/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * scsa2usb bridge nexus driver: * * This driver supports the following wire transports: * a. Bulk Only transport (see usb_ms_bulkonly.c) * b. CB transport (see usb_ms_cbi.c) * c. CBI transport with interrupt status completion (see usb_ms_cbi.c) * * It handles the following command sets: * a. SCSI * b. ATAPI command set (subset of SCSI command set) * c. UFI command set ( * http://www.usb.org/developers/devclass_docs/usbmass-ufi10.pdf) * * For details on USB Mass Storage Class overview: * http://www.usb.org/developers/devclass_docs/usbmassover_11.pdf */ #if defined(lint) && !defined(DEBUG) #define DEBUG 1 #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * Function Prototypes */ static int scsa2usb_attach(dev_info_t *, ddi_attach_cmd_t); static int scsa2usb_info(dev_info_t *, ddi_info_cmd_t, void *, void **); static int scsa2usb_detach(dev_info_t *, ddi_detach_cmd_t); static int scsa2usb_cleanup(dev_info_t *, scsa2usb_state_t *); static void scsa2usb_validate_attrs(scsa2usb_state_t *); static void scsa2usb_create_luns(scsa2usb_state_t *); static int scsa2usb_is_usb(dev_info_t *); static int scsa2usb_fake_inquiry(scsa2usb_state_t *, scsa2usb_cmd_t *, uint_t); static void scsa2usb_do_inquiry(scsa2usb_state_t *, uint_t, uint_t); static int scsa2usb_do_tur(scsa2usb_state_t *, struct scsi_address *); /* override property handling */ static void scsa2usb_override(scsa2usb_state_t *); static int scsa2usb_parse_input_str(char *, scsa2usb_ov_t *, scsa2usb_state_t *); static void scsa2usb_override_error(char *, scsa2usb_state_t *); static char *scsa2usb_strtok_r(char *, char *, char **); /* PANIC callback handling */ static void scsa2usb_panic_callb_init(scsa2usb_state_t *); static void scsa2usb_panic_callb_fini(scsa2usb_state_t *); static boolean_t scsa2usb_panic_callb(void *, int); /* SCSA support */ static int scsa2usb_scsi_tgt_probe(struct scsi_device *, int (*)(void)); static int scsa2usb_scsi_tgt_init(dev_info_t *, dev_info_t *, scsi_hba_tran_t *, struct scsi_device *); static void scsa2usb_scsi_tgt_free(dev_info_t *, dev_info_t *, scsi_hba_tran_t *, struct scsi_device *); static struct scsi_pkt *scsa2usb_scsi_init_pkt(struct scsi_address *, struct scsi_pkt *, struct buf *, int, int, int, int, int (*)(), caddr_t); static void scsa2usb_scsi_destroy_pkt(struct scsi_address *, struct scsi_pkt *); static int scsa2usb_scsi_start(struct scsi_address *, struct scsi_pkt *); static int scsa2usb_scsi_abort(struct scsi_address *, struct scsi_pkt *); static int scsa2usb_scsi_reset(struct scsi_address *, int); static int scsa2usb_scsi_getcap(struct scsi_address *, char *, int); static int scsa2usb_scsi_setcap(struct scsi_address *, char *, int, int); static int scsa2usb_scsi_bus_config(dev_info_t *, uint_t, ddi_bus_config_op_t, void *, dev_info_t **); static int scsa2usb_scsi_bus_unconfig(dev_info_t *, uint_t, ddi_bus_config_op_t, void *); /* functions for command and transport support */ static void scsa2usb_prepare_pkt(scsa2usb_state_t *, struct scsi_pkt *); static int scsa2usb_cmd_transport(scsa2usb_state_t *, scsa2usb_cmd_t *); static int scsa2usb_check_bulkonly_blacklist_attrs(scsa2usb_state_t *, scsa2usb_cmd_t *, uchar_t); static int scsa2usb_check_ufi_blacklist_attrs(scsa2usb_state_t *, uchar_t, scsa2usb_cmd_t *); static int scsa2usb_handle_scsi_cmd_sub_class(scsa2usb_state_t *, scsa2usb_cmd_t *, struct scsi_pkt *); static int scsa2usb_handle_ufi_subclass_cmd(scsa2usb_state_t *, scsa2usb_cmd_t *, struct scsi_pkt *); /* waitQ handling */ static void scsa2usb_work_thread(void *); static void scsa2usb_transport_request(scsa2usb_state_t *, uint_t); static void scsa2usb_flush_waitQ(scsa2usb_state_t *, uint_t, uchar_t); static int scsa2usb_all_waitQs_empty(scsa2usb_state_t *); /* auto request sense handling */ static int scsa2usb_create_arq_pkt(scsa2usb_state_t *, struct scsi_address *); static void scsa2usb_delete_arq_pkt(scsa2usb_state_t *); static void scsa2usb_complete_arq_pkt(scsa2usb_state_t *, struct scsi_pkt *, scsa2usb_cmd_t *, struct buf *); /* utility functions for any transport */ static int scsa2usb_open_usb_pipes(scsa2usb_state_t *); void scsa2usb_close_usb_pipes(scsa2usb_state_t *); static void scsa2usb_fill_up_cdb_len(scsa2usb_cmd_t *, int); static void scsa2usb_fill_up_cdb_lba(scsa2usb_cmd_t *, int); static void scsa2usb_fill_up_ReadCD_cdb_len(scsa2usb_cmd_t *, int, int); static void scsa2usb_fill_up_12byte_cdb_len(scsa2usb_cmd_t *, int, int); static int scsa2usb_read_cd_blk_size(uchar_t); int scsa2usb_rw_transport(scsa2usb_state_t *, struct scsi_pkt *); void scsa2usb_setup_next_xfer(scsa2usb_state_t *, scsa2usb_cmd_t *); static mblk_t *scsa2usb_bp_to_mblk(scsa2usb_state_t *); int scsa2usb_handle_data_start(scsa2usb_state_t *, scsa2usb_cmd_t *, usb_bulk_req_t *); void scsa2usb_handle_data_done(scsa2usb_state_t *, scsa2usb_cmd_t *cmd, usb_bulk_req_t *); usb_bulk_req_t *scsa2usb_init_bulk_req(scsa2usb_state_t *, size_t, uint_t, usb_req_attrs_t, usb_flags_t); int scsa2usb_bulk_timeout(int); int scsa2usb_clear_ept_stall(scsa2usb_state_t *, uint_t, usb_pipe_handle_t, char *); static void scsa2usb_pkt_completion(scsa2usb_state_t *, struct scsi_pkt *); /* event handling */ static int scsa2usb_reconnect_event_cb(dev_info_t *); static int scsa2usb_disconnect_event_cb(dev_info_t *); static int scsa2usb_cpr_suspend(dev_info_t *); static void scsa2usb_cpr_resume(dev_info_t *); static void scsa2usb_restore_device_state(dev_info_t *, scsa2usb_state_t *); /* PM handling */ static void scsa2usb_create_pm_components(dev_info_t *, scsa2usb_state_t *); static void scsa2usb_raise_power(scsa2usb_state_t *); static int scsa2usb_pwrlvl0(scsa2usb_state_t *); static int scsa2usb_pwrlvl1(scsa2usb_state_t *); static int scsa2usb_pwrlvl2(scsa2usb_state_t *); static int scsa2usb_pwrlvl3(scsa2usb_state_t *); static int scsa2usb_power(dev_info_t *, int comp, int level); static void scsa2usb_pm_busy_component(scsa2usb_state_t *); static void scsa2usb_pm_idle_component(scsa2usb_state_t *); /* external functions for Bulk only (BO) support */ extern int scsa2usb_bulk_only_transport(scsa2usb_state_t *, scsa2usb_cmd_t *); extern int scsa2usb_bulk_only_get_max_lun(scsa2usb_state_t *); /* external functions for CB/CBI support */ extern int scsa2usb_cbi_transport(scsa2usb_state_t *, scsa2usb_cmd_t *); extern void scsa2usb_cbi_stop_intr_polling(scsa2usb_state_t *); /* cmd decoding */ static char *scsa2usb_cmds[] = { "\000tur", "\001rezero", "\003rqsense", "\004format", "\014cartprot", "\022inquiry", "\026tranlba", "\030fmtverify", "\032modesense", "\033start", "\035snddiag", "\036doorlock", "\043formatcap", "\045readcap", "\050read10", "\052write10", "\053seek10", "\056writeverify", "\057verify", "\065synchcache", "\076readlong", "\077writelong", "\102readsubchan", "\103readtoc", "\104readhdr", "\105playaudio10", "\107playaudio_msf", "\110playaudio_ti", "\111playtrk_r10", "\112geteventnotify", "\113pause_resume", "\116stop/play_scan", "\121readdiscinfo", "\122readtrkinfo", "\123reservedtrk", "\124sendopcinfo", "\125modeselect", "\132modesense", "\133closetrksession", "\135sendcuesheet", "\136prin", "\137prout", "\241blankcd", "\245playaudio12", "\250read12", "\251playtrk12", "\252write12", "\254getperf", "\271readcdmsf", "\273setcdspeed", "\275mechanism_sts", "\276readcd", NULL }; /* * Mass-Storage devices masquerade as "sd" disks. * * These devices may not support all SCSI CDBs in their * entirety due to their hardware implementation limitations. * * As such, following is a list of some of the black-listed * devices w/ the attributes that they do not support. * (See scsa2usb.h for description on each attribute) */ #define X ((uint16_t)(-1)) static struct blacklist { uint16_t idVendor; /* vendor ID */ uint16_t idProduct; /* product ID */ uint16_t bcdDevice; /* device release number in bcd */ uint16_t attributes; /* attributes to blacklist */ } scsa2usb_blacklist[] = { /* Iomega Zip100 drive (prototype) with flaky bridge */ {MS_IOMEGA_VID, MS_IOMEGA_PID1_ZIP100, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_PM}, /* Iomega Zip100 drive (newer model) with flaky bridge */ {MS_IOMEGA_VID, MS_IOMEGA_PID2_ZIP100, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_PM}, /* Iomega Zip100 drive (newer model) with flaky bridge */ {MS_IOMEGA_VID, MS_IOMEGA_PID3_ZIP100, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_PM}, /* Iomega Zip250 drive */ {MS_IOMEGA_VID, MS_IOMEGA_PID_ZIP250, 0, SCSA2USB_ATTRS_GET_LUN}, /* Iomega Clik! drive */ {MS_IOMEGA_VID, MS_IOMEGA_PID_CLIK, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_START_STOP}, /* SMSC floppy Device - and its clones */ {MS_SMSC_VID, X, 0, SCSA2USB_ATTRS_START_STOP}, /* Hagiwara SmartMedia Device */ {MS_HAGIWARA_SYS_COM_VID, MS_HAGIWARA_SYSCOM_PID1, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_START_STOP}, /* Hagiwara CompactFlash Device */ {MS_HAGIWARA_SYS_COM_VID, MS_HAGIWARA_SYSCOM_PID2, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_START_STOP}, /* Hagiwara SmartMedia/CompactFlash Combo Device */ {MS_HAGIWARA_SYS_COM_VID, MS_HAGIWARA_SYSCOM_PID3, 0, SCSA2USB_ATTRS_START_STOP}, /* Hagiwara new SM Device */ {MS_HAGIWARA_SYS_COM_VID, MS_HAGIWARA_SYSCOM_PID4, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_START_STOP}, /* Hagiwara new CF Device */ {MS_HAGIWARA_SYS_COM_VID, MS_HAGIWARA_SYSCOM_PID5, 0, SCSA2USB_ATTRS_GET_LUN | SCSA2USB_ATTRS_START_STOP}, /* Mitsumi CD-RW Device(s) */ {MS_MITSUMI_VID, X, X, SCSA2USB_ATTRS_BIG_TIMEOUT | SCSA2USB_ATTRS_GET_CONF | SCSA2USB_ATTRS_GET_PERF}, /* Neodio Technologies Corporation SM/CF/MS/SD Combo Device */ {MS_NEODIO_VID, MS_NEODIO_DEVICE_3050, 0, SCSA2USB_ATTRS_MODE_SENSE }, /* dumb flash devices */ {MS_SONY_FLASH_VID, MS_SONY_FLASH_PID, 0, SCSA2USB_ATTRS_REDUCED_CMD}, {MS_TREK_FLASH_VID, MS_TREK_FLASH_PID, 0, SCSA2USB_ATTRS_REDUCED_CMD}, {MS_PENN_FLASH_VID, MS_PENN_FLASH_PID, 0, SCSA2USB_ATTRS_REDUCED_CMD}, /* SimpleTech UCF-100 CF Device */ {MS_SIMPLETECH_VID, MS_SIMPLETECH_PID1, 0, SCSA2USB_ATTRS_REDUCED_CMD}, {MS_ADDONICS_CARD_READER_VID, MS_ADDONICS_CARD_READER_PID, 0, SCSA2USB_ATTRS_REDUCED_CMD}, /* Acomdata 80GB USB/1394 Hard Disk */ {MS_ACOMDATA_VID, MS_ACOMDATA_PID1, 0, SCSA2USB_ATTRS_USE_CSW_RESIDUE}, /* OTi6828 Flash Disk */ {MS_OTI_VID, MS_OTI_DEVICE_6828, 0, SCSA2USB_ATTRS_USE_CSW_RESIDUE}, /* AMI Virtual Floppy */ {MS_AMI_VID, MS_AMI_VIRTUAL_FLOPPY, 0, SCSA2USB_ATTRS_NO_MEDIA_CHECK}, }; #define N_SCSA2USB_BLACKLIST (sizeof (scsa2usb_blacklist))/ \ sizeof (struct blacklist) /* * Attribute values can be overridden by values * contained in the scsa2usb.conf file. * These arrays define possible user input values. */ struct scsa2usb_subclass_protocol_override { char *name; int value; }; static struct