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4622 4623 4624 4625 4626 4627 4628 4629 4630 4631 4632 4633 4634 4635 4636 4637 4638 4639 4640 4641 4642 4643 4644 4645 4646 4647 4648 4649 4650 4651 4652 4653 4654 4655 4656 4657 4658 4659 4660 4661 4662 4663 4664 4665 4666 4667 4668 4669 4670 4671 4672 4673 4674 4675 4676 4677 4678 4679 4680 4681 4682 4683 4684 4685 4686 4687 4688 4689 4690 4691 4692 4693 4694 4695 4696 4697 4698 4699 4700 4701 4702 4703 4704 4705 4706 4707 4708 4709 4710 4711 4712 4713 4714 4715 4716 4717 4718 4719 4720 4721 4722 4723 4724 4725 4726 4727 4728 4729 4730 4731 4732 4733 4734 4735 4736 4737 4738 4739 4740 4741 4742 4743 4744 4745 4746 4747 4748 4749 4750 4751 4752 4753 4754 4755 4756 4757 4758 4759 4760 4761 4762 4763 4764 4765 4766 4767 4768 4769 4770 4771 4772 4773 4774 4775 4776 4777 4778 4779 4780 4781 4782 4783 4784 4785 4786 4787 4788 4789 4790 4791 4792 4793 4794 4795 4796 4797 4798 4799 4800 4801 4802 4803 4804 4805 4806 4807 | // SPDX-License-Identifier: GPL-2.0-or-later /* * libata-scsi.c - helper library for ATA * * Copyright 2003-2004 Red Hat, Inc. All rights reserved. * Copyright 2003-2004 Jeff Garzik * * libata documentation is available via 'make {ps|pdf}docs', * as Documentation/driver-api/libata.rst * * Hardware documentation available from * - http://www.t10.org/ * - http://www.t13.org/ */ #include <linux/compat.h> #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 <linux/ioprio.h> #include <linux/of.h> #include "libata.h" #include "libata-transport.h" #define ATA_SCSI_RBUF_SIZE 2048 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); #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 #define CDL_T2A_SUB_MPAGE 0x07 #define CDL_T2B_SUB_MPAGE 0x08 #define CDL_T2_SUB_MPAGE_LEN 232 #define ATA_FEATURE_SUB_MPAGE 0xf2 #define ATA_FEATURE_SUB_MPAGE_LEN 16 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 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 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 : sysfs_emit(buf, "%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; int input; unsigned long flags; int rc; rc = kstrtoint(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); bool ata_scsi_sense_is_valid(u8 sk, u8 asc, u8 ascq) { /* * If sk == NO_SENSE, and asc + ascq == NO ADDITIONAL SENSE INFORMATION, * then there is no sense data to add. */ if (sk == 0 && asc == 0 && ascq == 0) return false; /* If sk > COMPLETED, sense data is bogus. */ if (sk > COMPLETED) return false; return true; } 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); scsi_build_sense(cmd, d_sense, sk, asc, ascq); } void ata_scsi_set_sense_information(struct ata_device *dev, struct scsi_cmnd *cmd, const struct ata_taskfile *tf) { u64 information; 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 struct attribute *ata_common_sdev_attrs[] = { &dev_attr_unload_heads.attr, NULL }; static const struct attribute_group ata_common_sdev_attr_group = { .attrs = ata_common_sdev_attrs }; const struct attribute_group *ata_common_sdev_groups[] = { &ata_common_sdev_attr_group, NULL }; EXPORT_SYMBOL_GPL(ata_common_sdev_groups); /** * 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; } EXPORT_SYMBOL_GPL(ata_std_bios_param); /** * 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); } EXPORT_SYMBOL_GPL(ata_scsi_unlock_native_capacity); /** * 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 sensebuf[SCSI_SENSE_BUFFERSIZE]; u8 scsi_cmd[MAX_COMMAND_SIZE]; u8 args[4], *argbuf = NULL; int argsize = 0; struct scsi_sense_hdr sshdr; const struct scsi_exec_args exec_args = { .sshdr = &sshdr, .sense = sensebuf, .sense_len = sizeof(sensebuf), }; int cmd_result; if (arg == NULL) return -EINVAL; if (copy_from_user(args, arg, sizeof(args))) return -EFAULT; memset(sensebuf, 0, sizeof(sensebuf)); 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 */ } else { scsi_cmd[1] = (3 << 1); /* Non-data */ scsi_cmd[2] = 0x20; /* cc but no off.line or data xfer */ } 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] = ATA_SMART_LBAM_PASS; scsi_cmd[12] = ATA_SMART_LBAH_PASS; } 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_cmd(scsidev, scsi_cmd, REQ_OP_DRV_IN, argbuf, argsize, 10 * HZ, 5, &exec_args); if (cmd_result < 0) { rc = cmd_result; goto error; } if (scsi_sense_valid(&sshdr)) {/* sense data available */ u8 *desc = sensebuf + 8; /* If we set cc then ATA pass-through will cause a * check condition even if no error. Filter that. */ if (scsi_status_is_check_condition(cmd_result)) { 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(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 sensebuf[SCSI_SENSE_BUFFERSIZE]; u8 scsi_cmd[MAX_COMMAND_SIZE]; u8 args[7]; struct scsi_sense_hdr sshdr; int cmd_result; const struct scsi_exec_args exec_args = { .sshdr = &sshdr, .sense = sensebuf, .sense_len = sizeof(sensebuf), }; if (arg == NULL) return -EINVAL; if (copy_from_user(args, arg, sizeof(args))) return -EFAULT; memset(sensebuf, 0, sizeof(sensebuf)); 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_cmd(scsidev, scsi_cmd, REQ_OP_DRV_IN, NULL, 0, 10 * HZ, 5, &exec_args); if (cmd_result < 0) { rc = cmd_result; goto error; } if (scsi_sense_valid(&sshdr)) {/* sense data available */ u8 *desc = sensebuf + 8; /* 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) { 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: return rc; } static bool ata_ioc32(struct ata_port *ap) { if (ap->flags & ATA_FLAG_PIO_DMA) return true; if (ap->pflags & ATA_PFLAG_PIO32) return true; return false; } /* * This handles both native and compat commands, so anything added * here must have a compatible argument, or check in_compat_syscall() */ int ata_sas_scsi_ioctl(struct ata_port *ap, struct scsi_device *scsidev, unsigned 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); #ifdef CONFIG_COMPAT if (in_compat_syscall()) return put_user(val, (compat_ulong_t __user *)arg); #endif 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, unsigned 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_port *ap = dev->link->ap; struct ata_queued_cmd *qc; int tag; if (unlikely(ata_port_is_frozen(ap))) goto fail; if (ap->flags & ATA_FLAG_SAS_HOST) { /* * SAS hosts may queue > ATA_MAX_QUEUE commands so use * unique per-device budget token as a tag. */ if (WARN_ON_ONCE(cmd->budget_token >= ATA_MAX_QUEUE)) goto fail; tag = cmd->budget_token; } else { tag = scsi_cmd_to_rq(cmd)->tag; } qc = __ata_qc_from_tag(ap, tag); qc->tag = qc->hw_tag = tag; qc->ap = ap; qc->dev = dev; ata_qc_reinit(qc); qc->scsicmd = cmd; qc->scsidone = scsi_done; qc->sg = scsi_sglist(cmd); qc->n_elem = scsi_sg_count(cmd); if (scsi_cmd_to_rq(cmd)->rq_flags & RQF_QUIET) qc->flags |= ATA_QCFLAG_QUIET; return qc; fail: set_host_byte(cmd, DID_OK); set_status_byte(cmd, SAM_STAT_TASK_SET_FULL); scsi_done(cmd); return NULL; } static void ata_qc_set_pc_nbytes(struct ata_queued_cmd *qc) { struct scsi_cmnd *scmd = qc->scsicmd; qc->extrabytes = scmd->extra_len; qc->nbytes = scsi_bufflen(scmd) + qc->extrabytes; } /** * 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 * * 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 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]; return; } } } /* * 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]; return; } } /* * 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; } /* * 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; u8 sense_key, asc, ascq; memset(sb, 0, SCSI_SENSE_BUFFERSIZE); /* * Use ata_to_sense_error() to map status register bits * onto sense key, asc & ascq. */ if (qc->err_mask || tf->status & (ATA_BUSY | ATA_DF | ATA_ERR | ATA_DRQ)) { ata_to_sense_error(qc->ap->print_id, tf->status, tf->error, &sense_key, &asc, &ascq); 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(cmd, 1, 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->error; desc[5] = tf->nsect; desc[7] = tf->lbal; desc[9] = tf->lbam; desc[11] = tf->lbah; desc[12] = tf->device; desc[13] = tf->status; /* * 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->error; desc[1] = tf->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; u64 block; u8 sense_key, asc, ascq; memset(sb, 0, SCSI_SENSE_BUFFERSIZE); 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->status & (ATA_BUSY | ATA_DF | ATA_ERR | ATA_DRQ)) { ata_to_sense_error(qc->ap->print_id, tf->status, tf->error, &sense_key, &asc, &ascq); 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->status, 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); } 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; } /** * ata_scsi_dma_need_drain - 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. */ bool ata_scsi_dma_need_drain(struct request *rq) { struct scsi_cmnd *scmd = blk_mq_rq_to_pdu(rq); return atapi_cmd_type(scmd->cmnd[0]) == ATAPI_MISC; } EXPORT_SYMBOL_GPL(ata_scsi_dma_need_drain); int ata_scsi_dev_config(struct scsi_device *sdev, struct ata_device *dev) { struct request_queue *q = sdev->request_queue; int depth = 1; if (!ata_id_has_unload(dev->id)) dev->flags |= ATA_DFLAG_NO_UNLOAD; /* configure max sectors */ dev->max_sectors = min(dev->max_sectors, sdev->host->max_sectors); blk_queue_max_hw_sectors(q, dev->max_sectors); if (dev->class == ATA_DEV_ATAPI) { sdev->sector_size = ATA_SECT_SIZE; /* set DMA padding */ blk_queue_update_dma_pad(q, ATA_DMA_PAD_SZ - 1); /* make room for appending the drain */ blk_queue_max_segments(q, queue_max_segments(q) - 1); sdev->dma_drain_len = ATAPI_MAX_DRAIN; sdev->dma_drain_buf = kmalloc(sdev->dma_drain_len, GFP_NOIO); if (!sdev->dma_drain_buf) { ata_dev_err(dev, "drain buffer allocation failed\n"); return -ENOMEM; } } else { sdev->sector_size = ata_id_logical_sector_size(dev->id); /* * Ask the sd driver to issue START STOP UNIT on