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|
/* $OpenBSD: umass.c,v 1.11 2001/05/24 06:21:44 csapuntz Exp $ */
/* $NetBSD: umass.c,v 1.49 2001/01/21 18:56:38 augustss Exp $ */
/*-
* Copyright (c) 1999 MAEKAWA Masahide <bishop@rr.iij4u.or.jp>,
* Nick Hibma <n_hibma@freebsd.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD: src/sys/dev/usb/umass.c,v 1.13 2000/03/26 01:39:12 n_hibma Exp $
*/
/*
* Universal Serial Bus Mass Storage Class Bulk-Only Transport
* http://www.usb.org/developers/data/devclass/usbmassover_11.pdf
* http://www.usb.org/developers/data/devclass/usbmassbulk_10.pdf
* http://www.usb.org/developers/data/devclass/usbmass-cbi10.pdf
* http://www.usb.org/developers/data/devclass/usbmass-ufi10.pdf
*/
/*
* Ported to NetBSD by Lennart Augustsson <augustss@netbsd.org>.
* Parts of the code written my Jason R. Thorpe <thorpej@shagadelic.org>.
*/
/*
* The driver handles 3 Wire Protocols
* - Command/Bulk/Interrupt (CBI)
* - Command/Bulk/Interrupt with Command Completion Interrupt (CBI with CCI)
* - Mass Storage Bulk-Only (BBB)
* (BBB refers Bulk/Bulk/Bulk for Command/Data/Status phases)
*
* Over these wire protocols it handles the following command protocols
* - SCSI
* - UFI (floppy command set)
* - 8070 (ATA/ATAPI)
*
* UFI and 8070i are transformed versions of the SCSI command set. The
* sc->transform method is used to convert the commands into the appropriate
* format (if at all necessary). For example, UFI requires all commands to be
* 12 bytes in length amongst other things.
*
* The source code below is marked and can be split into a number of pieces
* (in this order):
*
* - probe/attach/detach
* - generic transfer routines
* - BBB
* - CBI
* - CBI_I (in addition to functions from CBI)
* - CAM (Common Access Method)
* - SCSI
* - UFI
* - 8070i
*
* The protocols are implemented using a state machine, for the transfers as
* well as for the resets. The state machine is contained in umass_*_state.
* The state machine is started through either umass_*_transfer or
* umass_*_reset.
*
* The reason for doing this is a) CAM performs a lot better this way and b) it
* avoids using tsleep from interrupt context (for example after a failed
* transfer).
*/
/*
* The SCSI related part of this driver has been derived from the
* dev/ppbus/vpo.c driver, by Nicolas Souchu (nsouch@freebsd.org).
*
* The CAM layer uses so called actions which are messages sent to the host
* adapter for completion. The actions come in through umass_cam_action. The
* appropriate block of routines is called depending on the transport protocol
* in use. When the transfer has finished, these routines call
* umass_cam_cb again to complete the CAM command.
*/
/* XXX Should we split the driver into a number of files? umass.c,
* umass_scsi.c, umass_8070.c, umass_ufi.c, umass_bbb.c, umass_cbi.c or
* something similar?
*/
#if !defined(__OpenBSD__)
#include "atapibus.h"
#endif
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/conf.h>
#if defined(__NetBSD__) || defined(__OpenBSD__)
#include <sys/buf.h>
#include <sys/device.h>
#include <sys/ioctl.h>
#include <sys/malloc.h>
#undef KASSERT
#define KASSERT(cond, msg)
#elif defined(__FreeBSD__)
#include <sys/module.h>
#include <sys/bus.h>
#include <machine/clock.h>
#endif
#include <dev/usb/usb.h>
#include <dev/usb/usbdi.h>
#include <dev/usb/usbdi_util.h>
#include <dev/usb/usbdevs.h>
#if defined(__FreeBSD__)
#include <cam/cam.h>
#include <cam/cam_ccb.h>
#include <cam/cam_sim.h>
#include <cam/cam_xpt_sim.h>
#include <cam/scsi/scsi_all.h>
#include <cam/scsi/scsi_da.h>
#ifdef UMASS_DO_CAM_RESCAN
#include <sys/devicestat.h>
#include <cam/cam_periph.h>
#endif
#elif defined(__NetBSD__)
#include <sys/scsiio.h>
#include <dev/scsipi/scsi_all.h>
#include <dev/scsipi/scsipi_all.h>
#include <dev/scsipi/scsiconf.h>
#include <dev/scsipi/atapiconf.h>
#include <dev/scsipi/scsipi_disk.h>
#include <dev/scsipi/scsi_disk.h>
#include <dev/scsipi/scsi_changer.h>
#include <dev/ata/atavar.h> /* XXX */
#define SCSI_LINK_TARGET(sc) ((sc)->scsipi_scsi.target)
#define SCSI_LINK_LUN(sc) ((sc)->scsipi_scsi.lun)
#elif defined(__OpenBSD__)
#include <scsi/scsi_all.h>
#include <scsi/scsiconf.h>
#include <scsi/scsi_disk.h>
#include <machine/bus.h>
#define SCSI_LINK_TARGET(sc) ((sc)->target)
#define SCSI_LINK_LUN(sc) ((sc)->lun)
#define scsipi_generic scsi_generic
#endif
#define SHORT_INQUIRY_LENGTH 36 /* XXX */
#ifdef UMASS_DEBUG
#define DIF(m, x) if (umassdebug & (m)) do { x ; } while (0)
#define DPRINTF(m, x) if (umassdebug & (m)) logprintf x
#define UDMASS_UPPER 0x00008000 /* upper layer */
#define UDMASS_GEN 0x00010000 /* general */
#define UDMASS_SCSI 0x00020000 /* scsi */
#define UDMASS_UFI 0x00040000 /* ufi command set */
#define UDMASS_8070 0x00080000 /* 8070i command set */
#define UDMASS_USB 0x00100000 /* USB general */
#define UDMASS_BBB 0x00200000 /* Bulk-Only transfers */
#define UDMASS_CBI 0x00400000 /* CBI transfers */
#define UDMASS_ALL 0xffff0000 /* all of the above */
#define UDMASS_XFER 0x40000000 /* all transfers */
#define UDMASS_CMD 0x80000000
int umassdebug = 0;
#else
#define DIF(m, x) /* nop */
#define DPRINTF(m, x) /* nop */
#endif
/* Generic definitions */
#define UFI_COMMAND_LENGTH 12
#define ATAPI_COMMAND_LENGTH 12
/* Direction for umass_*_transfer */
#define DIR_NONE 0
#define DIR_IN 1
#define DIR_OUT 2
/* The transfer speed determines the timeout value */
#define UMASS_DEFAULT_TRANSFER_SPEED 150 /* in kb/s, conservative est. */
#define UMASS_FLOPPY_TRANSFER_SPEED 20
#define UMASS_ZIP100_TRANSFER_SPEED 650
#define UMASS_SPINUP_TIME 10000 /* ms */
#ifdef __FreeBSD__
/* device name */
#define DEVNAME "umass"
#define DEVNAME_SIM "umass-"
#define UMASS_MAX_TRANSFER_SIZE 65536
/* CAM specific definitions */
/* The bus id, whatever that is */
#define UMASS_SCSI_BUS 0
/* All USB drives are 'connected' to one SIM (SCSI controller). umass3
* ends up being target 3 on that SIM. When a request for target 3
* comes in we fetch the softc with devclass_get_softc(target_id).
*
* The SIM is the highest target number. This makes sure that umass0 corresponds
* to target 0 on the USB SCSI bus.
*/
#ifndef UMASS_DEBUG
#define UMASS_SCSIID_MAX 32 /* maximum number of drives expected */
#else
/* while debugging avoid unnecessary clutter in the output at umass_cam_rescan
* (XPT_PATH_INQ)
*/
#define UMASS_SCSIID_MAX 3 /* maximum number of drives expected */
#endif
#define UMASS_SCSIID_HOST UMASS_SCSIID_MAX
#endif
#define MS_TO_TICKS(ms) ((ms) * hz / 1000)
/* Bulk-Only features */
#define UR_BBB_RESET 0xff /* Bulk-Only reset */
#define UR_BBB_GET_MAX_LUN 0xfe
/* Command Block Wrapper */
typedef struct {
uDWord dCBWSignature;
# define CBWSIGNATURE 0x43425355
uDWord dCBWTag;
uDWord dCBWDataTransferLength;
uByte bCBWFlags;
# define CBWFLAGS_OUT 0x00
# define CBWFLAGS_IN 0x80
uByte bCBWLUN;
uByte bCDBLength;
# define CBWCDBLENGTH 16
uByte CBWCDB[CBWCDBLENGTH];
} umass_bbb_cbw_t;
#define UMASS_BBB_CBW_SIZE 31
/* Command Status Wrapper */
typedef struct {
uDWord dCSWSignature;
# define CSWSIGNATURE 0x53425355
uDWord dCSWTag;
uDWord dCSWDataResidue;
uByte bCSWStatus;
# define CSWSTATUS_GOOD 0x0
# define CSWSTATUS_FAILED 0x1
# define CSWSTATUS_PHASE 0x2
} umass_bbb_csw_t;
#define UMASS_BBB_CSW_SIZE 13
/* CBI features */
#define UR_CBI_ADSC 0x00
typedef unsigned char umass_cbi_cbl_t[16]; /* Command block */
typedef union {
struct {
unsigned char type;
#define IDB_TYPE_CCI 0x00
unsigned char value;
#define IDB_VALUE_PASS 0x00
#define IDB_VALUE_FAIL 0x01
#define IDB_VALUE_PHASE 0x02
#define IDB_VALUE_PERSISTENT 0x03
#define IDB_VALUE_STATUS_MASK 0x03
} common;
struct {
unsigned char asc;
unsigned char ascq;
} ufi;
} umass_cbi_sbl_t;
struct umass_softc; /* see below */
typedef void (*transfer_cb_f) __P((struct umass_softc *sc, void *priv,
int residue, int status));
#define STATUS_CMD_OK 0 /* everything ok */
#define STATUS_CMD_UNKNOWN 1 /* will have to fetch sense */
#define STATUS_CMD_FAILED 2 /* transfer was ok, command failed */
#define STATUS_WIRE_FAILED 3 /* couldn't even get command across */
typedef void (*wire_reset_f) __P((struct umass_softc *sc, int status));
typedef void (*wire_transfer_f) __P((struct umass_softc *sc, int lun,
void *cmd, int cmdlen, void *data, int datalen,
int dir, transfer_cb_f cb, void *priv));
typedef void (*wire_state_f) __P((usbd_xfer_handle xfer,
usbd_private_handle priv, usbd_status err));
#if defined(__FreeBSD__)
typedef int (*command_transform_f) __P((struct umass_softc *sc,
unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen));
#endif
/* the per device structure */
struct umass_softc {
USBBASEDEVICE sc_dev; /* base device */
usbd_device_handle sc_udev; /* device */
unsigned char drive;
# define DRIVE_GENERIC 0 /* use defaults for this one */
# define ZIP_100 1 /* to be used for quirks */
# define ZIP_250 2
# define SHUTTLE_EUSB 3
# define INSYSTEM_USBCABLE 4
unsigned char quirks;
/* The drive does not support Test Unit Ready. Convert to
* Start Unit.
* Y-E Data
* ZIP 100
*/
# define NO_TEST_UNIT_READY 0x01
/* 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.
* Y-E Data
*/
# define RS_NO_CLEAR_UA 0x02 /* no REQUEST SENSE on INQUIRY*/
/* The drive does not support START_STOP.
* Shuttle E-USB
*/
# define NO_START_STOP 0x04
/* Don't ask for full inquiry data (255 bytes).
* Yano ATAPI-USB
*/
# define FORCE_SHORT_INQUIRY 0x08
unsigned int proto;
# define PROTO_UNKNOWN 0x0000 /* unknown protocol */
# define PROTO_BBB 0x0001 /* USB wire protocol */
# define PROTO_CBI 0x0002
# define PROTO_CBI_I 0x0004
# define PROTO_WIRE 0x00ff /* USB wire protocol mask */
# define PROTO_SCSI 0x0100 /* command protocol */
# define PROTO_ATAPI 0x0200
# define PROTO_UFI 0x0400
# define PROTO_RBC 0x0800
# define PROTO_COMMAND 0xff00 /* command protocol mask */
u_char subclass; /* interface subclass */
u_char protocol; /* interface protocol */
usbd_interface_handle iface; /* Mass Storage interface */
int ifaceno; /* MS iface number */
u_int8_t bulkin; /* bulk-in Endpoint Address */
u_int8_t bulkout; /* bulk-out Endpoint Address */
u_int8_t intrin; /* intr-in Endp. (CBI) */
usbd_pipe_handle bulkin_pipe;
usbd_pipe_handle bulkout_pipe;
usbd_pipe_handle intrin_pipe;
/* Reset the device in a wire protocol specific way */
wire_reset_f reset;
/* The start of a wire transfer. It prepares the whole transfer (cmd,
* data, and status stage) and initiates it. It is up to the state
* machine (below) to handle the various stages and errors in these
*/
wire_transfer_f transfer;
/* The state machine, handling the various states during a transfer */
wire_state_f state;
#if defined(__FreeBSD__)
/* The command transform function is used to conver the SCSI commands
* into their derivatives, like UFI, ATAPI, and friends.
*/
command_transform_f transform; /* command transform */
#endif
/* Bulk specific variables for transfers in progress */
umass_bbb_cbw_t cbw; /* command block wrapper */
umass_bbb_csw_t csw; /* command status wrapper*/
/* CBI specific variables for transfers in progress */
umass_cbi_cbl_t cbl; /* command block */
umass_cbi_sbl_t sbl; /* status block */
/* generic variables for transfers in progress */
/* ctrl transfer requests */
usb_device_request_t request;
/* xfer handles
* Most of our operations are initiated from interrupt context, so
* we need to avoid using the one that is in use. We want to avoid
* allocating them in the interrupt context as well.