scsa2usb_subclass_protocol_override scsa2usb_protocol[] = { {"CB", SCSA2USB_CB_PROTOCOL}, {"CBI", SCSA2USB_CBI_PROTOCOL}, {"BO", SCSA2USB_BULK_ONLY_PROTOCOL} }; static struct scsa2usb_subclass_protocol_override scsa2usb_subclass[] = { {"SCSI", SCSA2USB_SCSI_CMDSET}, {"ATAPI", SCSA2USB_ATAPI_CMDSET}, {"UFI", SCSA2USB_UFI_CMDSET} }; #define N_SCSA2USB_SUBC_OVERRIDE (sizeof (scsa2usb_subclass))/ \ sizeof (struct scsa2usb_subclass_protocol_override) #define N_SCSA2USB_PROT_OVERRIDE (sizeof (scsa2usb_protocol))/ \ sizeof (struct scsa2usb_subclass_protocol_override) /* global variables */ static void *scsa2usb_statep; /* for soft state */ static boolean_t scsa2usb_sync_message = B_TRUE; /* for syncing */ /* for debug messages */ uint_t scsa2usb_errmask = (uint_t)DPRINT_MASK_ALL; uint_t scsa2usb_errlevel = USB_LOG_L4; uint_t scsa2usb_instance_debug = (uint_t)-1; uint_t scsa2usb_scsi_bus_config_debug = 0; uint_t scsa2usb_long_timeout = 50 * SCSA2USB_BULK_PIPE_TIMEOUT; /* * Some devices have problems with big bulk transfers, * transfers >= 128kbytes hang the device. This tunable allows to * limit the maximum bulk transfers rate. */ uint_t scsa2usb_max_bulk_xfer_size = SCSA2USB_MAX_BULK_XFER_SIZE; #ifdef SCSA2USB_BULK_ONLY_TEST /* * Test BO 13 cases. (See USB Mass Storage Class - Bulk Only Transport). * We are not covering test cases 1, 6, and 12 as these are the "good" * test cases and are tested as part of the normal drive access operations. * * NOTE: This is for testing only. It will be replaced by a uscsi test. * Some are listed here while; other test cases are moved to usb_bulkonly.c */ static int scsa2usb_test_case_5 = 0; int scsa2usb_test_case_8 = 0; int scsa2usb_test_case_10 = 0; static int scsa2usb_test_case_11 = 0; static void scsa2usb_test_mblk(scsa2usb_state_t *, boolean_t); #endif /* SCSA2USB_BULK_ONLY_TEST */ static int scsa2usb_ugen_open(dev_t *, int, int, cred_t *); static int scsa2usb_ugen_close(dev_t, int, int, cred_t *); static int scsa2usb_ugen_strategy(struct buf *); static int scsa2usb_ugen_read(dev_t, struct uio *, cred_t *); static int scsa2usb_ugen_write(dev_t, struct uio *, cred_t *); static int scsa2usb_ugen_poll(dev_t, short, int, short *, struct pollhead **); /* scsa2usb cb_ops */ static struct cb_ops scsa2usb_cbops = { scsa2usb_ugen_open, /* open */ scsa2usb_ugen_close, /* close */ nodev, /* strategy */ nodev, /* print */ nodev, /* dump */ scsa2usb_ugen_read, /* read */ scsa2usb_ugen_write, /* write */ NULL, /* ioctl */ nodev, /* devmap */ nodev, /* mmap */ nodev, /* segmap */ scsa2usb_ugen_poll, /* poll */ ddi_prop_op, /* prop_op */ NULL, /* stream */ D_MP, /* cb_flag */ CB_REV, /* rev */ nodev, /* int (*cb_aread)() */ nodev /* int (*cb_awrite)() */ }; /* modloading support */ static struct dev_ops scsa2usb_ops = { DEVO_REV, /* devo_rev, */ 0, /* refcnt */ scsa2usb_info, /* info */ nulldev, /* identify */ nulldev, /* probe */ scsa2usb_attach, /* attach */ scsa2usb_detach, /* detach */ nodev, /* reset */ &scsa2usb_cbops, /* driver operations */ NULL, /* bus operations */ scsa2usb_power /* power */ }; static struct modldrv modldrv = { &mod_driverops, /* Module type. This one is a driver */ "SCSA to USB Driver %I%", /* Name of the module. */ &scsa2usb_ops, /* driver ops */ }; static struct modlinkage modlinkage = { MODREV_1, (void *)&modldrv, NULL }; /* event support */ static usb_event_t scsa2usb_events = { scsa2usb_disconnect_event_cb, scsa2usb_reconnect_event_cb, NULL, NULL }; int _init(void) { int rval; if (((rval = ddi_soft_state_init(&scsa2usb_statep, sizeof (scsa2usb_state_t), SCSA2USB_INITIAL_ALLOC)) != 0)) { return (rval); } if ((rval = scsi_hba_init(&modlinkage)) != 0) { ddi_soft_state_fini(&scsa2usb_statep); return (rval); } if ((rval = mod_install(&modlinkage)) != 0) { scsi_hba_fini(&modlinkage); ddi_soft_state_fini(&scsa2usb_statep); return (rval); } return (rval); } int _fini(void) { int rval; if ((rval = mod_remove(&modlinkage)) == 0) { scsi_hba_fini(&modlinkage); ddi_soft_state_fini(&scsa2usb_statep); } return (rval); } int _info(struct modinfo *modinfop) { return (mod_info(&modlinkage, modinfop)); } /* * scsa2usb_info : * Get minor number, soft state structure etc. */ /*ARGSUSED*/ static int scsa2usb_info(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) { scsa2usb_state_t *scsa2usbp = NULL; int error = DDI_FAILURE; int instance = SCSA2USB_MINOR_TO_INSTANCE(getminor((dev_t)arg)); switch (infocmd) { case DDI_INFO_DEVT2DEVINFO: if (((scsa2usbp = ddi_get_soft_state(scsa2usb_statep, instance)) != NULL) && scsa2usbp->scsa2usb_dip) { *result = scsa2usbp->scsa2usb_dip; error = DDI_SUCCESS; } else { *result = NULL; } break; case DDI_INFO_DEVT2INSTANCE: *result = (void *)(uintptr_t)instance; error = DDI_SUCCESS; break; default: break; } return (error); } /* * scsa2usb_attach: * Attach driver * Allocate a "scsi_hba_tran" - call scsi_hba_tran_alloc() * Invoke scsi_hba_attach_setup * Get the serialno of the device * Open bulk pipes * Create disk child(ren) * Register events * Create and register panic callback * * NOTE: Replaced CBW_DIR_OUT with USB_EP_DIR_OUT and CBW_DIR_IN with * USB_EP_DIR_IN as they are the same #defines. */ static int scsa2usb_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { int instance = ddi_get_instance(dip); int interface; uint_t lun; boolean_t ept_check = B_TRUE; scsi_hba_tran_t *tran; /* scsi transport */ scsa2usb_state_t *scsa2usbp; usb_log_handle_t log_handle; usb_ep_data_t *ep_data; usb_client_dev_data_t *dev_data; usb_alt_if_data_t *altif_data; usb_ugen_info_t usb_ugen_info; USB_DPRINTF_L4(DPRINT_MASK_SCSA, NULL, "scsa2usb_attach: dip = 0x%p", dip); switch (cmd) { case DDI_ATTACH: break; case DDI_RESUME: scsa2usb_cpr_resume(dip); return (DDI_SUCCESS); default: USB_DPRINTF_L2(DPRINT_MASK_SCSA, NULL, "scsa2usb_attach: failed"); return (DDI_FAILURE); } /* Allocate softc information */ if (ddi_soft_state_zalloc(scsa2usb_statep, instance) != DDI_SUCCESS) { ddi_prop_remove_all(dip); return (DDI_FAILURE); } /* get soft state space and initialize */ if ((scsa2usbp = ddi_get_soft_state(scsa2usb_statep, instance)) == NULL) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, NULL, "scsa2usb%d: bad soft state", instance); ddi_prop_remove_all(dip); return (DDI_FAILURE); } scsa2usbp->scsa2usb_dip = dip; scsa2usbp->scsa2usb_instance = instance; /* allocate a log handle for debug/error messages */ scsa2usbp->scsa2usb_log_handle = log_handle = usb_alloc_log_hdl(dip, "s2u", &scsa2usb_errlevel, &scsa2usb_errmask, &scsa2usb_instance_debug, 0); /* attach to USBA */ if (usb_client_attach(dip, USBDRV_VERSION, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "usb_client_attach failed"); goto fail; } if (usb_get_dev_data(dip, &dev_data, USB_PARSE_LVL_IF, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "usb_get_dev_data failed"); goto fail; } /* initialize the mutex with the right cookie */ mutex_init(&scsa2usbp->scsa2usb_mutex, NULL, MUTEX_DRIVER, dev_data->dev_iblock_cookie); cv_init(&scsa2usbp->scsa2usb_transport_busy_cv, NULL, CV_DRIVER, NULL); for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { usba_init_list(&scsa2usbp->scsa2usb_waitQ[lun], NULL, dev_data->dev_iblock_cookie); } mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_dip = dip; scsa2usbp->scsa2usb_instance = instance; scsa2usbp->scsa2usb_attrs = SCSA2USB_ALL_ATTRS; scsa2usbp->scsa2usb_dev_data = dev_data; /* save the default pipe handle */ scsa2usbp->scsa2usb_default_pipe = dev_data->dev_default_ph; /* basic inits are done */ scsa2usbp->scsa2usb_flags |= SCSA2USB_FLAGS_LOCKS_INIT; USB_DPRINTF_L4(DPRINT_MASK_SCSA, log_handle, "curr_cfg=%d, curr_if=%d", dev_data->dev_curr_cfg - &dev_data->dev_cfg[0], dev_data->dev_curr_if); interface = dev_data->dev_curr_if; scsa2usbp->scsa2usb_intfc_num = dev_data->dev_curr_if; /* now find out relevant descriptors for alternate 0 */ altif_data = &dev_data->dev_curr_cfg->cfg_if[interface].if_alt[0]; if (altif_data->altif_n_ep == 0) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "invalid alt 0 for interface %d", interface); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } /* All CB/CBI, BO devices should have this value set */ if (altif_data->altif_descr.bInterfaceClass != USB_CLASS_MASS_STORAGE) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "invalid interface class (0x%x)", altif_data->altif_descr.bInterfaceClass); } scsa2usbp->scsa2usb_intfc_descr = altif_data->altif_descr; /* figure out the endpoints and copy the descr */ if ((ep_data = usb_lookup_ep_data(dip, dev_data, interface, 0, 0, USB_EP_ATTR_BULK, USB_EP_DIR_OUT)) != NULL) { scsa2usbp->scsa2usb_bulkout_ept = ep_data->ep_descr; } if ((ep_data = usb_lookup_ep_data(dip, dev_data, interface, 0, 0, USB_EP_ATTR_BULK, USB_EP_DIR_IN)) != NULL) { scsa2usbp->scsa2usb_bulkin_ept = ep_data->ep_descr; } if ((ep_data = usb_lookup_ep_data(dip, dev_data, interface, 0, 0, USB_EP_ATTR_INTR, USB_EP_DIR_IN)) != NULL) { scsa2usbp->scsa2usb_intr_ept = ep_data->ep_descr; } /* * check here for protocol and subclass supported by this driver * * first check if conf file has override values * Note: override values are not used if supplied values are legal */ scsa2usb_override(scsa2usbp); USB_DPRINTF_L3(DPRINT_MASK_SCSA, log_handle, "protocol=0x%x override=0x%x subclass=0x%x override=0x%x", scsa2usbp->scsa2usb_intfc_descr.bInterfaceProtocol, scsa2usbp->scsa2usb_protocol_override, scsa2usbp->scsa2usb_intfc_descr.bInterfaceSubClass, scsa2usbp->scsa2usb_subclass_override); switch (scsa2usbp->scsa2usb_intfc_descr.bInterfaceProtocol) { case USB_PROTO_MS_CBI: scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_CB_PROTOCOL; break; case USB_PROTO_MS_CBI_WC: scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_CBI_PROTOCOL; break; case USB_PROTO_MS_ISD_1999_SILICN: case USB_PROTO_MS_BULK_ONLY: scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_BULK_ONLY_PROTOCOL; break; default: if (scsa2usbp->scsa2usb_protocol_override) { scsa2usbp->scsa2usb_cmd_protocol |= scsa2usbp->scsa2usb_protocol_override; USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "overriding protocol %x", scsa2usbp->scsa2usb_intfc_descr.bInterfaceProtocol); break; } USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "unsupported protocol = %x", scsa2usbp->scsa2usb_intfc_descr.bInterfaceProtocol); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } switch (scsa2usbp->scsa2usb_intfc_descr.bInterfaceSubClass) { case USB_SUBCLS_MS_SCSI: /* transparent SCSI */ scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_SCSI_CMDSET; break; case USB_SUBCLS_MS_SFF8020I: case USB_SUBCLS_MS_SFF8070I: scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_ATAPI_CMDSET; break; case USB_SUBCLS_MS_UFI: /* UFI */ scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_UFI_CMDSET; break; default: if (scsa2usbp->scsa2usb_subclass_override) { scsa2usbp->scsa2usb_cmd_protocol |= scsa2usbp->scsa2usb_subclass_override; USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "overriding subclass %x", scsa2usbp->scsa2usb_intfc_descr.bInterfaceSubClass); break; } USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "unsupported subclass = %x", scsa2usbp->scsa2usb_intfc_descr.bInterfaceSubClass); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } /* check that we have the right set of endpoint descriptors */ if (SCSA2USB_IS_BULK_ONLY(scsa2usbp) || SCSA2USB_IS_CB(scsa2usbp)) { if ((scsa2usbp->scsa2usb_bulkout_ept.bLength == 0) || (scsa2usbp->scsa2usb_bulkin_ept.bLength == 0)) { ept_check = B_FALSE; } } else if (SCSA2USB_IS_CBI(scsa2usbp)) { if ((scsa2usbp->scsa2usb_bulkout_ept.bLength == 0) || (scsa2usbp->scsa2usb_bulkin_ept.bLength == 0) || (scsa2usbp->scsa2usb_intr_ept.bLength == 0)) { ept_check = B_FALSE; } } if (ept_check == B_FALSE) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "scsa2usb%d doesn't support minimum required endpoints", instance); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } /* * Validate the black-listed attributes */ scsa2usb_validate_attrs(scsa2usbp); /* Print the serial number from the registration data */ if (scsa2usbp->scsa2usb_dev_data->dev_serial) { USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "Serial Number = %s", scsa2usbp->scsa2usb_dev_data->dev_serial); } /* * Allocate a SCSA transport structure */ tran = scsi_hba_tran_alloc(dip, SCSI_HBA_CANSLEEP); scsa2usbp->scsa2usb_tran = tran; /* * initialize transport structure */ tran->tran_hba_private = scsa2usbp; tran->tran_tgt_private = NULL; tran->tran_tgt_init = scsa2usb_scsi_tgt_init; tran->tran_tgt_probe = scsa2usb_scsi_tgt_probe; tran->tran_tgt_free = scsa2usb_scsi_tgt_free; tran->tran_start = scsa2usb_scsi_start; tran->tran_abort = scsa2usb_scsi_abort; tran->tran_reset = scsa2usb_scsi_reset; tran->tran_getcap = scsa2usb_scsi_getcap; tran->tran_setcap = scsa2usb_scsi_setcap; tran->tran_init_pkt = scsa2usb_scsi_init_pkt; tran->tran_destroy_pkt = scsa2usb_scsi_destroy_pkt; tran->tran_dmafree = NULL; tran->tran_sync_pkt = NULL; tran->tran_reset_notify = NULL; tran->tran_get_bus_addr = NULL; tran->tran_get_name = NULL; tran->tran_quiesce = NULL; tran->tran_unquiesce = NULL; tran->tran_bus_reset = NULL; tran->tran_add_eventcall = NULL; tran->tran_get_eventcookie = NULL; tran->tran_post_event = NULL; tran->tran_remove_eventcall = NULL; tran->tran_bus_config = scsa2usb_scsi_bus_config; tran->tran_bus_unconfig = scsa2usb_scsi_bus_unconfig; /* * register with SCSA as an HBA * Note that the dma attributes are from parent nexus */ if (scsi_hba_attach_setup(dip, usba_get_hc_dma_attr(dip), tran, 0)) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "scsi_hba_attach_setup failed"); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } scsa2usbp->scsa2usb_flags |= SCSA2USB_FLAGS_HBA_ATTACH_SETUP; /* create minor node */ if (ddi_create_minor_node(dip, "scsa2usb", S_IFCHR, instance << SCSA2USB_MINOR_INSTANCE_SHIFT, DDI_NT_SCSI_NEXUS, 0) != DDI_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsi_attach: ddi_create_minor_node failed"); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } /* open pipes and set scsa2usb_flags */ if (scsa2usb_open_usb_pipes(scsa2usbp) == USB_FAILURE) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "error opening pipes"); mutex_exit(&scsa2usbp->scsa2usb_mutex); goto fail; } /* set default block size. updated after read cap cmd */ for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { scsa2usbp->scsa2usb_lbasize[lun] = DEV_BSIZE; } mutex_exit(&scsa2usbp->scsa2usb_mutex); /* initialize PANIC callback */ scsa2usb_panic_callb_init(scsa2usbp); /* finally we are all done 'initializing' the device */ mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_dev_state = USB_DEV_ONLINE; /* enable PM, mutex needs to be held across this */ scsa2usb_create_pm_components(dip, scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); /* register for connect/disconnect events */ if (usb_register_event_cbs(scsa2usbp->scsa2usb_dip, &scsa2usb_events, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, log_handle, "error cb registering"); goto fail; } /* free the dev_data tree, we no longer need it */ usb_free_descr_tree(dip, dev_data); scsa2usb_pm_idle_component(scsa2usbp); /* log the conf file override string if there is one */ if (scsa2usbp->scsa2usb_override_str) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb.conf override: %s", scsa2usbp->scsa2usb_override_str); } if (usb_owns_device(dip)) { /* get a ugen handle */ bzero(&usb_ugen_info, sizeof (usb_ugen_info)); usb_ugen_info.usb_ugen_flags = 0; usb_ugen_info.usb_ugen_minor_node_ugen_bits_mask = (dev_t)SCSA2USB_MINOR_UGEN_BITS_MASK; usb_ugen_info.usb_ugen_minor_node_instance_mask = (dev_t)~SCSA2USB_MINOR_UGEN_BITS_MASK; scsa2usbp->scsa2usb_ugen_hdl = usb_ugen_get_hdl(dip, &usb_ugen_info); if (usb_ugen_attach(scsa2usbp->scsa2usb_ugen_hdl, cmd) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "usb_ugen_attach failed"); usb_ugen_release_hdl(scsa2usbp->scsa2usb_ugen_hdl); scsa2usbp->scsa2usb_ugen_hdl = NULL; } } /* report device */ ddi_report_dev(dip); return (DDI_SUCCESS); fail: if (scsa2usbp) { (void) scsa2usb_cleanup(dip, scsa2usbp); } return (DDI_FAILURE); } /* * scsa2usb_detach: * detach or suspend driver instance */ static int scsa2usb_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { scsi_hba_tran_t *tran; scsa2usb_state_t *scsa2usbp; int rval; tran = ddi_get_driver_private(dip); ASSERT(tran != NULL); scsa2usbp = (scsa2usb_state_t *)tran->tran_hba_private; ASSERT(scsa2usbp); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_detach: dip = 0x%p, cmd = %d", dip, cmd); switch (cmd) { case DDI_DETACH: if (scsa2usb_cleanup(dip, scsa2usbp) != USB_SUCCESS) { return (DDI_FAILURE); } return (DDI_SUCCESS); case DDI_SUSPEND: rval = scsa2usb_cpr_suspend(dip); return ((rval == USB_SUCCESS) ? DDI_SUCCESS : DDI_FAILURE); default: return (DDI_FAILURE); } } /* * ugen support */ /* * scsa2usb_ugen_open() * (all ugen opens and pipe opens are by definition exclusive so it is OK * to count opens) */ static int scsa2usb_ugen_open(dev_t *devp, int flag, int sflag, cred_t *cr) { scsa2usb_state_t *scsa2usbp; int rval; if ((scsa2usbp = ddi_get_soft_state(scsa2usb_statep, SCSA2USB_MINOR_TO_INSTANCE(getminor(*devp)))) == NULL) { /* deferred detach */ return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_ugen_open: dev_t=0x%lx", *devp); mutex_enter(&scsa2usbp->scsa2usb_mutex); /* if this is the first ugen open, check on transport busy */ if (scsa2usbp->scsa2usb_ugen_open_count == 0) { while (scsa2usbp->scsa2usb_transport_busy || (scsa2usb_all_waitQs_empty(scsa2usbp) != USB_SUCCESS)) { rval = cv_wait_sig( &scsa2usbp->scsa2usb_transport_busy_cv, &scsa2usbp->scsa2usb_mutex); if (rval == 0) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (EINTR); } } scsa2usbp->scsa2usb_transport_busy++; scsa2usbp->scsa2usb_busy_thread = curthread; } scsa2usbp->scsa2usb_ugen_open_count++; scsa2usb_raise_power(scsa2usbp); scsa2usb_close_usb_pipes(scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); rval = usb_ugen_open(scsa2usbp->scsa2usb_ugen_hdl, devp, flag, sflag, cr); if (rval) { mutex_enter(&scsa2usbp->scsa2usb_mutex); /* reopen the pipes */ if (--scsa2usbp->scsa2usb_ugen_open_count == 0) { scsa2usbp->scsa2usb_transport_busy--; scsa2usbp->scsa2usb_busy_thread = NULL; cv_signal(&scsa2usbp->scsa2usb_transport_busy_cv); } mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_pm_idle_component(scsa2usbp); } return (rval); } /* * scsa2usb_ugen_close() */ static int scsa2usb_ugen_close(dev_t dev, int flag, int otype, cred_t *cr) { int rval; scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, SCSA2USB_MINOR_TO_INSTANCE(getminor(dev))); if (scsa2usbp == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_ugen_close: dev_t=0x%lx", dev); rval = usb_ugen_close(scsa2usbp->scsa2usb_ugen_hdl, dev, flag, otype, cr); if (rval == 0) { mutex_enter(&scsa2usbp->scsa2usb_mutex); /* reopen the pipes */ if (--scsa2usbp->scsa2usb_ugen_open_count == 0) { scsa2usbp->scsa2usb_transport_busy--; scsa2usbp->scsa2usb_busy_thread = NULL; cv_signal(&scsa2usbp->scsa2usb_transport_busy_cv); } mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_pm_idle_component(scsa2usbp); } return (rval); } /* * scsa2usb_ugen_read/write() */ /*ARGSUSED*/ static int scsa2usb_ugen_read(dev_t dev, struct uio *uiop, cred_t *credp) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, SCSA2USB_MINOR_TO_INSTANCE(getminor(dev))); if (scsa2usbp == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_ugen_read: dev_t=0x%lx", dev); return (usb_ugen_read(scsa2usbp->scsa2usb_ugen_hdl, dev, uiop, credp)); } /*ARGSUSED*/ static int scsa2usb_ugen_write(dev_t dev, struct uio *uiop, cred_t *credp) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, SCSA2USB_MINOR_TO_INSTANCE(getminor(dev))); if (scsa2usbp == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_ugen_write: dev_t=0x%lx", dev); return (usb_ugen_write(scsa2usbp->scsa2usb_ugen_hdl, dev, uiop, credp)); } /* * scsa2usb_ugen_poll */ static int scsa2usb_ugen_poll(dev_t dev, short events, int anyyet, short *reventsp, struct pollhead **phpp) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, SCSA2USB_MINOR_TO_INSTANCE(getminor(dev))); if (scsa2usbp == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_ugen_poll: dev_t=0x%lx", dev); return (usb_ugen_poll(scsa2usbp->scsa2usb_ugen_hdl, dev, events, anyyet, reventsp, phpp)); } /* * scsa2usb_cleanup: * cleanup whatever attach has setup */ static int scsa2usb_cleanup(dev_info_t *dip, scsa2usb_state_t *scsa2usbp) { int rval, i; scsa2usb_power_t *pm; uint_t lun; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cleanup:"); /* wait till the work thread is done */ mutex_enter(&scsa2usbp->scsa2usb_mutex); for (i = 0; i < SCSA2USB_DRAIN_TIMEOUT; i++) { if (scsa2usbp->scsa2usb_work_thread_id == NULL) { break; } mutex_exit(&scsa2usbp->scsa2usb_mutex); delay(drv_usectohz(1000000)); mutex_enter(&scsa2usbp->scsa2usb_mutex); } mutex_exit(&scsa2usbp->scsa2usb_mutex); if (i >= SCSA2USB_DRAIN_TIMEOUT) { return (USB_FAILURE); } /* * Disable the event callbacks first, after this point, event * callbacks will never get called. Note we shouldn't hold * mutex while unregistering events because there may be a * competing event callback thread. Event callbacks are done * with ndi mutex held and this can cause a potential deadlock. */ usb_unregister_event_cbs(scsa2usbp->scsa2usb_dip, &scsa2usb_events); if (scsa2usbp->scsa2usb_flags & SCSA2USB_FLAGS_LOCKS_INIT) { /* * if a waitQ exists, get rid of it before destroying it */ for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { scsa2usb_flush_waitQ(scsa2usbp, lun, CMD_TRAN_ERR); usba_destroy_list(&scsa2usbp->scsa2usb_waitQ[lun]); } mutex_enter(&scsa2usbp->scsa2usb_mutex); if (scsa2usbp->scsa2usb_flags & SCSA2USB_FLAGS_HBA_ATTACH_SETUP) { (void) scsi_hba_detach(dip); scsi_hba_tran_free(scsa2usbp->scsa2usb_tran); } if (scsa2usbp->scsa2usb_flags & SCSA2USB_FLAGS_PIPES_OPENED) { scsa2usb_close_usb_pipes(scsa2usbp); } /* Lower the power */ pm = scsa2usbp->scsa2usb_pm; if (pm && (scsa2usbp->scsa2usb_dev_state != USB_DEV_DISCONNECTED)) { if (pm->scsa2usb_wakeup_enabled) { mutex_exit(&scsa2usbp->scsa2usb_mutex); (void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR); if ((rval = usb_handle_remote_wakeup(dip, USB_REMOTE_WAKEUP_DISABLE)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "disable remote wakeup failed " "(%d)", rval); } } else { mutex_exit(&scsa2usbp->scsa2usb_mutex); } (void) pm_lower_power(dip, 0, USB_DEV_OS_PWR_OFF); mutex_enter(&scsa2usbp->scsa2usb_mutex); } if (pm) { kmem_free(pm, sizeof (scsa2usb_power_t)); } if (scsa2usbp->scsa2usb_override_str) { kmem_free(scsa2usbp->scsa2usb_override_str, strlen(scsa2usbp->scsa2usb_override_str) + 1); scsa2usbp->scsa2usb_override_str = NULL; } /* remove the minor nodes */ ddi_remove_minor_node(dip, NULL); /* Cancel the registered panic callback */ scsa2usb_panic_callb_fini(scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); mutex_destroy(&scsa2usbp->scsa2usb_mutex); cv_destroy(&scsa2usbp->scsa2usb_transport_busy_cv); } usb_client_detach(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_dev_data); if (scsa2usbp->scsa2usb_ugen_hdl) { (void) usb_ugen_detach(scsa2usbp->scsa2usb_ugen_hdl, DDI_DETACH); usb_ugen_release_hdl(scsa2usbp->scsa2usb_ugen_hdl); } usb_free_log_hdl(scsa2usbp->scsa2usb_log_handle); ddi_prop_remove_all(dip); ddi_soft_state_free(scsa2usb_statep, ddi_get_instance(dip)); return (USB_SUCCESS); } /* * scsa2usb_override: * some devices may be attached even though their subclass or * protocol info is not according to spec. * these can be determined by the 'subclass-protocol-override' * property set in the conf file. */ static void scsa2usb_override(scsa2usb_state_t *scsa2usbp) { scsa2usb_ov_t ov; char **override_str = NULL; char *override_str_cpy; uint_t override_str_len, override_str_cpy_len; uint_t i; usb_dev_descr_t *descr = scsa2usbp->scsa2usb_dev_data->dev_descr; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); scsa2usbp->scsa2usb_subclass_override = scsa2usbp->scsa2usb_protocol_override = 0; if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, scsa2usbp->scsa2usb_dip, DDI_PROP_DONTPASS, "attribute-override-list", &override_str, &override_str_len) != DDI_PROP_SUCCESS) { return; } /* parse each string in the subclass-protocol-override property */ for (i = 0; i < override_str_len; i++) { USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "override_str[%d] = %s", i, override_str[i]); /* * save a copy of the override string for possible * inclusion in soft state later */ override_str_cpy_len = strlen(override_str[i]) + 1; override_str_cpy = kmem_zalloc(override_str_cpy_len, KM_SLEEP); (void) strcpy(override_str_cpy, override_str[i]); bzero(&ov, sizeof (scsa2usb_ov_t)); if (scsa2usb_parse_input_str(override_str[i], &ov, scsa2usbp) == USB_FAILURE) { kmem_free(override_str_cpy, override_str_cpy_len); continue; } /* * see if subclass/protocol needs to be overridden for device * or if device should not be power managed * if there'a a match, save the override string in soft state */ if (((descr->idVendor == (uint16_t)ov.vid) || (ov.vid == 0)) && ((descr->idProduct == (uint16_t)ov.pid) || (ov.pid == 0)) && ((descr->bcdDevice == (uint16_t)ov.rev) || (ov.rev == 0))) { scsa2usbp->scsa2usb_subclass_override = ov.subclass; scsa2usbp->scsa2usb_protocol_override = ov.protocol; USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "vid=0x%x pid=0x%x rev=0x%x subclass=0x%x " "protocol=0x%x " "pmoff=%d fake_removable=%d modesense=%d " "reduced-cmd-support=%d", ov.vid, ov.pid, ov.rev, ov.subclass, ov.protocol, ov.pmoff, ov.fake_removable, ov.no_modesense, ov.reduced_cmd_support); if (ov.pmoff) { scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_PM; } if (ov.fake_removable) { scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_RMB; } if (ov.no_modesense) { scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_MODE_SENSE; } if (ov.reduced_cmd_support) { scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_REDUCED_CMD; } scsa2usbp->scsa2usb_override_str = override_str_cpy; break; } else { kmem_free(override_str_cpy, override_str_cpy_len); } } ddi_prop_free(override_str); } /* * scsa2usb_parse_input_str: * parse one conf file subclass-protocol-override string * return vendor id, product id, revision, subclass, protocol * function return is success or failure */ static int scsa2usb_parse_input_str(char *str, scsa2usb_ov_t *ovp, scsa2usb_state_t *scsa2usbp) { char *input_field, *input_value; char *lasts; uint_t i; u_longlong_t value; /* parse all the input pairs in the string */ for (input_field = scsa2usb_strtok_r(str, "=", &lasts); input_field != NULL; input_field = scsa2usb_strtok_r(lasts, "=", &lasts)) { if ((input_value = scsa2usb_strtok_r(lasts, " ", &lasts)) == NULL) { scsa2usb_override_error("format", scsa2usbp); return (USB_FAILURE); } /* if input value is a 'don't care', skip to the next pair */ if (strcmp(input_value, "*") == 0) { continue; } if (strcasecmp(input_field, "vid") == 0) { if (kobj_getvalue(input_value, &value) == -1) { scsa2usb_override_error("vendor id", scsa2usbp); return (USB_FAILURE); } ovp->vid = (int)value; } else if (strcasecmp(input_field, "pid") == 0) { if (kobj_getvalue(input_value, &value) == -1) { scsa2usb_override_error("product id", scsa2usbp); return (USB_FAILURE); } ovp->pid = (int)value; } else if (strcasecmp(input_field, "rev") == 0) { if (kobj_getvalue(input_value, &value) == -1) { scsa2usb_override_error("revision id", scsa2usbp); return (USB_FAILURE); } ovp->rev = (int)value; } else if (strcasecmp(input_field, "subclass") == 0) { for (i = 0; i < N_SCSA2USB_SUBC_OVERRIDE; i++) { if (strcasecmp(input_value, scsa2usb_subclass[i].name) == 0) { ovp->subclass = scsa2usb_subclass[i].value; break; } } if (ovp->subclass == 0) { scsa2usb_override_error("subclass", scsa2usbp); return (USB_FAILURE); } } else if (strcasecmp(input_field, "protocol") == 0) { for (i = 0; i < N_SCSA2USB_PROT_OVERRIDE; i++) { if (strcasecmp(input_value, scsa2usb_protocol[i].name) == 0) { ovp->protocol = scsa2usb_protocol[i].value; break; } } if (ovp->protocol == 0) { scsa2usb_override_error("protocol", scsa2usbp); return (USB_FAILURE); } } else if (strcasecmp(input_field, "pm") == 0) { if (strcasecmp(input_value, "off") == 0) { ovp->pmoff = 1; break; } else { scsa2usb_override_error("pm", scsa2usbp); return (USB_FAILURE); } } else if (strcasecmp(input_field, "removable") == 0) { if (strcasecmp(input_value, "true") == 0) { ovp->fake_removable = 1; break; } else { scsa2usb_override_error("removable", scsa2usbp); return (USB_FAILURE); } } else if (strcasecmp(input_field, "modesense") == 0) { if (strcasecmp(input_value, "false") == 0) { ovp->no_modesense = 1; break; } else { scsa2usb_override_error("modesense", scsa2usbp); return (USB_FAILURE); } } else if (strcasecmp(input_field, "reduced-cmd-support") == 0) { if (strcasecmp(input_value, "true") == 0) { ovp->reduced_cmd_support = 1; break; } else { scsa2usb_override_error( "reduced-cmd-support", scsa2usbp); return (USB_FAILURE); } } else { scsa2usb_override_error(input_field, scsa2usbp); return (USB_FAILURE); } } return (USB_SUCCESS); } /* * scsa2usb_override_error: * print an error message if conf file string is bad format */ static void scsa2usb_override_error(char *input_field, scsa2usb_state_t *scsa2usbp) { USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "invalid %s in scsa2usb.conf file entry", input_field); } /* * scsa2usb_strtok_r: * parse a list of tokens */ static char * scsa2usb_strtok_r(char *p, char *sep, char **lasts) { char *e; char *tok = NULL; if (p == 0 || *p == 0) { return (NULL); } e = p+strlen(p); do { if (strchr(sep, *p) != NULL) { if (tok != NULL) { *p = 0; *lasts = p+1; return (tok); } } else if (tok == NULL) { tok = p; } } while (++p < e); *lasts = NULL; return (tok); } /* * scsa2usb_validate_attrs: * many devices have BO/CB/CBI protocol support issues. * use vendor/product info to reset the * individual erroneous attributes * * NOTE: we look at only device at a time (at attach time) */ static void scsa2usb_validate_attrs(scsa2usb_state_t *scsa2usbp) { int i, mask; usb_dev_descr_t *desc = scsa2usbp->scsa2usb_dev_data->dev_descr; if (!SCSA2USB_IS_BULK_ONLY(scsa2usbp)) { scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_GET_LUN; } /* determine if this device is on the blacklist */ for (i = 0; i < N_SCSA2USB_BLACKLIST; i++) { if ((scsa2usb_blacklist[i].idVendor == desc->idVendor) && ((scsa2usb_blacklist[i].idProduct == desc->idProduct) || (scsa2usb_blacklist[i].idProduct == X))) { scsa2usbp->scsa2usb_attrs &= ~(scsa2usb_blacklist[i].attributes); break; } } /* * Mitsumi's CD-RW drives subclass isn't UFI. * But they support UFI command-set (this code ensures that) * NOTE: This is a special case, and is being called out so. */ if (desc->idVendor == MS_MITSUMI_VID) { mask = scsa2usbp->scsa2usb_cmd_protocol & SCSA2USB_CMDSET_MASK; if (mask) { scsa2usbp->scsa2usb_cmd_protocol &= ~mask; } scsa2usbp->scsa2usb_cmd_protocol |= SCSA2USB_UFI_CMDSET; } if (scsa2usbp->scsa2usb_attrs != SCSA2USB_ALL_ATTRS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb attributes modified: 0x%x", scsa2usbp->scsa2usb_attrs); } } /* * scsa2usb_create_luns: * check the number of luns but continue if the check fails, * create child nodes for each lun */ static void scsa2usb_create_luns(scsa2usb_state_t *scsa2usbp) { int lun, rval; char *compatible[MAX_COMPAT_NAMES]; /* compatible names */ dev_info_t *cdip; uchar_t dtype; char *node_name; char *driver_name = NULL; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_create_luns:"); mutex_enter(&scsa2usbp->scsa2usb_mutex); /* Set n_luns to 1 by default (for floppies and other devices) */ scsa2usbp->scsa2usb_n_luns = 1; /* * Check if there are any device out there which don't * support the GET_MAX_LUN command. If so, don't issue * control request to them. */ if ((scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_GET_LUN) == 0) { USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "get_max_lun cmd not supported"); } else { if (SCSA2USB_IS_BULK_ONLY(scsa2usbp)) { scsa2usbp->scsa2usb_n_luns = scsa2usb_bulk_only_get_max_lun(scsa2usbp); } } USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_create_luns: %d luns found", scsa2usbp->scsa2usb_n_luns); /* * create