runtime suspend * and resume and shutdown only. For system level suspend/resume, * devices power state is handled directly by libata EH. * Given that disks are always spun up on system resume, also * make sure that the sd driver forces runtime suspended disks * to be resumed to correctly reflect the power state of the * device. */ sdev->manage_runtime_start_stop = 1; sdev->manage_shutdown = 1; sdev->force_runtime_start_on_system_start = 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 (ata_ncq_supported(dev)) depth = min(sdev->host->can_queue, ata_id_queue_depth(dev->id)); depth = min(ATA_MAX_QUEUE, depth); scsi_change_queue_depth(sdev, depth); if (dev->flags & ATA_DFLAG_TRUSTED) sdev->security_supported = 1; dev->sdev = sdev; return 0; } /** * ata_scsi_slave_alloc - Early setup of SCSI device * @sdev: SCSI device to examine * * This is called from scsi_alloc_sdev() when the scsi device * associated with an ATA device is scanned on a port. * * LOCKING: * Defined by SCSI layer. We don't really care. */ int ata_scsi_slave_alloc(struct scsi_device *sdev) { struct ata_port *ap = ata_shost_to_port(sdev->host); struct device_link *link; ata_scsi_sdev_config(sdev); /* * Create a link from the ata_port device to the scsi device to ensure * that PM does suspend/resume in the correct order: the scsi device is * consumer (child) and the ata port the supplier (parent). */ link = device_link_add(&sdev->sdev_gendev, &ap->tdev, DL_FLAG_STATELESS | DL_FLAG_PM_RUNTIME | DL_FLAG_RPM_ACTIVE); if (!link) { ata_port_err(ap, "Failed to create link to scsi device %s\n", dev_name(&sdev->sdev_gendev)); return -ENODEV; } return 0; } EXPORT_SYMBOL_GPL(ata_scsi_slave_alloc); /** * 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); if (dev) return ata_scsi_dev_config(sdev, dev); return 0; } EXPORT_SYMBOL_GPL(ata_scsi_slave_config); /** * 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); unsigned long flags; struct ata_device *dev; device_link_remove(&sdev->sdev_gendev, &ap->tdev); 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(sdev->dma_drain_buf); } EXPORT_SYMBOL_GPL(ata_scsi_slave_destroy); /** * 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; 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 inline void scsi_10_lba_len(const u8 *cdb, u64 *plba, u32 *plen) { *plba = get_unaligned_be32(&cdb[2]); *plen = get_unaligned_be16(&cdb[7]); } /** * 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 inline void scsi_16_lba_len(const u8 *cdb, u64 *plba, u32 *plen) { *plba = get_unaligned_be64(&cdb[2]); *plen = get_unaligned_be32(&cdb[10]); } /** * scsi_dld - Get duration limit descriptor index * @cdb: SCSI command to translate * * Returns the dld bits indicating the index of a command duration limit * descriptor. */ static inline int scsi_dld(const u8 *cdb) { return ((cdb[1] & 0x01) << 2) | ((cdb[14] >> 6) & 0x03); } /** * 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; switch (cdb[0]) { case VERIFY: if (scmd->cmd_len < 10) { fp = 9; goto invalid_fld; } scsi_10_lba_len(cdb, &block, &n_block); break; case VERIFY_16: if (scmd->cmd_len < 16) { fp = 15; goto invalid_fld; } scsi_16_lba_len(cdb, &block, &n_block); break; default: 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; /* 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; } static bool ata_check_nblocks(struct scsi_cmnd *scmd, u32 n_blocks) { struct request *rq = scsi_cmd_to_rq(scmd); u32 req_blocks; if (!blk_rq_is_passthrough(rq)) return true; req_blocks = blk_rq_bytes(rq) / scmd->device->sector_size; if (n_blocks > req_blocks) return false; return true; } /** * 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; struct request *rq = scsi_cmd_to_rq(scmd); int class = IOPRIO_PRIO_CLASS(req_get_ioprio(rq)); unsigned int tf_flags = 0; int dld = 0; u64 block; u32 n_block; int rc; u16 fp = 0; switch (cdb[0]) { case WRITE_6: case WRITE_10: case WRITE_16: tf_flags |= ATA_TFLAG_WRITE; break; } /* 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; if (!ata_check_nblocks(scmd, n_block)) goto invalid_fld; 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; if (!ata_check_nblocks(scmd, n_block)) goto invalid_fld; 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); dld = scsi_dld(cdb); if (cdb[1] & (1 << 3)) tf_flags |= ATA_TFLAG_FUA; if (!ata_check_nblocks(scmd, n_block)) goto invalid_fld; break; default: 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, block, n_block, tf_flags, dld, class); 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 scsi_cmnd *cmd = qc->scsicmd; u8 *cdb = cmd->cmnd; int need_sense = (qc->err_mask != 0) && !