, NULL);
if (driver_byte(cmd_result) == DRIVER_SENSE) {/* sense data available */
u8 *desc = sensebuf + 8;
cmd_result &= ~(0xFF<<24); /* DRIVER_SENSE is not an error */
/* If we set cc then ATA pass-through will cause a
* check condition even if no error. Filter that. */
if (cmd_result & SAM_STAT_CHECK_CONDITION) {
struct scsi_sense_hdr sshdr;
scsi_normalize_sense(sensebuf, SCSI_SENSE_BUFFERSIZE,
&sshdr);
if (sshdr.sense_key == RECOVERED_ERROR &&
sshdr.asc == 0 && sshdr.ascq == 0x1d)
cmd_result &= ~SAM_STAT_CHECK_CONDITION;
}
/* Send userspace a few ATA registers (same as drivers/ide) */
if (sensebuf[0] == 0x72 && /* format is "descriptor" */
desc[0] == 0x09) { /* code is "ATA Descriptor" */
args[0] = desc[13]; /* status */
args[1] = desc[3]; /* error */
args[2] = desc[5]; /* sector count (0:7) */
if (copy_to_user(arg, args, sizeof(args)))
rc = -EFAULT;
}
}
if (cmd_result) {
rc = -EIO;
goto error;
}
if ((argbuf)
&& copy_to_user(arg + sizeof(args), argbuf, argsize))
rc = -EFAULT;
error:
kfree(sensebuf);
kfree(argbuf);
return rc;
}
/**
* ata_task_ioctl - Handler for HDIO_DRIVE_TASK ioctl
* @scsidev: Device to which we are issuing command
* @arg: User provided data for issuing command
*
* LOCKING:
* Defined by the SCSI layer. We don't really care.
*
* RETURNS:
* Zero on success, negative errno on error.
*/
int ata_task_ioctl(struct scsi_device *scsidev, void __user *arg)
{
int rc = 0;
u8 scsi_cmd[MAX_COMMAND_SIZE];
u8 args[7], *sensebuf = NULL;
int cmd_result;
if (arg == NULL)
return -EINVAL;
if (copy_from_user(args, arg, sizeof(args)))
return -EFAULT;
sensebuf = kzalloc(SCSI_SENSE_BUFFERSIZE, GFP_NOIO);
if (!sensebuf)
return -ENOMEM;
memset(scsi_cmd, 0, sizeof(scsi_cmd));
scsi_cmd[0] = ATA_16;
scsi_cmd[1] = (3 << 1); /* Non-data */
scsi_cmd[2] = 0x20; /* cc but no off.line or data xfer */
scsi_cmd[4] = args[1];
scsi_cmd[6] = args[2];
scsi_cmd[8] = args[3];
scsi_cmd[10] = args[4];
scsi_cmd[12] = args[5];
scsi_cmd[13] = args[6] & 0x4f;
scsi_cmd[14] = args[0];
/* Good values for timeout and retries? Values below
from scsi_ioctl_send_command() for default case... */
cmd_result = scsi_execute(scsidev, scsi_cmd, DMA_NONE, NULL, 0,
sensebuf, (10*HZ), 5, 0, NULL);
if (driver_byte(cmd_result) == DRIVER_SENSE) {/* sense data available */
u8 *desc = sensebuf + 8;
cmd_result &= ~(0xFF<<24); /* DRIVER_SENSE is not an error */
/* If we set cc then ATA pass-through will cause a
* check condition even if no error. Filter that. */
if (cmd_result & SAM_STAT_CHECK_CONDITION) {
struct scsi_sense_hdr sshdr;
scsi_normalize_sense(sensebuf, SCSI_SENSE_BUFFERSIZE,
&sshdr);
if (sshdr.sense_key == RECOVERED_ERROR &&
sshdr.asc == 0 && sshdr.ascq == 0x1d)
cmd_result &= ~SAM_STAT_CHECK_CONDITION;
}
/* Send userspace ATA registers */
if (sensebuf[0] == 0x72 && /* format is "descriptor" */
desc[0] == 0x09) {/* code is "ATA Descriptor" */
args[0] = desc[13]; /* status */
args[1] = desc[3]; /* error */
args[2] = desc[5]; /* sector count (0:7) */
args[3] = desc[7]; /* lbal */
args[4] = desc[9]; /* lbam */
args[5] = desc[11]; /* lbah */
args[6] = desc[12]; /* select */
if (copy_to_user(arg, args, sizeof(args)))
rc = -EFAULT;
}
}
if (cmd_result) {
rc = -EIO;
goto error;
}
error:
kfree(sensebuf);
return rc;
}
static int ata_ioc32(struct ata_port *ap)
{
if (ap->flags & ATA_FLAG_PIO_DMA)
return 1;
if (ap->pflags & ATA_PFLAG_PIO32)
return 1;
return 0;
}
int ata_sas_scsi_ioctl(struct ata_port *ap, struct scsi_device *scsidev,
int cmd, void __user *arg)
{
unsigned long val;
int rc = -EINVAL;
unsigned long flags;
switch (cmd) {
case HDIO_GET_32BIT:
spin_lock_irqsave(ap->lock, flags);
val = ata_ioc32(ap);
spin_unlock_irqrestore(ap->lock, flags);
return put_user(val, (unsigned long __user *)arg);
case HDIO_SET_32BIT:
val = (unsigned long) arg;
rc = 0;
spin_lock_irqsave(ap->lock, flags);
if (ap->pflags & ATA_PFLAG_PIO32CHANGE) {
if (val)
ap->pflags |= ATA_PFLAG_PIO32;
else
ap->pflags &= ~ATA_PFLAG_PIO32;
} else {
if (val != ata_ioc32(ap))
rc = -EINVAL;
}
spin_unlock_irqrestore(ap->lock, flags);
return rc;
case HDIO_GET_IDENTITY:
return ata_get_identity(ap, scsidev, arg);
case HDIO_DRIVE_CMD:
if (!capable(CAP_SYS_ADMIN) || !capable(CAP_SYS_RAWIO))
return -EACCES;
return ata_cmd_ioctl(scsidev, arg);
case HDIO_DRIVE_TASK:
if (!capable(CAP_SYS_ADMIN) || !capable(CAP_SYS_RAWIO))
return -EACCES;
return ata_task_ioctl(scsidev, arg);
default:
rc = -ENOTTY;
break;
}
return rc;
}
EXPORT_SYMBOL_GPL(ata_sas_scsi_ioctl);
int ata_scsi_ioctl(struct scsi_device *scsidev, int cmd, void __user *arg)
{
return ata_sas_scsi_ioctl(ata_shost_to_port(scsidev->host),
scsidev, cmd, arg);
}
EXPORT_SYMBOL_GPL(ata_scsi_ioctl);
/**
* ata_scsi_qc_new - acquire new ata_queued_cmd reference
* @dev: ATA device to which the new command is attached
* @cmd: SCSI command that originated this ATA command
*
* Obtain a reference to an unused ata_queued_cmd structure,
* which is the basic libata structure representing a single
* ATA command sent to the hardware.
*
* If a command was available, fill in the SCSI-specific
* portions of the structure with information on the
* current command.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Command allocated, or %NULL if none available.
*/
static struct ata_queued_cmd *ata_scsi_qc_new(struct ata_device *dev,
struct scsi_cmnd *cmd)
{
struct ata_queued_cmd *qc;
qc = ata_qc_new_init(dev, cmd->request->tag);
if (qc) {
qc->scsicmd = cmd;
qc->scsidone = cmd->scsi_done;
qc->sg = scsi_sglist(cmd);
qc->n_elem = scsi_sg_count(cmd);
} else {
cmd->result = (DID_OK << 16) | (QUEUE_FULL << 1);
cmd->scsi_done(cmd);
}
return qc;
}
static void ata_qc_set_pc_nbytes(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
qc->extrabytes = scmd->request->extra_len;
qc->nbytes = scsi_bufflen(scmd) + qc->extrabytes;
}
/**
* ata_dump_status - user friendly display of error info
* @id: id of the port in question
* @tf: ptr to filled out taskfile
*
* Decode and dump the ATA error/status registers for the user so
* that they have some idea what really happened at the non
* make-believe layer.
*
* LOCKING:
* inherited from caller
*/
static void ata_dump_status(unsigned id, struct ata_taskfile *tf)
{
u8 stat = tf->command, err = tf->feature;
printk(KERN_WARNING "ata%u: status=0x%02x { ", id, stat);
if (stat & ATA_BUSY) {
printk("Busy }\n"); /* Data is not valid in this case */
} else {
if (stat & ATA_DRDY) printk("DriveReady ");
if (stat & ATA_DF) printk("DeviceFault ");
if (stat & ATA_DSC) printk("SeekComplete ");
if (stat & ATA_DRQ) printk("DataRequest ");
if (stat & ATA_CORR) printk("CorrectedError ");
if (stat & ATA_SENSE) printk("Sense ");
if (stat & ATA_ERR) printk("Error ");
printk("}\n");
if (err) {
printk(KERN_WARNING "ata%u: error=0x%02x { ", id, err);
if (err & ATA_ABORTED) printk("DriveStatusError ");
if (err & ATA_ICRC) {
if (err & ATA_ABORTED)
printk("BadCRC ");
else printk("Sector ");
}
if (err & ATA_UNC) printk("UncorrectableError ");
if (err & ATA_IDNF) printk("SectorIdNotFound ");
if (err & ATA_TRK0NF) printk("TrackZeroNotFound ");
if (err & ATA_AMNF) printk("AddrMarkNotFound ");
printk("}\n");
}
}
}
/**
* ata_to_sense_error - convert ATA error to SCSI error
* @id: ATA device number
* @drv_stat: value contained in ATA status register
* @drv_err: value contained in ATA error register
* @sk: the sense key we'll fill out
* @asc: the additional sense code we'll fill out
* @ascq: the additional sense code qualifier we'll fill out
* @verbose: be verbose
*
* Converts an ATA error into a SCSI error. Fill out pointers to
* SK, ASC, and ASCQ bytes for later use in fixed or descriptor
* format sense blocks.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static void ata_to_sense_error(unsigned id, u8 drv_stat, u8 drv_err, u8 *sk,
u8 *asc, u8 *ascq, int verbose)
{
int i;
/* Based on the 3ware driver translation table */
static const unsigned char sense_table[][4] = {
/* BBD|ECC|ID|MAR */
{0xd1, ABORTED_COMMAND, 0x00, 0x00},
// Device busy Aborted command
/* BBD|ECC|ID */
{0xd0, ABORTED_COMMAND, 0x00, 0x00},
// Device busy Aborted command
/* ECC|MC|MARK */
{0x61, HARDWARE_ERROR, 0x00, 0x00},
// Device fault Hardware error
/* ICRC|ABRT */ /* NB: ICRC & !ABRT is BBD */
{0x84, ABORTED_COMMAND, 0x47, 0x00},
// Data CRC error SCSI parity error
/* MC|ID|ABRT|TRK0|MARK */
{0x37, NOT_READY, 0x04, 0x00},
// Unit offline Not ready
/* MCR|MARK */
{0x09, NOT_READY, 0x04, 0x00},
// Unrecovered disk error Not ready
/* Bad address mark */
{0x01, MEDIUM_ERROR, 0x13, 0x00},
// Address mark not found for data field
/* TRK0 - Track 0 not found */
{0x02, HARDWARE_ERROR, 0x00, 0x00},
// Hardware error
/* Abort: 0x04 is not translated here, see below */
/* Media change request */
{0x08, NOT_READY, 0x04, 0x00},
// FIXME: faking offline
/* SRV/IDNF - ID not found */
{0x10, ILLEGAL_REQUEST, 0x21, 0x00},
// Logical address out of range
/* MC - Media Changed */
{0x20, UNIT_ATTENTION, 0x28, 0x00},
// Not ready to ready change, medium may have changed
/* ECC - Uncorrectable ECC error */
{0x40, MEDIUM_ERROR, 0x11, 0x04},
// Unrecovered read error
/* BBD - block marked bad */
{0x80, MEDIUM_ERROR, 0x11, 0x04},
// Block marked bad Medium error, unrecovered read error
{0xFF, 0xFF, 0xFF, 0xFF}, // END mark
};
static const unsigned char stat_table[][4] = {
/* Must be first because BUSY means no other bits valid */
{0x80, ABORTED_COMMAND, 0x47, 0x00},
// Busy, fake parity for now
{0x40, ILLEGAL_REQUEST, 0x21, 0x04},
// Device ready, unaligned write command
{0x20, HARDWARE_ERROR, 0x44, 0x00},
// Device fault, internal target failure
{0x08, ABORTED_COMMAND, 0x47, 0x00},
// Timed out in xfer, fake parity for now
{0x04, RECOVERED_ERROR, 0x11, 0x00},
// Recovered ECC error Medium error, recovered
{0xFF, 0xFF, 0xFF, 0xFF}, // END mark
};
/*
* Is this an error we can process/parse
*/
if (drv_stat & ATA_BUSY) {
drv_err = 0; /* Ignore the err bits, they're invalid */
}
if (drv_err) {
/* Look for drv_err */
for (i = 0; sense_table[i][0] != 0xFF; i++) {
/* Look for best matches first */
if ((sense_table[i][0] & drv_err) ==
sense_table[i][0]) {
*sk = sense_table[i][1];
*asc = sense_table[i][2];
*ascq = sense_table[i][3];
goto translate_done;
}
}
}
/*
* Fall back to interpreting status bits. Note that if the drv_err
* has only the ABRT bit set, we decode drv_stat. ABRT by itself
* is not descriptive enough.
*/
for (i = 0; stat_table[i][0] != 0xFF; i++) {
if (stat_table[i][0] & drv_stat) {
*sk = stat_table[i][1];
*asc = stat_table[i][2];
*ascq = stat_table[i][3];
goto translate_done;
}
}
/*
* We need a sensible error return here, which is tricky, and one
* that won't cause people to do things like return a disk wrongly.
*/
*sk = ABORTED_COMMAND;
*asc = 0x00;
*ascq = 0x00;
translate_done:
if (verbose)
printk(KERN_ERR "ata%u: translated ATA stat/err 0x%02x/%02x "
"to SCSI SK/ASC/ASCQ 0x%x/%02x/%02x\n",
id, drv_stat, drv_err, *sk, *asc, *ascq);
return;
}
/*
* ata_gen_passthru_sense - Generate check condition sense block.
* @qc: Command that completed.
*
* This function is specific to the ATA descriptor format sense
* block specified for the ATA pass through commands. Regardless
* of whether the command errored or not, return a sense
* block. Copy all controller registers into the sense
* block. If there was no error, we get the request from an ATA
* passthrough command, so we use the following sense data:
* sk = RECOVERED ERROR
* asc,ascq = ATA PASS-THROUGH INFORMATION AVAILABLE
*
*
* LOCKING:
* None.
*/
static void ata_gen_passthru_sense(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *cmd = qc->scsicmd;
struct ata_taskfile *tf = &qc->result_tf;
unsigned char *sb = cmd->sense_buffer;
unsigned char *desc = sb + 8;
int verbose = qc->ap->ops->error_handler == NULL;
u8 sense_key, asc, ascq;
memset(sb, 0, SCSI_SENSE_BUFFERSIZE);
cmd->result = (DRIVER_SENSE << 24) | SAM_STAT_CHECK_CONDITION;
/*
* Use ata_to_sense_error() to map status register bits
* onto sense key, asc & ascq.
*/
if (qc->err_mask ||
tf->command & (ATA_BUSY | ATA_DF | ATA_ERR | ATA_DRQ)) {
ata_to_sense_error(qc->ap->print_id, tf->command, tf->feature,
&sense_key, &asc, &ascq, verbose);
ata_scsi_set_sense(qc->dev, cmd, sense_key, asc, ascq);
} else {
/*
* ATA PASS-THROUGH INFORMATION AVAILABLE
* Always in descriptor format sense.
*/
scsi_build_sense_buffer(1, cmd->sense_buffer,
RECOVERED_ERROR, 0, 0x1D);
}
if ((cmd->sense_buffer[0] & 0x7f) >= 0x72) {
u8 len;
/* descriptor format */
len = sb[7];
desc = (char *)scsi_sense_desc_find(sb, len + 8, 9);
if (!desc) {
if (SCSI_SENSE_BUFFERSIZE < len + 14)
return;
sb[7] = len + 14;
desc = sb + 8 + len;
}
desc[0] = 9;
desc[1] = 12;
/*
* Copy registers into sense buffer.
*/
desc[2] = 0x00;
desc[3] = tf->feature; /* == error reg */
desc[5] = tf->nsect;
desc[7] = tf->lbal;
desc[9] = tf->lbam;
desc[11] = tf->lbah;
desc[12] = tf->device;
desc[13] = tf->command; /* == status reg */
/*
* Fill in Extend bit, and the high order bytes
* if applicable.
