mirror of https://gitee.com/openkylin/linux.git
382 lines
13 KiB
Plaintext
382 lines
13 KiB
Plaintext
Contents:
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1) TCM Userspace Design
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a) Background
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b) Benefits
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c) Design constraints
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d) Implementation overview
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i. Mailbox
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ii. Command ring
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iii. Data Area
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e) Device discovery
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f) Device events
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g) Other contingencies
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2) Writing a user pass-through handler
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a) Discovering and configuring TCMU uio devices
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b) Waiting for events on the device(s)
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c) Managing the command ring
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3) A final note
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TCM Userspace Design
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--------------------
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TCM is another name for LIO, an in-kernel iSCSI target (server).
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Existing TCM targets run in the kernel. TCMU (TCM in Userspace)
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allows userspace programs to be written which act as iSCSI targets.
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This document describes the design.
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The existing kernel provides modules for different SCSI transport
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protocols. TCM also modularizes the data storage. There are existing
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modules for file, block device, RAM or using another SCSI device as
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storage. These are called "backstores" or "storage engines". These
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built-in modules are implemented entirely as kernel code.
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Background:
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In addition to modularizing the transport protocol used for carrying
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SCSI commands ("fabrics"), the Linux kernel target, LIO, also modularizes
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the actual data storage as well. These are referred to as "backstores"
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or "storage engines". The target comes with backstores that allow a
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file, a block device, RAM, or another SCSI device to be used for the
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local storage needed for the exported SCSI LUN. Like the rest of LIO,
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these are implemented entirely as kernel code.
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These backstores cover the most common use cases, but not all. One new
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use case that other non-kernel target solutions, such as tgt, are able
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to support is using Gluster's GLFS or Ceph's RBD as a backstore. The
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target then serves as a translator, allowing initiators to store data
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in these non-traditional networked storage systems, while still only
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using standard protocols themselves.
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If the target is a userspace process, supporting these is easy. tgt,
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for example, needs only a small adapter module for each, because the
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modules just use the available userspace libraries for RBD and GLFS.
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Adding support for these backstores in LIO is considerably more
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difficult, because LIO is entirely kernel code. Instead of undertaking
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the significant work to port the GLFS or RBD APIs and protocols to the
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kernel, another approach is to create a userspace pass-through
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backstore for LIO, "TCMU".
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Benefits:
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In addition to allowing relatively easy support for RBD and GLFS, TCMU
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will also allow easier development of new backstores. TCMU combines
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with the LIO loopback fabric to become something similar to FUSE
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(Filesystem in Userspace), but at the SCSI layer instead of the
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filesystem layer. A SUSE, if you will.
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The disadvantage is there are more distinct components to configure, and
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potentially to malfunction. This is unavoidable, but hopefully not
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fatal if we're careful to keep things as simple as possible.
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Design constraints:
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- Good performance: high throughput, low latency
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- Cleanly handle if userspace:
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1) never attaches
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2) hangs
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3) dies
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4) misbehaves
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- Allow future flexibility in user & kernel implementations
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- Be reasonably memory-efficient
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- Simple to configure & run
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- Simple to write a userspace backend
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Implementation overview:
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The core of the TCMU interface is a memory region that is shared
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between kernel and userspace. Within this region is: a control area
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(mailbox); a lockless producer/consumer circular buffer for commands
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to be passed up, and status returned; and an in/out data buffer area.
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TCMU uses the pre-existing UIO subsystem. UIO allows device driver
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development in userspace, and this is conceptually very close to the
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TCMU use case, except instead of a physical device, TCMU implements a
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memory-mapped layout designed for SCSI commands. Using UIO also
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benefits TCMU by handling device introspection (e.g. a way for
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userspace to determine how large the shared region is) and signaling
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mechanisms in both directions.
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There are no embedded pointers in the memory region. Everything is
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expressed as an offset from the region's starting address. This allows
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the ring to still work if the user process dies and is restarted with
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the region mapped at a different virtual address.
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See target_core_user.h for the struct definitions.
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The Mailbox:
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The mailbox is always at the start of the shared memory region, and
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contains a version, details about the starting offset and size of the
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command ring, and head and tail pointers to be used by the kernel and
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userspace (respectively) to put commands on the ring, and indicate
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when the commands are completed.
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version - 1 (userspace should abort if otherwise)
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flags:
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- TCMU_MAILBOX_FLAG_CAP_OOOC: indicates out-of-order completion is
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supported. See "The Command Ring" for details.
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cmdr_off - The offset of the start of the command ring from the start
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of the memory region, to account for the mailbox size.