(qc->flags & ATA_QCFLAG_SENSE_VALID); /* 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 (need_sense) ata_gen_ata_sense(qc); else /* Keep the SCSI ML and status byte, clear host byte. */ cmd->result &= 0x0000ffff; 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; 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); return 0; early_finish: ata_qc_free(qc); scsi_done(cmd); return 0; err_did: ata_qc_free(qc); cmd->result = (DID_ERROR << 16); scsi_done(cmd); err_mem: return 0; defer: ata_qc_free(qc); if (rc == ATA_DEFER_LINK) return SCSI_MLQUEUE_DEVICE_BUSY; else return SCSI_MLQUEUE_HOST_BUSY; } struct ata_scsi_args { struct ata_device *dev; u16 *id; struct scsi_cmnd *cmd; }; /** * 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)) { unsigned int rc; struct scsi_cmnd *cmd = args->cmd; unsigned long flags; spin_lock_irqsave(&ata_scsi_rbuf_lock, flags); memset(ata_scsi_rbuf, 0, ATA_SCSI_RBUF_SIZE); rc = actor(args, ata_scsi_rbuf); if (rc == 0) 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); if (rc == 0) cmd->result = SAM_STAT_GOOD; } /** * 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) { static const u8 versions[] = { 0x00, 0x60, /* SAM-3 (no version claimed) */ 0x03, 0x20, /* SBC-2 (no version claimed) */ 0x03, 0x00 /* SPC-3 (no version claimed) */ }; static 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 }; /* 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 */ } if (args->dev->flags & ATA_DFLAG_CDL) hdr[2] = 0xd; /* claim SPC-6 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 i, num_pages = 0; static 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 */ 0xb9, /* page 0xb9, concurrent positioning ranges */ }; for (i = 0; i < sizeof(pages); i++) { if (pages[i] == 0xb6 && !(args->dev->flags & ATA_DFLAG_ZAC)) continue; rbuf[num_pages + 4] = pages[i]; num_pages++; } rbuf[3] = num_pages; /* number of supported VPD 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) { static 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) { 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); rbuf[36] = 0x34; /* force D2H Reg FIS (34h) */ rbuf[37] = (1 << 7); /* bit 7 indicates Command FIS */ /* TODO: PMP? */ /* we don't store the ATA device signature, so we fake it */ rbuf[38] = ATA_DRDY; /* really, this is Status reg */ rbuf[40] = 0x1; rbuf[48] = 0x1; 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) { struct ata_device *dev = args->dev; 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)) { u64 max_blocks = 65535 * ATA_MAX_TRIM_RNUM; if (dev->horkage & ATA_HORKAGE_MAX_TRIM_128M) max_blocks = 128 << (20 - SECTOR_SHIFT); put_unaligned_be64(max_blocks, &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; } static unsigned int ata_scsiop_inq_b9(struct ata_scsi_args *args, u8 *rbuf) { struct ata_cpr_log *cpr_log = args->dev->cpr_log; u8 *desc = &rbuf[64]; int i; /* SCSI Concurrent Positioning Ranges VPD page: SBC-5 rev 1 or later */ rbuf[1] = 0xb9; put_unaligned_be16(64 + (int)cpr_log->nr_cpr * 32 - 4, &rbuf[2]); for (i = 0; i < cpr_log->nr_cpr; i++, desc += 32) { desc[0] = cpr_log->cpr[i].num; desc[1] = cpr_log->cpr[i].num_storage_elements; put_unaligned_be64(cpr_log->cpr[i].start_lba, &desc[8]); put_unaligned_be64(cpr_log->cpr[i].num_lbas, &desc[16]); } 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); } /* * Simulate MODE SENSE control mode page, sub-page 0. */ static unsigned int ata_msense_control_spg0(struct ata_device *dev, u8 *buf, bool changeable) { modecpy(buf, def_control_mpage, sizeof(def_control_mpage), changeable); if (changeable) { /* ata_mselect_control() */ buf[2] |= (1 << 2); } else { bool d_sense = (dev->flags & ATA_DFLAG_D_SENSE); /* descriptor format sense data */ buf[2] |= (d_sense << 2); } return sizeof(def_control_mpage); } /* * Translate an ATA duration limit in microseconds to a SCSI duration limit * using the t2cdlunits 0xa (10ms). Since the SCSI duration limits are 2-bytes * only, take care of overflows. */ static inline u16 ata_xlat_cdl_limit(u8 *buf) { u32 limit = get_unaligned_le32(buf); return min_t(u32, limit / 10000, 65535); } /* * Simulate MODE SENSE control mode page, sub-pages 07h and 08h * (command duration limits T2A and T2B mode pages). */ static unsigned int ata_msense_control_spgt2(struct ata_device *dev, u8 *buf, u8 spg) { u8 *b, *cdl = dev->cdl, *desc; u32 policy; int i; /* * Fill the subpage. The first four bytes of the T2A/T2B mode pages * are a header. The PAGE LENGTH field is the size of the page * excluding the header. */ buf[0] = CONTROL_MPAGE; buf[1] = spg; put_unaligned_be16(CDL_T2_SUB_MPAGE_LEN - 4, &buf[2]); if (spg == CDL_T2A_SUB_MPAGE) { /* * Read descriptors map to the T2A page: * set perf_vs_duration_guidleine. */ buf[7] = (cdl[0] & 0x03) << 4; desc = cdl + 64; } else { /* Write descriptors map to the T2B page */ desc = cdl + 288; } /* Fill the T2 page descriptors */ b = &buf[8]; policy = get_unaligned_le32(&cdl[0]); for (i = 0; i < 7; i++, b += 32, desc += 32) { /* t2cdlunits: fixed to 10ms */ b[0] = 0x0a; /* Max inactive time and its policy */ put_unaligned_be16(ata_xlat_cdl_limit(&desc[8]), &b[2]); b[6] = ((policy >> 8) & 