disk child for each lun */ for (lun = 0; lun < scsa2usbp->scsa2usb_n_luns; lun++) { ASSERT(scsa2usbp->scsa2usb_lun_dip[lun] == NULL); /* do an inquiry to get the dtype of this lun */ scsa2usb_do_inquiry(scsa2usbp, 0, lun); dtype = scsa2usbp->scsa2usb_lun_inquiry[lun]. inq_dtype & DTYPE_MASK; USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "dtype[%d]=0x%x", lun, dtype); driver_name = NULL; switch (dtype) { case DTYPE_DIRECT: case DTYPE_RODIRECT: case DTYPE_OPTICAL: node_name = "disk"; driver_name = "sd"; break; case DTYPE_SEQUENTIAL: node_name = "tape"; driver_name = "st"; break; case DTYPE_PRINTER: node_name = "printer"; break; case DTYPE_PROCESSOR: node_name = "processor"; break; case DTYPE_WORM: node_name = "worm"; break; case DTYPE_SCANNER: node_name = "scanner"; break; case DTYPE_CHANGER: node_name = "changer"; break; case DTYPE_COMM: node_name = "comm"; break; case DTYPE_ARRAY_CTRL: node_name = "array_ctrl"; break; case DTYPE_ESI: node_name = "esi"; driver_name = "ses"; break; default: node_name = "generic"; break; } if (driver_name) { compatible[0] = driver_name; } ndi_devi_alloc_sleep(scsa2usbp->scsa2usb_dip, node_name, (pnode_t)DEVI_SID_NODEID, &cdip); /* attach target & lun properties */ rval = ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "target", 0); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_update_int target failed %d", rval); (void) ndi_devi_free(cdip); continue; } rval = ndi_prop_create_boolean(DDI_DEV_T_NONE, cdip, "hotpluggable"); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_create_boolean hotpluggable failed %d", rval); ddi_prop_remove_all(cdip); (void) ndi_devi_free(cdip); continue; } /* * Some devices don't support LOG SENSE, so tells * sd driver not to send this command. */ rval = ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "pm-capable", 1); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_update_int pm-capable failed %d", rval); ddi_prop_remove_all(cdip); (void) ndi_devi_free(cdip); continue; } rval = ndi_prop_update_int(DDI_DEV_T_NONE, cdip, "lun", lun); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_update_int lun failed %d", rval); ddi_prop_remove_all(cdip); (void) ndi_devi_free(cdip); continue; } if (driver_name) { rval = ndi_prop_update_string_array(DDI_DEV_T_NONE, cdip, "compatible", (char **)compatible, MAX_COMPAT_NAMES); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_update_string_array failed %d", rval); ddi_prop_remove_all(cdip); (void) ndi_devi_free(cdip); continue; } } /* * add property "usb" so we always verify that it is our child */ rval = ndi_prop_create_boolean(DDI_DEV_T_NONE, cdip, "usb"); if (rval != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_create_boolean failed %d", rval); ddi_prop_remove_all(cdip); (void) ndi_devi_free(cdip); continue; } mutex_exit(&scsa2usbp->scsa2usb_mutex); (void) ddi_initchild(scsa2usbp->scsa2usb_dip, cdip); mutex_enter(&scsa2usbp->scsa2usb_mutex); usba_set_usba_device(cdip, usba_get_usba_device(scsa2usbp->scsa2usb_dip)); } mutex_exit(&scsa2usbp->scsa2usb_mutex); } /* * scsa2usb_is_usb: * scsa2usb gets called for all possible sd children. * we can only accept usb children */ static int scsa2usb_is_usb(dev_info_t *dip) { if (dip) { return (ddi_prop_exists(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "usb")); } return (0); } /* * Panic Stuff * scsa2usb_panic_callb_init: * initialize PANIC callb and free allocated resources */ static void scsa2usb_panic_callb_init(scsa2usb_state_t *scsa2usbp) { /* * In case the system panics, the sync command flushes * dirty FS pages or buffers. This would cause a hang * in USB. * The reason for the failure is that we enter * polled mode (interrupts disabled) and HCD gets stuck * trying to execute bulk requests * The panic_callback registered below provides a warning * that a panic has occurred and from that point onwards, we * complete each request successfully and immediately. This * will fake successful syncing so at least the rest of the * filesystems complete syncing. */ scsa2usbp->scsa2usb_panic_info = kmem_zalloc(sizeof (scsa2usb_cpr_t), KM_SLEEP); mutex_init(&scsa2usbp->scsa2usb_panic_info->lockp, NULL, MUTEX_DRIVER, scsa2usbp->scsa2usb_dev_data->dev_iblock_cookie); scsa2usbp->scsa2usb_panic_info->statep = scsa2usbp; scsa2usbp->scsa2usb_panic_info->cpr.cc_lockp = &scsa2usbp->scsa2usb_panic_info->lockp; scsa2usbp->scsa2usb_panic_info->cpr.cc_id = callb_add(scsa2usb_panic_callb, (void *)scsa2usbp->scsa2usb_panic_info, CB_CL_PANIC, "scsa2usb"); } /* * scsa2usb_panic_callb_fini: * cancel out PANIC callb and free allocated resources */ static void scsa2usb_panic_callb_fini(scsa2usb_state_t *scsa2usbp) { if (scsa2usbp->scsa2usb_panic_info) { SCSA2USB_CANCEL_CB(scsa2usbp->scsa2usb_panic_info->cpr.cc_id); mutex_destroy(&scsa2usbp->scsa2usb_panic_info->lockp); scsa2usbp->scsa2usb_panic_info->statep = NULL; kmem_free(scsa2usbp->scsa2usb_panic_info, sizeof (scsa2usb_cpr_t)); scsa2usbp->scsa2usb_panic_info = NULL; } } /* * scsa2usb_panic_callb: * This routine is called when there is a system panic. */ /* ARGSUSED */ static boolean_t scsa2usb_panic_callb(void *arg, int code) { scsa2usb_cpr_t *cpr_infop; scsa2usb_state_t *scsa2usbp; uint_t lun; _NOTE(NO_COMPETING_THREADS_NOW); cpr_infop = (scsa2usb_cpr_t *)arg; scsa2usbp = (scsa2usb_state_t *)cpr_infop->statep; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_panic_callb: code=%d", code); /* * If we return error here, "sd" prints lots of error * messages and could retry the same pkt over and over again. * The sync recovery isn't "smooth" in that case. By faking * a success return, instead, we force sync to complete. */ if (scsa2usbp->scsa2usb_cur_pkt) { /* * Do not print the "no sync" warning here. it will then be * displayed before we actually start syncing. Also we don't * replace this code with a call to scsa2usb_pkt_completion(). * NOTE: mutexes are disabled during panic. */ scsa2usbp->scsa2usb_cur_pkt->pkt_reason = CMD_CMPLT; mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usb_pkt_completion(scsa2usbp, scsa2usbp->scsa2usb_cur_pkt); mutex_exit(&scsa2usbp->scsa2usb_mutex); } /* get rid of waitQ */ for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { scsa2usb_flush_waitQ(scsa2usbp, lun, CMD_CMPLT); } _NOTE(COMPETING_THREADS_NOW); return (B_TRUE); } /* * scsa2usb_cpr_suspend * determine if the device's state can be changed to SUSPENDED * close pipes if there is no activity */ /* ARGSUSED */ static int scsa2usb_cpr_suspend(dev_info_t *dip) { scsa2usb_state_t *scsa2usbp; int prev_state; int rval = USB_FAILURE; scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); ASSERT(scsa2usbp != NULL); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cpr_suspend:"); mutex_enter(&scsa2usbp->scsa2usb_mutex); switch (scsa2usbp->scsa2usb_dev_state) { case USB_DEV_ONLINE: case USB_DEV_PWRED_DOWN: case USB_DEV_DISCONNECTED: prev_state = scsa2usbp->scsa2usb_dev_state; scsa2usbp->scsa2usb_dev_state = USB_DEV_SUSPENDED; /* * If the device is busy, we cannot suspend */ if (SCSA2USB_BUSY(scsa2usbp)) { USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cpr_suspend: I/O active"); /* fall back to previous state */ scsa2usbp->scsa2usb_dev_state = prev_state; } else { rval = USB_SUCCESS; } break; case USB_DEV_SUSPENDED: default: USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cpr_suspend: Illegal dev state: %d", scsa2usbp->scsa2usb_dev_state); break; } mutex_exit(&scsa2usbp->scsa2usb_mutex); if ((rval == USB_SUCCESS) && scsa2usbp->scsa2usb_ugen_hdl) { rval = usb_ugen_detach(scsa2usbp->scsa2usb_ugen_hdl, DDI_SUSPEND); } return (rval); } /* * scsa2usb_cpr_resume: * restore device's state */ static void scsa2usb_cpr_resume(dev_info_t *dip) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); ASSERT(scsa2usbp != NULL); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cpr_resume: dip = 0x%p", dip); scsa2usb_restore_device_state(dip, scsa2usbp); if (scsa2usbp->scsa2usb_ugen_hdl) { (void) usb_ugen_attach(scsa2usbp->scsa2usb_ugen_hdl, DDI_RESUME); } } /* * scsa2usb_restore_device_state: * - raise the device's power * - reopen all the pipes */ static void scsa2usb_restore_device_state(dev_info_t *dip, scsa2usb_state_t *scsa2usbp) { uint_t prev_state; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_restore_device_state:"); mutex_enter(&scsa2usbp->scsa2usb_mutex); prev_state = scsa2usbp->scsa2usb_dev_state; scsa2usb_raise_power(scsa2usbp); ASSERT((prev_state == USB_DEV_DISCONNECTED) || (prev_state == USB_DEV_SUSPENDED)); mutex_exit(&scsa2usbp->scsa2usb_mutex); /* Check for the same device */ if (usb_check_same_device(dip, scsa2usbp->scsa2usb_log_handle, USB_LOG_L0, DPRINT_MASK_ALL, USB_CHK_ALL, NULL) != USB_SUCCESS) { /* change the flags to active */ mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_dev_state = USB_DEV_DISCONNECTED; mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_pm_idle_component(scsa2usbp); return; } /* * if the device had remote wakeup earlier, * enable it again */ mutex_enter(&scsa2usbp->scsa2usb_mutex); if (scsa2usbp->scsa2usb_pm && scsa2usbp->scsa2usb_pm->scsa2usb_wakeup_enabled) { mutex_exit(&scsa2usbp->scsa2usb_mutex); (void) usb_handle_remote_wakeup(scsa2usbp->scsa2usb_dip, USB_REMOTE_WAKEUP_ENABLE); mutex_enter(&scsa2usbp->scsa2usb_mutex); } scsa2usbp->scsa2usb_dev_state = USB_DEV_ONLINE; scsa2usbp->scsa2usb_pkt_state = SCSA2USB_PKT_NONE; mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_pm_idle_component(scsa2usbp); } /* * SCSA entry points: * * scsa2usb_scsi_tgt_probe: * scsa functions are exported by means of the transport table * Issue a probe to get the inquiry data. */ /* ARGSUSED */ static int scsa2usb_scsi_tgt_probe(struct scsi_device *sd, int (*waitfunc)(void)) { scsi_hba_tran_t *tran; scsa2usb_state_t *scsa2usbp; dev_info_t *dip = ddi_get_parent(sd->sd_dev); int rval; ASSERT(dip); tran = ddi_get_driver_private(dip); ASSERT(tran != NULL); scsa2usbp = (scsa2usb_state_t *)tran->tran_hba_private; ASSERT(scsa2usbp); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_tgt_probe:"); /* if device is disconnected (ie. pipes closed), fail immediately */ mutex_enter(&scsa2usbp->scsa2usb_mutex); if (!