*/
/* indices into array below */
# define XFER_BBB_CBW 0 /* Bulk-Only */
# define XFER_BBB_DATA 1
# define XFER_BBB_DCLEAR 2
# define XFER_BBB_CSW1 3
# define XFER_BBB_CSW2 4
# define XFER_BBB_SCLEAR 5
# define XFER_BBB_RESET1 6
# define XFER_BBB_RESET2 7
# define XFER_BBB_RESET3 8
# define XFER_CBI_CB 0 /* CBI */
# define XFER_CBI_DATA 1
# define XFER_CBI_STATUS 2
# define XFER_CBI_DCLEAR 3
# define XFER_CBI_SCLEAR 4
# define XFER_CBI_RESET1 5
# define XFER_CBI_RESET2 6
# define XFER_CBI_RESET3 7
# define XFER_NR 9 /* maximum number */
usbd_xfer_handle transfer_xfer[XFER_NR]; /* for ctrl xfers */
void *data_buffer;
int transfer_dir; /* data direction */
void *transfer_data; /* data buffer */
int transfer_datalen; /* (maximum) length */
int transfer_actlen; /* actual length */
transfer_cb_f transfer_cb; /* callback */
void *transfer_priv; /* for callback */
int transfer_status;
int transfer_state;
# define TSTATE_IDLE 0
# define TSTATE_BBB_COMMAND 1 /* CBW transfer */
# define TSTATE_BBB_DATA 2 /* Data transfer */
# define TSTATE_BBB_DCLEAR 3 /* clear endpt stall */
# define TSTATE_BBB_STATUS1 4 /* clear endpt stall */
# define TSTATE_BBB_SCLEAR 5 /* clear endpt stall */
# define TSTATE_BBB_STATUS2 6 /* CSW transfer */
# define TSTATE_BBB_RESET1 7 /* reset command */
# define TSTATE_BBB_RESET2 8 /* in clear stall */
# define TSTATE_BBB_RESET3 9 /* out clear stall */
# define TSTATE_CBI_COMMAND 10 /* command transfer */
# define TSTATE_CBI_DATA 11 /* data transfer */
# define TSTATE_CBI_STATUS 12 /* status transfer */
# define TSTATE_CBI_DCLEAR 13 /* clear ep stall */
# define TSTATE_CBI_SCLEAR 14 /* clear ep stall */
# define TSTATE_CBI_RESET1 15 /* reset command */
# define TSTATE_CBI_RESET2 16 /* in clear stall */
# define TSTATE_CBI_RESET3 17 /* out clear stall */
# define TSTATE_STATES 18 /* # of states above */
int transfer_speed; /* in kb/s */
int timeout; /* in msecs */
u_int8_t maxlun; /* max lun supported */
#ifdef UMASS_DEBUG
struct timeval tv;
#endif
#if defined(__FreeBSD__)
/* SCSI/CAM specific variables */
struct scsi_sense cam_scsi_sense;
#elif defined(__NetBSD__) || defined(__OpenBSD__)
union {
struct scsipi_link sc_link;
#if defined(__NetBSD__)
struct {
struct ata_atapi_attach sc_aa;
struct ata_drive_datas sc_aa_drive;
} aa;
#endif
} u;
#if defined(__NetBSD__)
struct atapi_adapter sc_atapi_adapter;
#define sc_adapter sc_atapi_adapter._generic
#else
struct scsi_adapter sc_atapi_adapter;
#define sc_adapter sc_atapi_adapter
#endif
int sc_xfer_flags;
usbd_status sc_sync_status;
struct scsipi_sense sc_sense_cmd;
device_ptr_t sc_child; /* child device, for detach */
char sc_dying;
#endif
};
#ifdef UMASS_DEBUG
char *states[TSTATE_STATES+1] = {
/* should be kept in sync with the list at transfer_state */
"Idle",
"BBB CBW",
"BBB Data",
"BBB Data bulk-in/-out clear stall",
"BBB CSW, 1st attempt",
"BBB CSW bulk-in clear stall",
"BBB CSW, 2nd attempt",
"BBB Reset",
"BBB bulk-in clear stall",
"BBB bulk-out clear stall",
"CBI Command",
"CBI Data",
"CBI Status",
"CBI Data bulk-in/-out clear stall",
"CBI Status intr-in clear stall",
"CBI Reset",
"CBI bulk-in clear stall",
"CBI bulk-out clear stall",
NULL
};
#endif
struct cam_sim *umass_sim; /* SCSI Interface Module */
struct cam_path *umass_path; /* and its path */
/* USB device probe/attach/detach functions */
USB_DECLARE_DRIVER(umass);
Static void umass_disco __P((struct umass_softc *sc));
Static int umass_match_proto __P((struct umass_softc *sc,
usbd_interface_handle iface,
usbd_device_handle dev));
Static void umass_init_shuttle __P((struct umass_softc *sc));
/* generic transfer functions */
Static usbd_status umass_setup_transfer __P((struct umass_softc *sc,
usbd_pipe_handle pipe,
void *buffer, int buflen, int flags,
usbd_xfer_handle xfer));
Static usbd_status umass_setup_ctrl_transfer __P((struct umass_softc *sc,
usbd_device_handle dev,
usb_device_request_t *req,
void *buffer, int buflen, int flags,
usbd_xfer_handle xfer));
Static void umass_clear_endpoint_stall __P((struct umass_softc *sc,
u_int8_t endpt, usbd_pipe_handle pipe,
int state, usbd_xfer_handle xfer));
#if 0
Static void umass_reset __P((struct umass_softc *sc,
transfer_cb_f cb, void *priv));
#endif
/* Bulk-Only related functions */
Static void umass_bbb_reset __P((struct umass_softc *sc, int status));
Static void umass_bbb_transfer __P((struct umass_softc *sc, int lun,
void *cmd, int cmdlen,
void *data, int datalen, int dir,
transfer_cb_f cb, void *priv));
Static void umass_bbb_state __P((usbd_xfer_handle xfer,
usbd_private_handle priv,
usbd_status err));
usbd_status umass_bbb_get_max_lun __P((struct umass_softc *sc,
u_int8_t *maxlun));
/* CBI related functions */
Static int umass_cbi_adsc __P((struct umass_softc *sc, char *buffer,int buflen,
usbd_xfer_handle xfer));
Static void umass_cbi_reset __P((struct umass_softc *sc, int status));
Static void umass_cbi_transfer __P((struct umass_softc *sc, int lun,
void *cmd, int cmdlen,
void *data, int datalen, int dir,
transfer_cb_f cb, void *priv));
Static void umass_cbi_state __P((usbd_xfer_handle xfer,
usbd_private_handle priv, usbd_status err));
#if defined(__FreeBSD__)
/* CAM related functions */
Static void umass_cam_action __P((struct cam_sim *sim, union ccb *ccb));
Static void umass_cam_poll __P((struct cam_sim *sim));
Static void umass_cam_cb __P((struct umass_softc *sc, void *priv,
int residue, int status));
Static void umass_cam_sense_cb __P((struct umass_softc *sc, void *priv,
int residue, int status));
#ifdef UMASS_DO_CAM_RESCAN
Static void umass_cam_rescan __P((struct umass_softc *sc));
#endif
Static int umass_cam_attach_sim __P((void));
Static int umass_cam_attach __P((struct umass_softc *sc));
Static int umass_cam_detach_sim __P((void));
Static int umass_cam_detach __P((struct umass_softc *sc));
#elif defined(__NetBSD__) || defined(__OpenBSD__)
#define UMASS_SCSIID_HOST 0x00
#define UMASS_SCSIID_DEVICE 0x01
#define UMASS_ATAPI_DRIVE 0
#define UMASS_MAX_TRANSFER_SIZE MAXBSIZE
struct scsipi_device umass_dev =
{
NULL, /* Use default error handler */
NULL, /* have a queue, served by this */
NULL, /* have no async handler */
NULL, /* Use default 'done' routine */
};
Static int umass_scsipi_cmd __P((struct scsipi_xfer *xs));
Static void umass_scsipi_minphys __P((struct buf *bp));
Static int umass_scsipi_ioctl __P((struct scsipi_link *, u_long,
caddr_t, int, struct proc *));
Static void umass_scsipi_cb __P((struct umass_softc *sc, void *priv,
int residue, int status));
Static void umass_scsipi_sense_cb __P((struct umass_softc *sc, void *priv,
int residue, int status));
Static int scsipiprint __P((void *aux, const char *pnp));
Static int umass_ufi_transform __P((struct umass_softc *sc,
struct scsipi_generic *cmd, int cmdlen,
struct scsipi_generic *rcmd, int *rcmdlen));
#if NATAPIBUS > 0
Static void umass_atapi_probedev __P((struct atapibus_softc *, int));
#endif
#endif
#if defined(__FreeBSD__)
/* SCSI specific functions */
Static int umass_scsi_transform __P((struct umass_softc *sc,
unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen));
/* UFI specific functions */
Static int umass_ufi_transform __P((struct umass_softc *sc,
unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen));
/* 8070 specific functions */
Static int umass_8070_transform __P((struct umass_softc *sc,
unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen));
#endif
#ifdef UMASS_DEBUG
/* General debugging functions */
Static void umass_bbb_dump_cbw __P((struct umass_softc *sc,
umass_bbb_cbw_t *cbw));
Static void umass_bbb_dump_csw __P((struct umass_softc *sc,
umass_bbb_csw_t *csw));
Static void umass_dump_buffer __P((struct umass_softc *sc, u_int8_t *buffer,
int buflen, int printlen));
#endif
void usbd_clear_endpoint_toggle(usbd_pipe_handle pipe); /* XXXXX */
/*
* USB device probe/attach/detach
*/
/*
* Match the device we are seeing with the devices supported. Fill in the
* proto and drive fields in the softc accordingly.
* This function is called from both probe and attach.
*/
Static int
umass_match_proto(sc, iface, dev)
struct umass_softc *sc;
usbd_interface_handle iface;
usbd_device_handle dev;
{
usb_device_descriptor_t *dd;
usb_interface_descriptor_t *id;
u_int vendor, product;
/*
* Fill in sc->drive and sc->proto and return a match
* value if both are determined and 0 otherwise.
*/
sc->drive = DRIVE_GENERIC;
sc->proto = PROTO_UNKNOWN;
sc->transfer_speed = UMASS_DEFAULT_TRANSFER_SPEED;
sc->sc_udev = dev;
dd = usbd_get_device_descriptor(dev);
vendor = UGETW(dd->idVendor);
product = UGETW(dd->idProduct);
if (vendor == USB_VENDOR_SHUTTLE &&
product == USB_PRODUCT_SHUTTLE_EUSB) {
sc->drive = SHUTTLE_EUSB;
#if CBI_I
sc->proto = PROTO_ATAPI | PROTO_CBI_I;
#else
sc->proto = PROTO_ATAPI | PROTO_CBI;
#endif
sc->subclass = UISUBCLASS_SFF8020I;
sc->protocol = UIPROTO_MASS_CBI;
sc->quirks |= NO_TEST_UNIT_READY | NO_START_STOP;
return (UMATCH_VENDOR_PRODUCT);
}
if (vendor == USB_VENDOR_YANO &&
product == USB_PRODUCT_YANO_U640MO) {
sc->proto = PROTO_ATAPI | PROTO_CBI_I;
sc->quirks |= FORCE_SHORT_INQUIRY;
return (UMATCH_VENDOR_PRODUCT);
}
if (vendor == USB_VENDOR_SONY &&
product == USB_PRODUCT_SONY_MSC) {
printf ("XXX Sony MSC\n");
sc->quirks |= FORCE_SHORT_INQUIRY;
}
if (vendor == USB_VENDOR_YEDATA &&
product == USB_PRODUCT_YEDATA_FLASHBUSTERU) {
/* Revisions < 1.28 do not handle the interrupt endpoint
* very well.
*/
if (UGETW(dd->bcdDevice) < 0x128)
sc->proto = PROTO_UFI | PROTO_CBI;
else
#if CBI_I
sc->proto = PROTO_UFI | PROTO_CBI_I;
#else
sc->proto = PROTO_UFI | PROTO_CBI;
#endif
/*
* Revisions < 1.28 do not have the TEST UNIT READY command
* Revisions == 1.28 have a broken TEST UNIT READY
*/
if (UGETW(dd->bcdDevice) <= 0x128)
sc->quirks |= NO_TEST_UNIT_READY;
sc->subclass = UISUBCLASS_UFI;
sc->protocol = UIPROTO_MASS_CBI;
sc->quirks |= RS_NO_CLEAR_UA;
sc->transfer_speed = UMASS_FLOPPY_TRANSFER_SPEED;
return (UMATCH_VENDOR_PRODUCT_REV);
}
if (vendor == USB_VENDOR_INSYSTEM &&
product == USB_PRODUCT_INSYSTEM_USBCABLE) {
sc->drive = INSYSTEM_USBCABLE;
sc->proto = PROTO_ATAPI | PROTO_CBI;
sc->quirks |= NO_TEST_UNIT_READY | NO_START_STOP;
return (UMATCH_VENDOR_PRODUCT);
}
id = usbd_get_interface_descriptor(iface);
if (id == NULL || id->bInterfaceClass != UICLASS_MASS)
return (UMATCH_NONE);
if (vendor == USB_VENDOR_SONY && id->bInterfaceSubClass == 0xff) {
/*
* Sony DSC devices set the sub class to 0xff
* instead of 1 (RBC). Fix that here.
*/
id->bInterfaceSubClass = UISUBCLASS_RBC;
/* They also should be able to do higher speed. */
sc->transfer_speed = 500;
}
if (vendor == USB_VENDOR_FUJIPHOTO &&
product == USB_PRODUCT_FUJIPHOTO_MASS0100)
sc->quirks |= NO_TEST_UNIT_READY | NO_START_STOP;
sc->subclass = id->bInterfaceSubClass;
sc->protocol = id->bInterfaceProtocol;
switch (sc->subclass) {
case UISUBCLASS_SCSI:
sc->proto |= PROTO_SCSI;
break;
case UISUBCLASS_UFI:
sc->transfer_speed = UMASS_FLOPPY_TRANSFER_SPEED;
sc->proto |= PROTO_UFI;
break;
case UISUBCLASS_SFF8020I:
case UISUBCLASS_SFF8070I:
case UISUBCLASS_QIC157:
sc->proto |= PROTO_ATAPI;
break;
case UISUBCLASS_RBC:
sc->proto |= PROTO_RBC;
break;
default:
/* Assume that unsupported devices are ATAPI */
DPRINTF(UDMASS_GEN, ("%s: Unsupported command protocol %d\n",
USBDEVNAME(sc->sc_dev), id->bInterfaceSubClass));
sc->proto |= PROTO_ATAPI;
break;
}
switch (sc->protocol) {
case UIPROTO_MASS_CBI:
sc->proto |= PROTO_CBI;
break;
case UIPROTO_MASS_CBI_I:
#if CBI_I
sc->proto |= PROTO_CBI_I;
#else
sc->proto |= PROTO_CBI;
#endif
break;
case UIPROTO_MASS_BBB:
sc->proto |= PROTO_BBB;
break;
case UIPROTO_MASS_BBB_P:
sc->drive = ZIP_100;
sc->proto |= PROTO_BBB;
sc->transfer_speed = UMASS_ZIP100_TRANSFER_SPEED;
sc->quirks |= NO_TEST_UNIT_READY;
break;
default:
DPRINTF(UDMASS_GEN, ("%s: Unsupported wire protocol %d\n",
USBDEVNAME(sc->sc_dev), id->bInterfaceProtocol));
return (UMATCH_NONE);
}
return (UMATCH_DEVCLASS_DEVSUBCLASS_DEVPROTO);
}
USB_MATCH(umass)
{
USB_MATCH_START(umass, uaa);
#if defined(__FreeBSD__)
struct umass_softc *sc = device_get_softc(self);
#elif defined(__NetBSD__) || defined(__OpenBSD__)
struct umass_softc scs, *sc = &scs;
memset(sc, 0, sizeof *sc);
strcpy(sc->sc_dev.dv_xname, "umass");
#endif
if (uaa->iface == NULL)
return(UMATCH_NONE);
return (umass_match_proto(sc, uaa->iface, uaa->device));
}
USB_ATTACH(umass)
{
USB_ATTACH_START(umass, sc, uaa);
usb_interface_descriptor_t *id;
usb_endpoint_descriptor_t *ed;
const char *sSubclass, *sProto;
char devinfo[1024];
int i, bno;
int err;
/*
* the softc struct is bzero-ed in device_set_driver. We can safely
* call umass_detach without specifically initialising the struct.