0x0f) << 4; /* Max active time and its policy */ put_unaligned_be16(ata_xlat_cdl_limit(&desc[4]), &b[4]); b[6] |= (policy >> 4) & 0x0f; /* Command duration guideline and its policy */ put_unaligned_be16(ata_xlat_cdl_limit(&desc[16]), &b[10]); b[14] = policy & 0x0f; } return CDL_T2_SUB_MPAGE_LEN; } /* * Simulate MODE SENSE control mode page, sub-page f2h * (ATA feature control mode page). */ static unsigned int ata_msense_control_ata_feature(struct ata_device *dev, u8 *buf) { /* PS=0, SPF=1 */ buf[0] = CONTROL_MPAGE | (1 << 6); buf[1] = ATA_FEATURE_SUB_MPAGE; /* * The first four bytes of ATA Feature Control mode page are a header. * The PAGE LENGTH field is the size of the page excluding the header. */ put_unaligned_be16(ATA_FEATURE_SUB_MPAGE_LEN - 4, &buf[2]); if (dev->flags & ATA_DFLAG_CDL) buf[4] = 0x02; /* Support T2A and T2B pages */ else buf[4] = 0; return ATA_FEATURE_SUB_MPAGE_LEN; } /** * ata_msense_control - Simulate MODE SENSE control mode page * @dev: ATA device of interest * @buf: output buffer * @spg: sub-page code * @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, u8 spg, bool changeable) { unsigned int n; switch (spg) { case 0: return ata_msense_control_spg0(dev, buf, changeable); case CDL_T2A_SUB_MPAGE: case CDL_T2B_SUB_MPAGE: return ata_msense_control_spgt2(dev, buf, spg); case ATA_FEATURE_SUB_MPAGE: return ata_msense_control_ata_feature(dev, buf); case ALL_SUB_MPAGES: n = ata_msense_control_spg0(dev, buf, changeable); n += ata_msense_control_spgt2(dev, buf + n, CDL_T2A_SUB_MPAGE); n += ata_msense_control_spgt2(dev, buf + n, CDL_T2A_SUB_MPAGE); n += ata_msense_control_ata_feature(dev, buf + n); return n; default: return 0; } } /** * 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); } /** * 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; static 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 = 0, bp = 0xff; u16 fp; 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]; /* * Supported subpages: all subpages and sub-pages 07h, 08h and f2h of * the control page. */ if (spg) { switch (spg) { case ALL_SUB_MPAGES: break; case CDL_T2A_SUB_MPAGE: case CDL_T2B_SUB_MPAGE: case ATA_FEATURE_SUB_MPAGE: if (dev->flags & ATA_DFLAG_CDL && pg == CONTROL_MPAGE) break; fallthrough; default: 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, spg, 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, spg, page_control == 1); break; default: /* invalid page code */ fp = 2; goto invalid_fld; } if (dev->flags & ATA_DFLAG_FUA) 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 { put_unaligned_be16(p - rbuf - 2, &rbuf[0]); 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); 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) { rbuf[3] = 8; /* just one lun, LUN 0, size 8 bytes */ return 0; } /* * 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. */ static void atapi_fixup_inquiry(struct scsi_cmnd *cmd) { u8 buf[4]; sg_copy_to_buffer(scsi_sglist(cmd), scsi_sg_count(cmd), buf, 4); if (buf[2] == 0) { buf[2] = 0x5; buf[3] = 0x32; } sg_copy_from_buffer(scsi_sglist(cmd), scsi_sg_count(cmd), buf, 4); } static void atapi_qc_complete(struct ata_queued_cmd *qc) { struct scsi_cmnd *cmd = qc->scsicmd; unsigned int err_mask = qc->err_mask; /* handle completion from EH */ if (unlikely(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 path */ if (cmd->cmnd[0] == INQUIRY && (cmd->cmnd[1] & 0x03) == 0) atapi_fixup_inquiry(cmd); 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; } 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 pointer 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, unsigned int devno) { /* * For the non-PMP case, ata_link_max_devices() returns 1 (SATA case), * or 2 (IDE master + slave case). However, the former case includes * libsas hosted devices which are numbered per scsi host, leading * to devno potentially being larger than 0 but with each struct * ata_device having its own struct ata_port and struct ata_link. * To accommodate these, ignore devno and always use device number 0. */ if (likely(!sata_pmp_attached(ap))) { int link_max_devices = ata_link_max_devices(&ap->link); if (link_max_devices == 1) return &ap->link.device[0]; if (devno < link_max_devices) return &ap->link.device[devno]; return NULL; } /* * For PMP-attached devices, the device number corresponds to C * (channel) of SCSI [H:C:I:L], indicating the port pmp link * for the device. */ if (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. */ 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, 16, or 32-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; u16 cdb_offset = 0; /* 7Fh variable length cmd means a ata pass-thru(32) */ if (cdb[0] == VARIABLE_LENGTH_CMD) cdb_offset = 9; tf->protocol = ata_scsi_map_proto(cdb[1 + cdb_offset]); if (tf->protocol == ATA_PROT_UNKNOWN) { fp = 1; goto invalid_fld; } if ((cdb[2 + cdb_offset] & 0x3) == 