freebsd-skq/sys/cam
glebius e35d543ec1 Listening sockets improvements.
o Separate fields of struct socket that belong to listening from
  fields that belong to normal dataflow, and unionize them.  This
  shrinks the structure a bit.
  - Take out selinfo's from the socket buffers into the socket. The
    first reason is to support braindamaged scenario when a socket is
    added to kevent(2) and then listen(2) is cast on it. The second
    reason is that there is future plan to make socket buffers pluggable,
    so that for a dataflow socket a socket buffer can be changed, and
    in this case we also want to keep same selinfos through the lifetime
    of a socket.
  - Remove struct struct so_accf. Since now listening stuff no longer
    affects struct socket size, just move its fields into listening part
    of the union.
  - Provide sol_upcall field and enforce that so_upcall_set() may be called
    only on a dataflow socket, which has buffers, and for listening sockets
    provide solisten_upcall_set().

o Remove ACCEPT_LOCK() global.
  - Add a mutex to socket, to be used instead of socket buffer lock to lock
    fields of struct socket that don't belong to a socket buffer.
  - Allow to acquire two socket locks, but the first one must belong to a
    listening socket.
  - Make soref()/sorele() to use atomic(9).  This allows in some situations
    to do soref() without owning socket lock.  There is place for improvement
    here, it is possible to make sorele() also to lock optionally.
  - Most protocols aren't touched by this change, except UNIX local sockets.
    See below for more information.

o Reduce copy-and-paste in kernel modules that accept connections from
  listening sockets: provide function solisten_dequeue(), and use it in
  the following modules: ctl(4), iscsi(4), ng_btsocket(4), ng_ksocket(4),
  infiniband, rpc.

o UNIX local sockets.
  - Removal of ACCEPT_LOCK() global uncovered several races in the UNIX
    local sockets.  Most races exist around spawning a new socket, when we
    are connecting to a local listening socket.  To cover them, we need to
    hold locks on both PCBs when spawning a third one.  This means holding
    them across sonewconn().  This creates a LOR between pcb locks and
    unp_list_lock.
  - To fix the new LOR, abandon the global unp_list_lock in favor of global
    unp_link_lock.  Indeed, separating these two locks didn't provide us any
    extra parralelism in the UNIX sockets.
  - Now call into uipc_attach() may happen with unp_link_lock hold if, we
    are accepting, or without unp_link_lock in case if we are just creating
    a socket.
  - Another problem in UNIX sockets is that uipc_close() basicly did nothing
    for a listening socket.  The vnode remained opened for connections.  This
    is fixed by removing vnode in uipc_close().  Maybe the right way would be
    to do it for all sockets (not only listening), simply move the vnode
    teardown from uipc_detach() to uipc_close()?

Sponsored by:		Netflix
Differential Revision:	https://reviews.freebsd.org/D9770
2017-06-08 21:30:34 +00:00
..
ata Allow PROBE_SPINUP to fail in CAM ATA transport 2017-05-26 17:44:47 +00:00
ctl Listening sockets improvements. 2017-06-08 21:30:34 +00:00
nvme Report random flash storage as non-rotating to GEOM_DISK. 2017-01-12 08:53:10 +00:00
scsi Introduce Genesys GL3224 quirks 2017-05-29 09:22:53 +00:00
cam_ccb.h Improve CAM_CDB_POINTER support. 2017-01-13 08:31:55 +00:00
cam_compat.c Fix copy/paste bug in r306747. 2016-10-11 15:27:39 +00:00
cam_compat.h Fix a variety of cosmetic typos and misspellings 2017-01-15 18:00:45 +00:00
cam_debug.h
cam_iosched.c Implement moving SD. 2017-03-22 19:18:47 +00:00
cam_iosched.h Fix a variety of cosmetic typos and misspellings 2017-01-15 18:00:45 +00:00
cam_periph.c Fix an unsafe malloc usage with sbufs. 2017-05-03 05:33:15 +00:00
cam_periph.h Add mechanism to unload CAM periph drivers. 2017-03-07 17:41:08 +00:00
cam_queue.c CAM ccbq sanity: checks on insert and remove 2016-10-05 17:18:24 +00:00
cam_queue.h CAM ccbq sanity: checks on insert and remove 2016-10-05 17:18:24 +00:00
cam_sim.c Make CAM SIM lock optional. 2017-03-21 09:12:41 +00:00
cam_sim.h
cam_xpt_internal.h Add infrastructure to the ATA and SCSI transports that supports 2017-04-19 15:04:52 +00:00
cam_xpt_periph.h Add infrastructure to the ATA and SCSI transports that supports 2017-04-19 15:04:52 +00:00
cam_xpt_sim.h
cam_xpt.c Add infrastructure to the ATA and SCSI transports that supports 2017-04-19 15:04:52 +00:00
cam_xpt.h Move inclusion of opt_printf.h around so that we can compile all the 2017-02-25 22:11:10 +00:00
cam.c Improve the pattern matching so that internal *'s work, as well as 2016-08-19 04:30:29 +00:00
cam.h Fix improper use of "its". 2016-11-08 23:59:41 +00:00
README.quirks