(SCSA2USB_DEVICE_ACCESS_OK(scsa2usbp))) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (SCSIPROBE_FAILURE); } mutex_exit(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_tgt_probe: scsi_device = 0x%p", sd); if ((rval = scsi_hba_probe(sd, waitfunc)) == SCSIPROBE_EXISTS) { /* * respect the removable bit on all USB storage devices * unless overridden by a scsa2usb.conf entry */ mutex_enter(&scsa2usbp->scsa2usb_mutex); if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_RMB)) { _NOTE(SCHEME_PROTECTS_DATA("unshared", scsi_inquiry)) sd->sd_inq->inq_rmb = 1; } mutex_exit(&scsa2usbp->scsa2usb_mutex); } return (rval); } /* * scsa2usb_scsi_tgt_init: * check whether we created this child ourselves */ /* ARGSUSED */ static int scsa2usb_scsi_tgt_init(dev_info_t *dip, dev_info_t *cdip, scsi_hba_tran_t *tran, struct scsi_device *sd) { scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *) tran->tran_hba_private; int lun; int t_len = sizeof (lun); if (ddi_prop_op(DDI_DEV_T_ANY, cdip, PROP_LEN_AND_VAL_BUF, DDI_PROP_DONTPASS|DDI_PROP_CANSLEEP, "lun", (caddr_t)&lun, &t_len) != DDI_PROP_SUCCESS) { return (DDI_FAILURE); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_tgt_init: %s, lun%d", ddi_driver_name(cdip), lun); /* is this a child we created? */ if (scsa2usb_is_usb(cdip) == 0) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_tgt_init: new child %s%d", ddi_driver_name(cdip), ddi_get_instance(cdip)); /* * add property "usb" so we can always verify that it * is our child */ if (ndi_prop_create_boolean(DDI_DEV_T_NONE, cdip, "usb") != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ndi_prop_create_boolean failed"); return (DDI_FAILURE); } usba_set_usba_device(cdip, usba_get_usba_device(scsa2usbp->scsa2usb_dip)); /* * we don't store this dip in scsa2usb_lun_dip, there * might be multiple dips for the same device */ return (DDI_SUCCESS); } mutex_enter(&scsa2usbp->scsa2usb_mutex); if ((lun >= scsa2usbp->scsa2usb_n_luns) || (scsa2usbp->scsa2usb_lun_dip[lun] != NULL)) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (DDI_FAILURE); } scsa2usbp->scsa2usb_lun_dip[lun] = cdip; mutex_exit(&scsa2usbp->scsa2usb_mutex); return (DDI_SUCCESS); } /* * scsa2usb_scsi_tgt_free: */ /* ARGSUSED */ static void scsa2usb_scsi_tgt_free(dev_info_t *hba_dip, dev_info_t *cdip, scsi_hba_tran_t *tran, struct scsi_device *sd) { scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *) tran->tran_hba_private; int lun; int t_len = sizeof (lun); /* is this our child? */ if (scsa2usb_is_usb(cdip) == 0) { return; } if (ddi_prop_op(DDI_DEV_T_ANY, cdip, PROP_LEN_AND_VAL_BUF, DDI_PROP_DONTPASS|DDI_PROP_CANSLEEP, "lun", (caddr_t)&lun, &t_len) != DDI_PROP_SUCCESS) { return; } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_tgt_free: %s lun%d", ddi_driver_name(cdip), lun); mutex_enter(&scsa2usbp->scsa2usb_mutex); if (lun < scsa2usbp->scsa2usb_n_luns) { if (scsa2usbp->scsa2usb_lun_dip[lun] == cdip) { scsa2usbp->scsa2usb_lun_dip[lun] = NULL; } } mutex_exit(&scsa2usbp->scsa2usb_mutex); } /* * bus enumeration entry points */ static int scsa2usb_scsi_bus_config(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg, dev_info_t **child) { int circ; int rval; scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); ASSERT(scsa2usbp != NULL); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_bus_config: op=%d", op); if (scsa2usb_scsi_bus_config_debug) { flag |= NDI_DEVI_DEBUG; } ndi_devi_enter(dip, &circ); /* create children if necessary */ if (DEVI(dip)->devi_child == NULL) { scsa2usb_create_luns(scsa2usbp); } rval = ndi_busop_bus_config(dip, flag, op, arg, child, 0); ndi_devi_exit(dip, circ); return (rval); } static int scsa2usb_scsi_bus_unconfig(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); int circular_count; int rval = NDI_SUCCESS; uint_t save_flag = flag; ASSERT(scsa2usbp != NULL); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_bus_unconfig: op=%d", op); if (scsa2usb_scsi_bus_config_debug) { flag |= NDI_DEVI_DEBUG; } /* * first offline and if offlining successful, then * remove children */ if (op == BUS_UNCONFIG_ALL) { flag &= ~(NDI_DEVI_REMOVE | NDI_UNCONFIG); } ndi_devi_enter(dip, &circular_count); rval = ndi_busop_bus_unconfig(dip, flag, op, arg); /* * If unconfig is successful and not part of modunload * daemon, attempt to remove children. */ if (op == BUS_UNCONFIG_ALL && rval == NDI_SUCCESS && (flag & NDI_AUTODETACH) == 0) { flag |= NDI_DEVI_REMOVE; rval = ndi_busop_bus_unconfig(dip, flag, op, arg); } ndi_devi_exit(dip, circular_count); if ((rval != NDI_SUCCESS) && (op == BUS_UNCONFIG_ALL) && (save_flag & NDI_DEVI_REMOVE)) { mutex_enter(&scsa2usbp->scsa2usb_mutex); if (scsa2usbp->scsa2usb_warning_given != B_TRUE) { USB_DPRINTF_L0(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "Disconnected device was busy, " "please reconnect."); scsa2usbp->scsa2usb_warning_given = B_TRUE; } mutex_exit(&scsa2usbp->scsa2usb_mutex); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_bus_unconfig: rval=%d", rval); return (rval); } /* * scsa2usb_scsi_init_pkt: * Set up the scsi_pkt for transport. Also initialize * scsa2usb_cmd struct for the transport. * NOTE: We do not do any DMA setup here as USBA framework * does that for us. */ static struct scsi_pkt * scsa2usb_scsi_init_pkt(struct scsi_address *ap, struct scsi_pkt *pkt, struct buf *bp, int cmdlen, int statuslen, int tgtlen, int flags, int (*callback)(), caddr_t arg) { scsa2usb_cmd_t *cmd; scsa2usb_state_t *scsa2usbp; struct scsi_pkt *in_pkt = pkt; ASSERT(callback == NULL_FUNC || callback == SLEEP_FUNC); scsa2usbp = (scsa2usb_state_t *)ADDR2SCSA2USB(ap); /* Print sync message */ if (ddi_in_panic()) { mutex_enter(&scsa2usbp->scsa2usb_mutex); SCSA2USB_PRINT_SYNC_MSG(scsa2usb_sync_message, scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); /* continue so caller will not hang or complain */ } /* allocate a pkt, if none already allocated */ if (pkt == NULL) { if (statuslen < sizeof (struct scsi_arq_status)) { statuslen = sizeof (struct scsi_arq_status); } pkt = scsi_hba_pkt_alloc(scsa2usbp->scsa2usb_dip, ap, cmdlen, statuslen, tgtlen, sizeof (scsa2usb_cmd_t), callback, arg); if (pkt == NULL) { return (NULL); } cmd = PKT2CMD(pkt); cmd->cmd_pkt = pkt; /* back link to pkt */ cmd->cmd_scblen = statuslen; cmd->cmd_cdblen = (uchar_t)cmdlen; mutex_enter(&scsa2usbp->scsa2usb_mutex); cmd->cmd_tag = scsa2usbp->scsa2usb_tag++; mutex_exit(&scsa2usbp->scsa2usb_mutex); cmd->cmd_bp = bp; pkt->pkt_scbp = (opaque_t)&cmd->cmd_scb; usba_init_list(&cmd->cmd_waitQ, (usb_opaque_t)cmd, scsa2usbp->scsa2usb_dev_data->dev_iblock_cookie); } else { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb: pkt != NULL"); /* nothing to do */ } if (bp && (bp->b_bcount != 0)) { if ((bp_mapin_common(bp, (callback == SLEEP_FUNC) ? VM_SLEEP : VM_NOSLEEP)) == NULL) { if (pkt != in_pkt) { scsi_hba_pkt_free(ap, pkt); } return (NULL); } USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_init_pkt: mapped in 0x%p, addr=0x%p", bp, bp->b_un.b_addr); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_init_pkt: ap = 0x%p pkt: 0x%p\n\t" "bp = 0x%p cmdlen = %x stlen = 0x%x tlen = 0x%x flags = 0x%x", ap, pkt, bp, cmdlen, statuslen, tgtlen, flags); return (pkt); } /* * scsa2usb_scsi_destroy_pkt: * We are done with the packet. Get rid of it. */ static void scsa2usb_scsi_destroy_pkt(struct scsi_address *ap, struct scsi_pkt *pkt) { scsa2usb_cmd_t *cmd = PKT2CMD(pkt); scsa2usb_state_t *scsa2usbp = ADDR2SCSA2USB(ap); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_destroy_pkt: pkt=0x%p", pkt); usba_destroy_list(&cmd->cmd_waitQ); scsi_hba_pkt_free(ap, pkt); } /* * scsa2usb_scsi_start: * For each command being issued, build up the CDB * and call scsi_transport to issue the command. This * function is based on the assumption that USB allows * a subset of SCSI commands. Other SCSI commands we fail. */ static int scsa2usb_scsi_start(struct scsi_address *ap, struct scsi_pkt *pkt) { scsa2usb_cmd_t *cmd; scsa2usb_state_t *scsa2usbp = ADDR2SCSA2USB(ap); uint_t lun = ap->a_lun; mutex_enter(&scsa2usbp->scsa2usb_mutex); cmd = PKT2CMD(pkt); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_start:\n\t" "bp: 0x%p ap: 0x%p pkt: 0x%p flag: 0x%x time: 0x%x\n\tcdb0: 0x%x " "dev_state: 0x%x pkt_state: 0x%x flags: 0x%x pipe_state: 0x%x", cmd->cmd_bp, ap, pkt, pkt->pkt_flags, pkt->pkt_time, pkt->pkt_cdbp[0], scsa2usbp->scsa2usb_dev_state, scsa2usbp->scsa2usb_pkt_state, scsa2usbp->scsa2usb_flags, scsa2usbp->scsa2usb_pipe_state); if (pkt->pkt_time == 0) { USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "pkt submitted with 0 timeout which may cause indefinite " "hangs"); } /* * if we are in panic, we are in polled mode, so we can just * accept the request, drop it and return * if we fail this request, the rest of the file systems do not * get synced */ if (ddi_in_panic()) { extern int do_polled_io; ASSERT(do_polled_io); scsa2usb_prepare_pkt(scsa2usbp, pkt); SCSA2USB_PRINT_SYNC_MSG(scsa2usb_sync_message, scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_ACCEPT); } /* we cannot do polling, this should not happen */ if (pkt->pkt_flags & FLAG_NOINTR) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "NOINTR packet: opcode = 0%x", pkt->pkt_cdbp[0]); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_BADPKT); } /* is there a ugen open? */ if (scsa2usbp->scsa2usb_ugen_open_count) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "ugen access in progress (count=%d)", scsa2usbp->scsa2usb_ugen_open_count); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_BUSY); } /* prepare packet */ scsa2usb_prepare_pkt(scsa2usbp, pkt); /* just queue up the requests in the waitQ if below max */ if (usba_list_entry_count(&scsa2usbp->scsa2usb_waitQ[lun]) > SCSA2USB_MAX_REQ_PER_LUN) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_start: limit (%d) exceeded", SCSA2USB_MAX_REQ_PER_LUN); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_BUSY); } usba_add_to_list(&scsa2usbp->scsa2usb_waitQ[lun], &cmd->cmd_waitQ); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_work_thread_id=0x%x, count=%d, lun=%d", scsa2usbp->scsa2usb_work_thread_id, usba_list_entry_count(&scsa2usbp->scsa2usb_waitQ[lun]), lun); /* fire up a thread to start executing the protocol */ if (scsa2usbp->scsa2usb_work_thread_id == 0) { if ((usb_async_req(scsa2usbp->scsa2usb_dip, scsa2usb_work_thread, (void *)scsa2usbp, USB_FLAGS_SLEEP)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "no work thread started"); if (usba_rm_from_list( &scsa2usbp->scsa2usb_waitQ[lun], &cmd->cmd_waitQ) == USB_SUCCESS) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_BUSY); } else { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_ACCEPT); } } scsa2usbp->scsa2usb_work_thread_id = (kthread_t *)1; } mutex_exit(&scsa2usbp->scsa2usb_mutex); return (TRAN_ACCEPT); } /* * scsa2usb_scsi_abort: * Issue SCSI abort command. This function is a NOP. */ /* ARGSUSED */ static int scsa2usb_scsi_abort(struct scsi_address *ap, struct scsi_pkt *pkt) { scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *)ADDR2SCSA2USB(ap); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_abort: pkt = %p", pkt); /* if device is disconnected (ie. pipes closed), fail immediately */ mutex_enter(&scsa2usbp->scsa2usb_mutex); if (!