*/
if (tf->flags & ATA_TFLAG_LBA48) {
desc[2] |= 0x01;
desc[4] = tf->hob_nsect;
desc[6] = tf->hob_lbal;
desc[8] = tf->hob_lbam;
desc[10] = tf->hob_lbah;
}
} else {
/* Fixed sense format */
desc[0] = tf->feature;
desc[1] = tf->command; /* status */
desc[2] = tf->device;
desc[3] = tf->nsect;
desc[7] = 0;
if (tf->flags & ATA_TFLAG_LBA48) {
desc[8] |= 0x80;
if (tf->hob_nsect)
desc[8] |= 0x40;
if (tf->hob_lbal || tf->hob_lbam || tf->hob_lbah)
desc[8] |= 0x20;
}
desc[9] = tf->lbal;
desc[10] = tf->lbam;
desc[11] = tf->lbah;
}
}
/**
* ata_gen_ata_sense - generate a SCSI fixed sense block
* @qc: Command that we are erroring out
*
* Generate sense block for a failed ATA command @qc. Descriptor
* format is used to accommodate LBA48 block address.
*
* LOCKING:
* None.
*/
static void ata_gen_ata_sense(struct ata_queued_cmd *qc)
{
struct ata_device *dev = qc->dev;
struct scsi_cmnd *cmd = qc->scsicmd;
struct ata_taskfile *tf = &qc->result_tf;
unsigned char *sb = cmd->sense_buffer;
int verbose = qc->ap->ops->error_handler == NULL;
u64 block;
u8 sense_key, asc, ascq;
memset(sb, 0, SCSI_SENSE_BUFFERSIZE);
cmd->result = (DRIVER_SENSE << 24) | SAM_STAT_CHECK_CONDITION;
if (ata_dev_disabled(dev)) {
/* Device disabled after error recovery */
/* LOGICAL UNIT NOT READY, HARD RESET REQUIRED */
ata_scsi_set_sense(dev, cmd, NOT_READY, 0x04, 0x21);
return;
}
/* Use ata_to_sense_error() to map status register bits
* onto sense key, asc & ascq.
*/
if (qc->err_mask ||
tf->command & (ATA_BUSY | ATA_DF | ATA_ERR | ATA_DRQ)) {
ata_to_sense_error(qc->ap->print_id, tf->command, tf->feature,
&sense_key, &asc, &ascq, verbose);
ata_scsi_set_sense(dev, cmd, sense_key, asc, ascq);
} else {
/* Could not decode error */
ata_dev_warn(dev, "could not decode error status 0x%x err_mask 0x%x\n",
tf->command, qc->err_mask);
ata_scsi_set_sense(dev, cmd, ABORTED_COMMAND, 0, 0);
return;
}
block = ata_tf_read_block(&qc->result_tf, dev);
if (block == U64_MAX)
return;
scsi_set_sense_information(sb, SCSI_SENSE_BUFFERSIZE, block);
}
static void ata_scsi_sdev_config(struct scsi_device *sdev)
{
sdev->use_10_for_rw = 1;
sdev->use_10_for_ms = 1;
sdev->no_write_same = 1;
/* Schedule policy is determined by ->qc_defer() callback and
* it needs to see every deferred qc. Set dev_blocked to 1 to
* prevent SCSI midlayer from automatically deferring
* requests.
*/
sdev->max_device_blocked = 1;
}
/**
* atapi_drain_needed - Check whether data transfer may overflow
* @rq: request to be checked
*
* ATAPI commands which transfer variable length data to host
* might overflow due to application error or hardware bug. This
* function checks whether overflow should be drained and ignored
* for @request.
*
* LOCKING:
* None.
*
* RETURNS:
* 1 if ; otherwise, 0.
*/
static int atapi_drain_needed(struct request *rq)
{
if (likely(rq->cmd_type != REQ_TYPE_BLOCK_PC))
return 0;
if (!blk_rq_bytes(rq) || op_is_write(req_op(rq)))
return 0;
return atapi_cmd_type(rq->cmd[0]) == ATAPI_MISC;
}
static int ata_scsi_dev_config(struct scsi_device *sdev,
struct ata_device *dev)
{
struct request_queue *q = sdev->request_queue;
if (!ata_id_has_unload(dev->id))
dev->flags |= ATA_DFLAG_NO_UNLOAD;
/* configure max sectors */
blk_queue_max_hw_sectors(q, dev->max_sectors);
if (dev->class == ATA_DEV_ATAPI) {
void *buf;
sdev->sector_size = ATA_SECT_SIZE;
/* set DMA padding */
blk_queue_update_dma_pad(q, ATA_DMA_PAD_SZ - 1);
/* configure draining */
buf = kmalloc(ATAPI_MAX_DRAIN, q->bounce_gfp | GFP_KERNEL);
if (!buf) {
ata_dev_err(dev, "drain buffer allocation failed\n");
return -ENOMEM;
}
blk_queue_dma_drain(q, atapi_drain_needed, buf, ATAPI_MAX_DRAIN);
} else {
sdev->sector_size = ata_id_logical_sector_size(dev->id);
sdev->manage_start_stop = 1;
}
/*
* ata_pio_sectors() expects buffer for each sector to not cross
* page boundary. Enforce it by requiring buffers to be sector
* aligned, which works iff sector_size is not larger than
* PAGE_SIZE. ATAPI devices also need the alignment as
* IDENTIFY_PACKET is executed as ATA_PROT_PIO.
*/
if (sdev->sector_size > PAGE_SIZE)
ata_dev_warn(dev,
"sector_size=%u > PAGE_SIZE, PIO may malfunction\n",
sdev->sector_size);
blk_queue_update_dma_alignment(q, sdev->sector_size - 1);
if (dev->flags & ATA_DFLAG_AN)
set_bit(SDEV_EVT_MEDIA_CHANGE, sdev->supported_events);
if (dev->flags & ATA_DFLAG_NCQ) {
int depth;
depth = min(sdev->host->can_queue, ata_id_queue_depth(dev->id));
depth = min(ATA_MAX_QUEUE - 1, depth);
scsi_change_queue_depth(sdev, depth);
}
blk_queue_flush_queueable(q, false);
dev->sdev = sdev;
return 0;
}
/**
* ata_scsi_slave_config - Set SCSI device attributes
* @sdev: SCSI device to examine
*
* This is called before we actually start reading
* and writing to the device, to configure certain
* SCSI mid-layer behaviors.
*
* LOCKING:
* Defined by SCSI layer. We don't really care.
*/
int ata_scsi_slave_config(struct scsi_device *sdev)
{
struct ata_port *ap = ata_shost_to_port(sdev->host);
struct ata_device *dev = __ata_scsi_find_dev(ap, sdev);
int rc = 0;
ata_scsi_sdev_config(sdev);
if (dev)
rc = ata_scsi_dev_config(sdev, dev);
return rc;
}
/**
* ata_scsi_slave_destroy - SCSI device is about to be destroyed
* @sdev: SCSI device to be destroyed
*
* @sdev is about to be destroyed for hot/warm unplugging. If
* this unplugging was initiated by libata as indicated by NULL
* dev->sdev, this function doesn't have to do anything.
* Otherwise, SCSI layer initiated warm-unplug is in progress.
* Clear dev->sdev, schedule the device for ATA detach and invoke
* EH.
*
* LOCKING:
* Defined by SCSI layer. We don't really care.
*/
void ata_scsi_slave_destroy(struct scsi_device *sdev)
{
struct ata_port *ap = ata_shost_to_port(sdev->host);
struct request_queue *q = sdev->request_queue;
unsigned long flags;
struct ata_device *dev;
if (!ap->ops->error_handler)
return;
spin_lock_irqsave(ap->lock, flags);
dev = __ata_scsi_find_dev(ap, sdev);
if (dev && dev->sdev) {
/* SCSI device already in CANCEL state, no need to offline it */
dev->sdev = NULL;
dev->flags |= ATA_DFLAG_DETACH;
ata_port_schedule_eh(ap);
}
spin_unlock_irqrestore(ap->lock, flags);
kfree(q->dma_drain_buffer);
q->dma_drain_buffer = NULL;
q->dma_drain_size = 0;
}
/**
* __ata_change_queue_depth - helper for ata_scsi_change_queue_depth
* @ap: ATA port to which the device change the queue depth
* @sdev: SCSI device to configure queue depth for
* @queue_depth: new queue depth
*
* libsas and libata have different approaches for associating a sdev to
* its ata_port.
*
*/
int __ata_change_queue_depth(struct ata_port *ap, struct scsi_device *sdev,
int queue_depth)
{
struct ata_device *dev;
unsigned long flags;
if (queue_depth < 1 || queue_depth == sdev->queue_depth)
return sdev->queue_depth;
dev = ata_scsi_find_dev(ap, sdev);
if (!dev || !ata_dev_enabled(dev))
return sdev->queue_depth;
/* NCQ enabled? */
spin_lock_irqsave(ap->lock, flags);
dev->flags &= ~ATA_DFLAG_NCQ_OFF;
if (queue_depth == 1 || !ata_ncq_enabled(dev)) {
dev->flags |= ATA_DFLAG_NCQ_OFF;
queue_depth = 1;
}
spin_unlock_irqrestore(ap->lock, flags);
/* limit and apply queue depth */
queue_depth = min(queue_depth, sdev->host->can_queue);
queue_depth = min(queue_depth, ata_id_queue_depth(dev->id));
queue_depth = min(queue_depth, ATA_MAX_QUEUE - 1);
if (sdev->queue_depth == queue_depth)
return -EINVAL;
return scsi_change_queue_depth(sdev, queue_depth);
}
/**
* ata_scsi_change_queue_depth - SCSI callback for queue depth config
* @sdev: SCSI device to configure queue depth for
* @queue_depth: new queue depth
*
* This is libata standard hostt->change_queue_depth callback.
* SCSI will call into this callback when user tries to set queue
* depth via sysfs.
*
* LOCKING:
* SCSI layer (we don't care)
*
* RETURNS:
* Newly configured queue depth.
*/
int ata_scsi_change_queue_depth(struct scsi_device *sdev, int queue_depth)
{
struct ata_port *ap = ata_shost_to_port(sdev->host);
return __ata_change_queue_depth(ap, sdev, queue_depth);
}
/**
* ata_scsi_start_stop_xlat - Translate SCSI START STOP UNIT command
* @qc: Storage for translated ATA taskfile
*
* Sets up an ATA taskfile to issue STANDBY (to stop) or READ VERIFY
* (to start). Perhaps these commands should be preceded by
* CHECK POWER MODE to see what power mode the device is already in.
* [See SAT revision 5 at www.t10.org]
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Zero on success, non-zero on error.
*/
static unsigned int ata_scsi_start_stop_xlat(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
struct ata_taskfile *tf = &qc->tf;
const u8 *cdb = scmd->cmnd;
u16 fp;
u8 bp = 0xff;
if (scmd->cmd_len < 5) {
fp = 4;
goto invalid_fld;
}
tf->flags |= ATA_TFLAG_DEVICE | ATA_TFLAG_ISADDR;
tf->protocol = ATA_PROT_NODATA;
if (cdb[1] & 0x1) {
; /* ignore IMMED bit, violates sat-r05 */
}
if (cdb[4] & 0x2) {
fp = 4;
bp = 1;
goto invalid_fld; /* LOEJ bit set not supported */
}
if (((cdb[4] >> 4) & 0xf) != 0) {
fp = 4;
bp = 3;
goto invalid_fld; /* power conditions not supported */
}
if (cdb[4] & 0x1) {
tf->nsect = 1; /* 1 sector, lba=0 */
if (qc->dev->flags & ATA_DFLAG_LBA) {
tf->flags |= ATA_TFLAG_LBA;
tf->lbah = 0x0;
tf->lbam = 0x0;
tf->lbal = 0x0;
tf->device |= ATA_LBA;
} else {
/* CHS */
tf->lbal = 0x1; /* sect */
tf->lbam = 0x0; /* cyl low */
tf->lbah = 0x0; /* cyl high */
}
tf->command = ATA_CMD_VERIFY; /* READ VERIFY */
} else {
/* Some odd clown BIOSen issue spindown on power off (ACPI S4
* or S5) causing some drives to spin up and down again.
*/
if ((qc->ap->flags & ATA_FLAG_NO_POWEROFF_SPINDOWN) &&
system_state == SYSTEM_POWER_OFF)
goto skip;
if ((qc->ap->flags & ATA_FLAG_NO_HIBERNATE_SPINDOWN) &&
system_entering_hibernation())
goto skip;
/* Issue ATA STANDBY IMMEDIATE command */
tf->command = ATA_CMD_STANDBYNOW1;
}
/*
* Standby and Idle condition timers could be implemented but that
* would require libata to implement the Power condition mode page
* and allow the user to change it. Changing mode pages requires
* MODE SELECT to be implemented.
*/
return 0;
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, bp);
return 1;
skip:
scmd->result = SAM_STAT_GOOD;
return 1;
}
/**
* ata_scsi_flush_xlat - Translate SCSI SYNCHRONIZE CACHE command
* @qc: Storage for translated ATA taskfile
*
* Sets up an ATA taskfile to issue FLUSH CACHE or
* FLUSH CACHE EXT.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Zero on success, non-zero on error.
*/
static unsigned int ata_scsi_flush_xlat(struct ata_queued_cmd *qc)
{
struct ata_taskfile *tf = &qc->tf;
tf->flags |= ATA_TFLAG_DEVICE;
tf->protocol = ATA_PROT_NODATA;
if (qc->dev->flags & ATA_DFLAG_FLUSH_EXT)
tf->command = ATA_CMD_FLUSH_EXT;
else
tf->command = ATA_CMD_FLUSH;
/* flush is critical for IO integrity, consider it an IO command */
qc->flags |= ATA_QCFLAG_IO;
return 0;
}
/**
* scsi_6_lba_len - Get LBA and transfer length
* @cdb: SCSI command to translate
*
* Calculate LBA and transfer length for 6-byte commands.
*
* RETURNS:
* @plba: the LBA
* @plen: the transfer length
*/
static void scsi_6_lba_len(const u8 *cdb, u64 *plba, u32 *plen)
{
u64 lba = 0;
u32 len;
VPRINTK("six-byte command\n");
lba |= ((u64)(cdb[1] & 0x1f)) << 16;
lba |= ((u64)cdb[2]) << 8;
lba |= ((u64)cdb[3]);
len = cdb[4];
*plba = lba;
*plen = len;
}
/**
* scsi_10_lba_len - Get LBA and transfer length
* @cdb: SCSI command to translate
*
* Calculate LBA and transfer length for 10-byte commands.
*
* RETURNS:
* @plba: the LBA
* @plen: the transfer length
*/
static void scsi_10_lba_len(const u8 *cdb, u64 *plba, u32 *plen)
{
u64 lba = 0;
u32 len = 0;
VPRINTK("ten-byte command\n");
lba |= ((u64)cdb[2]) << 24;
lba |= ((u64)cdb[3]) << 16;
lba |= ((u64)cdb[4]) << 8;
lba |= ((u64)cdb[5]);
len |= ((u32)cdb[7]) << 8;
len |= ((u32)cdb[8]);
*plba = lba;
*plen = len;
}
/**
* scsi_16_lba_len - Get LBA and transfer length
* @cdb: SCSI command to translate
*
* Calculate LBA and transfer length for 16-byte commands.
*
* RETURNS:
* @plba: the LBA
* @plen: the transfer length
*/
static void scsi_16_lba_len(const u8 *cdb, u64 *plba, u32 *plen)
{
u64 lba = 0;
u32 len = 0;
VPRINTK("sixteen-byte command\n");
lba |= ((u64)cdb[2]) << 56;
lba |= ((u64)cdb[3]) << 48;
lba |= ((u64)cdb[4]) << 40;
lba |= ((u64)cdb[5]) << 32;
lba |= ((u64)cdb[6]) << 24;
lba |= ((u64)cdb[7]) << 16;
lba |= ((u64)cdb[8]) << 8;
lba |= ((u64)cdb[9]);
len |= ((u32)cdb[10]) << 24;
len |= ((u32)cdb[11]) << 16;
len |= ((u32)cdb[12]) << 8;
len |= ((u32)cdb[13]);
*plba = lba;
*plen = len;
}
/**
* ata_scsi_verify_xlat - Translate SCSI VERIFY command into an ATA one
* @qc: Storage for translated ATA taskfile
*
* Converts SCSI VERIFY command to an ATA READ VERIFY command.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Zero on success, non-zero on error.