0) { /* * When T_LENGTH is zero (No data is transferred), dir should * be DMA_NONE. */ if (scmd->sc_data_direction != DMA_NONE) { fp = 2 + cdb_offset; goto invalid_fld; } if (ata_is_ncq(tf->protocol)) 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. */ switch (cdb[0]) { case 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]; break; case ATA_12: /* * 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]; break; default: /* * 32-byte CDB - may contain extended command fields. * * If that is the case, copy the upper byte register values. */ if (cdb[10] & 0x01) { tf->hob_feature = cdb[20]; tf->hob_nsect = cdb[22]; tf->hob_lbal = cdb[16]; tf->hob_lbam = cdb[15]; tf->hob_lbah = cdb[14]; tf->flags |= ATA_TFLAG_LBA48; } else tf->flags &= ~ATA_TFLAG_LBA48; tf->feature = cdb[21]; tf->nsect = cdb[23]; tf->lbal = cdb[19]; tf->lbam = cdb[18]; tf->lbah = cdb[17]; tf->device = cdb[24]; tf->command = cdb[25]; tf->auxiliary = get_unaligned_be32(&cdb[28]); break; } /* For NCQ commands copy the tag value */ if (ata_is_ncq(tf->protocol)) tf->nsect = qc->hw_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 && !ata_dma_enabled(dev)) { fp = 1; goto invalid_fld; } /* We may not issue NCQ commands to devices not supporting NCQ */ if (ata_is_ncq(tf->protocol) && !ata_ncq_enabled(dev)) { 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_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(!ata_dma_enabled(dev))) goto invalid_opcode; /* * We only allow sending this command through the block layer, * as it modifies the DATA OUT buffer, which would corrupt user * memory for SG_IO commands. */ if (unlikely(blk_rq_is_passthrough(scsi_cmd_to_rq(scmd)))) goto invalid_opcode; if (unlikely(scmd->cmd_len < 16)) { fp = 15; goto invalid_fld; } scsi_16_lba_len(cdb, &block, &n_block); if (!unmap || (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; } /* * 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. */ 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->hw_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; } 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, cdlp = 0, rwcdlp = 0; unsigned int err = 0; if (cdb[2] != 1 && cdb[2] != 3) { 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 SYNCHRONIZE_CACHE_16: 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 WRITE_6: case WRITE_10: 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 READ_16: supported = 3; if (dev->flags & ATA_DFLAG_CDL) { /* * CDL read descriptors map to the T2A page, that is, * rwcdlp = 0x01 and cdlp = 0x01 */ rwcdlp = 0x01; cdlp = 0x01 << 3; } break; case WRITE_16: supported = 3; if (dev->flags & ATA_DFLAG_CDL) { /* * CDL write descriptors map to the T2B page, that is, * rwcdlp = 0x01 and cdlp = 0x02 */ rwcdlp = 0x01; cdlp = 0x02 << 3; } break; case ZBC_IN: case ZBC_OUT: if (ata_id_zoned_cap(dev->id) || dev->class == ATA_DEV_ZAC) supported = 3; break; case SECURITY_PROTOCOL_IN: case SECURITY_PROTOCOL_OUT: if (dev->flags & ATA_DFLAG_TRUSTED) supported = 3; break; default: break; } out: /* One command format */ rbuf[0] = rwcdlp; rbuf[1] = cdlp | 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->hw_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; } all = cdb[14] & 0x1; if (all) { /* * Ignore the block address (zone ID) as defined by ZBC. */ block = 0; } else if (block >= dev->n_sectors) { /* * Block must be a valid zone ID (a zone start LBA). */ fp = 2; goto invalid_fld; } 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->hw_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; 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) { *fp = min(len, 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; } /* * Simulate MODE SELECT control mode page, sub-page 0. */ static int ata_mselect_control_spg0(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) { *fp = min(len, CONTROL_MPAGE_LEN - 2); return -EINVAL; } d_sense = buf[0] & (1 << 2); /* * Check that read-only bits are not modified. */ ata_msense_control_spg0(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; } /* * Translate MODE SELECT control mode page, sub-pages f2h (ATA feature mode * page) into a SET FEATURES command. */ static unsigned int ata_mselect_control_ata_feature(struct ata_queued_cmd *qc, const u8 *buf, int len, u16 *fp) { struct ata_device *dev = qc->dev; struct ata_taskfile *tf = &qc->tf; u8 cdl_action; /* * The first four bytes of ATA Feature Control mode page are a header, * so offsets in mpage are off by 4 compared to buf. Same for len. */ if (len != ATA_FEATURE_SUB_MPAGE_LEN - 4) { *fp = min(len, ATA_FEATURE_SUB_MPAGE_LEN - 4); return -EINVAL; } /* Check cdl_ctrl */ switch (buf[0] & 0x03) { case 0: /* Disable CDL */ cdl_action = 0; dev->flags &= ~ATA_DFLAG_CDL_ENABLED; break; case 0x02: /* Enable CDL T2A/T2B: NCQ priority must be disabled */ if (dev->flags & ATA_DFLAG_NCQ_PRIO_ENABLED) { ata_dev_err(dev, "NCQ priority must be disabled to enable CDL\n"); return -EINVAL; } cdl_action = 1; dev->flags |= ATA_DFLAG_CDL_ENABLED; break; default: *fp = 0; return -EINVAL; } tf->flags |= ATA_TFLAG_DEVICE | ATA_TFLAG_ISADDR; tf->protocol = ATA_PROT_NODATA; tf->command = ATA_CMD_SET_FEATURES; tf->feature = SETFEATURES_CDL; tf->nsect = cdl_action; return 1; } /** * ata_mselect_control - Simulate MODE SELECT for control page * @qc: Storage for translated ATA taskfile * @spg: target sub-page of the control page * @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, u8 spg, const u8 *buf, int len, u16 *fp) { switch (spg) { case 0: return ata_mselect_control_spg0(qc, buf, len, fp); case ATA_FEATURE_SUB_MPAGE: return ata_mselect_control_ata_feature(qc, buf, len, fp); default: return -EINVAL; } } /** * ata_scsi_mode_select_xlat - 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; u8 pg, spg; unsigned six_byte, pg_len, hdr_len, bd_len; int len, ret; u16 fp = (u16)-1; u8 bp = 0xff; u8 buffer[64]; const u8 *p = buffer; 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 = get_unaligned_be16(&cdb[7]); 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; /* Move past header and block descriptors. */ if (len < hdr_len) goto invalid_param_len; if (!sg_copy_to_buffer(scsi_sglist(scmd), scsi_sg_count(scmd), buffer, sizeof(buffer))) goto invalid_param_len; if (six_byte) bd_len = p[3]; else bd_len = get_unaligned_be16(&p[6]); 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 = get_unaligned_be16(&p[2]); p += 4; len -= 4; } else { if (len < 2) goto invalid_param_len; spg = 0; pg_len = p[1]; p += 2; len -= 2; } /* * Supported subpages: all subpages and ATA feature sub-page f2h of * the control page. */ if (spg) { switch (spg) { case ALL_SUB_MPAGES: /* All subpages is not supported for the control page */ if (pg == CONTROL_MPAGE) { fp = (p[0] & 0x40) ? 1 : 0; fp += hdr_len + bd_len; goto invalid_param; } break; case ATA_FEATURE_SUB_MPAGE: if (qc->dev->flags & ATA_DFLAG_CDL && pg == CONTROL_MPAGE) break; fallthrough; default: 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: ret = ata_mselect_control(qc, spg, p, pg_len, &fp); if (ret < 0) { fp += hdr_len + bd_len; goto invalid_param; } if (!ret) 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; } static u8 ata_scsi_trusted_op(u32 len, bool send, bool dma) { if (len == 0) return ATA_CMD_TRUSTED_NONDATA; else if (send) return dma ? ATA_CMD_TRUSTED_SND_DMA : ATA_CMD_TRUSTED_SND; else return dma ? ATA_CMD_TRUSTED_RCV_DMA : ATA_CMD_TRUSTED_RCV; } static unsigned int ata_scsi_security_inout_xlat(struct ata_queued_cmd *qc) { struct scsi_cmnd *scmd = qc->scsicmd; const u8 *cdb = scmd->cmnd; struct ata_taskfile *tf = &qc->tf; u8 secp = cdb[1]; bool send = (cdb[0] == SECURITY_PROTOCOL_OUT); u16 spsp = get_unaligned_be16(&cdb[2]); u32 len = get_unaligned_be32(&cdb[6]); bool dma = !(qc->dev->flags & ATA_DFLAG_PIO); /* * We don't support the ATA "security" protocol. */ if (secp == 0xef) { ata_scsi_set_invalid_field(qc->dev, scmd, 1, 0); return 1; } if (cdb[4] & 7) { /* INC_512 */ if (len > 0xffff) { ata_scsi_set_invalid_field(qc->dev, scmd, 6, 0); return 1; } } else { if (len > 0x01fffe00) { ata_scsi_set_invalid_field(qc->dev, scmd, 6, 0); return 1; } /* convert to the sector-based ATA addressing */ len = (len + 511) / 512; } tf->protocol = dma ? ATA_PROT_DMA : ATA_PROT_PIO; tf->flags |= ATA_TFLAG_DEVICE | ATA_TFLAG_ISADDR | ATA_TFLAG_LBA; if (send) tf->flags |= ATA_TFLAG_WRITE; tf->command = ata_scsi_trusted_op(len, send, dma); tf->feature = secp; tf->lbam = spsp & 0xff; tf->lbah = spsp >> 8; if (len) { tf->nsect = len & 0xff; tf->lbal = len >> 8; } else { if (!send) tf->lbah = (1 << 7); } ata_qc_set_pc_nbytes(qc); return 0; } /** * ata_scsi_var_len_cdb_xlat - SATL variable length CDB to Handler * @qc: Command to be translated * * Translate a SCSI variable length CDB to specified commands. * It checks a service action value in CDB to call corresponding handler. * * RETURNS: * Zero on success, non-zero on failure * */ static unsigned int ata_scsi_var_len_cdb_xlat(struct ata_queued_cmd *qc) { struct scsi_cmnd *scmd = qc->scsicmd; const u8 *cdb = scmd->cmnd; const u16 sa = get_unaligned_be16(&cdb[8]); /* * if service action represents a ata pass-thru(32) command, * then pass it to ata_scsi_pass_thru handler. */ if (sa == ATA_32) return ata_scsi_pass_thru(qc); /* unsupported service action */ 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: case SYNCHRONIZE_CACHE_16: 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 VARIABLE_LENGTH_CMD: return ata_scsi_var_len_cdb_xlat; case MODE_SELECT: case MODE_SELECT_10: return ata_scsi_mode_select_xlat; case ZBC_IN: return ata_scsi_zbc_in_xlat; case ZBC_OUT: return ata_scsi_zbc_out_xlat; case SECURITY_PROTOCOL_IN: case SECURITY_PROTOCOL_OUT: if (!