*/
usbd_devinfo(uaa->device, 0, devinfo);
USB_ATTACH_SETUP;
sc->iface = uaa->iface;
sc->ifaceno = uaa->ifaceno;
/* initialise the proto and drive values in the umass_softc (again) */
if (umass_match_proto(sc, sc->iface, uaa->device) == 0) {
printf("%s: match failed\n", USBDEVNAME(sc->sc_dev));
USB_ATTACH_ERROR_RETURN;
}
/*
* The timeout is based on the maximum expected transfer size
* divided by the expected transfer speed.
* We multiply by 4 to make sure a busy system doesn't make things
* fail.
*/
sc->timeout = 4 * UMASS_MAX_TRANSFER_SIZE / sc->transfer_speed;
sc->timeout += UMASS_SPINUP_TIME; /* allow for spinning up */
id = usbd_get_interface_descriptor(sc->iface);
printf("%s: %s\n", USBDEVNAME(sc->sc_dev), devinfo);
switch (sc->subclass) {
case UISUBCLASS_RBC:
sSubclass = "RBC";
break;
case UISUBCLASS_SCSI:
sSubclass = "SCSI";
break;
case UISUBCLASS_UFI:
sSubclass = "UFI";
break;
case UISUBCLASS_SFF8020I:
sSubclass = "SFF8020i";
break;
case UISUBCLASS_SFF8070I:
sSubclass = "SFF8070i";
break;
case UISUBCLASS_QIC157:
sSubclass = "QIC157";
break;
default:
sSubclass = "unknown";
break;
}
switch (sc->protocol) {
case UIPROTO_MASS_CBI:
sProto = "CBI";
break;
case UIPROTO_MASS_CBI_I:
sProto = "CBI-I";
break;
case UIPROTO_MASS_BBB:
sProto = "BBB";
break;
case UIPROTO_MASS_BBB_P:
sProto = "BBB-P";
break;
default:
sProto = "unknown";
break;
}
printf("%s: using %s over %s\n", USBDEVNAME(sc->sc_dev), sSubclass,
sProto);
if (sc->drive == INSYSTEM_USBCABLE) {
err = usbd_set_interface(0, 1);
if (err) {
DPRINTF(UDMASS_USB, ("%s: could not switch to "
"Alt Interface %d\n",
USBDEVNAME(sc->sc_dev), 1));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
}
/*
* In addition to the Control endpoint the following endpoints
* are required:
* a) bulk-in endpoint.
* b) bulk-out endpoint.
* and for Control/Bulk/Interrupt with CCI (CBI_I)
* c) intr-in
*
* The endpoint addresses are not fixed, so we have to read them
* from the device descriptors of the current interface.
*/
for (i = 0 ; i < id->bNumEndpoints ; i++) {
ed = usbd_interface2endpoint_descriptor(sc->iface, i);
if (!ed) {
printf("%s: could not read endpoint descriptor\n",
USBDEVNAME(sc->sc_dev));
USB_ATTACH_ERROR_RETURN;
}
if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_IN
&& (ed->bmAttributes & UE_XFERTYPE) == UE_BULK) {
sc->bulkin = ed->bEndpointAddress;
} else if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_OUT
&& (ed->bmAttributes & UE_XFERTYPE) == UE_BULK) {
sc->bulkout = ed->bEndpointAddress;
} else if (sc->proto & PROTO_CBI_I
&& UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_IN
&& (ed->bmAttributes & UE_XFERTYPE) == UE_INTERRUPT) {
sc->intrin = ed->bEndpointAddress;
#ifdef UMASS_DEBUG
if (UGETW(ed->wMaxPacketSize) > 2) {
DPRINTF(UDMASS_CBI, ("%s: intr size is %d\n",
USBDEVNAME(sc->sc_dev),
UGETW(ed->wMaxPacketSize)));
}
#endif
}
}
/* check whether we found all the endpoints we need */
if (!sc->bulkin || !sc->bulkout
|| (sc->proto & PROTO_CBI_I && !sc->intrin) ) {
DPRINTF(UDMASS_USB, ("%s: endpoint not found %d/%d/%d\n",
USBDEVNAME(sc->sc_dev),
sc->bulkin, sc->bulkout, sc->intrin));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
/*
* Get the maximum LUN supported by the device.
*/
if ((sc->proto & PROTO_WIRE) == PROTO_BBB) {
err = umass_bbb_get_max_lun(sc, &sc->maxlun);
if (err) {
printf("%s: unable to get Max Lun: %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
USB_ATTACH_ERROR_RETURN;
}
} else {
sc->maxlun = 0;
}
/* Open the bulk-in and -out pipe */
err = usbd_open_pipe(sc->iface, sc->bulkout,
USBD_EXCLUSIVE_USE, &sc->bulkout_pipe);
if (err) {
DPRINTF(UDMASS_USB, ("%s: cannot open %d-out pipe (bulk)\n",
USBDEVNAME(sc->sc_dev), sc->bulkout));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
err = usbd_open_pipe(sc->iface, sc->bulkin,
USBD_EXCLUSIVE_USE, &sc->bulkin_pipe);
if (err) {
DPRINTF(UDMASS_USB, ("%s: could not open %d-in pipe (bulk)\n",
USBDEVNAME(sc->sc_dev), sc->bulkin));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
/*
* Open the intr-in pipe if the protocol is CBI with CCI.
* Note: early versions of the Zip drive do have an interrupt pipe, but
* this pipe is unused
*
* We do not open the interrupt pipe as an interrupt pipe, but as a
* normal bulk endpoint. We send an IN transfer down the wire at the
* appropriate time, because we know exactly when to expect data on
* that endpoint. This saves bandwidth, but more important, makes the
* code for handling the data on that endpoint simpler. No data
* arriving concurrently.
*/
if (sc->proto & PROTO_CBI_I) {
err = usbd_open_pipe(sc->iface, sc->intrin,
USBD_EXCLUSIVE_USE, &sc->intrin_pipe);
if (err) {
DPRINTF(UDMASS_USB, ("%s: couldn't open %d-in (intr)\n",
USBDEVNAME(sc->sc_dev), sc->intrin));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
}
/* initialisation of generic part */
sc->transfer_state = TSTATE_IDLE;
/* request a sufficient number of xfer handles */
for (i = 0; i < XFER_NR; i++) {
sc->transfer_xfer[i] = usbd_alloc_xfer(uaa->device);
if (sc->transfer_xfer[i] == 0) {
DPRINTF(UDMASS_USB, ("%s: Out of memory\n",
USBDEVNAME(sc->sc_dev)));
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
}
/* Allocate buffer for data transfer (it's huge). */
switch (sc->proto & PROTO_WIRE) {
case PROTO_BBB:
bno = XFER_BBB_DATA;
goto dalloc;
case PROTO_CBI:
bno = XFER_CBI_DATA;
goto dalloc;
case PROTO_CBI_I:
bno = XFER_CBI_DATA;
dalloc:
sc->data_buffer = usbd_alloc_buffer(sc->transfer_xfer[bno],
UMASS_MAX_TRANSFER_SIZE);
if (sc->data_buffer == NULL) {
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
break;
default:
break;
}
/* Initialise the wire protocol specific methods */
if (sc->proto & PROTO_BBB) {
sc->reset = umass_bbb_reset;
sc->transfer = umass_bbb_transfer;
sc->state = umass_bbb_state;
} else if ((sc->proto & PROTO_CBI) || (sc->proto & PROTO_CBI_I)) {
sc->reset = umass_cbi_reset;
sc->transfer = umass_cbi_transfer;
sc->state = umass_cbi_state;
#ifdef UMASS_DEBUG
} else {
panic("%s:%d: Unknown proto 0x%02x\n",
__FILE__, __LINE__, sc->proto);
#endif
}
if (sc->drive == SHUTTLE_EUSB)
umass_init_shuttle(sc);
/*
* Fill in the adapter.
*/
sc->sc_adapter.scsipi_cmd = umass_scsipi_cmd;
sc->sc_adapter.scsipi_minphys = umass_scsipi_minphys;
/*
* fill in the prototype scsipi_link.
*/
switch (sc->proto & PROTO_COMMAND) {
case PROTO_SCSI:
case PROTO_UFI:
case PROTO_ATAPI:
case PROTO_RBC:
if ((sc->proto & PROTO_COMMAND) != PROTO_SCSI)
sc->u.sc_link.flags |= SDEV_ATAPI;
else
sc->u.sc_link.flags &= ~SDEV_ATAPI;
sc->u.sc_link.adapter_buswidth = 2;
sc->u.sc_link.adapter_target = UMASS_SCSIID_HOST;
sc->u.sc_link.luns = sc->maxlun + 1;
sc->u.sc_link.adapter_softc = sc;
sc->u.sc_link.adapter = &sc->sc_adapter;
sc->u.sc_link.device = &umass_dev;
sc->u.sc_link.openings = 1;
if(sc->quirks & NO_TEST_UNIT_READY)
sc->u.sc_link.quirks |= ADEV_NOTUR;
break;
default:
printf("%s: proto=0x%x not supported yet\n",
USBDEVNAME(sc->sc_dev), sc->proto);
umass_disco(sc);
USB_ATTACH_ERROR_RETURN;
}
sc->sc_child = config_found(&sc->sc_dev, &sc->u, scsipiprint);
if (sc->sc_child == NULL) {
umass_disco(sc);
/* Not an error, just not a complete success. */
USB_ATTACH_SUCCESS_RETURN;
}
usbd_add_drv_event(USB_EVENT_DRIVER_ATTACH, sc->sc_udev,
USBDEV(sc->sc_dev));
DPRINTF(UDMASS_GEN, ("%s: Attach finished\n", USBDEVNAME(sc->sc_dev)));
USB_ATTACH_SUCCESS_RETURN;
}
Static int
scsipiprint(aux, pnp)
void *aux;
const char *pnp;
{
#if !defined(__OpenBSD__)
extern int atapi_print __P((void *aux, const char *pnp));
struct scsipi_link *l = aux;
if (l->type == BUS_SCSI)
return (scsiprint(aux, pnp));
else
return (atapi_print(aux, pnp));
#else
return (scsiprint(aux, pnp));
#endif
}
USB_DETACH(umass)
{
USB_DETACH_START(umass, sc);
int rv = 0;
DPRINTF(UDMASS_USB, ("%s: detached\n", USBDEVNAME(sc->sc_dev)));
/* Abort the pipes to wake up any waiting processes. */
if (sc->bulkout_pipe != NULL)
usbd_abort_pipe(sc->bulkout_pipe);
if (sc->bulkin_pipe != NULL)
usbd_abort_pipe(sc->bulkin_pipe);
if (sc->intrin_pipe != NULL)
usbd_abort_pipe(sc->intrin_pipe);
#if 0
/* Do we really need reference counting? Perhaps in ioctl() */
s = splusb();
if (--sc->sc_refcnt >= 0) {
/* Wait for processes to go away. */
usb_detach_wait(USBDEV(sc->sc_dev));
}
splx(s);
#endif
#if defined(__FreeBSD__)
if ((sc->proto & PROTO_SCSI) ||
(sc->proto & PROTO_ATAPI) ||
(sc->proto & PROTO_UFI))
/* detach the device from the SCSI host controller (SIM) */
rv = umass_cam_detach(sc);
#elif defined(__NetBSD__) || defined(__OpenBSD__)
if (sc->sc_child != NULL)
rv = config_detach(sc->sc_child, flags);
#endif
if (rv != 0)
return (rv);
umass_disco(sc);
usbd_add_drv_event(USB_EVENT_DRIVER_DETACH, sc->sc_udev,
USBDEV(sc->sc_dev));
return (0);
}
#if defined(__NetBSD__) || defined(__OpenBSD__)
int
umass_activate(self, act)
struct device *self;
enum devact act;
{
struct umass_softc *sc = (struct umass_softc *) self;
int rv = 0;
DPRINTF(UDMASS_USB, ("%s: umass_activate: %d\n",
USBDEVNAME(sc->sc_dev), act));
switch (act) {
case DVACT_ACTIVATE:
rv = EOPNOTSUPP;
break;
case DVACT_DEACTIVATE:
if (sc->sc_child == NULL)
break;
rv = config_deactivate(sc->sc_child);
DPRINTF(UDMASS_USB, ("%s: umass_activate: child "
"returned %d\n", USBDEVNAME(sc->sc_dev), rv));
if (rv == 0)
sc->sc_dying = 1;
break;
}
return (rv);
}
#endif
Static void
umass_disco(sc)
struct umass_softc *sc;
{
int i;
DPRINTF(UDMASS_GEN, ("umass_disco\n"));
/* Free the xfers. */
for (i = 0; i < XFER_NR; i++)
if (sc->transfer_xfer[i] != NULL) {
usbd_free_xfer(sc->transfer_xfer[i]);
sc->transfer_xfer[i] = NULL;
}
/* Remove all the pipes. */
if (sc->bulkout_pipe != NULL)
usbd_close_pipe(sc->bulkout_pipe);
if (sc->bulkin_pipe != NULL)
usbd_close_pipe(sc->bulkin_pipe);
if (sc->intrin_pipe != NULL)
usbd_close_pipe(sc->intrin_pipe);
}
Static void
umass_init_shuttle(struct umass_softc *sc)
{
usb_device_request_t req;
u_char status[2];
/* The Linux driver does this */
req.bmRequestType = UT_READ_VENDOR_DEVICE;
req.bRequest = 1;
USETW(req.wValue, 0);
USETW(req.wIndex, sc->ifaceno);
USETW(req.wLength, sizeof status);
(void)usbd_do_request(sc->sc_udev, &req, &status);
}
/*
* Generic functions to handle transfers
*/
Static usbd_status
umass_setup_transfer(struct umass_softc *sc, usbd_pipe_handle pipe,
void *buffer, int buflen, int flags,
usbd_xfer_handle xfer)
{
usbd_status err;
if (sc->sc_dying)
return (USBD_IOERROR);
/* Initialiase a USB transfer and then schedule it */
usbd_setup_xfer(xfer, pipe, (void *)sc, buffer, buflen,
flags | sc->sc_xfer_flags, sc->timeout, sc->state);
err = usbd_transfer(xfer);
DPRINTF(UDMASS_XFER,("%s: start xfer buffer=%p buflen=%d flags=0x%x "
"timeout=%d\n", USBDEVNAME(sc->sc_dev),
buffer, buflen, flags | sc->sc_xfer_flags, sc->timeout));
if (err && err != USBD_IN_PROGRESS) {
DPRINTF(UDMASS_BBB, ("%s: failed to setup transfer, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err)));
return (err);
}
return (USBD_NORMAL_COMPLETION);
}
Static usbd_status
umass_setup_ctrl_transfer(struct umass_softc *sc, usbd_device_handle dev,
usb_device_request_t *req,
void *buffer, int buflen, int flags,
usbd_xfer_handle xfer)
{
usbd_status err;
if (sc->sc_dying)
return (USBD_IOERROR);
/* Initialiase a USB control transfer and then schedule it */
usbd_setup_default_xfer(xfer, dev, (void *) sc,
sc->timeout, req, buffer, buflen, flags, sc->state);
err = usbd_transfer(xfer);
if (err && err != USBD_IN_PROGRESS) {
DPRINTF(UDMASS_BBB, ("%s: failed to setup ctrl transfer, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err)));
/* do not reset, as this would make us loop */
return (err);
}
return (USBD_NORMAL_COMPLETION);
}
Static void
umass_clear_endpoint_stall(struct umass_softc *sc,
u_int8_t endpt, usbd_pipe_handle pipe,
int state, usbd_xfer_handle xfer)
{
usbd_device_handle dev;
if (sc->sc_dying)
return;
DPRINTF(UDMASS_BBB, ("%s: Clear endpoint 0x%02x stall\n",
USBDEVNAME(sc->sc_dev), endpt));
usbd_interface2device_handle(sc->iface, &dev);
sc->transfer_state = state;
usbd_clear_endpoint_toggle(pipe);
sc->request.bmRequestType = UT_WRITE_ENDPOINT;
sc->request.bRequest = UR_CLEAR_FEATURE;
USETW(sc->request.wValue, UF_ENDPOINT_HALT);
USETW(sc->request.wIndex, endpt);
USETW(sc->request.wLength, 0);
umass_setup_ctrl_transfer(sc, dev, &sc->request, NULL, 0, 0, xfer);
}
#if 0
Static void
umass_reset(struct umass_softc *sc, transfer_cb_f cb, void *priv)
{
sc->transfer_cb = cb;
sc->transfer_priv = priv;
/* The reset is a forced reset, so no error (yet) */
sc->reset(sc, STATUS_CMD_OK);
}
#endif
/*
* Bulk protocol specific functions
*/
Static void
umass_bbb_reset(struct umass_softc *sc, int status)
{
usbd_device_handle dev;
KASSERT(sc->proto & PROTO_BBB,
("sc->proto == 0x%02x wrong for umass_bbb_reset\n", sc->proto));
if (sc->sc_dying)
return;
/*
* Reset recovery (5.3.4 in Universal Serial Bus Mass Storage Class)
*
* For Reset Recovery the host shall issue in the following order:
* a) a Bulk-Only Mass Storage Reset
* b) a Clear Feature HALT to the Bulk-In endpoint
* c) a Clear Feature HALT to the Bulk-Out endpoint
*
* This is done in 3 steps, states:
* TSTATE_BBB_RESET1
* TSTATE_BBB_RESET2
* TSTATE_BBB_RESET3
*
* If the reset doesn't succeed, the device should be port reset.