*/
static unsigned int ata_scsi_verify_xlat(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
struct ata_taskfile *tf = &qc->tf;
struct ata_device *dev = qc->dev;
u64 dev_sectors = qc->dev->n_sectors;
const u8 *cdb = scmd->cmnd;
u64 block;
u32 n_block;
u16 fp;
tf->flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE;
tf->protocol = ATA_PROT_NODATA;
if (cdb[0] == VERIFY) {
if (scmd->cmd_len < 10) {
fp = 9;
goto invalid_fld;
}
scsi_10_lba_len(cdb, &block, &n_block);
} else if (cdb[0] == VERIFY_16) {
if (scmd->cmd_len < 16) {
fp = 15;
goto invalid_fld;
}
scsi_16_lba_len(cdb, &block, &n_block);
} else {
fp = 0;
goto invalid_fld;
}
if (!n_block)
goto nothing_to_do;
if (block >= dev_sectors)
goto out_of_range;
if ((block + n_block) > dev_sectors)
goto out_of_range;
if (dev->flags & ATA_DFLAG_LBA) {
tf->flags |= ATA_TFLAG_LBA;
if (lba_28_ok(block, n_block)) {
/* use LBA28 */
tf->command = ATA_CMD_VERIFY;
tf->device |= (block >> 24) & 0xf;
} else if (lba_48_ok(block, n_block)) {
if (!(dev->flags & ATA_DFLAG_LBA48))
goto out_of_range;
/* use LBA48 */
tf->flags |= ATA_TFLAG_LBA48;
tf->command = ATA_CMD_VERIFY_EXT;
tf->hob_nsect = (n_block >> 8) & 0xff;
tf->hob_lbah = (block >> 40) & 0xff;
tf->hob_lbam = (block >> 32) & 0xff;
tf->hob_lbal = (block >> 24) & 0xff;
} else
/* request too large even for LBA48 */
goto out_of_range;
tf->nsect = n_block & 0xff;
tf->lbah = (block >> 16) & 0xff;
tf->lbam = (block >> 8) & 0xff;
tf->lbal = block & 0xff;
tf->device |= ATA_LBA;
} else {
/* CHS */
u32 sect, head, cyl, track;
if (!lba_28_ok(block, n_block))
goto out_of_range;
/* Convert LBA to CHS */
track = (u32)block / dev->sectors;
cyl = track / dev->heads;
head = track % dev->heads;
sect = (u32)block % dev->sectors + 1;
DPRINTK("block %u track %u cyl %u head %u sect %u\n",
(u32)block, track, cyl, head, sect);
/* Check whether the converted CHS can fit.
Cylinder: 0-65535
Head: 0-15
Sector: 1-255*/
if ((cyl >> 16) || (head >> 4) || (sect >> 8) || (!sect))
goto out_of_range;
tf->command = ATA_CMD_VERIFY;
tf->nsect = n_block & 0xff; /* Sector count 0 means 256 sectors */
tf->lbal = sect;
tf->lbam = cyl;
tf->lbah = cyl >> 8;
tf->device |= head;
}
return 0;
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, 0xff);
return 1;
out_of_range:
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x21, 0x0);
/* "Logical Block Address out of range" */
return 1;
nothing_to_do:
scmd->result = SAM_STAT_GOOD;
return 1;
}
/**
* ata_scsi_rw_xlat - Translate SCSI r/w command into an ATA one
* @qc: Storage for translated ATA taskfile
*
* Converts any of six SCSI read/write commands into the
* ATA counterpart, including starting sector (LBA),
* sector count, and taking into account the device's LBA48
* support.
*
* Commands %READ_6, %READ_10, %READ_16, %WRITE_6, %WRITE_10, and
* %WRITE_16 are currently supported.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Zero on success, non-zero on error.
*/
static unsigned int ata_scsi_rw_xlat(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
const u8 *cdb = scmd->cmnd;
unsigned int tf_flags = 0;
u64 block;
u32 n_block;
int rc;
u16 fp = 0;
if (cdb[0] == WRITE_10 || cdb[0] == WRITE_6 || cdb[0] == WRITE_16)
tf_flags |= ATA_TFLAG_WRITE;
/* Calculate the SCSI LBA, transfer length and FUA. */
switch (cdb[0]) {
case READ_10:
case WRITE_10:
if (unlikely(scmd->cmd_len < 10)) {
fp = 9;
goto invalid_fld;
}
scsi_10_lba_len(cdb, &block, &n_block);
if (cdb[1] & (1 << 3))
tf_flags |= ATA_TFLAG_FUA;
break;
case READ_6:
case WRITE_6:
if (unlikely(scmd->cmd_len < 6)) {
fp = 5;
goto invalid_fld;
}
scsi_6_lba_len(cdb, &block, &n_block);
/* for 6-byte r/w commands, transfer length 0
* means 256 blocks of data, not 0 block.
*/
if (!n_block)
n_block = 256;
break;
case READ_16:
case WRITE_16:
if (unlikely(scmd->cmd_len < 16)) {
fp = 15;
goto invalid_fld;
}
scsi_16_lba_len(cdb, &block, &n_block);
if (cdb[1] & (1 << 3))
tf_flags |= ATA_TFLAG_FUA;
break;
default:
DPRINTK("no-byte command\n");
fp = 0;
goto invalid_fld;
}
/* Check and compose ATA command */
if (!n_block)
/* For 10-byte and 16-byte SCSI R/W commands, transfer
* length 0 means transfer 0 block of data.
* However, for ATA R/W commands, sector count 0 means
* 256 or 65536 sectors, not 0 sectors as in SCSI.
*
* WARNING: one or two older ATA drives treat 0 as 0...
*/
goto nothing_to_do;
qc->flags |= ATA_QCFLAG_IO;
qc->nbytes = n_block * scmd->device->sector_size;
rc = ata_build_rw_tf(&qc->tf, qc->dev, block, n_block, tf_flags,
qc->tag);
if (likely(rc == 0))
return 0;
if (rc == -ERANGE)
goto out_of_range;
/* treat all other errors as -EINVAL, fall through */
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, 0xff);
return 1;
out_of_range:
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x21, 0x0);
/* "Logical Block Address out of range" */
return 1;
nothing_to_do:
scmd->result = SAM_STAT_GOOD;
return 1;
}
static void ata_qc_done(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *cmd = qc->scsicmd;
void (*done)(struct scsi_cmnd *) = qc->scsidone;
ata_qc_free(qc);
done(cmd);
}
static void ata_scsi_qc_complete(struct ata_queued_cmd *qc)
{
struct ata_port *ap = qc->ap;
struct scsi_cmnd *cmd = qc->scsicmd;
u8 *cdb = cmd->cmnd;
int need_sense = (qc->err_mask != 0);
/* For ATA pass thru (SAT) commands, generate a sense block if
* user mandated it or if there's an error. Note that if we
* generate because the user forced us to [CK_COND =1], a check
* condition is generated and the ATA register values are returned
* whether the command completed successfully or not. If there
* was no error, we use the following sense data:
* sk = RECOVERED ERROR
* asc,ascq = ATA PASS-THROUGH INFORMATION AVAILABLE
*/
if (((cdb[0] == ATA_16) || (cdb[0] == ATA_12)) &&
((cdb[2] & 0x20) || need_sense))
ata_gen_passthru_sense(qc);
else if (qc->flags & ATA_QCFLAG_SENSE_VALID)
cmd->result = SAM_STAT_CHECK_CONDITION;
else if (need_sense)
ata_gen_ata_sense(qc);
else
cmd->result = SAM_STAT_GOOD;
if (need_sense && !ap->ops->error_handler)
ata_dump_status(ap->print_id, &qc->result_tf);
ata_qc_done(qc);
}
/**
* ata_scsi_translate - Translate then issue SCSI command to ATA device
* @dev: ATA device to which the command is addressed
* @cmd: SCSI command to execute
* @xlat_func: Actor which translates @cmd to an ATA taskfile
*
* Our ->queuecommand() function has decided that the SCSI
* command issued can be directly translated into an ATA
* command, rather than handled internally.
*
* This function sets up an ata_queued_cmd structure for the
* SCSI command, and sends that ata_queued_cmd to the hardware.
*
* The xlat_func argument (actor) returns 0 if ready to execute
* ATA command, else 1 to finish translation. If 1 is returned
* then cmd->result (and possibly cmd->sense_buffer) are assumed
* to be set reflecting an error condition or clean (early)
* termination.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* 0 on success, SCSI_ML_QUEUE_DEVICE_BUSY if the command
* needs to be deferred.
*/
static int ata_scsi_translate(struct ata_device *dev, struct scsi_cmnd *cmd,
ata_xlat_func_t xlat_func)
{
struct ata_port *ap = dev->link->ap;
struct ata_queued_cmd *qc;
int rc;
VPRINTK("ENTER\n");
qc = ata_scsi_qc_new(dev, cmd);
if (!qc)
goto err_mem;
/* data is present; dma-map it */
if (cmd->sc_data_direction == DMA_FROM_DEVICE ||
cmd->sc_data_direction == DMA_TO_DEVICE) {
if (unlikely(scsi_bufflen(cmd) < 1)) {
ata_dev_warn(dev, "WARNING: zero len r/w req\n");
goto err_did;
}
ata_sg_init(qc, scsi_sglist(cmd), scsi_sg_count(cmd));
qc->dma_dir = cmd->sc_data_direction;
}
qc->complete_fn = ata_scsi_qc_complete;
if (xlat_func(qc))
goto early_finish;
if (ap->ops->qc_defer) {
if ((rc = ap->ops->qc_defer(qc)))
goto defer;
}
/* select device, send command to hardware */
ata_qc_issue(qc);
VPRINTK("EXIT\n");
return 0;
early_finish:
ata_qc_free(qc);
cmd->scsi_done(cmd);
DPRINTK("EXIT - early finish (good or error)\n");
return 0;
err_did:
ata_qc_free(qc);
cmd->result = (DID_ERROR << 16);
cmd->scsi_done(cmd);
err_mem:
DPRINTK("EXIT - internal\n");
return 0;
defer:
ata_qc_free(qc);
DPRINTK("EXIT - defer\n");
if (rc == ATA_DEFER_LINK)
return SCSI_MLQUEUE_DEVICE_BUSY;
else
return SCSI_MLQUEUE_HOST_BUSY;
}
/**
* ata_scsi_rbuf_get - Map response buffer.
* @cmd: SCSI command containing buffer to be mapped.
* @flags: unsigned long variable to store irq enable status
* @copy_in: copy in from user buffer
*
* Prepare buffer for simulated SCSI commands.
*
* LOCKING:
* spin_lock_irqsave(ata_scsi_rbuf_lock) on success
*
* RETURNS:
* Pointer to response buffer.
*/
static void *ata_scsi_rbuf_get(struct scsi_cmnd *cmd, bool copy_in,
unsigned long *flags)
{
spin_lock_irqsave(&ata_scsi_rbuf_lock, *flags);
memset(ata_scsi_rbuf, 0, ATA_SCSI_RBUF_SIZE);
if (copy_in)
sg_copy_to_buffer(scsi_sglist(cmd), scsi_sg_count(cmd),
ata_scsi_rbuf, ATA_SCSI_RBUF_SIZE);
return ata_scsi_rbuf;
}
/**
* ata_scsi_rbuf_put - Unmap response buffer.
* @cmd: SCSI command containing buffer to be unmapped.
* @copy_out: copy out result
* @flags: @flags passed to ata_scsi_rbuf_get()
*
* Returns rbuf buffer. The result is copied to @cmd's buffer if
* @copy_back is true.
*
* LOCKING:
* Unlocks ata_scsi_rbuf_lock.
*/
static inline void ata_scsi_rbuf_put(struct scsi_cmnd *cmd, bool copy_out,
unsigned long *flags)
{
if (copy_out)
sg_copy_from_buffer(scsi_sglist(cmd), scsi_sg_count(cmd),
ata_scsi_rbuf, ATA_SCSI_RBUF_SIZE);
spin_unlock_irqrestore(&ata_scsi_rbuf_lock, *flags);
}
/**
* ata_scsi_rbuf_fill - wrapper for SCSI command simulators
* @args: device IDENTIFY data / SCSI command of interest.
* @actor: Callback hook for desired SCSI command simulator
*
* Takes care of the hard work of simulating a SCSI command...
* Mapping the response buffer, calling the command's handler,
* and handling the handler's return value. This return value
* indicates whether the handler wishes the SCSI command to be
* completed successfully (0), or not (in which case cmd->result
* and sense buffer are assumed to be set).
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static void ata_scsi_rbuf_fill(struct ata_scsi_args *args,
unsigned int (*actor)(struct ata_scsi_args *args, u8 *rbuf))
{
u8 *rbuf;
unsigned int rc;
struct scsi_cmnd *cmd = args->cmd;
unsigned long flags;
rbuf = ata_scsi_rbuf_get(cmd, false, &flags);
rc = actor(args, rbuf);
ata_scsi_rbuf_put(cmd, rc == 0, &flags);
if (rc == 0)
cmd->result = SAM_STAT_GOOD;
args->done(cmd);
}
/**
* ata_scsiop_inq_std - Simulate INQUIRY command
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Returns standard device identification data associated
* with non-VPD INQUIRY command output.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_inq_std(struct ata_scsi_args *args, u8 *rbuf)
{
const u8 versions[] = {
0x00,
0x60, /* SAM-3 (no version claimed) */
0x03,
0x20, /* SBC-2 (no version claimed) */
0x03,
0x00 /* SPC-3 (no version claimed) */
};
const u8 versions_zbc[] = {
0x00,
0xA0, /* SAM-5 (no version claimed) */
0x06,
0x00, /* SBC-4 (no version claimed) */
0x05,
0xC0, /* SPC-5 (no version claimed) */
0x60,
0x24, /* ZBC r05 */
};
u8 hdr[] = {
TYPE_DISK,
0,
0x5, /* claim SPC-3 version compatibility */
2,
95 - 4,
0,
0,
2
};
VPRINTK("ENTER\n");
/* set scsi removable (RMB) bit per ata bit, or if the
* AHCI port says it's external (Hotplug-capable, eSATA).