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cmdr_size - The size of the command ring. This does *not* need to be a
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power of two.
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cmd_head - Modified by the kernel to indicate when a command has been
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placed on the ring.
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cmd_tail - Modified by userspace to indicate when it has completed
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processing of a command.
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The Command Ring:
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Commands are placed on the ring by the kernel incrementing
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mailbox.cmd_head by the size of the command, modulo cmdr_size, and
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then signaling userspace via uio_event_notify(). Once the command is
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completed, userspace updates mailbox.cmd_tail in the same way and
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signals the kernel via a 4-byte write(). When cmd_head equals
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cmd_tail, the ring is empty -- no commands are currently waiting to be
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processed by userspace.
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TCMU commands are 8-byte aligned. They start with a common header
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containing "len_op", a 32-bit value that stores the length, as well as
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the opcode in the lowest unused bits. It also contains cmd_id and
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flags fields for setting by the kernel (kflags) and userspace
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(uflags).
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Currently only two opcodes are defined, TCMU_OP_CMD and TCMU_OP_PAD.
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When the opcode is CMD, the entry in the command ring is a struct
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tcmu_cmd_entry. Userspace finds the SCSI CDB (Command Data Block) via
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tcmu_cmd_entry.req.cdb_off. This is an offset from the start of the
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overall shared memory region, not the entry. The data in/out buffers
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are accessible via tht req.iov[] array. iov_cnt contains the number of
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entries in iov[] needed to describe either the Data-In or Data-Out
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buffers. For bidirectional commands, iov_cnt specifies how many iovec
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entries cover the Data-Out area, and iov_bidi_cnt specifies how many
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iovec entries immediately after that in iov[] cover the Data-In
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area. Just like other fields, iov.iov_base is an offset from the start
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of the region.
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When completing a command, userspace sets rsp.scsi_status, and
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rsp.sense_buffer if necessary. Userspace then increments
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mailbox.cmd_tail by entry.hdr.length (mod cmdr_size) and signals the
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kernel via the UIO method, a 4-byte write to the file descriptor.
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If TCMU_MAILBOX_FLAG_CAP_OOOC is set for mailbox->flags, kernel is
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capable of handling out-of-order completions. In this case, userspace can
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handle command in different order other than original. Since kernel would
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still process the commands in the same order it appeared in the command
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ring, userspace need to update the cmd->id when completing the
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command(a.k.a steal the original command's entry).
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When the opcode is PAD, userspace only updates cmd_tail as above --
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it's a no-op. (The kernel inserts PAD entries to ensure each CMD entry
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is contiguous within the command ring.)
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More opcodes may be added in the future. If userspace encounters an
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opcode it does not handle, it must set UNKNOWN_OP bit (bit 0) in
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hdr.uflags, update cmd_tail, and proceed with processing additional
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commands, if any.
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The Data Area:
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This is shared-memory space after the command ring. The organization
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of this area is not defined in the TCMU interface, and userspace
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should access only the parts referenced by pending iovs.
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Device Discovery:
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Other devices may be using UIO besides TCMU. Unrelated user processes
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may also be handling different sets of TCMU devices. TCMU userspace
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processes must find their devices by scanning sysfs
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class/uio/uio*/name. For TCMU devices, these names will be of the
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format:
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tcm-user/<hba_num>/<device_name>/<subtype>/<path>
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where "tcm-user" is common for all TCMU-backed UIO devices. <hba_num>
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and <device_name> allow userspace to find the device's path in the
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kernel target's configfs tree. Assuming the usual mount point, it is
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found at:
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/sys/kernel/config/target/core/user_<hba_num>/<device_name>
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This location contains attributes such as "hw_block_size", that
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userspace needs to know for correct operation.
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<subtype> will be a userspace-process-unique string to identify the
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TCMU device as expecting to be backed by a certain handler, and <path>
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will be an additional handler-specific string for the user process to
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configure the device, if needed. The name cannot contain ':', due to
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LIO limitations.
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For all devices so discovered, the user handler opens /dev/uioX and
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calls mmap():
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mmap(NULL, size, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)
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where size must be equal to the value read from
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/sys/class/uio/uioX/maps/map0/size.
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Device Events:
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If a new device is added or removed, a notification will be broadcast
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over netlink, using a generic netlink family name of "TCM-USER" and a
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multicast group named "config". This will include the UIO name as
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described in the previous section, as well as the UIO minor
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number. This should allow userspace to identify both the UIO device and
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the LIO device, so that after determining the device is supported
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(based on subtype) it can take the appropriate action.