*/
DPRINTF(UDMASS_BBB, ("%s: Bulk Reset\n",
USBDEVNAME(sc->sc_dev)));
sc->transfer_state = TSTATE_BBB_RESET1;
sc->transfer_status = status;
usbd_interface2device_handle(sc->iface, &dev);
/* reset is a class specific interface write */
sc->request.bmRequestType = UT_WRITE_CLASS_INTERFACE;
sc->request.bRequest = UR_BBB_RESET;
USETW(sc->request.wValue, 0);
USETW(sc->request.wIndex, sc->ifaceno);
USETW(sc->request.wLength, 0);
umass_setup_ctrl_transfer(sc, dev, &sc->request, NULL, 0, 0,
sc->transfer_xfer[XFER_BBB_RESET1]);
}
Static void
umass_bbb_transfer(struct umass_softc *sc, int lun, void *cmd, int cmdlen,
void *data, int datalen, int dir,
transfer_cb_f cb, void *priv)
{
static int dCBWtag = 42; /* unique for CBW of transfer */
DPRINTF(UDMASS_BBB,("%s: umass_bbb_transfer cmd=0x%02x\n",
USBDEVNAME(sc->sc_dev), *(u_char*)cmd));
KASSERT(sc->proto & PROTO_BBB,
("sc->proto == 0x%02x wrong for umass_bbb_transfer\n",
sc->proto));
/*
* Do a Bulk-Only transfer with cmdlen bytes from cmd, possibly
* a data phase of datalen bytes from/to the device and finally a
* csw read phase.
* If the data direction was inbound a maximum of datalen bytes
* is stored in the buffer pointed to by data.
*
* umass_bbb_transfer initialises the transfer and lets the state
* machine in umass_bbb_state handle the completion. It uses the
* following states:
* TSTATE_BBB_COMMAND
* -> TSTATE_BBB_DATA
* -> TSTATE_BBB_STATUS
* -> TSTATE_BBB_STATUS2
* -> TSTATE_BBB_IDLE
*
* An error in any of those states will invoke
* umass_bbb_reset.
*/
/* check the given arguments */
KASSERT(datalen == 0 || data != NULL,
("%s: datalen > 0, but no buffer",USBDEVNAME(sc->sc_dev)));
KASSERT(cmdlen <= CBWCDBLENGTH,
("%s: cmdlen exceeds CDB length in CBW (%d > %d)",
USBDEVNAME(sc->sc_dev), cmdlen, CBWCDBLENGTH));
KASSERT(dir == DIR_NONE || datalen > 0,
("%s: datalen == 0 while direction is not NONE\n",
USBDEVNAME(sc->sc_dev)));
KASSERT(datalen == 0 || dir != DIR_NONE,
("%s: direction is NONE while datalen is not zero\n",
USBDEVNAME(sc->sc_dev)));
KASSERT(sizeof(umass_bbb_cbw_t) == UMASS_BBB_CBW_SIZE,
("%s: CBW struct does not have the right size (%d vs. %d)\n",
USBDEVNAME(sc->sc_dev),
sizeof(umass_bbb_cbw_t), UMASS_BBB_CBW_SIZE));
KASSERT(sizeof(umass_bbb_csw_t) == UMASS_BBB_CSW_SIZE,
("%s: CSW struct does not have the right size (%d vs. %d)\n",
USBDEVNAME(sc->sc_dev),
sizeof(umass_bbb_csw_t), UMASS_BBB_CSW_SIZE));
/*
* Determine the direction of the data transfer and the length.
*
* dCBWDataTransferLength (datalen) :
* This field indicates the number of bytes of data that the host
* intends to transfer on the IN or OUT Bulk endpoint(as indicated by
* the Direction bit) during the execution of this command. If this
* field is set to 0, the device will expect that no data will be
* transferred IN or OUT during this command, regardless of the value
* of the Direction bit defined in dCBWFlags.
*
* dCBWFlags (dir) :
* The bits of the Flags field are defined as follows:
* Bits 0-6 reserved
* Bit 7 Direction - this bit shall be ignored if the
* dCBWDataTransferLength field is zero.
* 0 = data Out from host to device
* 1 = data In from device to host
*/
/* Fill in the Command Block Wrapper */
USETDW(sc->cbw.dCBWSignature, CBWSIGNATURE);
USETDW(sc->cbw.dCBWTag, dCBWtag);
dCBWtag++; /* cannot be done in macro (it will be done 4 times) */
USETDW(sc->cbw.dCBWDataTransferLength, datalen);
/* DIR_NONE is treated as DIR_OUT (0x00) */
sc->cbw.bCBWFlags = (dir == DIR_IN? CBWFLAGS_IN:CBWFLAGS_OUT);
sc->cbw.bCBWLUN = lun;
sc->cbw.bCDBLength = cmdlen;
bcopy(cmd, sc->cbw.CBWCDB, cmdlen);
DIF(UDMASS_BBB, umass_bbb_dump_cbw(sc, &sc->cbw));
/* store the details for the data transfer phase */
sc->transfer_dir = dir;
sc->transfer_data = data;
sc->transfer_datalen = datalen;
sc->transfer_actlen = 0;
sc->transfer_cb = cb;
sc->transfer_priv = priv;
sc->transfer_status = STATUS_CMD_OK;
/* move from idle to the command state */
sc->transfer_state = TSTATE_BBB_COMMAND;
/* Send the CBW from host to device via bulk-out endpoint. */
if (umass_setup_transfer(sc, sc->bulkout_pipe,
&sc->cbw, UMASS_BBB_CBW_SIZE, 0,
sc->transfer_xfer[XFER_BBB_CBW])) {
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
}
}
Static void
umass_bbb_state(usbd_xfer_handle xfer, usbd_private_handle priv,
usbd_status err)
{
struct umass_softc *sc = (struct umass_softc *) priv;
usbd_xfer_handle next_xfer;
KASSERT(sc->proto & PROTO_BBB,
("sc->proto == 0x%02x wrong for umass_bbb_state\n",sc->proto));
if (sc->sc_dying)
return;
/*
* State handling for BBB transfers.
*
* The subroutine is rather long. It steps through the states given in
* Annex A of the Bulk-Only specification.
* Each state first does the error handling of the previous transfer
* and then prepares the next transfer.
* Each transfer is done asynchroneously so after the request/transfer
* has been submitted you will find a 'return;'.
*/
DPRINTF(UDMASS_BBB, ("%s: Handling BBB state %d (%s), xfer=%p, %s\n",
USBDEVNAME(sc->sc_dev), sc->transfer_state,
states[sc->transfer_state], xfer, usbd_errstr(err)));
switch (sc->transfer_state) {
/***** Bulk Transfer *****/
case TSTATE_BBB_COMMAND:
/* Command transport phase, error handling */
if (err) {
DPRINTF(UDMASS_BBB, ("%s: failed to send CBW\n",
USBDEVNAME(sc->sc_dev)));
/* If the device detects that the CBW is invalid, then
* the device may STALL both bulk endpoints and require
* a Bulk-Reset
*/
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
}
/* Data transport phase, setup transfer */
sc->transfer_state = TSTATE_BBB_DATA;
if (sc->transfer_dir == DIR_IN) {
if (umass_setup_transfer(sc, sc->bulkin_pipe,
sc->data_buffer, sc->transfer_datalen,
USBD_SHORT_XFER_OK | USBD_NO_COPY,
sc->transfer_xfer[XFER_BBB_DATA]))
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
} else if (sc->transfer_dir == DIR_OUT) {
memcpy(sc->data_buffer, sc->transfer_data,
sc->transfer_datalen);
if (umass_setup_transfer(sc, sc->bulkout_pipe,
sc->data_buffer, sc->transfer_datalen,
USBD_NO_COPY,/* fixed length transfer */
sc->transfer_xfer[XFER_BBB_DATA]))
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
} else {
DPRINTF(UDMASS_BBB, ("%s: no data phase\n",
USBDEVNAME(sc->sc_dev)));
}
/* FALLTHROUGH if no data phase, err == 0 */
case TSTATE_BBB_DATA:
/* Command transport phase, error handling (ignored if no data
* phase (fallthrough from previous state)) */
if (sc->transfer_dir != DIR_NONE) {
/* retrieve the length of the transfer that was done */
usbd_get_xfer_status(xfer, NULL, NULL,
&sc->transfer_actlen, NULL);
if (err) {
DPRINTF(UDMASS_BBB, ("%s: Data-%s %db failed, "
"%s\n", USBDEVNAME(sc->sc_dev),
(sc->transfer_dir == DIR_IN?"in":"out"),
sc->transfer_datalen,usbd_errstr(err)));
if (err == USBD_STALLED) {
umass_clear_endpoint_stall(sc,
(sc->transfer_dir == DIR_IN?
sc->bulkin:sc->bulkout),
(sc->transfer_dir == DIR_IN?
sc->bulkin_pipe:sc->bulkout_pipe),
TSTATE_BBB_DCLEAR,
sc->transfer_xfer[XFER_BBB_DCLEAR]);
return;
} else {
/* Unless the error is a pipe stall the
* error is fatal.
*/
umass_bbb_reset(sc,STATUS_WIRE_FAILED);
return;
}
}
}
if (sc->transfer_dir == DIR_IN)
memcpy(sc->transfer_data, sc->data_buffer,
sc->transfer_actlen);
DIF(UDMASS_BBB, if (sc->transfer_dir == DIR_IN)
umass_dump_buffer(sc, sc->transfer_data,
sc->transfer_datalen, 48));
/* FALLTHROUGH, err == 0 (no data phase or successfull) */
case TSTATE_BBB_DCLEAR: /* stall clear after data phase */
case TSTATE_BBB_SCLEAR: /* stall clear after status phase */
/* Reading of CSW after bulk stall condition in data phase
* (TSTATE_BBB_DATA2) or bulk-in stall condition after
* reading CSW (TSTATE_BBB_SCLEAR).
* In the case of no data phase or successfull data phase,
* err == 0 and the following if block is passed.
*/
if (err) { /* should not occur */
/* try the transfer below, even if clear stall failed */
DPRINTF(UDMASS_BBB, ("%s: bulk-%s stall clear failed"
", %s\n", USBDEVNAME(sc->sc_dev),
(sc->transfer_dir == DIR_IN? "in":"out"),
usbd_errstr(err)));
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
}
/* Status transport phase, setup transfer */
if (sc->transfer_state == TSTATE_BBB_COMMAND ||
sc->transfer_state == TSTATE_BBB_DATA ||
sc->transfer_state == TSTATE_BBB_DCLEAR) {
/* After no data phase, successfull data phase and
* after clearing bulk-in/-out stall condition
*/
sc->transfer_state = TSTATE_BBB_STATUS1;
next_xfer = sc->transfer_xfer[XFER_BBB_CSW1];
} else {
/* After first attempt of fetching CSW */
sc->transfer_state = TSTATE_BBB_STATUS2;
next_xfer = sc->transfer_xfer[XFER_BBB_CSW2];
}
/* Read the Command Status Wrapper via bulk-in endpoint. */
if (umass_setup_transfer(sc, sc->bulkin_pipe,
&sc->csw, UMASS_BBB_CSW_SIZE, 0,
next_xfer)) {
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
}
return;
case TSTATE_BBB_STATUS1: /* first attempt */
case TSTATE_BBB_STATUS2: /* second attempt */
/* Status transfer, error handling */
if (err) {
DPRINTF(UDMASS_BBB, ("%s: Failed to read CSW, %s%s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err),
(sc->transfer_state == TSTATE_BBB_STATUS1?