*/
if (ata_id_removable(args->id) ||
(args->dev->link->ap->pflags & ATA_PFLAG_EXTERNAL))
hdr[1] |= (1 << 7);
if (args->dev->class == ATA_DEV_ZAC) {
hdr[0] = TYPE_ZBC;
hdr[2] = 0x7; /* claim SPC-5 version compatibility */
}
memcpy(rbuf, hdr, sizeof(hdr));
memcpy(&rbuf[8], "ATA ", 8);
ata_id_string(args->id, &rbuf[16], ATA_ID_PROD, 16);
/* From SAT, use last 2 words from fw rev unless they are spaces */
ata_id_string(args->id, &rbuf[32], ATA_ID_FW_REV + 2, 4);
if (strncmp(&rbuf[32], " ", 4) == 0)
ata_id_string(args->id, &rbuf[32], ATA_ID_FW_REV, 4);
if (rbuf[32] == 0 || rbuf[32] == ' ')
memcpy(&rbuf[32], "n/a ", 4);
if (ata_id_zoned_cap(args->id) || args->dev->class == ATA_DEV_ZAC)
memcpy(rbuf + 58, versions_zbc, sizeof(versions_zbc));
else
memcpy(rbuf + 58, versions, sizeof(versions));
return 0;
}
/**
* ata_scsiop_inq_00 - Simulate INQUIRY VPD page 0, list of pages
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Returns list of inquiry VPD pages available.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_inq_00(struct ata_scsi_args *args, u8 *rbuf)
{
int num_pages;
const u8 pages[] = {
0x00, /* page 0x00, this page */
0x80, /* page 0x80, unit serial no page */
0x83, /* page 0x83, device ident page */
0x89, /* page 0x89, ata info page */
0xb0, /* page 0xb0, block limits page */
0xb1, /* page 0xb1, block device characteristics page */
0xb2, /* page 0xb2, thin provisioning page */
0xb6, /* page 0xb6, zoned block device characteristics */
};
num_pages = sizeof(pages);
if (!(args->dev->flags & ATA_DFLAG_ZAC))
num_pages--;
rbuf[3] = num_pages; /* number of supported VPD pages */
memcpy(rbuf + 4, pages, num_pages);
return 0;
}
/**
* ata_scsiop_inq_80 - Simulate INQUIRY VPD page 80, device serial number
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Returns ATA device serial number.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_inq_80(struct ata_scsi_args *args, u8 *rbuf)
{
const u8 hdr[] = {
0,
0x80, /* this page code */
0,
ATA_ID_SERNO_LEN, /* page len */
};
memcpy(rbuf, hdr, sizeof(hdr));
ata_id_string(args->id, (unsigned char *) &rbuf[4],
ATA_ID_SERNO, ATA_ID_SERNO_LEN);
return 0;
}
/**
* ata_scsiop_inq_83 - Simulate INQUIRY VPD page 83, device identity
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Yields two logical unit device identification designators:
* - vendor specific ASCII containing the ATA serial number
* - SAT defined "t10 vendor id based" containing ASCII vendor
* name ("ATA "), model and serial numbers.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_inq_83(struct ata_scsi_args *args, u8 *rbuf)
{
const int sat_model_serial_desc_len = 68;
int num;
rbuf[1] = 0x83; /* this page code */
num = 4;
/* piv=0, assoc=lu, code_set=ACSII, designator=vendor */
rbuf[num + 0] = 2;
rbuf[num + 3] = ATA_ID_SERNO_LEN;
num += 4;
ata_id_string(args->id, (unsigned char *) rbuf + num,
ATA_ID_SERNO, ATA_ID_SERNO_LEN);
num += ATA_ID_SERNO_LEN;
/* SAT defined lu model and serial numbers descriptor */
/* piv=0, assoc=lu, code_set=ACSII, designator=t10 vendor id */
rbuf[num + 0] = 2;
rbuf[num + 1] = 1;
rbuf[num + 3] = sat_model_serial_desc_len;
num += 4;
memcpy(rbuf + num, "ATA ", 8);
num += 8;
ata_id_string(args->id, (unsigned char *) rbuf + num, ATA_ID_PROD,
ATA_ID_PROD_LEN);
num += ATA_ID_PROD_LEN;
ata_id_string(args->id, (unsigned char *) rbuf + num, ATA_ID_SERNO,
ATA_ID_SERNO_LEN);
num += ATA_ID_SERNO_LEN;
if (ata_id_has_wwn(args->id)) {
/* SAT defined lu world wide name */
/* piv=0, assoc=lu, code_set=binary, designator=NAA */
rbuf[num + 0] = 1;
rbuf[num + 1] = 3;
rbuf[num + 3] = ATA_ID_WWN_LEN;
num += 4;
ata_id_string(args->id, (unsigned char *) rbuf + num,
ATA_ID_WWN, ATA_ID_WWN_LEN);
num += ATA_ID_WWN_LEN;
}
rbuf[3] = num - 4; /* page len (assume less than 256 bytes) */
return 0;
}
/**
* ata_scsiop_inq_89 - Simulate INQUIRY VPD page 89, ATA info
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Yields SAT-specified ATA VPD page.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_inq_89(struct ata_scsi_args *args, u8 *rbuf)
{
struct ata_taskfile tf;
memset(&tf, 0, sizeof(tf));
rbuf[1] = 0x89; /* our page code */
rbuf[2] = (0x238 >> 8); /* page size fixed at 238h */
rbuf[3] = (0x238 & 0xff);
memcpy(&rbuf[8], "linux ", 8);
memcpy(&rbuf[16], "libata ", 16);
memcpy(&rbuf[32], DRV_VERSION, 4);
/* we don't store the ATA device signature, so we fake it */
tf.command = ATA_DRDY; /* really, this is Status reg */
tf.lbal = 0x1;
tf.nsect = 0x1;
ata_tf_to_fis(&tf, 0, 1, &rbuf[36]); /* TODO: PMP? */
rbuf[36] = 0x34; /* force D2H Reg FIS (34h) */
rbuf[56] = ATA_CMD_ID_ATA;
memcpy(&rbuf[60], &args->id[0], 512);
return 0;
}
static unsigned int ata_scsiop_inq_b0(struct ata_scsi_args *args, u8 *rbuf)
{
u16 min_io_sectors;
rbuf[1] = 0xb0;
rbuf[3] = 0x3c; /* required VPD size with unmap support */
/*
* Optimal transfer length granularity.
*
* This is always one physical block, but for disks with a smaller
* logical than physical sector size we need to figure out what the
* latter is.
*/
min_io_sectors = 1 << ata_id_log2_per_physical_sector(args->id);
put_unaligned_be16(min_io_sectors, &rbuf[6]);
/*
* Optimal unmap granularity.
*
* The ATA spec doesn't even know about a granularity or alignment
* for the TRIM command. We can leave away most of the unmap related
* VPD page entries, but we have specifify a granularity to signal
* that we support some form of unmap - in thise case via WRITE SAME
* with the unmap bit set.
*/
if (ata_id_has_trim(args->id)) {
put_unaligned_be64(65535 * ATA_MAX_TRIM_RNUM, &rbuf[36]);
put_unaligned_be32(1, &rbuf[28]);
}
return 0;
}
static unsigned int ata_scsiop_inq_b1(struct ata_scsi_args *args, u8 *rbuf)
{
int form_factor = ata_id_form_factor(args->id);
int media_rotation_rate = ata_id_rotation_rate(args->id);
u8 zoned = ata_id_zoned_cap(args->id);
rbuf[1] = 0xb1;
rbuf[3] = 0x3c;
rbuf[4] = media_rotation_rate >> 8;
rbuf[5] = media_rotation_rate;
rbuf[7] = form_factor;
if (zoned)
rbuf[8] = (zoned << 4);
return 0;
}
static unsigned int ata_scsiop_inq_b2(struct ata_scsi_args *args, u8 *rbuf)
{
/* SCSI Thin Provisioning VPD page: SBC-3 rev 22 or later */
rbuf[1] = 0xb2;
rbuf[3] = 0x4;
rbuf[5] = 1 << 6; /* TPWS */
return 0;
}
static unsigned int ata_scsiop_inq_b6(struct ata_scsi_args *args, u8 *rbuf)
{
/*
* zbc-r05 SCSI Zoned Block device characteristics VPD page
*/
rbuf[1] = 0xb6;
rbuf[3] = 0x3C;
/*
* URSWRZ bit is only meaningful for host-managed ZAC drives
*/
if (args->dev->zac_zoned_cap & 1)
rbuf[4] |= 1;
put_unaligned_be32(args->dev->zac_zones_optimal_open, &rbuf[8]);
put_unaligned_be32(args->dev->zac_zones_optimal_nonseq, &rbuf[12]);
put_unaligned_be32(args->dev->zac_zones_max_open, &rbuf[16]);
return 0;
}
/**
* ata_scsiop_noop - Command handler that simply returns success.
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* No operation. Simply returns success to caller, to indicate
* that the caller should successfully complete this SCSI command.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_noop(struct ata_scsi_args *args, u8 *rbuf)
{
VPRINTK("ENTER\n");
return 0;
}
/**
* modecpy - Prepare response for MODE SENSE
* @dest: output buffer
* @src: data being copied
* @n: length of mode page
* @changeable: whether changeable parameters are requested
*
* Generate a generic MODE SENSE page for either current or changeable
* parameters.
*
* LOCKING:
* None.
*/
static void modecpy(u8 *dest, const u8 *src, int n, bool changeable)
{
if (changeable) {
memcpy(dest, src, 2);
memset(dest + 2, 0, n - 2);
} else {
memcpy(dest, src, n);
}
}
/**
* ata_msense_caching - Simulate MODE SENSE caching info page
* @id: device IDENTIFY data
* @buf: output buffer
* @changeable: whether changeable parameters are requested
*
* Generate a caching info page, which conditionally indicates
* write caching to the SCSI layer, depending on device
* capabilities.
*
* LOCKING:
* None.
*/
static unsigned int ata_msense_caching(u16 *id, u8 *buf, bool changeable)
{
modecpy(buf, def_cache_mpage, sizeof(def_cache_mpage), changeable);
if (changeable) {
buf[2] |= (1 << 2); /* ata_mselect_caching() */
} else {
buf[2] |= (ata_id_wcache_enabled(id) << 2); /* write cache enable */
buf[12] |= (!ata_id_rahead_enabled(id) << 5); /* disable read ahead */
}
return sizeof(def_cache_mpage);
}
/**
* ata_msense_control - Simulate MODE SENSE control mode page
* @dev: ATA device of interest
* @buf: output buffer
* @changeable: whether changeable parameters are requested
*
* Generate a generic MODE SENSE control mode page.
*
* LOCKING:
* None.
*/
static unsigned int ata_msense_control(struct ata_device *dev, u8 *buf,
bool changeable)
{
modecpy(buf, def_control_mpage, sizeof(def_control_mpage), changeable);
if (changeable) {
buf[2] |= (1 << 2); /* ata_mselect_control() */
} else {
bool d_sense = (dev->flags & ATA_DFLAG_D_SENSE);
buf[2] |= (d_sense << 2); /* descriptor format sense data */
}
return sizeof(def_control_mpage);
}
/**
* ata_msense_rw_recovery - Simulate MODE SENSE r/w error recovery page
* @buf: output buffer
* @changeable: whether changeable parameters are requested
*
* Generate a generic MODE SENSE r/w error recovery page.
*
* LOCKING:
* None.
*/
static unsigned int ata_msense_rw_recovery(u8 *buf, bool changeable)
{
modecpy(buf, def_rw_recovery_mpage, sizeof(def_rw_recovery_mpage),
changeable);
return sizeof(def_rw_recovery_mpage);
}
/*
* We can turn this into a real blacklist if it's needed, for now just
* blacklist any Maxtor BANC1G10 revision firmware
*/
static int ata_dev_supports_fua(u16 *id)
{
unsigned char model[ATA_ID_PROD_LEN + 1], fw[ATA_ID_FW_REV_LEN + 1];
if (!libata_fua)
return 0;
if (!ata_id_has_fua(id))
return 0;
ata_id_c_string(id, model, ATA_ID_PROD, sizeof(model));
ata_id_c_string(id, fw, ATA_ID_FW_REV, sizeof(fw));
if (strcmp(model, "Maxtor"))
return 1;
if (strcmp(fw, "BANC1G10"))
return 1;
return 0; /* blacklisted */
}
/**
* ata_scsiop_mode_sense - Simulate MODE SENSE 6, 10 commands
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Simulate MODE SENSE commands. Assume this is invoked for direct
* access devices (e.g. disks) only. There should be no block
* descriptor for other device types.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_mode_sense(struct ata_scsi_args *args, u8 *rbuf)
{
struct ata_device *dev = args->dev;
u8 *scsicmd = args->cmd->cmnd, *p = rbuf;
const u8 sat_blk_desc[] = {
0, 0, 0, 0, /* number of blocks: sat unspecified */
0,
0, 0x2, 0x0 /* block length: 512 bytes */
};
u8 pg, spg;
unsigned int ebd, page_control, six_byte;
u8 dpofua, bp = 0xff;
u16 fp;
VPRINTK("ENTER\n");
six_byte = (scsicmd[0] == MODE_SENSE);
ebd = !(scsicmd[1] & 0x8); /* dbd bit inverted == edb */
/*
* LLBA bit in msense(10) ignored (compliant)
*/
page_control = scsicmd[2] >> 6;
switch (page_control) {
case 0: /* current */
case 1: /* changeable */
case 2: /* defaults */
break; /* supported */
case 3: /* saved */
goto saving_not_supp;
default:
fp = 2;
bp = 6;
goto invalid_fld;
}
if (six_byte)
p += 4 + (ebd ? 8 : 0);
else
p += 8 + (ebd ? 8 : 0);
pg = scsicmd[2] & 0x3f;
spg = scsicmd[3];
/*
* No mode subpages supported (yet) but asking for _all_
* subpages may be valid
*/
if (spg && (spg != ALL_SUB_MPAGES)) {
fp = 3;
goto invalid_fld;
}
switch(pg) {
case RW_RECOVERY_MPAGE:
p += ata_msense_rw_recovery(p, page_control == 1);
break;
case CACHE_MPAGE:
p += ata_msense_caching(args->id, p, page_control == 1);
break;
case CONTROL_MPAGE:
p += ata_msense_control(args->dev, p, page_control == 1);
break;
case ALL_MPAGES:
p += ata_msense_rw_recovery(p, page_control == 1);
p += ata_msense_caching(args->id, p, page_control == 1);
p += ata_msense_control(args->dev, p, page_control == 1);
break;
default: /* invalid page code */
fp = 2;
goto invalid_fld;
}
dpofua = 0;
if (ata_dev_supports_fua(args->id) && (dev->flags & ATA_DFLAG_LBA48) &&
(!(dev->flags & ATA_DFLAG_PIO) || dev->multi_count))
dpofua = 1 << 4;
if (six_byte) {
rbuf[0] = p - rbuf - 1;
rbuf[2] |= dpofua;
if (ebd) {
rbuf[3] = sizeof(sat_blk_desc);
memcpy(rbuf + 4, sat_blk_desc, sizeof(sat_blk_desc));
}
} else {
unsigned int output_len = p - rbuf - 2;
rbuf[0] = output_len >> 8;
rbuf[1] = output_len;
rbuf[3] |= dpofua;
if (ebd) {
rbuf[7] = sizeof(sat_blk_desc);
memcpy(rbuf + 8, sat_blk_desc, sizeof(sat_blk_desc));
}
}
return 0;
invalid_fld:
ata_scsi_set_invalid_field(dev, args->cmd, fp, bp);
return 1;
saving_not_supp:
ata_scsi_set_sense(dev, args->cmd, ILLEGAL_REQUEST, 0x39, 0x0);
/* "Saving parameters not supported" */
return 1;
}
/**
* ata_scsiop_read_cap - Simulate READ CAPACITY[ 16] commands
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Simulate READ CAPACITY commands.
*
* LOCKING:
* None.
*/
static unsigned int ata_scsiop_read_cap(struct ata_scsi_args *args, u8 *rbuf)
{
struct ata_device *dev = args->dev;
u64 last_lba = dev->n_sectors - 1; /* LBA of the last block */
u32 sector_size; /* physical sector size in bytes */
u8 log2_per_phys;
u16 lowest_aligned;
sector_size = ata_id_logical_sector_size(dev->id);
log2_per_phys = ata_id_log2_per_physical_sector(dev->id);
lowest_aligned = ata_id_logical_sector_offset(dev->id, log2_per_phys);
VPRINTK("ENTER\n");
if (args->cmd->cmnd[0] == READ_CAPACITY) {
if (last_lba >= 0xffffffffULL)
last_lba = 0xffffffff;
/* sector count, 32-bit */
rbuf[0] = last_lba >> (8 * 3);
rbuf[1] = last_lba >> (8 * 2);
rbuf[2] = last_lba >> (8 * 1);
rbuf[3] = last_lba;
/* sector size */
rbuf[4] = sector_size >> (8 * 3);
rbuf[5] = sector_size >> (8 * 2);
rbuf[6] = sector_size >> (8 * 1);
rbuf[7] = sector_size;
} else {
/* sector count, 64-bit */
rbuf[0] = last_lba >> (8 * 7);
rbuf[1] = last_lba >> (8 * 6);
rbuf[2] = last_lba >> (8 * 5);
rbuf[3] = last_lba >> (8 * 4);
rbuf[4] = last_lba >> (8 * 3);
rbuf[5] = last_lba >> (8 * 2);
rbuf[6] = last_lba >> (8 * 1);
rbuf[7] = last_lba;
/* sector size */
rbuf[ 8] = sector_size >> (8 * 3);
rbuf[ 9] = sector_size >> (8 * 2);
rbuf[10] = sector_size >> (8 * 1);
rbuf[11] = sector_size;
rbuf[12] = 0;
rbuf[13] = log2_per_phys;
rbuf[14] = (lowest_aligned >> 8) & 0x3f;
rbuf[15] = lowest_aligned;
if (ata_id_has_trim(args->id) &&
!(dev->horkage & ATA_HORKAGE_NOTRIM)) {
rbuf[14] |= 0x80; /* LBPME */
if (ata_id_has_zero_after_trim(args->id) &&
dev->horkage & ATA_HORKAGE_ZERO_AFTER_TRIM) {
ata_dev_info(dev, "Enabling discard_zeroes_data\n");
rbuf[14] |= 0x40; /* LBPRZ */
}
}
if (ata_id_zoned_cap(args->id) ||
args->dev->class == ATA_DEV_ZAC)
rbuf[12] = (1 << 4); /* RC_BASIS */
}
return 0;
}
/**
* ata_scsiop_report_luns - Simulate REPORT LUNS command
* @args: device IDENTIFY data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Simulate REPORT LUNS command.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_report_luns(struct ata_scsi_args *args, u8 *rbuf)
{
VPRINTK("ENTER\n");
rbuf[3] = 8; /* just one lun, LUN 0, size 8 bytes */
return 0;
}
static void atapi_sense_complete(struct ata_queued_cmd *qc)
{
if (qc->err_mask && ((qc->err_mask & AC_ERR_DEV) == 0)) {
/* FIXME: not quite right; we don't want the
* translation of taskfile registers into
* a sense descriptors, since that's only
* correct for ATA, not ATAPI
*/
ata_gen_passthru_sense(qc);
}
ata_qc_done(qc);
}
/* is it pointless to prefer PIO for "safety reasons"? */
static inline int ata_pio_use_silly(struct ata_port *ap)
{
return (ap->flags & ATA_FLAG_PIO_DMA);
}
static void atapi_request_sense(struct ata_queued_cmd *qc)
{
struct ata_port *ap = qc->ap;
struct scsi_cmnd *cmd = qc->scsicmd;
DPRINTK("ATAPI request sense\n");
memset(cmd->sense_buffer, 0, SCSI_SENSE_BUFFERSIZE);
#ifdef CONFIG_ATA_SFF
if (ap->ops->sff_tf_read)
ap->ops->sff_tf_read(ap, &qc->tf);
#endif
/* fill these in, for the case where they are -not- overwritten */
cmd->sense_buffer[0] = 0x70;
cmd->sense_buffer[2] = qc->tf.feature >> 4;
ata_qc_reinit(qc);
/* setup sg table and init transfer direction */
sg_init_one(&qc->sgent, cmd->sense_buffer, SCSI_SENSE_BUFFERSIZE);
ata_sg_init(qc, &qc->sgent, 1);
qc->dma_dir = DMA_FROM_DEVICE;
memset(&qc->cdb, 0, qc->dev->cdb_len);
qc->cdb[0] = REQUEST_SENSE;
qc->cdb[4] = SCSI_SENSE_BUFFERSIZE;
qc->tf.flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE;
qc->tf.command = ATA_CMD_PACKET;
if (ata_pio_use_silly(ap)) {
qc->tf.protocol = ATAPI_PROT_DMA;
qc->tf.feature |= ATAPI_PKT_DMA;
} else {
qc->tf.protocol = ATAPI_PROT_PIO;
qc->tf.lbam = SCSI_SENSE_BUFFERSIZE;
qc->tf.lbah = 0;
}
qc->nbytes = SCSI_SENSE_BUFFERSIZE;
qc->complete_fn = atapi_sense_complete;
ata_qc_issue(qc);
DPRINTK("EXIT\n");
}
static void atapi_qc_complete(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *cmd = qc->scsicmd;
unsigned int err_mask = qc->err_mask;
VPRINTK("ENTER, err_mask 0x%X\n", err_mask);
/* handle completion from new EH */
if (unlikely(qc->ap->ops->error_handler &&
(err_mask || qc->flags & ATA_QCFLAG_SENSE_VALID))) {
if (!(qc->flags & ATA_QCFLAG_SENSE_VALID)) {
/* FIXME: not quite right; we don't want the
* translation of taskfile registers into a
* sense descriptors, since that's only
* correct for ATA, not ATAPI
*/
ata_gen_passthru_sense(qc);
}
/* SCSI EH automatically locks door if sdev->locked is
* set. Sometimes door lock request continues to
* fail, for example, when no media is present. This
* creates a loop - SCSI EH issues door lock which
* fails and gets invoked again to acquire sense data
* for the failed command.
*
* If door lock fails, always clear sdev->locked to
* avoid this infinite loop.
*
* This may happen before SCSI scan is complete. Make
* sure qc->dev->sdev isn't NULL before dereferencing.
*/
if (qc->cdb[0] == ALLOW_MEDIUM_REMOVAL && qc->dev->sdev)
qc->dev->sdev->locked = 0;
qc->scsicmd->result = SAM_STAT_CHECK_CONDITION;
ata_qc_done(qc);
return;
}
/* successful completion or old EH failure path */
if (unlikely(err_mask & AC_ERR_DEV)) {
cmd->result = SAM_STAT_CHECK_CONDITION;
atapi_request_sense(qc);
return;
} else if (unlikely(err_mask)) {
/* FIXME: not quite right; we don't want the
* translation of taskfile registers into
* a sense descriptors, since that's only
* correct for ATA, not ATAPI
*/
ata_gen_passthru_sense(qc);
} else {
u8 *scsicmd = cmd->cmnd;
if ((scsicmd[0] == INQUIRY) && ((scsicmd[1] & 0x03) == 0)) {
unsigned long flags;
u8 *buf;
buf = ata_scsi_rbuf_get(cmd, true, &flags);
/* ATAPI devices typically report zero for their SCSI version,
* and sometimes deviate from the spec WRT response data
* format. If SCSI version is reported as zero like normal,
* then we make the following fixups: 1) Fake MMC-5 version,
* to indicate to the Linux scsi midlayer this is a modern
* device. 2) Ensure response data format / ATAPI information
* are always correct.
*/
if (buf[2] == 0) {
buf[2] = 0x5;
buf[3] = 0x32;
}
ata_scsi_rbuf_put(cmd, true, &flags);
}
cmd->result = SAM_STAT_GOOD;
}
ata_qc_done(qc);
}
/**
* atapi_xlat - Initialize PACKET taskfile
* @qc: command structure to be initialized
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Zero on success, non-zero on failure.
*/
static unsigned int atapi_xlat(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
struct ata_device *dev = qc->dev;
int nodata = (scmd->sc_data_direction == DMA_NONE);
int using_pio = !nodata && (dev->flags & ATA_DFLAG_PIO);
unsigned int nbytes;
memset(qc->cdb, 0, dev->cdb_len);
memcpy(qc->cdb, scmd->cmnd, scmd->cmd_len);
qc->complete_fn = atapi_qc_complete;
qc->tf.flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE;
if (scmd->sc_data_direction == DMA_TO_DEVICE) {
qc->tf.flags |= ATA_TFLAG_WRITE;
DPRINTK("direction: write\n");
}
qc->tf.command = ATA_CMD_PACKET;
ata_qc_set_pc_nbytes(qc);
/* check whether ATAPI DMA is safe */
if (!nodata && !using_pio && atapi_check_dma(qc))
using_pio = 1;
/* Some controller variants snoop this value for Packet
* transfers to do state machine and FIFO management. Thus we
* want to set it properly, and for DMA where it is
* effectively meaningless.
*/
nbytes = min(ata_qc_raw_nbytes(qc), (unsigned int)63 * 1024);
/* Most ATAPI devices which honor transfer chunk size don't
* behave according to the spec when odd chunk size which
* matches the transfer length is specified. If the number of
* bytes to transfer is 2n+1. According to the spec, what
* should happen is to indicate that 2n+1 is going to be
* transferred and transfer 2n+2 bytes where the last byte is
* padding.
*
* In practice, this doesn't happen. ATAPI devices first
* indicate and transfer 2n bytes and then indicate and
* transfer 2 bytes where the last byte is padding.
*
* This inconsistency confuses several controllers which
* perform PIO using DMA such as Intel AHCIs and sil3124/32.
* These controllers use actual number of transferred bytes to
* update DMA poitner and transfer of 4n+2 bytes make those
* controller push DMA pointer by 4n+4 bytes because SATA data
* FISes are aligned to 4 bytes. This causes data corruption
* and buffer overrun.
*
* Always setting nbytes to even number solves this problem
* because then ATAPI devices don't have to split data at 2n
* boundaries.
*/
if (nbytes & 0x1)
nbytes++;
qc->tf.lbam = (nbytes & 0xFF);
qc->tf.lbah = (nbytes >> 8);
if (nodata)
qc->tf.protocol = ATAPI_PROT_NODATA;
else if (using_pio)
qc->tf.protocol = ATAPI_PROT_PIO;
else {
/* DMA data xfer */
qc->tf.protocol = ATAPI_PROT_DMA;
qc->tf.feature |= ATAPI_PKT_DMA;
if ((dev->flags & ATA_DFLAG_DMADIR) &&
(scmd->sc_data_direction != DMA_TO_DEVICE))
/* some SATA bridges need us to indicate data xfer direction */
qc->tf.feature |= ATAPI_DMADIR;
}
/* FIXME: We need to translate 0x05 READ_BLOCK_LIMITS to a MODE_SENSE
as ATAPI tape drives don't get this right otherwise */
return 0;
}
static struct ata_device *ata_find_dev(struct ata_port *ap, int devno)
{
if (!sata_pmp_attached(ap)) {
if (likely(devno < ata_link_max_devices(&ap->link)))
return &ap->link.device[devno];
} else {
if (likely(devno < ap->nr_pmp_links))
return &ap->pmp_link[devno].device[0];
}
return NULL;
}
static struct ata_device *__ata_scsi_find_dev(struct ata_port *ap,
const struct scsi_device *scsidev)
{
int devno;
/* skip commands not addressed to targets we simulate */
if (!sata_pmp_attached(ap)) {
if (unlikely(scsidev->channel || scsidev->lun))
return NULL;
devno = scsidev->id;
} else {
if (unlikely(scsidev->id || scsidev->lun))
return NULL;
devno = scsidev->channel;
}
return ata_find_dev(ap, devno);
}
/**
* ata_scsi_find_dev - lookup ata_device from scsi_cmnd
* @ap: ATA port to which the device is attached
* @scsidev: SCSI device from which we derive the ATA device
*
* Given various information provided in struct scsi_cmnd,
* map that onto an ATA bus, and using that mapping
* determine which ata_device is associated with the
* SCSI command to be sent.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* Associated ATA device, or %NULL if not found.
*/
static struct ata_device *
ata_scsi_find_dev(struct ata_port *ap, const struct scsi_device *scsidev)
{
struct ata_device *dev = __ata_scsi_find_dev(ap, scsidev);
if (unlikely(!dev || !ata_dev_enabled(dev)))
return NULL;
return dev;
}
/*
* ata_scsi_map_proto - Map pass-thru protocol value to taskfile value.
* @byte1: Byte 1 from pass-thru CDB.
*
* RETURNS:
* ATA_PROT_UNKNOWN if mapping failed/unimplemented, protocol otherwise.
*/
static u8
ata_scsi_map_proto(u8 byte1)
{
switch((byte1 & 0x1e) >> 1) {
case 3: /* Non-data */
return ATA_PROT_NODATA;
case 6: /* DMA */
case 10: /* UDMA Data-in */
case 11: /* UDMA Data-Out */
return ATA_PROT_DMA;
case 4: /* PIO Data-in */
case 5: /* PIO Data-out */
return ATA_PROT_PIO;
case 12: /* FPDMA */
return ATA_PROT_NCQ;
case 0: /* Hard Reset */
case 1: /* SRST */
case 8: /* Device Diagnostic */
case 9: /* Device Reset */
case 7: /* DMA Queued */
case 15: /* Return Response Info */
default: /* Reserved */
break;
}
return ATA_PROT_UNKNOWN;
}
/**
* ata_scsi_pass_thru - convert ATA pass-thru CDB to taskfile
* @qc: command structure to be initialized
*
* Handles either 12 or 16-byte versions of the CDB.
*
* RETURNS:
* Zero on success, non-zero on failure.
*/
static unsigned int ata_scsi_pass_thru(struct ata_queued_cmd *qc)
{
struct ata_taskfile *tf = &(qc->tf);
struct scsi_cmnd *scmd = qc->scsicmd;
struct ata_device *dev = qc->dev;
const u8 *cdb = scmd->cmnd;
u16 fp;
if ((tf->protocol = ata_scsi_map_proto(cdb[1])) == ATA_PROT_UNKNOWN) {
fp = 1;
goto invalid_fld;
}
if (ata_is_ncq(tf->protocol) && (cdb[2] & 0x3) == 0)
tf->protocol = ATA_PROT_NCQ_NODATA;
/* enable LBA */
tf->flags |= ATA_TFLAG_LBA;
/*
* 12 and 16 byte CDBs use different offsets to
* provide the various register values.
*/
if (cdb[0] == ATA_16) {
/*
* 16-byte CDB - may contain extended commands.
*
* If that is the case, copy the upper byte register values.
*/
if (cdb[1] & 0x01) {
tf->hob_feature = cdb[3];
tf->hob_nsect = cdb[5];
tf->hob_lbal = cdb[7];
tf->hob_lbam = cdb[9];
tf->hob_lbah = cdb[11];
tf->flags |= ATA_TFLAG_LBA48;
} else
tf->flags &= ~ATA_TFLAG_LBA48;
/*
* Always copy low byte, device and command registers.
*/
tf->feature = cdb[4];
tf->nsect = cdb[6];
tf->lbal = cdb[8];
tf->lbam = cdb[10];
tf->lbah = cdb[12];
tf->device = cdb[13];
tf->command = cdb[14];
} else {
/*
* 12-byte CDB - incapable of extended commands.
*/
tf->flags &= ~ATA_TFLAG_LBA48;
tf->feature = cdb[3];
tf->nsect = cdb[4];
tf->lbal = cdb[5];
tf->lbam = cdb[6];
tf->lbah = cdb[7];
tf->device = cdb[8];
tf->command = cdb[9];
}
/* For NCQ commands copy the tag value */
if (ata_is_ncq(tf->protocol))
tf->nsect = qc->tag << 3;
/* enforce correct master/slave bit */
tf->device = dev->devno ?
tf->device | ATA_DEV1 : tf->device & ~ATA_DEV1;
switch (tf->command) {
/* READ/WRITE LONG use a non-standard sect_size */
case ATA_CMD_READ_LONG:
case ATA_CMD_READ_LONG_ONCE:
case ATA_CMD_WRITE_LONG:
case ATA_CMD_WRITE_LONG_ONCE:
if (tf->protocol != ATA_PROT_PIO || tf->nsect != 1) {
fp = 1;
goto invalid_fld;
}
qc->sect_size = scsi_bufflen(scmd);
break;
/* commands using reported Logical Block size (e.g. 512 or 4K) */
case ATA_CMD_CFA_WRITE_NE:
case ATA_CMD_CFA_TRANS_SECT:
case ATA_CMD_CFA_WRITE_MULT_NE:
/* XXX: case ATA_CMD_CFA_WRITE_SECTORS_WITHOUT_ERASE: */
case ATA_CMD_READ:
case ATA_CMD_READ_EXT:
case ATA_CMD_READ_QUEUED:
/* XXX: case ATA_CMD_READ_QUEUED_EXT: */
case ATA_CMD_FPDMA_READ:
case ATA_CMD_READ_MULTI:
case ATA_CMD_READ_MULTI_EXT:
case ATA_CMD_PIO_READ:
case ATA_CMD_PIO_READ_EXT:
case ATA_CMD_READ_STREAM_DMA_EXT:
case ATA_CMD_READ_STREAM_EXT:
case ATA_CMD_VERIFY:
case ATA_CMD_VERIFY_EXT:
case ATA_CMD_WRITE:
case ATA_CMD_WRITE_EXT:
case ATA_CMD_WRITE_FUA_EXT:
case ATA_CMD_WRITE_QUEUED:
case ATA_CMD_WRITE_QUEUED_FUA_EXT:
case ATA_CMD_FPDMA_WRITE:
case ATA_CMD_WRITE_MULTI:
case ATA_CMD_WRITE_MULTI_EXT:
case ATA_CMD_WRITE_MULTI_FUA_EXT:
case ATA_CMD_PIO_WRITE:
case ATA_CMD_PIO_WRITE_EXT:
case ATA_CMD_WRITE_STREAM_DMA_EXT:
case ATA_CMD_WRITE_STREAM_EXT:
qc->sect_size = scmd->device->sector_size;
break;
/* Everything else uses 512 byte "sectors" */
default:
qc->sect_size = ATA_SECT_SIZE;
}
/*
* Set flags so that all registers will be written, pass on
* write indication (used for PIO/DMA setup), result TF is
* copied back and we don't whine too much about its failure.
*/
tf->flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE;
if (scmd->sc_data_direction == DMA_TO_DEVICE)
tf->flags |= ATA_TFLAG_WRITE;
qc->flags |= ATA_QCFLAG_RESULT_TF | ATA_QCFLAG_QUIET;
/*
* Set transfer length.
*
* TODO: find out if we need to do more here to
* cover scatter/gather case.
*/
ata_qc_set_pc_nbytes(qc);
/* We may not issue DMA commands if no DMA mode is set */
if (tf->protocol == ATA_PROT_DMA && dev->dma_mode == 0) {
fp = 1;
goto invalid_fld;
}
/* sanity check for pio multi commands */
if ((cdb[1] & 0xe0) && !is_multi_taskfile(tf)) {
fp = 1;
goto invalid_fld;
}
if (is_multi_taskfile(tf)) {
unsigned int multi_count = 1 << (cdb[1] >> 5);
/* compare the passed through multi_count
* with the cached multi_count of libata
*/
if (multi_count != dev->multi_count)
ata_dev_warn(dev, "invalid multi_count %u ignored\n",
multi_count);
}
/*
* Filter SET_FEATURES - XFER MODE command -- otherwise,
* SET_FEATURES - XFER MODE must be preceded/succeeded
* by an update to hardware-specific registers for each
* controller (i.e. the reason for ->set_piomode(),
* ->set_dmamode(), and ->post_set_mode() hooks).
*/
if (tf->command == ATA_CMD_SET_FEATURES &&
tf->feature == SETFEATURES_XFER) {
fp = (cdb[0] == ATA_16) ? 4 : 3;
goto invalid_fld;
}
/*
* Filter TPM commands by default. These provide an
* essentially uncontrolled encrypted "back door" between
* applications and the disk. Set libata.allow_tpm=1 if you
* have a real reason for wanting to use them. This ensures
* that installed software cannot easily mess stuff up without
* user intent. DVR type users will probably ship with this enabled
* for movie content management.