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Other contingencies:
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Userspace handler process never attaches:
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- TCMU will post commands, and then abort them after a timeout period
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(30 seconds.)
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Userspace handler process is killed:
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- It is still possible to restart and re-connect to TCMU
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devices. Command ring is preserved. However, after the timeout period,
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the kernel will abort pending tasks.
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Userspace handler process hangs:
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- The kernel will abort pending tasks after a timeout period.
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Userspace handler process is malicious:
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- The process can trivially break the handling of devices it controls,
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but should not be able to access kernel memory outside its shared
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memory areas.
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Writing a user pass-through handler (with example code)
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-------------------------------------------------------
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A user process handing a TCMU device must support the following:
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a) Discovering and configuring TCMU uio devices
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b) Waiting for events on the device(s)
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c) Managing the command ring: Parsing operations and commands,
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performing work as needed, setting response fields (scsi_status and
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possibly sense_buffer), updating cmd_tail, and notifying the kernel
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that work has been finished
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First, consider instead writing a plugin for tcmu-runner. tcmu-runner
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implements all of this, and provides a higher-level API for plugin
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authors.
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TCMU is designed so that multiple unrelated processes can manage TCMU
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devices separately. All handlers should make sure to only open their
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devices, based opon a known subtype string.
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a) Discovering and configuring TCMU UIO devices:
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(error checking omitted for brevity)
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int fd, dev_fd;
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char buf[256];
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unsigned long long map_len;
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void *map;
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fd = open("/sys/class/uio/uio0/name", O_RDONLY);
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ret = read(fd, buf, sizeof(buf));
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close(fd);
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buf[ret-1] = '\0'; /* null-terminate and chop off the \n */
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/* we only want uio devices whose name is a format we expect */
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if (strncmp(buf, "tcm-user", 8))
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exit(-1);
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/* Further checking for subtype also needed here */
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fd = open(/sys/class/uio/%s/maps/map0/size, O_RDONLY);
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ret = read(fd, buf, sizeof(buf));
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close(fd);
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str_buf[ret-1] = '\0'; /* null-terminate and chop off the \n */
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map_len = strtoull(buf, NULL, 0);
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dev_fd = open("/dev/uio0", O_RDWR);
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map = mmap(NULL, map_len, PROT_READ|PROT_WRITE, MAP_SHARED, dev_fd, 0);
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b) Waiting for events on the device(s)
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while (1) {
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char buf[4];
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int ret = read(dev_fd, buf, 4); /* will block */
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handle_device_events(dev_fd, map);
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}
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c) Managing the command ring
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#include <linux/target_core_user.h>
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int handle_device_events(int fd, void *map)
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{
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struct tcmu_mailbox *mb = map;
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struct tcmu_cmd_entry *ent = (void *) mb + mb->cmdr_off + mb->cmd_tail;
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int did_some_work = 0;
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/* Process events from cmd ring until we catch up with cmd_head */
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while (ent != (void *)mb + mb->cmdr_off + mb->cmd_head) {
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if (tcmu_hdr_get_op(ent->hdr.len_op) == TCMU_OP_CMD) {
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uint8_t *cdb = (void *)mb + ent->req.cdb_off;
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bool success = true;
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/* Handle command here. */
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printf("SCSI opcode: 0x%x\n", cdb[0]);
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/* Set response fields */
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if (success)
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ent->rsp.scsi_status = SCSI_NO_SENSE;
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else {
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/* Also fill in rsp->sense_buffer here */
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ent->rsp.scsi_status = SCSI_CHECK_CONDITION;
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}
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}
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else if (tcmu_hdr_get_op(ent->hdr.len_op) != TCMU_OP_PAD) {
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/* Tell the kernel we didn't handle unknown opcodes */
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ent->hdr.uflags |= TCMU_UFLAG_UNKNOWN_OP;
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}
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else {
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/* Do nothing for PAD entries except update cmd_tail */
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}
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/* update cmd_tail */
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mb->cmd_tail = (mb->cmd_tail + tcmu_hdr_get_len(&ent->hdr)) % mb->cmdr_size;
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ent = (void *) mb + mb->cmdr_off + mb->cmd_tail;
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did_some_work = 1;
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}
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/* Notify the kernel that work has been finished */
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if (did_some_work) {
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uint32_t buf = 0;
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write(fd, &buf, 4);
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}
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return 0;
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}
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A final note
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------------
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Please be careful to return codes as defined by the SCSI
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specifications. These are different than some values defined in the
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scsi/scsi.h include file. For example, CHECK CONDITION's status code
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is 2, not 1.
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