", retrying":"")));
/* If this was the first attempt at fetching the CSW
* retry it, otherwise fail.
*/
if (sc->transfer_state == TSTATE_BBB_STATUS1) {
umass_clear_endpoint_stall(sc,
sc->bulkin, sc->bulkin_pipe,
TSTATE_BBB_SCLEAR,
sc->transfer_xfer[XFER_BBB_SCLEAR]);
return;
} else {
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
}
}
DIF(UDMASS_BBB, umass_bbb_dump_csw(sc, &sc->csw));
/* Check CSW and handle any error */
if (UGETDW(sc->csw.dCSWSignature) != CSWSIGNATURE) {
/* Invalid CSW: Wrong signature or wrong tag might
* indicate that the device is confused -> reset it.
*/
printf("%s: Invalid CSW: sig 0x%08x should be 0x%08x\n",
USBDEVNAME(sc->sc_dev),
UGETDW(sc->csw.dCSWSignature),
CSWSIGNATURE);
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
} else if (UGETDW(sc->csw.dCSWTag)
!= UGETDW(sc->cbw.dCBWTag)) {
printf("%s: Invalid CSW: tag %d should be %d\n",
USBDEVNAME(sc->sc_dev),
UGETDW(sc->csw.dCSWTag),
UGETDW(sc->cbw.dCBWTag));
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
/* CSW is valid here */
} else if (sc->csw.bCSWStatus > CSWSTATUS_PHASE) {
printf("%s: Invalid CSW: status %d > %d\n",
USBDEVNAME(sc->sc_dev),
sc->csw.bCSWStatus,
CSWSTATUS_PHASE);
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
} else if (sc->csw.bCSWStatus == CSWSTATUS_PHASE) {
printf("%s: Phase Error, residue = %d\n",
USBDEVNAME(sc->sc_dev),
UGETDW(sc->csw.dCSWDataResidue));
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
} else if (sc->transfer_actlen > sc->transfer_datalen) {
/* Buffer overrun! Don't let this go by unnoticed */
panic("%s: transferred %d bytes instead of %d bytes\n",
USBDEVNAME(sc->sc_dev),
sc->transfer_actlen, sc->transfer_datalen);
}
#if 0
else if (sc->transfer_datalen - sc->transfer_actlen
!= UGETDW(sc->csw.dCSWDataResidue)) {
DPRINTF(UDMASS_BBB, ("%s: actlen=%d != residue=%d\n",
USBDEVNAME(sc->sc_dev),
sc->transfer_datalen - sc->transfer_actlen,
UGETDW(sc->csw.dCSWDataResidue)));
umass_bbb_reset(sc, STATUS_WIRE_FAILED);
return;
}
#endif
else if (sc->csw.bCSWStatus == CSWSTATUS_FAILED) {
DPRINTF(UDMASS_BBB, ("%s: Command Failed, res = %d\n",
USBDEVNAME(sc->sc_dev),
UGETDW(sc->csw.dCSWDataResidue)));
/* SCSI command failed but transfer was succesful */
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
UGETDW(sc->csw.dCSWDataResidue),
STATUS_CMD_FAILED);
return;
} else { /* success */
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
UGETDW(sc->csw.dCSWDataResidue),
STATUS_CMD_OK);
return;
}
/***** Bulk Reset *****/
case TSTATE_BBB_RESET1:
if (err)
printf("%s: BBB reset failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
umass_clear_endpoint_stall(sc,
sc->bulkin, sc->bulkin_pipe, TSTATE_BBB_RESET2,
sc->transfer_xfer[XFER_BBB_RESET2]);
return;
case TSTATE_BBB_RESET2:
if (err) /* should not occur */
printf("%s: BBB bulk-in clear stall failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* no error recovery, otherwise we end up in a loop */
umass_clear_endpoint_stall(sc,
sc->bulkout, sc->bulkout_pipe, TSTATE_BBB_RESET3,
sc->transfer_xfer[XFER_BBB_RESET3]);
return;
case TSTATE_BBB_RESET3:
if (err) /* should not occur */
printf("%s: BBB bulk-out clear stall failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* no error recovery, otherwise we end up in a loop */
sc->transfer_state = TSTATE_IDLE;
if (sc->transfer_priv) {
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen,
sc->transfer_status);
}
return;
/***** Default *****/
default:
panic("%s: Unknown state %d\n",
USBDEVNAME(sc->sc_dev), sc->transfer_state);
}
}
/*
* Command/Bulk/Interrupt (CBI) specific functions
*/
Static int
umass_cbi_adsc(struct umass_softc *sc, char *buffer, int buflen,
usbd_xfer_handle xfer)
{
usbd_device_handle dev;
KASSERT(sc->proto & (PROTO_CBI|PROTO_CBI_I),
("sc->proto == 0x%02x wrong for umass_cbi_adsc\n",sc->proto));
usbd_interface2device_handle(sc->iface, &dev);
sc->request.bmRequestType = UT_WRITE_CLASS_INTERFACE;
sc->request.bRequest = UR_CBI_ADSC;
USETW(sc->request.wValue, 0);
USETW(sc->request.wIndex, sc->ifaceno);
USETW(sc->request.wLength, buflen);
return umass_setup_ctrl_transfer(sc, dev, &sc->request, buffer,
buflen, 0, xfer);
}
Static void
umass_cbi_reset(struct umass_softc *sc, int status)
{
int i;
# define SEND_DIAGNOSTIC_CMDLEN 12
KASSERT(sc->proto & (PROTO_CBI|PROTO_CBI_I),
("sc->proto == 0x%02x wrong for umass_cbi_reset\n",sc->proto));
if (sc->sc_dying)
return;
/*
* Command Block Reset Protocol
*
* First send a reset request to the device. Then clear
* any possibly stalled bulk endpoints.
* This is done in 3 steps, states:
* TSTATE_CBI_RESET1
* TSTATE_CBI_RESET2
* TSTATE_CBI_RESET3
*
* If the reset doesn't succeed, the device should be port reset.
*/
DPRINTF(UDMASS_CBI, ("%s: CBI Reset\n",
USBDEVNAME(sc->sc_dev)));
KASSERT(sizeof(sc->cbl) >= SEND_DIAGNOSTIC_CMDLEN,
("%s: CBL struct is too small (%d < %d)\n",
USBDEVNAME(sc->sc_dev),
sizeof(sc->cbl), SEND_DIAGNOSTIC_CMDLEN));
sc->transfer_state = TSTATE_CBI_RESET1;
sc->transfer_status = status;
/* The 0x1d code is the SEND DIAGNOSTIC command. To distingiush between
* the two the last 10 bytes of the cbl is filled with 0xff (section
* 2.2 of the CBI spec).
*/
sc->cbl[0] = 0x1d; /* Command Block Reset */
sc->cbl[1] = 0x04;
for (i = 2; i < SEND_DIAGNOSTIC_CMDLEN; i++)
sc->cbl[i] = 0xff;
umass_cbi_adsc(sc, sc->cbl, SEND_DIAGNOSTIC_CMDLEN,
sc->transfer_xfer[XFER_CBI_RESET1]);
/* XXX if the command fails we should reset the port on the bub */
}
Static void
umass_cbi_transfer(struct umass_softc *sc, int lun,
void *cmd, int cmdlen, void *data, int datalen, int dir,
transfer_cb_f cb, void *priv)
{
DPRINTF(UDMASS_CBI,("%s: umass_cbi_transfer cmd=0x%02x, len=%d\n",
USBDEVNAME(sc->sc_dev), *(u_char*)cmd, datalen));
KASSERT(sc->proto & (PROTO_CBI|PROTO_CBI_I),
("sc->proto == 0x%02x wrong for umass_cbi_transfer\n",
sc->proto));
if (sc->sc_dying)
return;
/*
* Do a CBI transfer with cmdlen bytes from cmd, possibly
* a data phase of datalen bytes from/to the device and finally a
* csw read phase.
* If the data direction was inbound a maximum of datalen bytes
* is stored in the buffer pointed to by data.
*
* umass_cbi_transfer initialises the transfer and lets the state
* machine in umass_cbi_state handle the completion. It uses the
* following states:
* TSTATE_CBI_COMMAND
* -> XXX fill in
*
* An error in any of those states will invoke
* umass_cbi_reset.
*/
/* check the given arguments */
KASSERT(datalen == 0 || data != NULL,
("%s: datalen > 0, but no buffer",USBDEVNAME(sc->sc_dev)));
KASSERT(datalen == 0 || dir != DIR_NONE,
("%s: direction is NONE while datalen is not zero\n",
USBDEVNAME(sc->sc_dev)));
/* store the details for the data transfer phase */
sc->transfer_dir = dir;
sc->transfer_data = data;
sc->transfer_datalen = datalen;
sc->transfer_actlen = 0;
sc->transfer_cb = cb;
sc->transfer_priv = priv;
sc->transfer_status = STATUS_CMD_OK;
/* move from idle to the command state */
sc->transfer_state = TSTATE_CBI_COMMAND;
/* Send the Command Block from host to device via control endpoint. */
if (umass_cbi_adsc(sc, cmd, cmdlen, sc->transfer_xfer[XFER_CBI_CB]))
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
Static void
umass_cbi_state(usbd_xfer_handle xfer, usbd_private_handle priv,
usbd_status err)
{
struct umass_softc *sc = (struct umass_softc *) priv;
KASSERT(sc->proto & (PROTO_CBI|PROTO_CBI_I),
("sc->proto == 0x%02x wrong for umass_cbi_state\n", sc->proto));
if (sc->sc_dying)
return;
/*
* State handling for CBI transfers.
*/
DPRINTF(UDMASS_CBI, ("%s: Handling CBI state %d (%s), xfer=%p, %s\n",
USBDEVNAME(sc->sc_dev), sc->transfer_state,
states[sc->transfer_state], xfer, usbd_errstr(err)));
switch (sc->transfer_state) {
/***** CBI Transfer *****/
case TSTATE_CBI_COMMAND:
if (err == USBD_STALLED) {
DPRINTF(UDMASS_CBI, ("%s: Command Transport failed\n",
USBDEVNAME(sc->sc_dev)));
/* Status transport by control pipe (section 2.3.2.1).
* The command contained in the command block failed.
*
* The control pipe has already been unstalled by the
* USB stack.
* Section 2.4.3.1.1 states that the bulk in endpoints
* should not stalled at this point.
*/
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen,
STATUS_CMD_FAILED);
return;
} else if (err) {
DPRINTF(UDMASS_CBI, ("%s: failed to send ADSC\n",
USBDEVNAME(sc->sc_dev)));
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
return;
}
sc->transfer_state = TSTATE_CBI_DATA;
if (sc->transfer_dir == DIR_IN) {
if (umass_setup_transfer(sc, sc->bulkin_pipe,
sc->transfer_data, sc->transfer_datalen,
USBD_SHORT_XFER_OK | USBD_NO_COPY,
sc->transfer_xfer[XFER_CBI_DATA]))
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
} else if (sc->transfer_dir == DIR_OUT) {
memcpy(sc->data_buffer, sc->transfer_data,
sc->transfer_datalen);
if (umass_setup_transfer(sc, sc->bulkout_pipe,
sc->transfer_data, sc->transfer_datalen,
USBD_NO_COPY,/* fixed length transfer */
sc->transfer_xfer[XFER_CBI_DATA]))
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
} else if (sc->proto & PROTO_CBI_I) {
DPRINTF(UDMASS_CBI, ("%s: no data phase\n",
USBDEVNAME(sc->sc_dev)));
sc->transfer_state = TSTATE_CBI_STATUS;
if (umass_setup_transfer(sc, sc->intrin_pipe,
&sc->sbl, sizeof(sc->sbl),
0, /* fixed length transfer */
sc->transfer_xfer[XFER_CBI_STATUS])){
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
} else {
DPRINTF(UDMASS_CBI, ("%s: no data phase\n",
USBDEVNAME(sc->sc_dev)));
/* No command completion interrupt. Request
* sense data.
*/
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
0, STATUS_CMD_UNKNOWN);
}
return;
case TSTATE_CBI_DATA:
/* retrieve the length of the transfer that was done */
usbd_get_xfer_status(xfer,NULL,NULL,&sc->transfer_actlen,NULL);
DPRINTF(UDMASS_CBI, ("%s: CBI_DATA actlen=%d\n",
USBDEVNAME(sc->sc_dev), sc->transfer_actlen));
if (err) {
DPRINTF(UDMASS_CBI, ("%s: Data-%s %db failed, "
"%s\n", USBDEVNAME(sc->sc_dev),
(sc->transfer_dir == DIR_IN?"in":"out"),
sc->transfer_datalen,usbd_errstr(err)));
if (err == USBD_STALLED) {
umass_clear_endpoint_stall(sc,
sc->bulkin, sc->bulkin_pipe,
TSTATE_CBI_DCLEAR,
sc->transfer_xfer[XFER_CBI_DCLEAR]);
} else {
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
return;
}
if (sc->transfer_dir == DIR_IN)
memcpy(sc->transfer_data, sc->data_buffer,
sc->transfer_actlen);
DIF(UDMASS_CBI, if (sc->transfer_dir == DIR_IN)
umass_dump_buffer(sc, sc->transfer_data,
sc->transfer_actlen, 48));
if (sc->proto & PROTO_CBI_I) {
sc->transfer_state = TSTATE_CBI_STATUS;
memset(&sc->sbl, 0, sizeof(sc->sbl));
if (umass_setup_transfer(sc, sc->intrin_pipe,
&sc->sbl, sizeof(sc->sbl),
0, /* fixed length transfer */
sc->transfer_xfer[XFER_CBI_STATUS])){
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
} else {
/* No command completion interrupt. Request
* sense to get status of command.
*/
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen - sc->transfer_actlen,
STATUS_CMD_UNKNOWN);
}
return;
case TSTATE_CBI_STATUS:
if (err) {
DPRINTF(UDMASS_CBI, ("%s: Status Transport failed\n",
USBDEVNAME(sc->sc_dev)));
/* Status transport by interrupt pipe (section 2.3.2.2).
*/
if (err == USBD_STALLED) {
umass_clear_endpoint_stall(sc,
sc->intrin, sc->intrin_pipe,
TSTATE_CBI_SCLEAR,
sc->transfer_xfer[XFER_CBI_SCLEAR]);
} else {
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
return;
}
/* Dissect the information in the buffer */
if (sc->proto & PROTO_UFI) {
int status;
/* Section 3.4.3.1.3 specifies that the UFI command
* protocol returns an ASC and ASCQ in the interrupt
* data block.