*
* Note that for ATA8 we can issue a DCS change and DCS freeze lock
* for this and should do in future but that it is not sufficient as
* DCS is an optional feature set. Thus we also do the software filter
* so that we comply with the TC consortium stated goal that the user
* can turn off TC features of their system.
*/
if (tf->command >= 0x5C && tf->command <= 0x5F && !libata_allow_tpm) {
fp = (cdb[0] == ATA_16) ? 14 : 9;
goto invalid_fld;
}
return 0;
invalid_fld:
ata_scsi_set_invalid_field(dev, scmd, fp, 0xff);
return 1;
}
/**
* ata_format_dsm_trim_descr() - SATL Write Same to DSM Trim
* @cmd: SCSI command being translated
* @trmax: Maximum number of entries that will fit in sector_size bytes.
* @sector: Starting sector
* @count: Total Range of request in logical sectors
*
* Rewrite the WRITE SAME descriptor to be a DSM TRIM little-endian formatted
* descriptor.
*
* Upto 64 entries of the format:
* 63:48 Range Length
* 47:0 LBA
*
* Range Length of 0 is ignored.
* LBA's should be sorted order and not overlap.
*
* NOTE: this is the same format as ADD LBA(S) TO NV CACHE PINNED SET
*
* Return: Number of bytes copied into sglist.
*/
static size_t ata_format_dsm_trim_descr(struct scsi_cmnd *cmd, u32 trmax,
u64 sector, u32 count)
{
struct scsi_device *sdp = cmd->device;
size_t len = sdp->sector_size;
size_t r;
__le64 *buf;
u32 i = 0;
unsigned long flags;
WARN_ON(len > ATA_SCSI_RBUF_SIZE);
if (len > ATA_SCSI_RBUF_SIZE)
len = ATA_SCSI_RBUF_SIZE;
spin_lock_irqsave(&ata_scsi_rbuf_lock, flags);
buf = ((void *)ata_scsi_rbuf);
memset(buf, 0, len);
while (i < trmax) {
u64 entry = sector |
((u64)(count > 0xffff ? 0xffff : count) << 48);
buf[i++] = __cpu_to_le64(entry);
if (count <= 0xffff)
break;
count -= 0xffff;
sector += 0xffff;
}
r = sg_copy_from_buffer(scsi_sglist(cmd), scsi_sg_count(cmd), buf, len);
spin_unlock_irqrestore(&ata_scsi_rbuf_lock, flags);
return r;
}
/**
* ata_format_dsm_trim_descr() - SATL Write Same to ATA SCT Write Same
* @cmd: SCSI command being translated
* @lba: Starting sector
* @num: Number of sectors to be zero'd.
*
* Rewrite the WRITE SAME payload to be an SCT Write Same formatted
* descriptor.
* NOTE: Writes a pattern (0's) in the foreground.
*
* Return: Number of bytes copied into sglist.
*/
static size_t ata_format_sct_write_same(struct scsi_cmnd *cmd, u64 lba, u64 num)
{
struct scsi_device *sdp = cmd->device;
size_t len = sdp->sector_size;
size_t r;
u16 *buf;
unsigned long flags;
spin_lock_irqsave(&ata_scsi_rbuf_lock, flags);
buf = ((void *)ata_scsi_rbuf);
put_unaligned_le16(0x0002, &buf[0]); /* SCT_ACT_WRITE_SAME */
put_unaligned_le16(0x0101, &buf[1]); /* WRITE PTRN FG */
put_unaligned_le64(lba, &buf[2]);
put_unaligned_le64(num, &buf[6]);
put_unaligned_le32(0u, &buf[10]); /* pattern */
WARN_ON(len > ATA_SCSI_RBUF_SIZE);
if (len > ATA_SCSI_RBUF_SIZE)
len = ATA_SCSI_RBUF_SIZE;
r = sg_copy_from_buffer(scsi_sglist(cmd), scsi_sg_count(cmd), buf, len);
spin_unlock_irqrestore(&ata_scsi_rbuf_lock, flags);
return r;
}
/**
* ata_scsi_write_same_xlat() - SATL Write Same to ATA SCT Write Same
* @qc: Command to be translated
*
* Translate a SCSI WRITE SAME command to be either a DSM TRIM command or
* an SCT Write Same command.
* Based on WRITE SAME has the UNMAP flag
* When set translate to DSM TRIM
* When clear translate to SCT Write Same
*/
static unsigned int ata_scsi_write_same_xlat(struct ata_queued_cmd *qc)
{
struct ata_taskfile *tf = &qc->tf;
struct scsi_cmnd *scmd = qc->scsicmd;
struct scsi_device *sdp = scmd->device;
size_t len = sdp->sector_size;
struct ata_device *dev = qc->dev;
const u8 *cdb = scmd->cmnd;
u64 block;
u32 n_block;
const u32 trmax = len >> 3;
u32 size;
u16 fp;
u8 bp = 0xff;
u8 unmap = cdb[1] & 0x8;
/* we may not issue DMA commands if no DMA mode is set */
if (unlikely(!dev->dma_mode))
goto invalid_opcode;
if (unlikely(scmd->cmd_len < 16)) {
fp = 15;
goto invalid_fld;
}
scsi_16_lba_len(cdb, &block, &n_block);
if (unmap) {
/* If trim is not enabled the cmd is invalid. */
if ((dev->horkage & ATA_HORKAGE_NOTRIM) ||
!ata_id_has_trim(dev->id)) {
fp = 1;
bp = 3;
goto invalid_fld;
}
/* If the request is too large the cmd is invalid */
if (n_block > 0xffff * trmax) {
fp = 2;
goto invalid_fld;
}
} else {
/* If write same is not available the cmd is invalid */
if (!ata_id_sct_write_same(dev->id)) {
fp = 1;
bp = 3;
goto invalid_fld;
}
}
/*
* WRITE SAME always has a sector sized buffer as payload, this
* should never be a multiple entry S/G list.
*/
if (!scsi_sg_count(scmd))
goto invalid_param_len;
/*
* size must match sector size in bytes
* For DATA SET MANAGEMENT TRIM in ACS-2 nsect (aka count)
* is defined as number of 512 byte blocks to be transferred.
*/
if (unmap) {
size = ata_format_dsm_trim_descr(scmd, trmax, block, n_block);
if (size != len)
goto invalid_param_len;
if (ata_ncq_enabled(dev) && ata_fpdma_dsm_supported(dev)) {
/* Newer devices support queued TRIM commands */
tf->protocol = ATA_PROT_NCQ;
tf->command = ATA_CMD_FPDMA_SEND;
tf->hob_nsect = ATA_SUBCMD_FPDMA_SEND_DSM & 0x1f;
tf->nsect = qc->tag << 3;
tf->hob_feature = (size / 512) >> 8;
tf->feature = size / 512;
tf->auxiliary = 1;
} else {
tf->protocol = ATA_PROT_DMA;
tf->hob_feature = 0;
tf->feature = ATA_DSM_TRIM;
tf->hob_nsect = (size / 512) >> 8;
tf->nsect = size / 512;
tf->command = ATA_CMD_DSM;
}
} else {
size = ata_format_sct_write_same(scmd, block, n_block);
if (size != len)
goto invalid_param_len;
tf->hob_feature = 0;
tf->feature = 0;
tf->hob_nsect = 0;
tf->nsect = 1;
tf->lbah = 0;
tf->lbam = 0;
tf->lbal = ATA_CMD_STANDBYNOW1;
tf->hob_lbah = 0;
tf->hob_lbam = 0;
tf->hob_lbal = 0;
tf->device = ATA_CMD_STANDBYNOW1;
tf->protocol = ATA_PROT_DMA;
tf->command = ATA_CMD_WRITE_LOG_DMA_EXT;
if (unlikely(dev->flags & ATA_DFLAG_PIO))
tf->command = ATA_CMD_WRITE_LOG_EXT;
}
tf->flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE | ATA_TFLAG_LBA48 |
ATA_TFLAG_WRITE;
ata_qc_set_pc_nbytes(qc);
return 0;
invalid_fld:
ata_scsi_set_invalid_field(dev, scmd, fp, bp);
return 1;
invalid_param_len:
/* "Parameter list length error" */
ata_scsi_set_sense(dev, scmd, ILLEGAL_REQUEST, 0x1a, 0x0);
return 1;
invalid_opcode:
/* "Invalid command operation code" */
ata_scsi_set_sense(dev, scmd, ILLEGAL_REQUEST, 0x20, 0x0);
return 1;
}
/**
* ata_scsiop_maint_in - Simulate a subset of MAINTENANCE_IN
* @args: device MAINTENANCE_IN data / SCSI command of interest.
* @rbuf: Response buffer, to which simulated SCSI cmd output is sent.
*
* Yields a subset to satisfy scsi_report_opcode()
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsiop_maint_in(struct ata_scsi_args *args, u8 *rbuf)
{
struct ata_device *dev = args->dev;
u8 *cdb = args->cmd->cmnd;
u8 supported = 0;
unsigned int err = 0;
if (cdb[2] != 1) {
ata_dev_warn(dev, "invalid command format %d\n", cdb[2]);
err = 2;
goto out;
}
switch (cdb[3]) {
case INQUIRY:
case MODE_SENSE:
case MODE_SENSE_10:
case READ_CAPACITY:
case SERVICE_ACTION_IN_16:
case REPORT_LUNS:
case REQUEST_SENSE:
case SYNCHRONIZE_CACHE:
case REZERO_UNIT:
case SEEK_6:
case SEEK_10:
case TEST_UNIT_READY:
case SEND_DIAGNOSTIC:
case MAINTENANCE_IN:
case READ_6:
case READ_10:
case READ_16:
case WRITE_6:
case WRITE_10:
case WRITE_16:
case ATA_12:
case ATA_16:
case VERIFY:
case VERIFY_16:
case MODE_SELECT:
case MODE_SELECT_10:
case START_STOP:
supported = 3;
break;
case WRITE_SAME_16:
if (!ata_id_sct_write_same(dev->id))
break;
/* fallthrough: if SCT ... only enable for ZBC */
case ZBC_IN:
case ZBC_OUT:
if (ata_id_zoned_cap(dev->id) ||
dev->class == ATA_DEV_ZAC)
supported = 3;
break;
default:
break;
}
out:
rbuf[1] = supported; /* supported */
return err;
}
/**
* ata_scsi_report_zones_complete - convert ATA output
* @qc: command structure returning the data
*
* Convert T-13 little-endian field representation into
* T-10 big-endian field representation.
* What a mess.
*/
static void ata_scsi_report_zones_complete(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
struct sg_mapping_iter miter;
unsigned long flags;
unsigned int bytes = 0;
sg_miter_start(&miter, scsi_sglist(scmd), scsi_sg_count(scmd),
SG_MITER_TO_SG | SG_MITER_ATOMIC);
local_irq_save(flags);
while (sg_miter_next(&miter)) {
unsigned int offset = 0;
if (bytes == 0) {
char *hdr;
u32 list_length;
u64 max_lba, opt_lba;
u16 same;
/* Swizzle header */
hdr = miter.addr;
list_length = get_unaligned_le32(&hdr[0]);
same = get_unaligned_le16(&hdr[4]);
max_lba = get_unaligned_le64(&hdr[8]);
opt_lba = get_unaligned_le64(&hdr[16]);
put_unaligned_be32(list_length, &hdr[0]);
hdr[4] = same & 0xf;
put_unaligned_be64(max_lba, &hdr[8]);
put_unaligned_be64(opt_lba, &hdr[16]);
offset += 64;
bytes += 64;
}
while (offset < miter.length) {
char *rec;
u8 cond, type, non_seq, reset;
u64 size, start, wp;
/* Swizzle zone descriptor */
rec = miter.addr + offset;
type = rec[0] & 0xf;
cond = (rec[1] >> 4) & 0xf;
non_seq = (rec[1] & 2);
reset = (rec[1] & 1);
size = get_unaligned_le64(&rec[8]);
start = get_unaligned_le64(&rec[16]);
wp = get_unaligned_le64(&rec[24]);
rec[0] = type;
rec[1] = (cond << 4) | non_seq | reset;
put_unaligned_be64(size, &rec[8]);
put_unaligned_be64(start, &rec[16]);
put_unaligned_be64(wp, &rec[24]);
WARN_ON(offset + 64 > miter.length);
offset += 64;
bytes += 64;
}
}
sg_miter_stop(&miter);
local_irq_restore(flags);
ata_scsi_qc_complete(qc);
}
static unsigned int ata_scsi_zbc_in_xlat(struct ata_queued_cmd *qc)
{
struct ata_taskfile *tf = &qc->tf;
struct scsi_cmnd *scmd = qc->scsicmd;
const u8 *cdb = scmd->cmnd;
u16 sect, fp = (u16)-1;
u8 sa, options, bp = 0xff;
u64 block;
u32 n_block;
if (unlikely(scmd->cmd_len < 16)) {
ata_dev_warn(qc->dev, "invalid cdb length %d\n",
scmd->cmd_len);
fp = 15;
goto invalid_fld;
}
scsi_16_lba_len(cdb, &block, &n_block);
if (n_block != scsi_bufflen(scmd)) {
ata_dev_warn(qc->dev, "non-matching transfer count (%d/%d)\n",
n_block, scsi_bufflen(scmd));
goto invalid_param_len;
}
sa = cdb[1] & 0x1f;
if (sa != ZI_REPORT_ZONES) {
ata_dev_warn(qc->dev, "invalid service action %d\n", sa);
fp = 1;
goto invalid_fld;
}
/*
* ZAC allows only for transfers in 512 byte blocks,
* and uses a 16 bit value for the transfer count.
*/
if ((n_block / 512) > 0xffff || n_block < 512 || (n_block % 512)) {
ata_dev_warn(qc->dev, "invalid transfer count %d\n", n_block);
goto invalid_param_len;
}
sect = n_block / 512;
options = cdb[14] & 0xbf;
if (ata_ncq_enabled(qc->dev) &&
ata_fpdma_zac_mgmt_in_supported(qc->dev)) {
tf->protocol = ATA_PROT_NCQ;
tf->command = ATA_CMD_FPDMA_RECV;
tf->hob_nsect = ATA_SUBCMD_FPDMA_RECV_ZAC_MGMT_IN & 0x1f;
tf->nsect = qc->tag << 3;
tf->feature = sect & 0xff;
tf->hob_feature = (sect >> 8) & 0xff;
tf->auxiliary = ATA_SUBCMD_ZAC_MGMT_IN_REPORT_ZONES | (options << 8);
} else {
tf->command = ATA_CMD_ZAC_MGMT_IN;
tf->feature = ATA_SUBCMD_ZAC_MGMT_IN_REPORT_ZONES;
tf->protocol = ATA_PROT_DMA;
tf->hob_feature = options;
tf->hob_nsect = (sect >> 8) & 0xff;
tf->nsect = sect & 0xff;
}
tf->device = ATA_LBA;
tf->lbah = (block >> 16) & 0xff;
tf->lbam = (block >> 8) & 0xff;
tf->lbal = block & 0xff;
tf->hob_lbah = (block >> 40) & 0xff;
tf->hob_lbam = (block >> 32) & 0xff;
tf->hob_lbal = (block >> 24) & 0xff;
tf->flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE | ATA_TFLAG_LBA48;
qc->flags |= ATA_QCFLAG_RESULT_TF;
ata_qc_set_pc_nbytes(qc);
qc->complete_fn = ata_scsi_report_zones_complete;
return 0;
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, bp);
return 1;
invalid_param_len:
/* "Parameter list length error" */
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x1a, 0x0);
return 1;
}
static unsigned int ata_scsi_zbc_out_xlat(struct ata_queued_cmd *qc)
{
struct ata_taskfile *tf = &qc->tf;
struct scsi_cmnd *scmd = qc->scsicmd;
struct ata_device *dev = qc->dev;
const u8 *cdb = scmd->cmnd;
u8 all, sa;
u64 block;
u32 n_block;
u16 fp = (u16)-1;
if (unlikely(scmd->cmd_len < 16)) {
fp = 15;
goto invalid_fld;
}
sa = cdb[1] & 0x1f;
if ((sa != ZO_CLOSE_ZONE) && (sa != ZO_FINISH_ZONE) &&
(sa != ZO_OPEN_ZONE) && (sa != ZO_RESET_WRITE_POINTER)) {
fp = 1;
goto invalid_fld;
}
scsi_16_lba_len(cdb, &block, &n_block);
if (n_block) {
/*
* ZAC MANAGEMENT OUT doesn't define any length
*/
goto invalid_param_len;
}
if (block > dev->n_sectors)
goto out_of_range;
all = cdb[14] & 0x1;
if (ata_ncq_enabled(qc->dev) &&
ata_fpdma_zac_mgmt_out_supported(qc->dev)) {
tf->protocol = ATA_PROT_NCQ_NODATA;
tf->command = ATA_CMD_NCQ_NON_DATA;
tf->feature = ATA_SUBCMD_NCQ_NON_DATA_ZAC_MGMT_OUT;
tf->nsect = qc->tag << 3;
tf->auxiliary = sa | ((u16)all << 8);
} else {
tf->protocol = ATA_PROT_NODATA;
tf->command = ATA_CMD_ZAC_MGMT_OUT;
tf->feature = sa;
tf->hob_feature = all;
}
tf->lbah = (block >> 16) & 0xff;
tf->lbam = (block >> 8) & 0xff;
tf->lbal = block & 0xff;
tf->hob_lbah = (block >> 40) & 0xff;
tf->hob_lbam = (block >> 32) & 0xff;
tf->hob_lbal = (block >> 24) & 0xff;
tf->device = ATA_LBA;
tf->flags |= ATA_TFLAG_ISADDR | ATA_TFLAG_DEVICE | ATA_TFLAG_LBA48;
return 0;
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, 0xff);
return 1;
out_of_range:
/* "Logical Block Address out of range" */
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x21, 0x00);
return 1;
invalid_param_len:
/* "Parameter list length error" */
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x1a, 0x0);
return 1;
}
/**
* ata_mselect_caching - Simulate MODE SELECT for caching info page
* @qc: Storage for translated ATA taskfile
* @buf: input buffer
* @len: number of valid bytes in the input buffer
* @fp: out parameter for the failed field on error
*
* Prepare a taskfile to modify caching information for the device.