/* $FreeBSD$ */

                     FreeBSD Quirk Guidelines

                  Nate Lawson - njl at freebsd org

0. Introduction

FreeBSD drivers make every attempt possible to support the standards
behind hardware. Where possible and not in conflict with the standard,
they also attempt to work around hardware which doesn't strictly
conform. However, some devices have flaws which can't be worked
around while keeping the driver compatible with the standard. For
these devices, we have created a quirks mechanism to indicate to
the driver that it must avoid certain commands or use them differently
with a specific model and/or version of hardware. This document
focuses on identifying and committing quirks for storage hardware
involving CAM and UMASS but is applicable to other areas.

CAM provides a generic transport for SCSI-like devices. Many different
transports use SCSI command sets including parallel SCSI, firewire
(1394), USB UMASS, fibre channel, and ATAPI. For block devices (i.e.
hard drives, flash adapters, cameras) there are two standards, SBC
and RBC. SCSI hard drives are usually SBC-compliant and smaller
devices like flash drives are usually RBC-compliant. Multimedia
devices including CDROMs and DVD-RW are usually MMC-compliant.

Please follow these guidelines to get your device working as soon
as possible. If you are a committer, please do NOT commit quirks
directly but follow this process also.

1. Determing the problem

The first step is to determine what's wrong. If the device should
be supported but hangs while attaching, it's possible a quirk can
help. The types of things a quirk can fix are:
`
 * cam/cam_xpt.c quirks 

  o CAM_QUIRK_NOLUNS - do not probe luns other than 0 since device
  responds to all inquiries with "lun present".

  o CAM_QUIRK_NOSERIAL - do not send an inquiry for serial number. 

  o CAM_QUIRK_HILUNS - probe all luns even if some respond "not present"
  since device has a sparse lun space. 

 * cam/scsi/scsi_da.c quirks 

  o DA_Q_NO_SYNC_CACHE - The sync cache command is used to force a
  drive to write out all changes to disk before shutting down. Some
  drives hang when receiving this command even though it is required
  by all SBC and RBC standards. Note that a warning message on
  console is NOT sufficient to add this quirk. The warning messages
  are harmless and only a device or system hang is cause for adding
  this quirk.

  o DA_Q_NO_6_BYTE - The RBC spec (see Links below) does not allow
  for 6-byte READ/WRITE commands. Some manufacturers took that too
  literally and crash when receiving 6-byte commands. This quirk
  causes FreeBSD to only send 10-byte commands. Since the CAM subsystem
  has been modified to not send 6-byte commands to USB, 1394, and
  other transports that don't support SBC, this quirk should be very
  rare.

  o DA_Q_NO_PREVENT - Don't use the prevent/allow commands to keep a
  removable medium from being ejected. Some systems can't handle these
  commands (rare).

 * cam/scsi/scsi_cd.c quirks 

  o CD_Q_NO_TOUCH - not implemented 

  o CD_Q_BCD_TRACKS - convert start/end track to BCD 

  o CD_Q_NO_CHANGER - never treat as a changer 

  o CD_Q_CHANGER - always treat as a changer 

 * cam/scsi/scsi_ch.c quirks 
  o CH_Q_NO_DBD - disable block descriptors in mode sense 

 * cam/scsi/scsi_sa.c quirks 

  o SA_QUIRK_NOCOMP - Can't deal with compression at all 

  o SA_QUIRK_FIXED - Force fixed mode 

  o SA_QUIRK_VARIABLE - Force variable mode 

  o SA_QUIRK_2FM - Needs Two File Marks at EOD 

  o SA_QUIRK_1FM - No more than 1 File Mark at EOD 

  o SA_QUIRK_NODREAD - Don't try and dummy read density 

  o SA_QUIRK_NO_MODESEL - Don't do mode select at all 

  o SA_QUIRK_NO_CPAGE - Don't use DEVICE COMPRESSION page 

 * dev/usb/umass.c quirks 

  o NO_TEST_UNIT_READY - The drive does not support Test Unit Ready.
  Convert to Start Unit. This command is a simple no-op for most
  firmware but some of them hang when this command is sent.