*/
DPRINTF(UDMASS_CBI, ("%s: UFI CCI, ASC = 0x%02x, "
"ASCQ = 0x%02x\n",
USBDEVNAME(sc->sc_dev),
sc->sbl.ufi.asc, sc->sbl.ufi.ascq));
if (sc->sbl.ufi.asc == 0 && sc->sbl.ufi.ascq == 0)
status = STATUS_CMD_OK;
else
status = STATUS_CMD_FAILED;
/* No sense, command successfull */
} else {
/* Command Interrupt Data Block */
DPRINTF(UDMASS_CBI, ("%s: type=0x%02x, value=0x%02x\n",
USBDEVNAME(sc->sc_dev),
sc->sbl.common.type, sc->sbl.common.value));
if (sc->sbl.common.type == IDB_TYPE_CCI) {
int err;
if ((sc->sbl.common.value&IDB_VALUE_STATUS_MASK)
== IDB_VALUE_PASS) {
err = STATUS_CMD_OK;
} else if ((sc->sbl.common.value & IDB_VALUE_STATUS_MASK)
== IDB_VALUE_FAIL ||
(sc->sbl.common.value & IDB_VALUE_STATUS_MASK)
== IDB_VALUE_PERSISTENT) {
err = STATUS_CMD_FAILED;
} else {
err = STATUS_WIRE_FAILED;
}
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen,
err);
}
}
return;
case TSTATE_CBI_DCLEAR:
if (err) { /* should not occur */
printf("%s: CBI bulk-in/out stall clear failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
umass_cbi_reset(sc, STATUS_WIRE_FAILED);
}
sc->transfer_state = TSTATE_IDLE;
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen,
STATUS_CMD_FAILED);
return;
case TSTATE_CBI_SCLEAR:
if (err) /* should not occur */
printf("%s: CBI intr-in stall clear failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* Something really bad is going on. Reset the device */
umass_cbi_reset(sc, STATUS_CMD_FAILED);
return;
/***** CBI Reset *****/
case TSTATE_CBI_RESET1:
if (err)
printf("%s: CBI reset failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
umass_clear_endpoint_stall(sc,
sc->bulkin, sc->bulkin_pipe, TSTATE_CBI_RESET2,
sc->transfer_xfer[XFER_CBI_RESET2]);
return;
case TSTATE_CBI_RESET2:
if (err) /* should not occur */
printf("%s: CBI bulk-in stall clear failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* no error recovery, otherwise we end up in a loop */
umass_clear_endpoint_stall(sc,
sc->bulkout, sc->bulkout_pipe, TSTATE_CBI_RESET3,
sc->transfer_xfer[XFER_CBI_RESET3]);
return;
case TSTATE_CBI_RESET3:
if (err) /* should not occur */
printf("%s: CBI bulk-out stall clear failed, %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* no error recovery, otherwise we end up in a loop */
sc->transfer_state = TSTATE_IDLE;
if (sc->transfer_priv) {
sc->transfer_cb(sc, sc->transfer_priv,
sc->transfer_datalen,
sc->transfer_status);
}
return;
/***** Default *****/
default:
panic("%s: Unknown state %d\n",
USBDEVNAME(sc->sc_dev), sc->transfer_state);
}
}
usbd_status
umass_bbb_get_max_lun(struct umass_softc *sc, u_int8_t *maxlun)
{
usbd_device_handle dev;
usb_device_request_t req;
usbd_status err;
usb_interface_descriptor_t *id;
*maxlun = 0; /* Default to 0. */
DPRINTF(UDMASS_BBB, ("%s: Get Max Lun\n", USBDEVNAME(sc->sc_dev)));
usbd_interface2device_handle(sc->iface, &dev);
id = usbd_get_interface_descriptor(sc->iface);
/* The Get Max Lun command is a class-specific request. */
req.bmRequestType = UT_READ_CLASS_INTERFACE;
req.bRequest = UR_BBB_GET_MAX_LUN;
USETW(req.wValue, 0);
USETW(req.wIndex, id->bInterfaceNumber);
USETW(req.wLength, 1);
err = usbd_do_request(dev, &req, maxlun);
switch (err) {
case USBD_NORMAL_COMPLETION:
DPRINTF(UDMASS_BBB, ("%s: Max Lun %d\n",
USBDEVNAME(sc->sc_dev), *maxlun));
break;
case USBD_STALLED:
/*
* Device doesn't support Get Max Lun request.
*/
err = USBD_NORMAL_COMPLETION;
DPRINTF(UDMASS_BBB, ("%s: Get Max Lun not supported\n",
USBDEVNAME(sc->sc_dev)));
break;
case USBD_SHORT_XFER:
/*
* XXX This must mean Get Max Lun is not supported, too!
*/
err = USBD_NORMAL_COMPLETION;
DPRINTF(UDMASS_BBB, ("%s: Get Max Lun SHORT_XFER\n",
USBDEVNAME(sc->sc_dev)));
break;
default:
printf("%s: Get Max Lun failed: %s\n",
USBDEVNAME(sc->sc_dev), usbd_errstr(err));
/* XXX Should we port_reset the device? */
break;
}
return (err);
}
#if defined(__FreeBSD__)
/*
* CAM specific functions (used by SCSI, UFI, 8070)
*/
Static int
umass_cam_attach_sim()
{
struct cam_devq *devq; /* Per device Queue */
/* A HBA is attached to the CAM layer.
*
* The CAM layer will then after a while start probing for
* devices on the bus. The number of devices is limitted to one.
*/
/* SCSI transparent command set */
devq = cam_simq_alloc(1 /*maximum openings*/);
if (devq == NULL)
return(ENOMEM);
umass_sim = cam_sim_alloc(umass_cam_action, umass_cam_poll, DEVNAME,
NULL /*priv*/, 0 /*unit number*/,
1 /*maximum device openings*/,
0 /*maximum tagged device openings*/,
devq);
if (umass_sim == NULL) {
cam_simq_free(devq);
return(ENOMEM);
}
if(xpt_bus_register(umass_sim, 0) != CAM_SUCCESS)
return(ENOMEM);
if (xpt_create_path(&umass_path, NULL, cam_sim_path(umass_sim),
UMASS_SCSIID_HOST, 0)
!= CAM_REQ_CMP)
return(ENOMEM);
return(0);
}
#ifdef UMASS_DO_CAM_RESCAN
/* this function is only used from umass_cam_rescan, so mention
* prototype down here.
*/
Static void umass_cam_rescan_callback(struct cam_periph *periph,union ccb *ccb);
Static void
umass_cam_rescan_callback(struct cam_periph *periph, union ccb *ccb)
{
#ifdef UMASS_DEBUG
struct umass_softc *sc = devclass_get_softc(umass_devclass,
ccb->ccb_h.target_id);
if (ccb->ccb_h.status != CAM_REQ_CMP) {
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d: Rescan failed, 0x%04x\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccb->ccb_h.status));
} else {
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d: Rescan succeeded, freeing resources.\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
}
#endif
xpt_free_path(ccb->ccb_h.path);
free(ccb, M_USBDEV);
}
Static void
umass_cam_rescan(struct umass_softc *sc)
{
struct cam_path *path;
union ccb *ccb = malloc(sizeof(union ccb), M_USBDEV, M_WAITOK);
memset(ccb, 0, sizeof(union ccb));
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d: scanning bus for new device %d\n",
USBDEVNAME(sc->sc_dev), cam_sim_path(umass_sim),
device_get_unit(sc->sc_dev), 0,
device_get_unit(sc->sc_dev)));
if (xpt_create_path(&path, xpt_periph, cam_sim_path(umass_sim),
device_get_unit(sc->sc_dev), 0)
!= CAM_REQ_CMP)
return;
xpt_setup_ccb(&ccb->ccb_h, path, 5/*priority (low)*/);
ccb->ccb_h.func_code = XPT_SCAN_BUS;
ccb->ccb_h.cbfcnp = umass_cam_rescan_callback;
ccb->crcn.flags = CAM_FLAG_NONE;
xpt_action(ccb);
/* The scan is in progress now. */
}
#endif
Static int
umass_cam_attach(struct umass_softc *sc)
{
/* SIM already attached at module load. The device is a target on the
* one SIM we registered: target device_get_unit(self).
*/
/* The artificial limit UMASS_SCSIID_MAX is there because CAM expects
* a limit to the number of targets that are present on a SIM.
*/
if (device_get_unit(sc->sc_dev) > UMASS_SCSIID_MAX) {
printf("%s: Increase UMASS_SCSIID_MAX (currently %d) in %s "
"and try again.\n", USBDEVNAME(sc->sc_dev),
UMASS_SCSIID_MAX, __FILE__);
return(1);
}
#ifdef UMASS_DO_CAM_RESCAN
if (!cold) {
/* Notify CAM of the new device. Any failure is benign, as the
* user can still do it by hand (camcontrol rescan <busno>).
* Only do this if we are not booting, because CAM does a scan
* after booting has completed, when interrupts have been
* enabled.
*/
umass_cam_rescan(sc);
}
#endif
return(0); /* always succesful */
}
/* umass_cam_detach
* detach from the CAM layer
*/
Static int
umass_cam_detach_sim()
{
if (umass_sim)
return(EBUSY); /* XXX CAM can't handle disappearing SIMs yet */
if (umass_path) {
/* XXX do we need to send an asynchroneous event for the SIM?
xpt_async(AC_LOST_DEVICE, umass_path, NULL);
*/
xpt_free_path(umass_path);
umass_path = NULL;
}
if (umass_sim) {
if (xpt_bus_deregister(cam_sim_path(umass_sim)))
cam_sim_free(umass_sim, /*free_devq*/TRUE);
else
return(EBUSY);
umass_sim = NULL;
}
return(0);
}
Static int
umass_cam_detach(struct umass_softc *sc)
{
struct cam_path *path;
/* detach of sim not done until module unload */
DPRINTF(UDMASS_SCSI, ("%s: losing CAM device entry\n",
USBDEVNAME(sc->sc_dev)));
if (xpt_create_path(&path, NULL, cam_sim_path(umass_sim),
device_get_unit(sc->sc_dev), CAM_LUN_WILDCARD)
!= CAM_REQ_CMP)
return(ENOMEM);
xpt_async(AC_LOST_DEVICE, path, NULL);
xpt_free_path(path);
return(0);
}
/* umass_cam_action
* CAM requests for action come through here
*/
Static void
umass_cam_action(struct cam_sim *sim, union ccb *ccb)
{
struct umass_softc *sc = devclass_get_softc(umass_devclass,
ccb->ccb_h.target_id);
/* The softc is still there, but marked as going away. umass_cam_detach
* has not yet notified CAM of the lost device however.
*/
if (sc && sc->sc_dying) {
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:func_code 0x%04x: "
"Invalid target (gone)\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccb->ccb_h.func_code));
ccb->ccb_h.status = CAM_TID_INVALID;
xpt_done(ccb);
return;
}
/* Verify, depending on the operation to perform, that we either got a
* valid sc, because an existing target was referenced, or otherwise
* the SIM is addressed.
*
* This avoids bombing out at a printf and does give the CAM layer some
* sensible feedback on errors.
*/
switch (ccb->ccb_h.func_code) {
case XPT_SCSI_IO:
case XPT_RESET_DEV:
case XPT_GET_TRAN_SETTINGS:
case XPT_SET_TRAN_SETTINGS:
case XPT_CALC_GEOMETRY:
/* the opcodes requiring a target. These should never occur. */
if (sc == NULL) {
printf("%s:%d:%d:%d:func_code 0x%04x: "
"Invalid target\n",
DEVNAME_SIM, UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccb->ccb_h.func_code);
ccb->ccb_h.status = CAM_TID_INVALID;
xpt_done(ccb);
return;
}
break;
case XPT_PATH_INQ:
case XPT_NOOP:
/* The opcodes sometimes aimed at a target (sc is valid),
* sometimes aimed at the SIM (sc is invalid and target is
* CAM_TARGET_WILDCARD)
*/
if (sc == NULL && ccb->ccb_h.target_id != CAM_TARGET_WILDCARD) {
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:func_code 0x%04x: "
"Invalid target\n",
DEVNAME_SIM, UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccb->ccb_h.func_code));
ccb->ccb_h.status = CAM_TID_INVALID;
xpt_done(ccb);
return;
}
break;
default:
/* XXX Hm, we should check the input parameters */
}
/* Perform the requested action */
switch (ccb->ccb_h.func_code) {
case XPT_SCSI_IO:
{
struct ccb_scsiio *csio = &ccb->csio; /* deref union */
int dir;
unsigned char *cmd;
int cmdlen;
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_SCSI_IO: "
"cmd: 0x%02x, flags: 0x%02x, "
"%db cmd/%db data/%db sense\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
csio->cdb_io.cdb_bytes[0],
ccb->ccb_h.flags & CAM_DIR_MASK,
csio->cdb_len, csio->dxfer_len,
csio->sense_len));
/* clear the end of the buffer to make sure we don't send out
* garbage.