*
* LOCKING:
* None.
*/
static int ata_mselect_caching(struct ata_queued_cmd *qc,
const u8 *buf, int len, u16 *fp)
{
struct ata_taskfile *tf = &qc->tf;
struct ata_device *dev = qc->dev;
u8 mpage[CACHE_MPAGE_LEN];
u8 wce;
int i;
/*
* The first two bytes of def_cache_mpage are a header, so offsets
* in mpage are off by 2 compared to buf. Same for len.
*/
if (len != CACHE_MPAGE_LEN - 2) {
if (len < CACHE_MPAGE_LEN - 2)
*fp = len;
else
*fp = CACHE_MPAGE_LEN - 2;
return -EINVAL;
}
wce = buf[0] & (1 << 2);
/*
* Check that read-only bits are not modified.
*/
ata_msense_caching(dev->id, mpage, false);
for (i = 0; i < CACHE_MPAGE_LEN - 2; i++) {
if (i == 0)
continue;
if (mpage[i + 2] != buf[i]) {
*fp = i;
return -EINVAL;
}
}
tf->flags |= ATA_TFLAG_DEVICE | ATA_TFLAG_ISADDR;
tf->protocol = ATA_PROT_NODATA;
tf->nsect = 0;
tf->command = ATA_CMD_SET_FEATURES;
tf->feature = wce ? SETFEATURES_WC_ON : SETFEATURES_WC_OFF;
return 0;
}
/**
* ata_mselect_control - Simulate MODE SELECT for control page
* @qc: Storage for translated ATA taskfile
* @buf: input buffer
* @len: number of valid bytes in the input buffer
* @fp: out parameter for the failed field on error
*
* Prepare a taskfile to modify caching information for the device.
*
* LOCKING:
* None.
*/
static int ata_mselect_control(struct ata_queued_cmd *qc,
const u8 *buf, int len, u16 *fp)
{
struct ata_device *dev = qc->dev;
u8 mpage[CONTROL_MPAGE_LEN];
u8 d_sense;
int i;
/*
* The first two bytes of def_control_mpage are a header, so offsets
* in mpage are off by 2 compared to buf. Same for len.
*/
if (len != CONTROL_MPAGE_LEN - 2) {
if (len < CONTROL_MPAGE_LEN - 2)
*fp = len;
else
*fp = CONTROL_MPAGE_LEN - 2;
return -EINVAL;
}
d_sense = buf[0] & (1 << 2);
/*
* Check that read-only bits are not modified.
*/
ata_msense_control(dev, mpage, false);
for (i = 0; i < CONTROL_MPAGE_LEN - 2; i++) {
if (i == 0)
continue;
if (mpage[2 + i] != buf[i]) {
*fp = i;
return -EINVAL;
}
}
if (d_sense & (1 << 2))
dev->flags |= ATA_DFLAG_D_SENSE;
else
dev->flags &= ~ATA_DFLAG_D_SENSE;
return 0;
}
/**
* ata_scsiop_mode_select - Simulate MODE SELECT 6, 10 commands
* @qc: Storage for translated ATA taskfile
*
* Converts a MODE SELECT command to an ATA SET FEATURES taskfile.
* Assume this is invoked for direct access devices (e.g. disks) only.
* There should be no block descriptor for other device types.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
static unsigned int ata_scsi_mode_select_xlat(struct ata_queued_cmd *qc)
{
struct scsi_cmnd *scmd = qc->scsicmd;
const u8 *cdb = scmd->cmnd;
const u8 *p;
u8 pg, spg;
unsigned six_byte, pg_len, hdr_len, bd_len;
int len;
u16 fp = (u16)-1;
u8 bp = 0xff;
VPRINTK("ENTER\n");
six_byte = (cdb[0] == MODE_SELECT);
if (six_byte) {
if (scmd->cmd_len < 5) {
fp = 4;
goto invalid_fld;
}
len = cdb[4];
hdr_len = 4;
} else {
if (scmd->cmd_len < 9) {
fp = 8;
goto invalid_fld;
}
len = (cdb[7] << 8) + cdb[8];
hdr_len = 8;
}
/* We only support PF=1, SP=0. */
if ((cdb[1] & 0x11) != 0x10) {
fp = 1;
bp = (cdb[1] & 0x01) ? 1 : 5;
goto invalid_fld;
}
/* Test early for possible overrun. */
if (!scsi_sg_count(scmd) || scsi_sglist(scmd)->length < len)
goto invalid_param_len;
p = page_address(sg_page(scsi_sglist(scmd)));
/* Move past header and block descriptors. */
if (len < hdr_len)
goto invalid_param_len;
if (six_byte)
bd_len = p[3];
else
bd_len = (p[6] << 8) + p[7];
len -= hdr_len;
p += hdr_len;
if (len < bd_len)
goto invalid_param_len;
if (bd_len != 0 && bd_len != 8) {
fp = (six_byte) ? 3 : 6;
fp += bd_len + hdr_len;
goto invalid_param;
}
len -= bd_len;
p += bd_len;
if (len == 0)
goto skip;
/* Parse both possible formats for the mode page headers. */
pg = p[0] & 0x3f;
if (p[0] & 0x40) {
if (len < 4)
goto invalid_param_len;
spg = p[1];
pg_len = (p[2] << 8) | p[3];
p += 4;
len -= 4;
} else {
if (len < 2)
goto invalid_param_len;
spg = 0;
pg_len = p[1];
p += 2;
len -= 2;
}
/*
* No mode subpages supported (yet) but asking for _all_
* subpages may be valid
*/
if (spg && (spg != ALL_SUB_MPAGES)) {
fp = (p[0] & 0x40) ? 1 : 0;
fp += hdr_len + bd_len;
goto invalid_param;
}
if (pg_len > len)
goto invalid_param_len;
switch (pg) {
case CACHE_MPAGE:
if (ata_mselect_caching(qc, p, pg_len, &fp) < 0) {
fp += hdr_len + bd_len;
goto invalid_param;
}
break;
case CONTROL_MPAGE:
if (ata_mselect_control(qc, p, pg_len, &fp) < 0) {
fp += hdr_len + bd_len;
goto invalid_param;
} else {
goto skip; /* No ATA command to send */
}
break;
default: /* invalid page code */
fp = bd_len + hdr_len;
goto invalid_param;
}
/*
* Only one page has changeable data, so we only support setting one
* page at a time.
*/
if (len > pg_len)
goto invalid_param;
return 0;
invalid_fld:
ata_scsi_set_invalid_field(qc->dev, scmd, fp, bp);
return 1;
invalid_param:
ata_scsi_set_invalid_parameter(qc->dev, scmd, fp);
return 1;
invalid_param_len:
/* "Parameter list length error" */
ata_scsi_set_sense(qc->dev, scmd, ILLEGAL_REQUEST, 0x1a, 0x0);
return 1;
skip:
scmd->result = SAM_STAT_GOOD;
return 1;
}
/**
* ata_get_xlat_func - check if SCSI to ATA translation is possible
* @dev: ATA device
* @cmd: SCSI command opcode to consider
*
* Look up the SCSI command given, and determine whether the
* SCSI command is to be translated or simulated.
*
* RETURNS:
* Pointer to translation function if possible, %NULL if not.
*/
static inline ata_xlat_func_t ata_get_xlat_func(struct ata_device *dev, u8 cmd)
{
switch (cmd) {
case READ_6:
case READ_10:
case READ_16:
case WRITE_6:
case WRITE_10:
case WRITE_16:
return ata_scsi_rw_xlat;
case WRITE_SAME_16:
return ata_scsi_write_same_xlat;
case SYNCHRONIZE_CACHE:
if (ata_try_flush_cache(dev))
return ata_scsi_flush_xlat;
break;
case VERIFY:
case VERIFY_16:
return ata_scsi_verify_xlat;
case ATA_12:
case ATA_16:
return ata_scsi_pass_thru;
case MODE_SELECT:
case MODE_SELECT_10:
return ata_scsi_mode_select_xlat;
break;
case ZBC_IN:
return ata_scsi_zbc_in_xlat;
case ZBC_OUT:
return ata_scsi_zbc_out_xlat;
case START_STOP:
return ata_scsi_start_stop_xlat;
}
return NULL;
}
/**
* ata_scsi_dump_cdb - dump SCSI command contents to dmesg
* @ap: ATA port to which the command was being sent
* @cmd: SCSI command to dump
*
* Prints the contents of a SCSI command via printk().
*/
static inline void ata_scsi_dump_cdb(struct ata_port *ap,
struct scsi_cmnd *cmd)
{
#ifdef ATA_DEBUG
struct scsi_device *scsidev = cmd->device;
DPRINTK("CDB (%u:%d,%d,%d) %9ph\n",
ap->print_id,
scsidev->channel, scsidev->id, scsidev->lun,
cmd->cmnd);
#endif
}
static inline int __ata_scsi_queuecmd(struct scsi_cmnd *scmd,
struct ata_device *dev)
{
u8 scsi_op = scmd->cmnd[0];
ata_xlat_func_t xlat_func;
int rc = 0;
if (dev->class == ATA_DEV_ATA || dev->class == ATA_DEV_ZAC) {
if (unlikely(!scmd->cmd_len || scmd->cmd_len > dev->cdb_len))
goto bad_cdb_len;
xlat_func = ata_get_xlat_func(dev, scsi_op);
} else {
if (unlikely(!scmd->cmd_len))
goto bad_cdb_len;
xlat_func = NULL;
if (likely((scsi_op != ATA_16) || !atapi_passthru16)) {
/* relay SCSI command to ATAPI device */
int len = COMMAND_SIZE(scsi_op);
if (unlikely(len > scmd->cmd_len || len > dev->cdb_len))
goto bad_cdb_len;
xlat_func = atapi_xlat;
} else {
/* ATA_16 passthru, treat as an ATA command */
if (unlikely(scmd->cmd_len > 16))
goto bad_cdb_len;
xlat_func = ata_get_xlat_func(dev, scsi_op);
}
}
if (xlat_func)
rc = ata_scsi_translate(dev, scmd, xlat_func);
else
ata_scsi_simulate(dev, scmd);
return rc;
bad_cdb_len:
DPRINTK("bad CDB len=%u, scsi_op=0x%02x, max=%u\n",
scmd->cmd_len, scsi_op, dev->cdb_len);
scmd->result = DID_ERROR << 16;
scmd->scsi_done(scmd);
return 0;
}
/**
* ata_scsi_queuecmd - Issue SCSI cdb to libata-managed device
* @shost: SCSI host of command to be sent
* @cmd: SCSI command to be sent
*
* In some cases, this function translates SCSI commands into
* ATA taskfiles, and queues the taskfiles to be sent to
* hardware. In other cases, this function simulates a
* SCSI device by evaluating and responding to certain
* SCSI commands. This creates the overall effect of
* ATA and ATAPI devices appearing as SCSI devices.
*
* LOCKING:
* ATA host lock
*
* RETURNS:
* Return value from __ata_scsi_queuecmd() if @cmd can be queued,
* 0 otherwise.
*/
int ata_scsi_queuecmd(struct Scsi_Host *shost, struct scsi_cmnd *cmd)
{
struct ata_port *ap;
struct ata_device *dev;
struct scsi_device *scsidev = cmd->device;
int rc = 0;
unsigned long irq_flags;
ap = ata_shost_to_port(shost);
spin_lock_irqsave(ap->lock, irq_flags);
ata_scsi_dump_cdb(ap, cmd);
dev = ata_scsi_find_dev(ap, scsidev);
if (likely(dev))
rc = __ata_scsi_queuecmd(cmd, dev);
else {
cmd->result = (DID_BAD_TARGET << 16);
cmd->scsi_done(cmd);
}
spin_unlock_irqrestore(ap->lock, irq_flags);
return rc;
}
/**
* ata_scsi_simulate - simulate SCSI command on ATA device
* @dev: the target device
* @cmd: SCSI command being sent to device.
*
* Interprets and directly executes a select list of SCSI commands
* that can be handled internally.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
void ata_scsi_simulate(struct ata_device *dev, struct scsi_cmnd *cmd)
{
struct ata_scsi_args args;
const u8 *scsicmd = cmd->cmnd;
u8 tmp8;
args.dev = dev;
args.id = dev->id;
args.cmd = cmd;
args.done = cmd->scsi_done;
switch(scsicmd[0]) {
case INQUIRY:
if (scsicmd[1] & 2) /* is CmdDt set? */
ata_scsi_invalid_field(dev, cmd, 1);
else if ((scsicmd[1] & 1) == 0) /* is EVPD clear? */
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_std);
else switch (scsicmd[2]) {
case 0x00:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_00);
break;
case 0x80:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_80);
break;
case 0x83:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_83);
break;
case 0x89:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_89);
break;
case 0xb0:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_b0);
break;
case 0xb1:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_b1);
break;
case 0xb2:
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_b2);
break;
case 0xb6:
if (dev->flags & ATA_DFLAG_ZAC) {
ata_scsi_rbuf_fill(&args, ata_scsiop_inq_b6);
break;
}
/* Fallthrough */
default:
ata_scsi_invalid_field(dev, cmd, 2);
break;
}
break;
case MODE_SENSE:
case MODE_SENSE_10:
ata_scsi_rbuf_fill(&args, ata_scsiop_mode_sense);
break;
case READ_CAPACITY:
ata_scsi_rbuf_fill(&args, ata_scsiop_read_cap);
break;
case SERVICE_ACTION_IN_16:
if ((scsicmd[1] & 0x1f) == SAI_READ_CAPACITY_16)
ata_scsi_rbuf_fill(&args, ata_scsiop_read_cap);
else
ata_scsi_invalid_field(dev, cmd, 1);
break;
case REPORT_LUNS:
ata_scsi_rbuf_fill(&args, ata_scsiop_report_luns);
break;
case REQUEST_SENSE:
ata_scsi_set_sense(dev, cmd, 0, 0, 0);
cmd->result = (DRIVER_SENSE << 24);
cmd->scsi_done(cmd);
break;
/* if we reach this, then writeback caching is disabled,
* turning this into a no-op.
*/
case SYNCHRONIZE_CACHE:
/* fall through */
/* no-op's, complete with success */
case REZERO_UNIT:
case SEEK_6:
case SEEK_10:
case TEST_UNIT_READY:
ata_scsi_rbuf_fill(&args, ata_scsiop_noop);
break;
case SEND_DIAGNOSTIC:
tmp8 = scsicmd[1] & ~(1 << 3);
if ((tmp8 == 0x4) && (!scsicmd[3]) && (!scsicmd[4]))
ata_scsi_rbuf_fill(&args, ata_scsiop_noop);
else
ata_scsi_invalid_field(dev, cmd, 1);
break;
case MAINTENANCE_IN:
if (scsicmd[1] == MI_REPORT_SUPPORTED_OPERATION_CODES)
ata_scsi_rbuf_fill(&args, ata_scsiop_maint_in);
else
ata_scsi_invalid_field(dev, cmd, 1);
break;
/* all other commands */
default:
ata_scsi_set_sense(dev, cmd, ILLEGAL_REQUEST, 0x20, 0x0);
/* "Invalid command operation code" */
cmd->scsi_done(cmd);
break;
}
}
int ata_scsi_add_hosts(struct ata_host *host, struct scsi_host_template *sht)
{
int i, rc;
for (i = 0; i < host->n_ports; i++) {
struct ata_port *ap = host->ports[i];
struct Scsi_Host *shost;
rc = -ENOMEM;
shost = scsi_host_alloc(sht, sizeof(struct ata_port *));
if (!shost)
goto err_alloc;
shost->eh_noresume = 1;
*(struct ata_port **)&shost->hostdata[0] = ap;
ap->scsi_host = shost;
shost->transportt = ata_scsi_transport_template;
shost->unique_id = ap->print_id;
shost->max_id = 16;
shost->max_lun = 1;
shost->max_channel = 1;
shost->max_cmd_len = 16;
/* Schedule policy is determined by ->qc_defer()
* callback and it needs to see every deferred qc.