(dev->flags & ATA_DFLAG_TRUSTED)) break; return ata_scsi_security_inout_xlat; case START_STOP: return ata_scsi_start_stop_xlat; } return NULL; } int __ata_scsi_queuecmd(struct scsi_cmnd *scmd, struct ata_device *dev) { struct ata_port *ap = dev->link->ap; u8 scsi_op = scmd->cmnd[0]; ata_xlat_func_t xlat_func; /* * scsi_queue_rq() will defer commands if scsi_host_in_recovery(). * However, this check is done without holding the ap->lock (a libata * specific lock), so we can have received an error irq since then, * therefore we must check if EH is pending, while holding ap->lock. */ if (ap->pflags & (ATA_PFLAG_EH_PENDING | ATA_PFLAG_EH_IN_PROGRESS)) return SCSI_MLQUEUE_DEVICE_BUSY; if (unlikely(!scmd->cmd_len)) goto bad_cdb_len; if (dev->class == ATA_DEV_ATA || dev->class == ATA_DEV_ZAC) { if (unlikely(scmd->cmd_len > dev->cdb_len)) goto bad_cdb_len; xlat_func = ata_get_xlat_func(dev, scsi_op); } else 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 || scmd->cmd_len > ATAPI_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) return ata_scsi_translate(dev, scmd, xlat_func); ata_scsi_simulate(dev, scmd); return 0; bad_cdb_len: scmd->result = DID_ERROR << 16; 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); dev = ata_scsi_find_dev(ap, scsidev); if (likely(dev)) rc = __ata_scsi_queuecmd(cmd, dev); else { cmd->result = (DID_BAD_TARGET << 16); scsi_done(cmd); } spin_unlock_irqrestore(ap->lock, irq_flags); return rc; } EXPORT_SYMBOL_GPL(ata_scsi_queuecmd); /** * 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; switch(scsicmd[0]) { case INQUIRY: if (scsicmd[1] & 2) /* is CmdDt set? */ ata_scsi_set_invalid_field(dev, cmd, 1, 0xff); 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); else ata_scsi_set_invalid_field(dev, cmd, 2, 0xff); break; case 0xb9: if (dev->cpr_log) ata_scsi_rbuf_fill(&args, ata_scsiop_inq_b9); else ata_scsi_set_invalid_field(dev, cmd, 2, 0xff); break; default: ata_scsi_set_invalid_field(dev, cmd, 2, 0xff); 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_set_invalid_field(dev, cmd, 1, 0xff); 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); break; /* if we reach this, then writeback caching is disabled, * turning this into a no-op. */ case SYNCHRONIZE_CACHE: case SYNCHRONIZE_CACHE_16: fallthrough; /* no-op's, complete with success */ case REZERO_UNIT: case SEEK_6: case SEEK_10: case TEST_UNIT_READY: break; case SEND_DIAGNOSTIC: tmp8 = scsicmd[1] & ~(1 << 3); if (tmp8 != 0x4 || scsicmd[3] || scsicmd[4]) ata_scsi_set_invalid_field(dev, cmd, 1, 0xff); break; case MAINTENANCE_IN: if ((scsicmd[1] & 0x1f) == MI_REPORT_SUPPORTED_OPERATION_CODES) ata_scsi_rbuf_fill(&args, ata_scsiop_maint_in); else ata_scsi_set_invalid_field(dev, cmd, 1, 0xff); break; /* all other commands */ default: ata_scsi_set_sense(dev, cmd, ILLEGAL_REQUEST, 0x20, 0x0); /* "Invalid command operation code" */ break; } scsi_done(cmd); } int ata_scsi_add_hosts(struct ata_host *host, const 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 = 32; /* 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(shost, &ap->tdev, ap->host->dev); if (rc) goto err_alloc; } return 0; err_alloc: while (--i >= 0) { struct Scsi_Host *shost = host->ports[i]->scsi_host; /* scsi_host_put() is in ata_devres_release() */ scsi_remove_host(shost); } return rc; } #ifdef CONFIG_OF static void ata_scsi_assign_ofnode(struct ata_device *dev, struct ata_port *ap) { struct scsi_device *sdev = dev->sdev; struct device *d = ap->host->dev; struct device_node *np = d->of_node; struct device_node *child; for_each_available_child_of_node(np, child) { int ret; u32 val; ret = of_property_read_u32(child, "reg", &val); if (ret) continue; if (val == dev->devno) { dev_dbg(d, "found matching device node\n"); sdev->sdev_gendev.of_node = child; return; } } } #else static void ata_scsi_assign_ofnode(struct ata_device *dev, struct ata_port *ap) { } #endif 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; ata_scsi_assign_ofnode(dev, ap); 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) return; 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); } /** * 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 (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.work); struct ata_link *link; struct ata_device *dev; unsigned long flags; int ret = 0; 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 the port was suspended before this was scheduled, * bail out. */ if (ap->pflags & ATA_PFLAG_SUSPENDED) goto unlock; if (!sdev) continue; if (scsi_device_get(sdev)) continue; spin_unlock_irqrestore(ap->lock, flags); ret = scsi_rescan_device(sdev); scsi_device_put(sdev); spin_lock_irqsave(ap->lock, flags); if (ret) goto unlock; } } unlock: spin_unlock_irqrestore(ap->lock, flags); mutex_unlock(&ap->scsi_scan_mutex); /* Reschedule with a delay if scsi_rescan_device() returned an error */ if (ret) schedule_delayed_work(&ap->scsi_rescan_task, msecs_to_jiffies(5)); } |