*/
DIF(UDMASS_SCSI, if ((ccb->ccb_h.flags & CAM_DIR_MASK)
== CAM_DIR_OUT)
umass_dump_buffer(sc, csio->data_ptr,
csio->dxfer_len, 48));
if (sc->transfer_state != TSTATE_IDLE) {
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_SCSI_IO: "
"I/O requested while busy (state %d, %s)\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
sc->transfer_state,states[sc->transfer_state]));
ccb->ccb_h.status = CAM_SCSI_BUSY;
xpt_done(ccb);
return;
}
switch(ccb->ccb_h.flags&CAM_DIR_MASK) {
case CAM_DIR_IN:
dir = DIR_IN;
break;
case CAM_DIR_OUT:
dir = DIR_OUT;
break;
default:
dir = DIR_NONE;
}
ccb->ccb_h.status = CAM_REQ_INPROG | CAM_SIM_QUEUED;
if (sc->transform(sc, csio->cdb_io.cdb_bytes, csio->cdb_len,
&cmd, &cmdlen)) {
sc->transfer(sc, ccb->ccb_h.target_lun, cmd, cmdlen,
csio->data_ptr,
csio->dxfer_len, dir,
umass_cam_cb, (void *) ccb);
} else {
ccb->ccb_h.status = CAM_REQ_INVALID;
xpt_done(ccb);
}
break;
}
case XPT_PATH_INQ:
{
struct ccb_pathinq *cpi = &ccb->cpi;
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_PATH_INQ:.\n",
(sc == NULL? DEVNAME_SIM:USBDEVNAME(sc->sc_dev)),
UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
/* host specific information */
cpi->version_num = 1;
cpi->hba_inquiry = 0;
cpi->target_sprt = 0;
cpi->hba_misc = 0;
cpi->hba_eng_cnt = 0;
cpi->max_target = UMASS_SCSIID_MAX; /* one target */
cpi->max_lun = 0; /* no LUN's supported */
cpi->initiator_id = UMASS_SCSIID_HOST;
strncpy(cpi->sim_vid, "FreeBSD", SIM_IDLEN);
strncpy(cpi->hba_vid, "USB SCSI", HBA_IDLEN);
strncpy(cpi->dev_name, cam_sim_name(sim), DEV_IDLEN);
cpi->unit_number = cam_sim_unit(sim);
cpi->bus_id = UMASS_SCSI_BUS;
if (sc) {
cpi->base_transfer_speed = sc->transfer_speed;
cpi->max_lun = sc->maxlun;
}
cpi->ccb_h.status = CAM_REQ_CMP;
xpt_done(ccb);
break;
}
case XPT_RESET_DEV:
{
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_RESET_DEV:.\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
ccb->ccb_h.status = CAM_REQ_INPROG;
umass_reset(sc, umass_cam_cb, (void *) ccb);
break;
}
case XPT_GET_TRAN_SETTINGS:
{
struct ccb_trans_settings *cts = &ccb->cts;
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_GET_TRAN_SETTINGS:.\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
cts->valid = 0;
cts->flags = 0; /* no disconnection, tagging */
ccb->ccb_h.status = CAM_REQ_CMP;
xpt_done(ccb);
break;
}
case XPT_SET_TRAN_SETTINGS:
{
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_SET_TRAN_SETTINGS:.\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
ccb->ccb_h.status = CAM_FUNC_NOTAVAIL;
xpt_done(ccb);
break;
}
case XPT_CALC_GEOMETRY:
{
struct ccb_calc_geometry *ccg = &ccb->ccg;
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_CALC_GEOMETRY: "
"Volume size = %d\n",
USBDEVNAME(sc->sc_dev), UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccg->volume_size));
/* XXX We should probably ask the drive for the details
* instead of cluching them up ourselves
*/
if (sc->drive == ZIP_100) {
ccg->heads = 64;
ccg->secs_per_track = 32;
ccg->cylinders = ccg->volume_size / ccg->heads
/ ccg->secs_per_track;
ccb->ccb_h.status = CAM_REQ_CMP;
break;
} else if (sc->proto & PROTO_UFI) {
ccg->heads = 2;
if (ccg->volume_size == 2880)
ccg->secs_per_track = 18;
else
ccg->secs_per_track = 9;
ccg->cylinders = 80;
break;
} else {
ccb->ccb_h.status = CAM_REQ_CMP_ERR;
}
xpt_done(ccb);
break;
}
case XPT_NOOP:
{
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:XPT_NOOP:.\n",
(sc == NULL? DEVNAME_SIM:USBDEVNAME(sc->sc_dev)),
UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun));
ccb->ccb_h.status = CAM_REQ_CMP;
xpt_done(ccb);
break;
}
default:
DPRINTF(UDMASS_SCSI, ("%s:%d:%d:%d:func_code 0x%04x: "
"Not implemented\n",
(sc == NULL? DEVNAME_SIM:USBDEVNAME(sc->sc_dev)),
UMASS_SCSI_BUS,
ccb->ccb_h.target_id, ccb->ccb_h.target_lun,
ccb->ccb_h.func_code));
ccb->ccb_h.status = CAM_FUNC_NOTAVAIL;
xpt_done(ccb);
break;
}
}
/* umass_cam_poll
* all requests are handled through umass_cam_action, requests
* are never pending. So, nothing to do here.
*/
Static void
umass_cam_poll(struct cam_sim *sim)
{
#ifdef UMASS_DEBUG
struct umass_softc *sc = (struct umass_softc *) sim->softc;
DPRINTF(UDMASS_SCSI, ("%s: CAM poll\n",
USBDEVNAME(sc->sc_dev)));
#endif
/* nop */
}
/* umass_cam_cb
* finalise a completed CAM command
*/
Static void
umass_cam_cb(struct umass_softc *sc, void *priv, int residue, int status)
{
union ccb *ccb = (union ccb *) priv;
struct ccb_scsiio *csio = &ccb->csio; /* deref union */
csio->resid = residue;
switch (status) {
case STATUS_CMD_OK:
ccb->ccb_h.status = CAM_REQ_CMP;
xpt_done(ccb);
break;
case STATUS_CMD_UNKNOWN:
case STATUS_CMD_FAILED:
switch (ccb->ccb_h.func_code) {
case XPT_SCSI_IO:
{
unsigned char *cmd;
int cmdlen;
/* fetch sense data */
DPRINTF(UDMASS_SCSI,("%s: Fetching %db sense data\n",
USBDEVNAME(sc->sc_dev),
sc->cam_scsi_sense.length));
sc->cam_scsi_sense.length = csio->sense_len;
if (sc->transform(sc, (char *) &sc->cam_scsi_sense,
sizeof(sc->cam_scsi_sense),
&cmd, &cmdlen)) {
sc->transfer(sc, ccb->ccb_h.target_lun,
cmd, cmdlen,
&csio->sense_data,
csio->sense_len, DIR_IN,
umass_cam_sense_cb, (void *) ccb);
} else {
#ifdef UMASS_DEBUG
panic("transform(REQUEST_SENSE) failed\n");
#else
csio->resid = sc->transfer_datalen;
ccb->ccb_h.status = CAM_REQ_CMP_ERR;
xpt_done(ccb);
#endif
}
break;
}
case XPT_RESET_DEV: /* Reset failed */
ccb->ccb_h.status = CAM_REQ_CMP_ERR;
xpt_done(ccb);
break;
default:
panic("umass_cam_cb called for func_code %d\n",
ccb->ccb_h.func_code);
}
break;
case STATUS_WIRE_FAILED:
/* the wire protocol failed and will have recovered
* (hopefully). We return an error to CAM and let CAM retry
* the command if necessary.
*/
ccb->ccb_h.status = CAM_REQ_CMP_ERR;
xpt_done(ccb);
break;
default:
panic("%s: Unknown status %d in umass_cam_cb\n",
USBDEVNAME(sc->sc_dev), status);
}
}
/* Finalise a completed autosense operation
*/
Static void
umass_cam_sense_cb(struct umass_softc *sc, void *priv, int residue, int status)
{
union ccb *ccb = (union ccb *) priv;
struct ccb_scsiio *csio = &ccb->csio; /* deref union */
switch (status) {
case STATUS_CMD_OK:
case STATUS_CMD_UNKNOWN:
/* Getting sense data succeeded. The length of the sense data
* is not returned in any way. The sense data itself contains
* the length of the sense data that is valid.
*/
if (sc->quirks & RS_NO_CLEAR_UA
&& csio->cdb_io.cdb_bytes[0] == INQUIRY
&& (csio->sense_data.flags & SSD_KEY)
== SSD_KEY_UNIT_ATTENTION) {
/* Ignore unit attention errors in the case where
* the Unit Attention state is not cleared on
* REQUEST SENSE. They will appear again at the next
* command.
*/
ccb->ccb_h.status = CAM_REQ_CMP;
} else if ((csio->sense_data.flags & SSD_KEY)
== SSD_KEY_NO_SENSE) {
/* No problem after all (in the case of CBI without
* CCI)
*/
ccb->ccb_h.status = CAM_REQ_CMP;
} else {
ccb->ccb_h.status = CAM_SCSI_STATUS_ERROR
| CAM_AUTOSNS_VALID;
csio->scsi_status = SCSI_STATUS_CHECK_COND;
}
xpt_done(ccb);
break;
default:
DPRINTF(UDMASS_SCSI, ("%s: Autosense failed, status %d\n",
USBDEVNAME(sc->sc_dev), status));
ccb->ccb_h.status = CAM_AUTOSENSE_FAIL;
xpt_done(ccb);
}
}
Static int
umass_driver_load(module_t mod, int what, void *arg)
{
int err;
switch (what) {
case MOD_UNLOAD:
err = umass_cam_detach_sim();
if (err)
return(err);
return(usbd_driver_load(mod, what, arg));
case MOD_LOAD:
/* We don't attach to CAM at this point, because it will try
* and malloc memory for it. This is not possible when the
* boot loader loads umass as a module before the kernel
* has been bootstrapped.
*/
default:
return(usbd_driver_load(mod, what, arg));
}
}
/* (even the comment is missing) */
DRIVER_MODULE(umass, uhub, umass_driver, umass_devclass, umass_driver_load, 0);
/*
* SCSI specific functions
*/
Static int
umass_scsi_transform(struct umass_softc *sc, unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen)
{
*rcmd = cmd; /* trivial copy */
*rcmdlen = cmdlen;
switch (cmd[0]) {
case TEST_UNIT_READY:
if (sc->quirks & NO_TEST_UNIT_READY) {
DPRINTF(UDMASS_SCSI, ("%s: Converted TEST_UNIT_READY "
"to START_UNIT\n", USBDEVNAME(sc->sc_dev)));
cmd[0] = START_STOP_UNIT;
cmd[4] = SSS_START;
}
break;
}
return 1; /* success */
}
/*
* UFI specific functions
*/
Static int
umass_ufi_transform(struct umass_softc *sc, unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen)
{
*rcmd = cmd;
/* A UFI command is always 12 bytes in length */
/* XXX cmd[(cmdlen+1)..12] contains garbage */
*rcmdlen = 12;
switch (cmd[0]) {
case TEST_UNIT_READY:
if (sc->quirks & NO_TEST_UNIT_READY) {
DPRINTF(UDMASS_UFI, ("%s: Converted TEST_UNIT_READY "
"to START_UNIT\n", USBDEVNAME(sc->sc_dev)));
cmd[0] = START_STOP_UNIT;
cmd[4] = SSS_START;
}
return 1;
case INQUIRY:
case START_STOP_UNIT:
case MODE_SENSE:
case PREVENT_ALLOW:
case READ_10:
case READ_12:
case READ_CAPACITY:
case REQUEST_SENSE:
case REZERO_UNIT:
case POSITION_TO_ELEMENT: /* SEEK_10 */
case SEND_DIAGNOSTIC:
case WRITE_10:
case WRITE_12:
/* FORMAT_UNIT */
/* MODE_SELECT */
/* READ_FORMAT_CAPACITY */
/* VERIFY */
/* WRITE_AND_VERIFY */
return 1; /* success */
default:
return 0; /* success */
}
}
/*
* 8070 specific functions
*/
Static int
umass_8070_transform(struct umass_softc *sc, unsigned char *cmd, int cmdlen,
unsigned char **rcmd, int *rcmdlen)
{
return 0; /* failure */
}
#endif /* __FreeBSD__ */
#ifdef UMASS_DEBUG
Static void
umass_bbb_dump_cbw(struct umass_softc *sc, umass_bbb_cbw_t *cbw)
{
int clen = cbw->bCDBLength;
int dlen = UGETDW(cbw->dCBWDataTransferLength);
u_int8_t *c = cbw->CBWCDB;
int tag = UGETDW(cbw->dCBWTag);
int flags = cbw->bCBWFlags;
DPRINTF(UDMASS_BBB, ("%s: CBW %d: cmd = %db "
"(0x%02x%02x%02x%02x%02x%02x%s), "
"data = %d bytes, dir = %s\n",
USBDEVNAME(sc->sc_dev), tag, clen,
c[0], c[1], c[2], c[3], c[4], c[5], (clen > 6? "...":""),
dlen, (flags == CBWFLAGS_IN? "in":
(flags == CBWFLAGS_OUT? "out":"<invalid>"))));
}
Static void
umass_bbb_dump_csw(struct umass_softc *sc, umass_bbb_csw_t *csw)
{
int sig = UGETDW(csw->dCSWSignature);
int tag = UGETW(csw->dCSWTag);
int res = UGETDW(csw->dCSWDataResidue);
int status = csw->bCSWStatus;
DPRINTF(UDMASS_BBB, ("%s: CSW %d: sig = 0x%08x (%s), tag = %d, "
"res = %d, status = 0x%02x (%s)\n", USBDEVNAME(sc->sc_dev),
tag, sig, (sig == CSWSIGNATURE? "valid":"invalid"),
tag, res,
status, (status == CSWSTATUS_GOOD? "good":
(status == CSWSTATUS_FAILED? "failed":
(status == CSWSTATUS_PHASE? "phase":"<invalid>")))));
}
Static void
umass_dump_buffer(struct umass_softc *sc, u_int8_t *buffer, int buflen,
int printlen)
{
int i, j;
char s1[40];
char s2[40];
char s3[5];
s1[0] = '\0';
s3[0] = '\0';
sprintf(s2, " buffer=%p, buflen=%d", buffer, buflen);
for (i = 0; i < buflen && i < printlen; i++) {
j = i % 16;
if (j == 0 && i != 0) {
DPRINTF(UDMASS_GEN, ("%s: 0x %s%s\n",
USBDEVNAME(sc->sc_dev), s1, s2));
s2[0] = '\0';
}
sprintf(&s1[j*2], "%02x", buffer[i] & 0xff);
}
if (buflen > printlen)
sprintf(s3, " ...");
DPRINTF(UDMASS_GEN, ("%s: 0x %s%s%s\n",
USBDEVNAME(sc->sc_dev), s1, s2, s3));
}
#endif
#if defined(__NetBSD__) || defined(__OpenBSD__)
Static int
umass_scsipi_cmd(xs)
struct scsipi_xfer *xs;
{
struct scsipi_link *sc_link = xs->sc_link;
struct umass_softc *sc = sc_link->adapter_softc;
struct scsipi_generic *cmd, trcmd;
int cmdlen;
int dir;
#ifdef UMASS_DEBUG
microtime(&sc->tv);
#endif
memset(&trcmd, 0, sizeof(trcmd));
#if defined(__NetBSD__)
DIF(UDMASS_UPPER, sc_link->flags |= DEBUGLEVEL);
#endif
#if defined(__OpenBSD__)
DIF(UDMASS_UPPER, sc_link->flags |= SCSIDEBUG_LEVEL);
#endif
#if defined(__NetBSD__) || defined(__OpenBSD__)
DPRINTF(UDMASS_CMD, ("%s: umass_scsi_cmd: %d:%d xs=%p cmd=0x%02x "
"(quirks=0x%x, poll=%d)\n", USBDEVNAME(sc->sc_dev),
SCSI_LINK_TARGET(sc_link), SCSI_LINK_LUN(sc_link),
xs, xs->cmd->opcode, sc_link->quirks,
xs->xs_control & XS_CTL_POLL));
#endif
#if defined(USB_DEBUG) && defined(SCSIDEBUG)
if (umassdebug & UDMASS_SCSI)
show_scsipi_xs(xs);
else if (umassdebug & ~UDMASS_CMD)
show_scsipi_cmd(xs);
#endif
if (sc->sc_dying) {
xs->error = XS_DRIVER_STUFFUP;
goto done;
}
#ifdef UMASS_DEBUG
#if defined(__NetBSD__)
if ((sc_link->type == BUS_ATAPI ?