* Set host_blocked to 1 to prevent SCSI midlayer from
* automatically deferring requests.
*/
shost->max_host_blocked = 1;
rc = scsi_add_host_with_dma(ap->scsi_host,
&ap->tdev, ap->host->dev);
if (rc)
goto err_add;
}
return 0;
err_add:
scsi_host_put(host->ports[i]->scsi_host);
err_alloc:
while (--i >= 0) {
struct Scsi_Host *shost = host->ports[i]->scsi_host;
scsi_remove_host(shost);
scsi_host_put(shost);
}
return rc;
}
void ata_scsi_scan_host(struct ata_port *ap, int sync)
{
int tries = 5;
struct ata_device *last_failed_dev = NULL;
struct ata_link *link;
struct ata_device *dev;
repeat:
ata_for_each_link(link, ap, EDGE) {
ata_for_each_dev(dev, link, ENABLED) {
struct scsi_device *sdev;
int channel = 0, id = 0;
if (dev->sdev)
continue;
if (ata_is_host_link(link))
id = dev->devno;
else
channel = link->pmp;
sdev = __scsi_add_device(ap->scsi_host, channel, id, 0,
NULL);
if (!IS_ERR(sdev)) {
dev->sdev = sdev;
scsi_device_put(sdev);
} else {
dev->sdev = NULL;
}
}
}
/* If we scanned while EH was in progress or allocation
* failure occurred, scan would have failed silently. Check
* whether all devices are attached.
*/
ata_for_each_link(link, ap, EDGE) {
ata_for_each_dev(dev, link, ENABLED) {
if (!dev->sdev)
goto exit_loop;
}
}
exit_loop:
if (!link)
return;
/* we're missing some SCSI devices */
if (sync) {
/* If caller requested synchrnous scan && we've made
* any progress, sleep briefly and repeat.
*/
if (dev != last_failed_dev) {
msleep(100);
last_failed_dev = dev;
goto repeat;
}
/* We might be failing to detect boot device, give it
* a few more chances.
*/
if (--tries) {
msleep(100);
goto repeat;
}
ata_port_err(ap,
"WARNING: synchronous SCSI scan failed without making any progress, switching to async\n");
}
queue_delayed_work(system_long_wq, &ap->hotplug_task,
round_jiffies_relative(HZ));
}
/**
* ata_scsi_offline_dev - offline attached SCSI device
* @dev: ATA device to offline attached SCSI device for
*
* This function is called from ata_eh_hotplug() and responsible
* for taking the SCSI device attached to @dev offline. This
* function is called with host lock which protects dev->sdev
* against clearing.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*
* RETURNS:
* 1 if attached SCSI device exists, 0 otherwise.
*/
int ata_scsi_offline_dev(struct ata_device *dev)
{
if (dev->sdev) {
scsi_device_set_state(dev->sdev, SDEV_OFFLINE);
return 1;
}
return 0;
}
/**
* ata_scsi_remove_dev - remove attached SCSI device
* @dev: ATA device to remove attached SCSI device for
*
* This function is called from ata_eh_scsi_hotplug() and
* responsible for removing the SCSI device attached to @dev.
*
* LOCKING:
* Kernel thread context (may sleep).
*/
static void ata_scsi_remove_dev(struct ata_device *dev)
{
struct ata_port *ap = dev->link->ap;
struct scsi_device *sdev;
unsigned long flags;
/* Alas, we need to grab scan_mutex to ensure SCSI device
* state doesn't change underneath us and thus
* scsi_device_get() always succeeds. The mutex locking can
* be removed if there is __scsi_device_get() interface which
* increments reference counts regardless of device state.
*/
mutex_lock(&ap->scsi_host->scan_mutex);
spin_lock_irqsave(ap->lock, flags);
/* clearing dev->sdev is protected by host lock */
sdev = dev->sdev;
dev->sdev = NULL;
if (sdev) {
/* If user initiated unplug races with us, sdev can go
* away underneath us after the host lock and
* scan_mutex are released. Hold onto it.
*/
if (scsi_device_get(sdev) == 0) {
/* The following ensures the attached sdev is
* offline on return from ata_scsi_offline_dev()
* regardless it wins or loses the race
* against this function.
*/
scsi_device_set_state(sdev, SDEV_OFFLINE);
} else {
WARN_ON(1);
sdev = NULL;
}
}
spin_unlock_irqrestore(ap->lock, flags);
mutex_unlock(&ap->scsi_host->scan_mutex);
if (sdev) {
ata_dev_info(dev, "detaching (SCSI %s)\n",
dev_name(&sdev->sdev_gendev));
scsi_remove_device(sdev);
scsi_device_put(sdev);
}
}
static void ata_scsi_handle_link_detach(struct ata_link *link)
{
struct ata_port *ap = link->ap;
struct ata_device *dev;
ata_for_each_dev(dev, link, ALL) {
unsigned long flags;
if (!(dev->flags & ATA_DFLAG_DETACHED))
continue;
spin_lock_irqsave(ap->lock, flags);
dev->flags &= ~ATA_DFLAG_DETACHED;
spin_unlock_irqrestore(ap->lock, flags);
if (zpodd_dev_enabled(dev))
zpodd_exit(dev);
ata_scsi_remove_dev(dev);
}
}
/**
* ata_scsi_media_change_notify - send media change event
* @dev: Pointer to the disk device with media change event
*
* Tell the block layer to send a media change notification
* event.
*
* LOCKING:
* spin_lock_irqsave(host lock)
*/
void ata_scsi_media_change_notify(struct ata_device *dev)
{
if (dev->sdev)
sdev_evt_send_simple(dev->sdev, SDEV_EVT_MEDIA_CHANGE,
GFP_ATOMIC);
}
/**
* ata_scsi_hotplug - SCSI part of hotplug
* @work: Pointer to ATA port to perform SCSI hotplug on
*
* Perform SCSI part of hotplug. It's executed from a separate
* workqueue after EH completes. This is necessary because SCSI
* hot plugging requires working EH and hot unplugging is
* synchronized with hot plugging with a mutex.
*
* LOCKING:
* Kernel thread context (may sleep).
*/
void ata_scsi_hotplug(struct work_struct *work)
{
struct ata_port *ap =
container_of(work, struct ata_port, hotplug_task.work);
int i;
if (ap->pflags & ATA_PFLAG_UNLOADING) {
DPRINTK("ENTER/EXIT - unloading\n");
return;
}
/*
* XXX - UGLY HACK
*
* The block layer suspend/resume path is fundamentally broken due
* to freezable kthreads and workqueue and may deadlock if a block
* device gets removed while resume is in progress. I don't know
* what the solution is short of removing freezable kthreads and
* workqueues altogether.
*
* The following is an ugly hack to avoid kicking off device
* removal while freezer is active. This is a joke but does avoid
* this particular deadlock scenario.
*
* https://bugzilla.kernel.org/show_bug.cgi?id=62801
* http://marc.info/?l=linux-kernel&m=138695698516487
*/
#ifdef CONFIG_FREEZER
while (pm_freezing)
msleep(10);
#endif
DPRINTK("ENTER\n");
mutex_lock(&ap->scsi_scan_mutex);
/* Unplug detached devices. We cannot use link iterator here
* because PMP links have to be scanned even if PMP is
* currently not attached. Iterate manually.
*/
ata_scsi_handle_link_detach(&ap->link);
if (ap->pmp_link)
for (i = 0; i < SATA_PMP_MAX_PORTS; i++)
ata_scsi_handle_link_detach(&ap->pmp_link[i]);
/* scan for new ones */
ata_scsi_scan_host(ap, 0);
mutex_unlock(&ap->scsi_scan_mutex);
DPRINTK("EXIT\n");
}
/**
* ata_scsi_user_scan - indication for user-initiated bus scan
* @shost: SCSI host to scan
* @channel: Channel to scan
* @id: ID to scan
* @lun: LUN to scan
*
* This function is called when user explicitly requests bus
* scan. Set probe pending flag and invoke EH.
*
* LOCKING:
* SCSI layer (we don't care)
*
* RETURNS:
* Zero.
*/
int ata_scsi_user_scan(struct Scsi_Host *shost, unsigned int channel,
unsigned int id, u64 lun)
{
struct ata_port *ap = ata_shost_to_port(shost);
unsigned long flags;
int devno, rc = 0;
if (!ap->ops->error_handler)
return -EOPNOTSUPP;
if (lun != SCAN_WILD_CARD && lun)
return -EINVAL;
if (!sata_pmp_attached(ap)) {
if (channel != SCAN_WILD_CARD && channel)
return -EINVAL;
devno = id;
} else {
if (id != SCAN_WILD_CARD && id)
return -EINVAL;
devno = channel;
}
spin_lock_irqsave(ap->lock, flags);
if (devno == SCAN_WILD_CARD) {
struct ata_link *link;
ata_for_each_link(link, ap, EDGE) {
struct ata_eh_info *ehi = &link->eh_info;
ehi->probe_mask |= ATA_ALL_DEVICES;
ehi->action |= ATA_EH_RESET;
}
} else {
struct ata_device *dev = ata_find_dev(ap, devno);
if (dev) {
struct ata_eh_info *ehi = &dev->link->eh_info;
ehi->probe_mask |= 1 << dev->devno;
ehi->action |= ATA_EH_RESET;
} else
rc = -EINVAL;
}
if (rc == 0) {
ata_port_schedule_eh(ap);
spin_unlock_irqrestore(ap->lock, flags);
ata_port_wait_eh(ap);
} else
spin_unlock_irqrestore(ap->lock, flags);
return rc;
}
/**
* ata_scsi_dev_rescan - initiate scsi_rescan_device()
* @work: Pointer to ATA port to perform scsi_rescan_device()
*
* After ATA pass thru (SAT) commands are executed successfully,
* libata need to propagate the changes to SCSI layer.
*
* LOCKING:
* Kernel thread context (may sleep).
*/
void ata_scsi_dev_rescan(struct work_struct *work)
{
struct ata_port *ap =
container_of(work, struct ata_port, scsi_rescan_task);
struct ata_link *link;
struct ata_device *dev;
unsigned long flags;
mutex_lock(&ap->scsi_scan_mutex);
spin_lock_irqsave(ap->lock, flags);
ata_for_each_link(link, ap, EDGE) {
ata_for_each_dev(dev, link, ENABLED) {
struct scsi_device *sdev = dev->sdev;
if (!sdev)
continue;
if (scsi_device_get(sdev))
continue;
spin_unlock_irqrestore(ap->lock, flags);
scsi_rescan_device(&(sdev->sdev_gendev));
scsi_device_put(sdev);
spin_lock_irqsave(ap->lock, flags);
}
}
spin_unlock_irqrestore(ap->lock, flags);
mutex_unlock(&ap->scsi_scan_mutex);
}
/**
* ata_sas_port_alloc - Allocate port for a SAS attached SATA device
* @host: ATA host container for all SAS ports
* @port_info: Information from low-level host driver
* @shost: SCSI host that the scsi device is attached to
*
* LOCKING:
* PCI/etc. bus probe sem.
*
* RETURNS:
* ata_port pointer on success / NULL on failure.
*/
struct ata_port *ata_sas_port_alloc(struct ata_host *host,
struct ata_port_info *port_info,
struct Scsi_Host *shost)
{
struct ata_port *ap;
ap = ata_port_alloc(host);
if (!ap)
return NULL;
ap->port_no = 0;
ap->lock = &host->lock;
ap->pio_mask = port_info->pio_mask;
ap->mwdma_mask = port_info->mwdma_mask;
ap->udma_mask = port_info->udma_mask;
ap->flags |= port_info->flags;
ap->ops = port_info->port_ops;
ap->cbl = ATA_CBL_SATA;
return ap;
}
EXPORT_SYMBOL_GPL(ata_sas_port_alloc);
/**
* ata_sas_port_start - Set port up for dma.
* @ap: Port to initialize
*
* Called just after data structures for each port are
* initialized.
*
* May be used as the port_start() entry in ata_port_operations.
*
* LOCKING:
* Inherited from caller.
*/
int ata_sas_port_start(struct ata_port *ap)
{
/*
* the port is marked as frozen at allocation time, but if we don't
* have new eh, we won't thaw it
*/
if (!ap->ops->error_handler)
ap->pflags &= ~ATA_PFLAG_FROZEN;
return 0;
}
EXPORT_SYMBOL_GPL(ata_sas_port_start);
/**
* ata_port_stop - Undo ata_sas_port_start()
* @ap: Port to shut down
*
* May be used as the port_stop() entry in ata_port_operations.
*
* LOCKING:
* Inherited from caller.
*/
void ata_sas_port_stop(struct ata_port *ap)
{
}
EXPORT_SYMBOL_GPL(ata_sas_port_stop);
/**
* ata_sas_async_probe - simply schedule probing and return
* @ap: Port to probe
*
* For batch scheduling of probe for sas attached ata devices, assumes
* the port has already been through ata_sas_port_init()
*/
void ata_sas_async_probe(struct ata_port *ap)
{
__ata_port_probe(ap);
}
EXPORT_SYMBOL_GPL(ata_sas_async_probe);
int ata_sas_sync_probe(struct ata_port *ap)
{
return ata_port_probe(ap);
}
EXPORT_SYMBOL_GPL(ata_sas_sync_probe);
/**
* ata_sas_port_init - Initialize a SATA device
* @ap: SATA port to initialize
*
* LOCKING:
* PCI/etc. bus probe sem.
*
* RETURNS:
* Zero on success, non-zero on error.
*/
int ata_sas_port_init(struct ata_port *ap)
{
int rc = ap->ops->port_start(ap);
if (rc)
return rc;
ap->print_id = atomic_inc_return(&ata_print_id);
return 0;
}
EXPORT_SYMBOL_GPL(ata_sas_port_init);
/**
* ata_sas_port_destroy - Destroy a SATA port allocated by ata_sas_port_alloc
* @ap: SATA port to destroy
*
*/
void ata_sas_port_destroy(struct ata_port *ap)
{
if (ap->ops->port_stop)
ap->ops->port_stop(ap);
kfree(ap);
}
EXPORT_SYMBOL_GPL(ata_sas_port_destroy);
/**
* ata_sas_slave_configure - Default slave_config routine for libata devices
* @sdev: SCSI device to configure
* @ap: ATA port to which SCSI device is attached
*
* RETURNS:
* Zero.
*/
int ata_sas_slave_configure(struct scsi_device *sdev, struct ata_port *ap)
{
ata_scsi_sdev_config(sdev);
ata_scsi_dev_config(sdev, ap->link.device);
return 0;
}
EXPORT_SYMBOL_GPL(ata_sas_slave_configure);
/**
* ata_sas_queuecmd - Issue SCSI cdb to libata-managed device
* @cmd: SCSI command to be sent
* @ap: ATA port to which the command is being sent
*
* RETURNS:
* Return value from __ata_scsi_queuecmd() if @cmd can be queued,
* 0 otherwise.
*/
int ata_sas_queuecmd(struct scsi_cmnd *cmd, struct ata_port *ap)
{
int rc = 0;
ata_scsi_dump_cdb(ap, cmd);
if (likely(ata_dev_enabled(ap->link.device)))
rc = __ata_scsi_queuecmd(cmd, ap->link.device);
else {
cmd->result = (DID_BAD_TARGET << 16);
cmd->scsi_done(cmd);
}
return rc;
}
EXPORT_SYMBOL_GPL(ata_sas_queuecmd);
int ata_sas_allocate_tag(struct ata_port *ap)
{
unsigned int max_queue = ap->host->n_tags;
unsigned int i, tag;
for (i = 0, tag = ap->sas_last_tag + 1; i < max_queue; i++, tag++) {
tag = tag < max_queue ? tag : 0;
/* the last tag is reserved for internal command. */
if (tag == ATA_TAG_INTERNAL)
continue;
if (!test_and_set_bit(tag, &ap->sas_tag_allocated)) {
ap->sas_last_tag = tag;
return tag;
}
}
return -1;
}
void ata_sas_free_tag(unsigned int tag, struct ata_port *ap)
{
clear_bit(tag, &ap->sas_tag_allocated);
}