  o RS_NO_CLEAR_UA - The drive does not reset the Unit Attention state
  after REQUEST SENSE has been sent. The INQUIRY command does not
  reset the UA either, and so CAM runs in circles trying to retrieve
  the initial INQUIRY data. This quirk signifies that after a unit
  attention condition, don't try to clear the condition with a request
  sense command.

  o NO_START_STOP - Like test unit ready, don't send this command if it hangs the device. 

  o FORCE_SHORT_INQUIRY - Don't ask for full inquiry data (256
  bytes). Some drives can only handle the shorter inquiry length
  (36 bytes).

  o SHUTTLE_INIT - Needs to be initialised the Shuttle way. Haven't
  looked into what this does but apparently it's mostly Shuttle
  devices.

  o ALT_IFACE_1 - Drive needs to be switched to alternate interface 1. Rare.

  o FLOPPY_SPEED - Drive does not do 1Mb/s, but just floppy speeds (20kb/s). 

  o IGNORE_RESIDUE - The device can't count and gets the residue
  of transfers wrong. This is sometimes needed for devices where
  large transfers cause stalls.

  o NO_GETMAXLUN - Get maximum LUN is a command to identify multiple
  devices sharing the same ID. For instance, a multislot compact
  flash reader might be on two LUNS. Some non-standard devices hang
  when receiving this command so this quirk disables it.

  o WRONG_CSWSIG - The device uses a weird CSWSIGNATURE. Rare. 

  o NO_INQUIRY - Device cannot handle INQUIRY so fake a generic
  response. INQUIRY is one of the most basic commands but some
  drives can't even handle it. (No idea how such devices even work
  at all on other OS's.) This quirk fakes up a valid but generic
  response for devices that can't handle INQUIRY.

  o NO_INQUIRY_EVPD - Device cannot handle an extended INQUIRY
  asking for vital product data (EVPD) so just return a "no data"
  response (check condition) without sending the command to the
  device.

2. Testing a Quirk

After you have an idea what you want to try, edit the proper file
above, using wildcarding to be sure your device is matched. Here
is a list of the common things to try. Note that some devices require
multiple quirks or quirks in different drivers. For example, some
USB pen drives or flash readers require quirks in both da(4) and
umass(4).

* umass(4) device (sys/dev/usb/umass.c) -- this quirk matches an Asahi Optical device with any product ID or revision ID. 
* 
*         { USB_VENDOR_ASAHIOPTICAL, PID_WILDCARD, RID_WILDCARD,
*           UMASS_PROTO_ATAPI | UMASS_PROTO_CBI_I,
*           RS_NO_CLEAR_UA
*         },
* da(4) device (sys/cam/scsi/scsi_da.c) -- this quirk matches a Creative device with a name of "NOMAD_MUVO" and any revision. 
* 
*         {
*                 /*
*                  * Creative Nomad MUVO mp3 player (USB)
*                  * PR: kern/53094
*                  */
*                 {T_DIRECT, SIP_MEDIA_REMOVABLE, "CREATIVE", "NOMAD_MUVO", "*"},
*                 /*quirks*/ DA_Q_NO_SYNC_CACHE|DA_Q_NO_PREVENT
*         },

3. Filing a PR

All quirk submissions MUST go through GNATS. For information on how
to submit a PR, see this page.

Please include the following in your PR:

 * Subject: QUIRK: FooCo USB DVD-RAM drive 
 * Output of "camcontrol inquiry yourdevice" 
 * Manufacturer name, model number, etc. 
 * Transport type (FC, SCSI, USB, Firewire) 
 * Output from dmesg for failed attach attempts 
 * Output from dmesg for successful attach attempts (after quirk added) 
 * Output of "usbdevs -v" with device attached 
 * Valid email address 

Here are some examples of well-formed PRs: 

 * kern/43580 
 * kern/49054 

4. What happens next

I will review your submission, respond with comments, and once the
quirk is deemed necessary and ready for committing, I'll commit it,
referencing the PR. (Again, all quirks must be submitted as PRs).
Questions? Email njl AT freebsd.org.

5. Note to Committers

Please insert quirks in the right section in scsi_da.c, sorted by
PR number. Always include the name and PR number for scsi_da.c (see
above for an example.) Please sort quirks alphabetically in umass.c.
Follow the surrounding style in all drivers. Be sure to correspond
with the submitter to be sure the quirk you are adding is the minimum
necessary, not quirking other useful features and not overly broad
(i.e., too many wildcards).