sc_link->scsipi_atapi.drive : SCSI_LINK_TARGET(sc_link))
!= UMASS_SCSIID_DEVICE) {
DPRINTF(UDMASS_SCSI, ("%s: wrong SCSI ID %d\n",
USBDEVNAME(sc->sc_dev),
SCSI_LINK_TARGET(sc_link)));
xs->error = XS_DRIVER_STUFFUP;
goto done;
}
#endif
#if defined(__OpenBSD__)
if (sc_link->target != UMASS_SCSIID_DEVICE) {
DPRINTF(UDMASS_SCSI, ("%s: wrong SCSI ID %d\n",
USBDEVNAME(sc->sc_dev),
sc_link->target));
xs->error = XS_DRIVER_STUFFUP;
goto done;
}
#endif
#endif
cmd = xs->cmd;
if (xs->cmd->opcode == SCSI_MODE_SENSE &&
(sc_link->quirks & SDEV_NOMODESENSE)) {
/*printf("%s: SCSI_MODE_SENSE\n", USBDEVNAME(sc->sc_dev));*/
xs->error = XS_TIMEOUT;
goto done;
}
if (xs->cmd->opcode == START_STOP &&
(sc->quirks & NO_START_STOP)) {
/*printf("%s: START_STOP\n", USBDEVNAME(sc->sc_dev));*/
xs->error = XS_NOERROR;
goto done;
}
if (xs->cmd->opcode == INQUIRY &&
(sc->quirks & FORCE_SHORT_INQUIRY)) {
memcpy(&trcmd, cmd, sizeof trcmd);
trcmd.bytes[4] = SHORT_INQUIRY_LENGTH;
cmd = &trcmd;
}
dir = DIR_NONE;
if (xs->datalen) {
switch (xs->xs_control & (XS_CTL_DATA_IN | XS_CTL_DATA_OUT)) {
case XS_CTL_DATA_IN:
dir = DIR_IN;
break;
case XS_CTL_DATA_OUT:
dir = DIR_OUT;
break;
}
}
if (xs->datalen > UMASS_MAX_TRANSFER_SIZE) {
printf("umass_cmd: large datalen, %d\n", xs->datalen);
xs->error = XS_DRIVER_STUFFUP;
goto done;
}
cmdlen = xs->cmdlen;
if (sc->proto & PROTO_UFI) {
if (!umass_ufi_transform(sc, cmd, cmdlen, &trcmd, &cmdlen)) {
xs->error = XS_DRIVER_STUFFUP;
goto done;
}
cmd= &trcmd;
}
if (sc->proto & PROTO_ATAPI) {
bcopy(cmd, &trcmd, cmdlen);
cmd = &trcmd;
cmdlen = ATAPI_COMMAND_LENGTH;
}
if (xs->xs_control & XS_CTL_POLL) {
/* Use sync transfer. XXX Broken! */
DPRINTF(UDMASS_SCSI, ("umass_scsi_cmd: sync dir=%d\n", dir));
sc->sc_xfer_flags = USBD_SYNCHRONOUS;
sc->sc_sync_status = USBD_INVAL;
sc->transfer(sc, SCSI_LINK_LUN(sc_link), cmd, cmdlen,
xs->data, xs->datalen, dir, 0, xs);
sc->sc_xfer_flags = 0;
DPRINTF(UDMASS_SCSI, ("umass_scsi_cmd: done err=%d\n",
sc->sc_sync_status));
switch (sc->sc_sync_status) {
case USBD_NORMAL_COMPLETION:
xs->error = XS_NOERROR;
break;
case USBD_TIMEOUT:
xs->error = XS_TIMEOUT;
break;
default:
xs->error = XS_DRIVER_STUFFUP;
break;
}
goto done;
} else {
DPRINTF(UDMASS_SCSI, ("umass_scsi_cmd: async dir=%d, cmdlen=%d"
" datalen=%d\n",
dir, cmdlen, xs->datalen));
sc->transfer(sc, SCSI_LINK_LUN(sc_link), cmd, cmdlen,
xs->data, xs->datalen, dir, umass_scsipi_cb, xs);
return (SUCCESSFULLY_QUEUED);
}
/* Return if command finishes early. */
done:
#if defined(__NetBSD__)
xs->xs_status |= XS_STS_DONE;
#endif
#if defined(__OpenBSD__)
xs->flags |= ITSDONE;
#endif
scsipi_done(xs);
if (xs->xs_control & XS_CTL_POLL)
return (COMPLETE);
else
return (SUCCESSFULLY_QUEUED);
}
Static void
umass_scsipi_minphys(bp)
struct buf *bp;
{
if (bp->b_bcount > UMASS_MAX_TRANSFER_SIZE)
bp->b_bcount = UMASS_MAX_TRANSFER_SIZE;
minphys(bp);
}
int
umass_scsipi_ioctl(link, cmd, arg, flag, p)
struct scsipi_link *link;
u_long cmd;
caddr_t arg;
int flag;
struct proc *p;
{
/*struct umass_softc *sc = link->adapter_softc;*/
switch (cmd) {
#if 0
case SCBUSIORESET:
ccb->ccb_h.status = CAM_REQ_INPROG;
umass_reset(sc, umass_cam_cb, (void *) ccb);
return (0);
#endif
default:
return (ENOTTY);
}
}
Static void
umass_scsipi_cb(struct umass_softc *sc, void *priv, int residue, int status)
{
struct scsipi_xfer *xs = priv;
struct scsipi_link *sc_link = xs->sc_link;
int cmdlen;
int s;
#ifdef UMASS_DEBUG
struct timeval tv;
u_int delta;
microtime(&tv);
delta = (tv.tv_sec - sc->tv.tv_sec) * 1000000 + tv.tv_usec - sc->tv.tv_usec;
#endif
DPRINTF(UDMASS_CMD,("umass_scsipi_cb: at %lu.%06lu, delta=%u: xs=%p residue=%d"
" status=%d\n", tv.tv_sec, tv.tv_usec, delta, xs, residue, status));
xs->resid = residue;
switch (status) {
case STATUS_CMD_OK:
xs->error = XS_NOERROR;
break;
case STATUS_CMD_UNKNOWN:
case STATUS_CMD_FAILED:
/* fetch sense data */
memset(&sc->sc_sense_cmd, 0, sizeof(sc->sc_sense_cmd));
sc->sc_sense_cmd.opcode = REQUEST_SENSE;
sc->sc_sense_cmd.byte2 = SCSI_LINK_LUN(sc_link) <<
SCSI_CMD_LUN_SHIFT;
sc->sc_sense_cmd.length = sizeof(xs->sense);
cmdlen = sizeof(sc->sc_sense_cmd);
if (sc->proto & PROTO_UFI)
cmdlen = UFI_COMMAND_LENGTH;
else if (sc->proto & PROTO_ATAPI)
cmdlen = ATAPI_COMMAND_LENGTH;
sc->transfer(sc, SCSI_LINK_LUN(sc_link),
&sc->sc_sense_cmd, cmdlen,
&xs->sense, sizeof(xs->sense), DIR_IN,
umass_scsipi_sense_cb, xs);
return;
case STATUS_WIRE_FAILED:
xs->error = XS_RESET;
break;
default:
panic("%s: Unknown status %d in umass_scsipi_cb\n",
USBDEVNAME(sc->sc_dev), status);
}
#if defined(__NetBSD__)
xs->xs_status |= XS_STS_DONE;
#endif
#if defined(__OpenBSD__)
xs->flags |= ITSDONE;
#endif
DPRINTF(UDMASS_CMD,("umass_scsipi_cb: at %lu.%06lu: return xs->error="
"%d, xs->xs_status=0x%x xs->resid=%d\n",
tv.tv_sec, tv.tv_usec,
xs->error, xs->xs_status, xs->resid));
s = splbio();
scsipi_done(xs);
splx(s);
}
/*
* Finalise a completed autosense operation
*/
Static void
umass_scsipi_sense_cb(struct umass_softc *sc, void *priv, int residue,
int status)
{
struct scsipi_xfer *xs = priv;
int s;
int bytes_received;
DPRINTF(UDMASS_CMD,("umass_scsipi_sense_cb: xs=%p residue=%d "
"status=%d\n", xs, residue, status));
switch (status) {
case STATUS_CMD_OK:
case STATUS_CMD_UNKNOWN:
/* getting sense data succeeded */
if ((xs->cmd->opcode == INQUIRY)
&& (xs->resid < xs->datalen)) {
/* Some drivers return SENSE errors even after INQUIRY
* The upper layer doesn't like that.
*/
xs->error = XS_NOERROR;
break;
}
bytes_received = sizeof(xs->sense) - residue;
if (bytes_received < 8 ||
(bytes_received < xs->sense.extra_len + 8))
xs->error = XS_SHORTSENSE;
else
xs->error = XS_SENSE;
#if defined(__OpenBSD__)
/* Note that this test may need to be revised
with QIC-157a/SCSI tape drives that return
ILI, EOM in the high bits of flags.
*/
if ((xs->sense.error_code & SSD_ERRCODE) == 0x70 &&
(xs->sense.flags == 0))
xs->error = XS_NOERROR;
#endif
break;
default:
DPRINTF(UDMASS_SCSI, ("%s: Autosense failed, status %d\n",
USBDEVNAME(sc->sc_dev), status));
xs->error = XS_DRIVER_STUFFUP;
break;
}
#if defined(__NetBSD__)
xs->xs_status |= XS_STS_DONE;
#endif
#if defined(__OpenBSD__)
xs->flags |= ITSDONE;
#endif
DPRINTF(UDMASS_CMD,("umass_scsipi_sense_cb: return xs->error=%d, "
"xs->xs_status=0x%x xs->resid=%d\n", xs->error, xs->xs_status,
xs->resid));
s = splbio();
scsipi_done(xs);
splx(s);
}
/*
* UFI specific functions
*/
Static int
umass_ufi_transform(struct umass_softc *sc, struct scsipi_generic *cmd,
int cmdlen, struct scsipi_generic *rcmd, int *rcmdlen)
{
*rcmdlen = UFI_COMMAND_LENGTH;
memset(rcmd, 0, sizeof *rcmd);
/* Handle any quirks */
if (cmd->opcode == TEST_UNIT_READY
&& (sc->quirks & NO_TEST_UNIT_READY)) {
/*
* Some devices do not support this command.
* Start Stop Unit should give the same results
*/
DPRINTF(UDMASS_UFI, ("%s: Converted TEST_UNIT_READY "
"to START_UNIT\n", USBDEVNAME(sc->sc_dev)));
rcmd->opcode = START_STOP;
rcmd->bytes[3] = SSS_START;
return 1;
}
switch (cmd->opcode) {
/* Commands of which the format has been verified. They should work. */
case TEST_UNIT_READY:
case SCSI_REZERO_UNIT:
case REQUEST_SENSE:
case INQUIRY:
case START_STOP:
/*case SEND_DIAGNOSTIC: ??*/
case PREVENT_ALLOW:
case READ_CAPACITY:
case READ_BIG:
case WRITE_BIG:
case POSITION_TO_ELEMENT: /* SEEK_10 */
case SCSI_MODE_SELECT_BIG:
case SCSI_MODE_SENSE_BIG:
default:
/* Copy the command into the (zeroed out) destination buffer */
memcpy(rcmd, cmd, cmdlen);
return (1); /* success */
/*
* Other UFI commands: FORMAT_UNIT, MODE_SELECT, READ_FORMAT_CAPACITY,
* VERIFY, WRITE_AND_VERIFY.
* These should be checked whether they somehow can be made to fit.
*/
/* These commands are known _not_ to work. They should be converted. */
case SCSI_READ_COMMAND:
case SCSI_WRITE_COMMAND:
case SCSI_MODE_SENSE:
case SCSI_MODE_SELECT:
printf("%s: Unsupported UFI command 0x%02x",
USBDEVNAME(sc->sc_dev), cmd->opcode);
if (cmdlen == 6)
printf(", 6 byte command should have been converted");
printf("\n");
return (0); /* failure */
}
}
#if NATAPIBUS > 0
Static void
umass_atapi_probedev(atapi, target)
struct atapibus_softc *atapi;
int target;
{
struct scsipi_link *sc_link;
struct scsipibus_attach_args sa;
struct ata_drive_datas *drvp = &atapi->sc_drvs[target];
char vendor[33], product[65], revision[17];
struct scsipi_inquiry_data inqbuf;
DPRINTF(UDMASS_SCSI,("umass_atapi_probedev: atapi=%p target=%d\n",
atapi, target));
if (atapi->sc_link[target])
return;
sc_link = malloc(sizeof(*sc_link), M_DEVBUF, M_NOWAIT);
if (sc_link == NULL) {
printf("%s: can't allocate link for drive %d\n",
atapi->sc_dev.dv_xname, target);
return;
}
*sc_link = *atapi->adapter_link;
DIF(UDMASS_UPPER, sc_link->flags |= DEBUGLEVEL);
/* Fill generic parts of the link. */
sc_link->active = 0;
sc_link->scsipi_atapi.drive = target;
sc_link->device = &umass_dev;
TAILQ_INIT(&sc_link->pending_xfers);
DPRINTF(UDMASS_SCSI, ("umass_atapi_probedev: doing inquiry\n"));
/* Now go ask the device all about itself. */
memset(&inqbuf, 0, sizeof(inqbuf));
if (scsipi_inquire(sc_link, &inqbuf, XS_CTL_DISCOVERY) != 0)
goto bad;
scsipi_strvis(vendor, 33, inqbuf.vendor, 8);
scsipi_strvis(product, 65, inqbuf.product, 16);
scsipi_strvis(revision, 17, inqbuf.revision, 4);
sa.sa_sc_link = sc_link;
sa.sa_inqbuf.type = inqbuf.device;
sa.sa_inqbuf.removable = inqbuf.dev_qual2 & SID_REMOVABLE ?
T_REMOV : T_FIXED;
if (sa.sa_inqbuf.removable)
sc_link->flags |= SDEV_REMOVABLE;
/* XXX how? sc_link->scsipi_atapi.cap |= ACAP_LEN;*/
sa.sa_inqbuf.vendor = vendor;
sa.sa_inqbuf.product = product;
sa.sa_inqbuf.revision = revision;
sa.sa_inqptr = NULL;
drvp->drv_softc = atapi_probedev(atapi, target, sc_link, &sa);
/* atapi_probedev() frees the scsipi_link when there is no device. */
return;
bad:
free(sc_link, M_DEVBUF);
return;
}
#endif
#endif
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