(SCSA2USB_DEVICE_ACCESS_OK(scsa2usbp))) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (0); } /* flush waitQ if target and lun match */ if ((ap->a_target == pkt->pkt_address.a_target) && (ap->a_lun == pkt->pkt_address.a_lun)) { mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_flush_waitQ(scsa2usbp, ap->a_lun, CMD_ABORTED); mutex_enter(&scsa2usbp->scsa2usb_mutex); } mutex_exit(&scsa2usbp->scsa2usb_mutex); return (0); } /* * scsa2usb_scsi_reset: * device reset may turn the device into a brick and bus reset * is not applicable. * just flush the waitQ * We return success, always. */ /* ARGSUSED */ static int scsa2usb_scsi_reset(struct scsi_address *ap, int level) { scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *)ADDR2SCSA2USB(ap); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_reset: ap = 0x%p, level = %d", ap, level); /* flush waitQ */ scsa2usb_flush_waitQ(scsa2usbp, ap->a_lun, CMD_RESET); return (1); } /* * scsa2usb_scsi_getcap: * Get SCSI capabilities. */ /* ARGSUSED */ static int scsa2usb_scsi_getcap(struct scsi_address *ap, char *cap, int whom) { int rval = -1; uint_t cidx; size_t dev_bsize_cap; scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *)ADDR2SCSA2USB(ap); ASSERT(scsa2usbp); if (cap == NULL) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_getcap: invalid arg, " "cap = 0x%p whom = %d", cap, whom); return (rval); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_getcap: cap = %s", cap); mutex_enter(&scsa2usbp->scsa2usb_mutex); /* if device is disconnected (ie. pipes closed), fail immediately */ if (!(SCSA2USB_DEVICE_ACCESS_OK(scsa2usbp))) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } cidx = scsi_hba_lookup_capstr(cap); switch (cidx) { case SCSI_CAP_GEOMETRY: dev_bsize_cap = scsa2usbp->scsa2usb_totalsec[ap->a_lun]; if (scsa2usbp->scsa2usb_secsz[ap->a_lun] > DEV_BSIZE) { dev_bsize_cap *= scsa2usbp->scsa2usb_secsz[ap->a_lun] / DEV_BSIZE; } else if (scsa2usbp->scsa2usb_secsz[ap->a_lun] < DEV_BSIZE) { dev_bsize_cap /= DEV_BSIZE / scsa2usbp->scsa2usb_secsz[ap->a_lun]; } if (dev_bsize_cap < 65536 * 2 * 18) { /* < ~1GB */ /* unlabeled floppy, 18k per cylinder */ rval = ((2 << 16) | 18); } else if (dev_bsize_cap < 65536 * 64 * 32) { /* < 64GB */ /* 1024k per cylinder */ rval = ((64 << 16) | 32); } else if (dev_bsize_cap < 65536 * 255 * 63) { /* < ~500GB */ /* ~8m per cylinder */ rval = ((255 << 16) | 63); } else { /* .. 8TB */ /* 64m per cylinder */ rval = ((512 << 16) | 256); } break; case SCSI_CAP_DMA_MAX: rval = scsa2usbp->scsa2usb_max_bulk_xfer_size; break; case SCSI_CAP_SCSI_VERSION: rval = SCSI_VERSION_2; break; case SCSI_CAP_INTERCONNECT_TYPE: rval = INTERCONNECT_USB; break; case SCSI_CAP_ARQ: /* FALLTHRU */ case SCSI_CAP_UNTAGGED_QING: rval = 1; break; default: USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_getcap: unsupported cap = %s", cap); break; } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_getcap: cap = %s, returned = %d", cap, rval); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } /* * scsa2usb_scsi_setcap: * Set SCSI capabilities. */ /* ARGSUSED */ static int scsa2usb_scsi_setcap(struct scsi_address *ap, char *cap, int value, int whom) { int rval = -1; /* default is cap undefined */ uint_t cidx; scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *)ADDR2SCSA2USB(ap); ASSERT(scsa2usbp); if (cap == NULL || whom == 0) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_setcap: invalid arg"); return (rval); } mutex_enter(&scsa2usbp->scsa2usb_mutex); /* if device is disconnected (ie. pipes closed), fail immediately */ if (!(SCSA2USB_DEVICE_ACCESS_OK(scsa2usbp))) { mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } cidx = scsi_hba_lookup_capstr(cap); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_setcap: ap = 0x%p value = 0x%x whom = 0x%x " "cidx = 0x%x", ap, value, whom, cidx); switch (cidx) { case SCSI_CAP_SECTOR_SIZE: if (value) { scsa2usbp->scsa2usb_secsz[ap->a_lun] = value; } break; case SCSI_CAP_TOTAL_SECTORS: if (value) { scsa2usbp->scsa2usb_totalsec[ap->a_lun] = value; } break; case SCSI_CAP_ARQ: rval = 1; break; case SCSI_CAP_DMA_MAX: case SCSI_CAP_SCSI_VERSION: case SCSI_CAP_INTERCONNECT_TYPE: case SCSI_CAP_UNTAGGED_QING: /* supported but not settable */ rval = 0; break; default: USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_scsi_setcap: unsupported cap = %s", cap); break; } mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } /* * scsa2usb - cmd and transport stuff */ /* * scsa2usb_prepare_pkt: * initialize some fields of the pkt and cmd * (the pkt may have been resubmitted/retried) */ static void scsa2usb_prepare_pkt(scsa2usb_state_t *scsa2usbp, struct scsi_pkt *pkt) { scsa2usb_cmd_t *cmd = PKT2CMD(pkt); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_prepare_pkt: pkt=0x%p cdb: 0x%x (%s)", pkt, pkt->pkt_cdbp[0], scsi_cname(pkt->pkt_cdbp[0], scsa2usb_cmds)); pkt->pkt_reason = CMD_CMPLT; /* Set reason to pkt_complete */ pkt->pkt_state = 0; /* Reset next three fields */ pkt->pkt_statistics = 0; pkt->pkt_resid = 0; bzero(pkt->pkt_scbp, cmd->cmd_scblen); /* Set status to good */ if (cmd) { cmd->cmd_timeout = pkt->pkt_time; cmd->cmd_xfercount = 0; /* Reset the fields */ cmd->cmd_total_xfercount = 0; cmd->cmd_lba = 0; cmd->cmd_done = 0; cmd->cmd_dir = 0; cmd->cmd_offset = 0; cmd->cmd_actual_len = cmd->cmd_cdblen; } } /* * scsa2usb_force_invalid_request */ static void scsa2usb_force_invalid_request(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd) { struct scsi_arq_status *arqp; USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_force_invalid_request: pkt = 0x%p", cmd->cmd_pkt); if (cmd->cmd_scblen >= sizeof (struct scsi_arq_status)) { arqp = (struct scsi_arq_status *)cmd->cmd_pkt->pkt_scbp; bzero(arqp, cmd->cmd_scblen); arqp->sts_status.sts_chk = 1; arqp->sts_rqpkt_reason = CMD_CMPLT; arqp->sts_rqpkt_state = STATE_XFERRED_DATA | STATE_GOT_BUS | STATE_GOT_STATUS; arqp->sts_sensedata.es_valid = 1; arqp->sts_sensedata.es_class = 7; arqp->sts_sensedata.es_key = KEY_ILLEGAL_REQUEST; cmd->cmd_pkt->pkt_state = STATE_ARQ_DONE | STATE_GOT_BUS | STATE_GOT_BUS | STATE_GOT_BUS | STATE_GOT_STATUS; #ifdef DEBUG { uchar_t *p = (uchar_t *)(&arqp->sts_sensedata); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "cdb: %x rqsense: " "%x %x %x %x %x %x %x %x %x %x " "%x %x %x %x %x %x %x %x %x %x", cmd->cmd_pkt->pkt_cdbp[0], p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15], p[16], p[17], p[18], p[19]); } #endif } } /* * scsa2usb_cmd_transport: */ static int scsa2usb_cmd_transport(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd) { int rval, transport; struct scsi_pkt *pkt; USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_cmd_transport: pkt: 0x%p, cur_pkt = 0x%p", cmd->cmd_pkt, scsa2usbp->scsa2usb_cur_pkt); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); ASSERT(scsa2usbp->scsa2usb_cur_pkt == NULL); pkt = scsa2usbp->scsa2usb_cur_pkt = cmd->cmd_pkt; /* check black-listed attrs first */ if (SCSA2USB_IS_BULK_ONLY(scsa2usbp)) { transport = scsa2usb_check_bulkonly_blacklist_attrs(scsa2usbp, cmd, pkt->pkt_cdbp[0]); } else if (SCSA2USB_IS_CB(scsa2usbp) || SCSA2USB_IS_CBI(scsa2usbp)) { transport = scsa2usb_check_ufi_blacklist_attrs(scsa2usbp, pkt->pkt_cdbp[0], cmd); } /* just accept the command */ if (transport == SCSA2USB_JUST_ACCEPT) { SCSA2USB_SET_PKT_DO_COMP_STATE(scsa2usbp); return (TRAN_ACCEPT); } /* check command set next */ if (SCSA2USB_IS_SCSI_CMDSET(scsa2usbp) || SCSA2USB_IS_ATAPI_CMDSET(scsa2usbp)) { transport = scsa2usb_handle_scsi_cmd_sub_class(scsa2usbp, cmd, pkt); } else if (SCSA2USB_IS_UFI_CMDSET(scsa2usbp)) { transport = scsa2usb_handle_ufi_subclass_cmd(scsa2usbp, cmd, pkt); } else { transport = SCSA2USB_REJECT; } switch (transport) { case SCSA2USB_TRANSPORT: if (SCSA2USB_IS_BULK_ONLY(scsa2usbp)) { rval = scsa2usb_bulk_only_transport(scsa2usbp, cmd); } else if (SCSA2USB_IS_CB(scsa2usbp) || SCSA2USB_IS_CBI(scsa2usbp)) { rval = scsa2usb_cbi_transport(scsa2usbp, cmd); } else { rval = TRAN_FATAL_ERROR; } break; case SCSA2USB_JUST_ACCEPT: SCSA2USB_SET_PKT_DO_COMP_STATE(scsa2usbp); rval = TRAN_ACCEPT; break; default: rval = TRAN_FATAL_ERROR; } return (rval); } /* * scsa2usb_check_bulkonly_blacklist_attrs: * validate "scsa2usb_blacklist_attrs" (see scsa2usb.h) * if blacklisted attrs match accept the request * attributes checked are:- * SCSA2USB_ATTRS_START_STOP */ int scsa2usb_check_bulkonly_blacklist_attrs(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, uchar_t opcode) { struct scsi_inquiry *inq = &scsa2usbp->scsa2usb_lun_inquiry[cmd->cmd_pkt->pkt_address.a_lun]; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_check_bulkonly_blacklist_attrs: opcode = %s", scsi_cname(opcode, scsa2usb_cmds)); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); /* * decode and convert the packet * for most cmds, we can bcopy the cdb */ switch (opcode) { case SCMD_DOORLOCK: if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_DOORLOCK)) { return (SCSA2USB_JUST_ACCEPT); /* * only lock the door for CD and DVD drives */ } else if ((inq->inq_dtype == DTYPE_RODIRECT) || (inq->inq_dtype == DTYPE_OPTICAL)) { if (inq->inq_rmb) { break; } } return (SCSA2USB_JUST_ACCEPT); case SCMD_START_STOP: /* * these devices don't have mechanics that spin the * media up and down. So, it doesn't make much sense * to issue this cmd. * * Furthermore, Hagiwara devices do not handle these * cmds well. just accept this command as success. */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_START_STOP)) { return (SCSA2USB_JUST_ACCEPT); } else if (cmd->cmd_pkt->pkt_cdbp[4] & LOEJECT) { /* * if the device is really a removable then * pass it on to the device, else just accept */ if (inq->inq_rmb) { break; } return (SCSA2USB_JUST_ACCEPT); } else if (!scsa2usbp->scsa2usb_rcvd_not_ready) { /* * if we have not received a NOT READY condition, * just accept since some device choke on this too. * we do have to let EJECT get through though */ return (SCSA2USB_JUST_ACCEPT); } break; case SCMD_INQUIRY: /* * Some devices do not handle the inquiry cmd well * so build an inquiry and accept this command as * success. */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_INQUIRY)) { uchar_t evpd = 0x01; if (cmd->cmd_cdb[1] & evpd) { return (SCSA2USB_REJECT); } cmd->cmd_pkt->pkt_resid -= scsa2usb_fake_inquiry(scsa2usbp, cmd, cmd->cmd_pkt->pkt_address.a_lun); cmd->cmd_pkt->pkt_state |= STATE_XFERRED_DATA; return (SCSA2USB_JUST_ACCEPT); } break; /* * Fake accepting the following Opcodes * (as most drives don't support these) * These are needed by format command. */ case SCMD_RESERVE: case SCMD_RELEASE: case SCMD_PERSISTENT_RESERVE_IN: case SCMD_PERSISTENT_RESERVE_OUT: return (SCSA2USB_JUST_ACCEPT); case SCMD_MODE_SENSE: case SCMD_MODE_SELECT: case SCMD_MODE_SENSE_G1: case SCMD_MODE_SELECT_G1: if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_MODE_SENSE)) { if (cmd->cmd_bp) { cmd->cmd_pkt->pkt_resid = cmd->cmd_bp-> b_bcount; } scsa2usb_force_invalid_request(scsa2usbp, cmd); return (SCSA2USB_JUST_ACCEPT); } break; default: break; } return (SCSA2USB_TRANSPORT); } /* * scsa2usb_handle_scsi_cmd_sub_class: * prepare a scsi cmd * returns SCSA2USB_TRANSPORT, SCSA2USB_REJECT, SCSA2USB_JUST_ACCEPT */ int scsa2usb_handle_scsi_cmd_sub_class(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, struct scsi_pkt *pkt) { USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_scsi_cmd_sub_class: cmd = 0x%p pkt = 0x%p", cmd, pkt); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); bzero(&cmd->cmd_cdb, SCSI_CDB_SIZE); cmd->cmd_cdb[SCSA2USB_OPCODE] = pkt->pkt_cdbp[0]; /* Set the opcode */ cmd->cmd_cdb[SCSA2USB_LUN] = pkt->pkt_cdbp[1]; /* * decode and convert the packet * for most cmds, we can bcopy the cdb */ switch (pkt->pkt_cdbp[0]) { case SCMD_FORMAT: /* * SCMD_FORMAT used to limit cmd->cmd_xfercount * to 4 bytes, but this hangs * formatting dvd media using cdrecord (that is, * a SCSI FORMAT UNIT command with a parameter list > 4 bytes) * (bit 4 in cdb1 is the Fmtdata bit) */ if ((pkt->pkt_cdbp[1] & 0x10) && cmd->cmd_bp) { cmd->cmd_xfercount = cmd->cmd_bp->b_bcount; } else { cmd->cmd_xfercount = 4; } cmd->cmd_dir = CBW_DIR_OUT; cmd->cmd_actual_len = CDB_GROUP0; bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); break; case SCMD_INQUIRY: cmd->cmd_dir = CBW_DIR_IN; cmd->cmd_actual_len = CDB_GROUP0; cmd->cmd_cdb[SCSA2USB_LBA_0] = pkt->pkt_cdbp[2]; cmd->cmd_cdb[SCSA2USB_LBA_2] = cmd->cmd_xfercount = min(SCSA2USB_MAX_INQ_LEN, cmd->cmd_bp ? cmd->cmd_bp->b_bcount : 0); break; case SCMD_READ_CAPACITY: cmd->cmd_dir = CBW_DIR_IN; bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_xfercount = sizeof (scsa2usb_read_cap_t); break; /* * SCMD_READ/SCMD_WRITE are converted to G1 cmds * (as ATAPI devices don't recognize G0 commands) * * SCMD_READ_LONG/SCMD_WRITE_LONG are handled in * scsa2usb_rw_transport() along with other commands. * * USB Host Controllers cannot handle large (read/write) * xfers. We split the large request to chunks of * smaller ones to meet the HCD limitations. */ case SCMD_READ: case SCMD_WRITE: case SCMD_READ_G1: case SCMD_WRITE_G1: case SCMD_READ_G5: case SCMD_WRITE_G5: case SCMD_READ_LONG: case SCMD_WRITE_LONG: case SCMD_READ_CD: switch (scsa2usbp-> scsa2usb_lun_inquiry[pkt->pkt_address.a_lun]. inq_dtype & DTYPE_MASK) { case DTYPE_DIRECT: case DTYPE_RODIRECT: case DTYPE_OPTICAL: return (scsa2usb_rw_transport( scsa2usbp, pkt)); default: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); if (cmd->cmd_bp) { cmd->cmd_dir = (cmd->cmd_bp->b_flags & B_READ) ? CBW_DIR_IN : CBW_DIR_OUT; cmd->cmd_xfercount = cmd->cmd_bp->b_bcount; } break; } break; case SCMD_REQUEST_SENSE: cmd->cmd_dir = CBW_DIR_IN; cmd->cmd_xfercount = pkt->pkt_cdbp[4]; cmd->cmd_cdb[SCSA2USB_LBA_2] = pkt->pkt_cdbp[4]; cmd->cmd_actual_len = CDB_GROUP0; break; case SCMD_DOORLOCK: case SCMD_START_STOP: case SCMD_TEST_UNIT_READY: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); break; /* * Needed by zip protocol to reset the device */ case SCMD_SDIAG: case SCMD_REZERO_UNIT: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_actual_len = CDB_GROUP1; break; case SCMD_WRITE_VERIFY: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_dir = CBW_DIR_OUT; cmd->cmd_xfercount = (pkt->pkt_cdbp[7] << 8) | pkt->pkt_cdbp[8]; cmd->cmd_actual_len = CDB_GROUP1; break; /* * Next command does not have a SCSI equivalent as * it is vendor specific. * It was listed in the vendor's ATAPI Zip specs. */ case SCMD_READ_FORMAT_CAP: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_dir = CBW_DIR_IN; cmd->cmd_xfercount = (pkt->pkt_cdbp[7] << 8) | pkt->pkt_cdbp[8]; cmd->cmd_actual_len = CDB_GROUP1; break; case IOMEGA_CMD_CARTRIDGE_PROTECT: cmd->cmd_dir = CBW_DIR_OUT; cmd->cmd_cdb[SCSA2USB_LBA_2] = pkt->pkt_cdbp[4]; cmd->cmd_cdb[SCSA2USB_LBA_2] &= ~1; /* Make it even */ cmd->cmd_cdb[SCSA2USB_LUN] = pkt->pkt_cdbp[1]; cmd->cmd_actual_len = CDB_GROUP0; cmd->cmd_xfercount = pkt->pkt_cdbp[4]; /* Length of password */ break; /* * Do not convert SCMD_MODE_SENSE/SELECT to G1 cmds because * the mode header is different as well. USB devices don't * support 0x03 & 0x04 mode pages, which are already obsoleted * by SPC-2 specification. */ case SCMD_MODE_SENSE: case SCMD_MODE_SELECT: if ((pkt->pkt_cdbp[2] == SD_MODE_SENSE_PAGE3_CODE) || (pkt->pkt_cdbp[2] == SD_MODE_SENSE_PAGE4_CODE)) { if (cmd->cmd_bp) { cmd->cmd_pkt->pkt_resid = cmd->cmd_bp->b_bcount; } scsa2usb_force_invalid_request(scsa2usbp, cmd); return (SCSA2USB_JUST_ACCEPT); } /* FALLTHROUGH */ default: /* * an unknown command may be a uscsi cmd which we * should let go thru without mapping */ bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); if (cmd->cmd_bp) { cmd->cmd_dir = (cmd->cmd_bp->b_flags & B_READ) ? CBW_DIR_IN : CBW_DIR_OUT; cmd->cmd_xfercount = cmd->cmd_bp->b_bcount; } break; } /* end of switch */ USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_scsi_cmd_sub_class: opcode = 0x%x count = 0x%lx", pkt->pkt_cdbp[SCSA2USB_OPCODE], cmd->cmd_xfercount); cmd->cmd_total_xfercount = cmd->cmd_xfercount; return (SCSA2USB_TRANSPORT); } /* * scsa2usb_do_tur is performed before READ CAPACITY command is issued. * It returns media status, 0 for media ready, -1 for media not ready * or other errors. */ static int scsa2usb_do_tur(scsa2usb_state_t *scsa2usbp, struct scsi_address *ap) { struct scsi_pkt *pkt; scsa2usb_cmd_t *turcmd; int rval = -1; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_tur:"); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); mutex_exit(&scsa2usbp->scsa2usb_mutex); if ((pkt = scsi_init_pkt(ap, NULL, NULL, CDB_GROUP0, 1, PKT_PRIV_LEN, PKT_CONSISTENT, SLEEP_FUNC, NULL)) == NULL) { mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_tur: init pkt failed"); return (rval); } RQ_MAKECOM_G0(pkt, FLAG_HEAD | FLAG_NODISCON, (char)SCMD_TEST_UNIT_READY, 0, 0); pkt->pkt_comp = NULL; pkt->pkt_time = PKT_DEFAULT_TIMEOUT; turcmd = PKT2CMD(pkt); mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usb_prepare_pkt(scsa2usbp, turcmd->cmd_pkt); if (scsa2usb_cmd_transport(scsa2usbp, turcmd) != TRAN_ACCEPT) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_tur: cmd transport failed, " "pkt_reason=0x%x", turcmd->cmd_pkt->pkt_reason); } else if (*(turcmd->cmd_pkt->pkt_scbp) != STATUS_GOOD) { /* * Theoretically, the sense data should be retrieved and * sense key be checked when check condition happens. If * the sense key is UNIT ATTENTION, TEST UNIT READY cmd * needs to be sent again to clear the UNIT ATTENTION and * another TUR to be sent to get the real media status. * But the AMI virtual floppy device simply cannot recover * from UNIT ATTENTION by re-sending a TUR cmd, so it * doesn't make any difference whether to check sense key * or not. Just ignore sense key checking here and assume * the device is NOT READY. */ USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_tur: media not ready"); } else { rval = 0; } mutex_exit(&scsa2usbp->scsa2usb_mutex); scsi_destroy_pkt(pkt); mutex_enter(&scsa2usbp->scsa2usb_mutex); return (rval); } /* * scsa2usb_check_ufi_blacklist_attrs: * validate "scsa2usb_blacklist_attrs" (see scsa2usb.h) * if blacklisted attrs match accept the request * attributes checked are:- * SCSA2USB_ATTRS_GET_CONF * SCSA2USB_ATTRS_GET_PERF * SCSA2USB_ATTRS_GET_START_STOP */ static int scsa2usb_check_ufi_blacklist_attrs(scsa2usb_state_t *scsa2usbp, uchar_t opcode, scsa2usb_cmd_t *cmd) { int rval = SCSA2USB_TRANSPORT; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); switch (opcode) { case SCMD_PRIN: case SCMD_PROUT: rval = SCSA2USB_JUST_ACCEPT; break; case SCMD_MODE_SENSE: case SCMD_MODE_SELECT: if (cmd->cmd_bp) { cmd->cmd_pkt->pkt_resid = cmd->cmd_bp->b_bcount; } scsa2usb_force_invalid_request(scsa2usbp, cmd); rval = SCSA2USB_JUST_ACCEPT; break; case SCMD_GET_CONFIGURATION: if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_GET_CONF)) { rval = SCSA2USB_JUST_ACCEPT; } break; case SCMD_GET_PERFORMANCE: if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_GET_PERF)) { rval = SCSA2USB_JUST_ACCEPT; } break; case SCMD_START_STOP: /* * some CB/CBI devices don't have mechanics that spin the * media up and down. So, it doesn't make much sense * to issue this cmd to those devices. */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_START_STOP)) { rval = SCSA2USB_JUST_ACCEPT; } break; case SCMD_READ_CAPACITY: /* * Some devices don't support READ CAPACITY command * when media is not ready. Need to check media status * before issuing the cmd to such device. */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_NO_MEDIA_CHECK)) { struct scsi_pkt *pkt = cmd->cmd_pkt; ASSERT(scsa2usbp->scsa2usb_cur_pkt == pkt); scsa2usbp->scsa2usb_cur_pkt = NULL; if (scsa2usb_do_tur(scsa2usbp, &pkt->pkt_address) != 0) { /* media not ready, force cmd invalid */ if (cmd->cmd_bp) { cmd->cmd_pkt->pkt_resid = cmd->cmd_bp->b_bcount; } scsa2usb_force_invalid_request(scsa2usbp, cmd); rval = SCSA2USB_JUST_ACCEPT; } scsa2usbp->scsa2usb_cur_pkt = pkt; } break; default: break; } return (rval); } /* * scsa2usb_handle_ufi_subclass_cmd: * prepare a UFI cmd * returns SCSA2USB_TRANSPORT, SCSA2USB_REJECT */ int scsa2usb_handle_ufi_subclass_cmd(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, struct scsi_pkt *pkt) { uchar_t opcode = pkt->pkt_cdbp[0]; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_ufi_subclass_cmd: cmd = 0x%p pkt = 0x%p", cmd, pkt); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); bzero(&cmd->cmd_cdb, SCSI_CDB_SIZE); cmd->cmd_cdb[SCSA2USB_OPCODE] = opcode; /* Set the opcode */ cmd->cmd_cdb[SCSA2USB_LUN] = pkt->pkt_cdbp[1]; /* * decode and convert the packet if necessary * for most cmds, we can bcopy the cdb */ switch (opcode) { case SCMD_FORMAT: /* if parameter list is specified */ if (pkt->pkt_cdbp[1] & 0x10) { cmd->cmd_xfercount = (pkt->pkt_cdbp[7] << 8) | pkt->pkt_cdbp[8]; cmd->cmd_dir = USB_EP_DIR_OUT; cmd->cmd_actual_len = CDB_GROUP5; } bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); break; case SCMD_INQUIRY: cmd->cmd_dir = USB_EP_DIR_IN; cmd->cmd_actual_len = CDB_GROUP0; cmd->cmd_cdb[SCSA2USB_LBA_0] = pkt->pkt_cdbp[2]; cmd->cmd_cdb[SCSA2USB_LBA_2] = cmd->cmd_xfercount = min(SCSA2USB_MAX_INQ_LEN, cmd->cmd_bp ? cmd->cmd_bp->b_bcount : 0); break; case SCMD_READ_CAPACITY: cmd->cmd_dir = USB_EP_DIR_IN; bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_xfercount = sizeof (scsa2usb_read_cap_t); break; case SCMD_REQUEST_SENSE: cmd->cmd_dir = USB_EP_DIR_IN; cmd->cmd_xfercount = pkt->pkt_cdbp[4]; cmd->cmd_cdb[SCSA2USB_LBA_2] = pkt->pkt_cdbp[4]; cmd->cmd_actual_len = CDB_GROUP0; break; /* * do not convert SCMD_MODE_SENSE/SELECT because the * mode header is different as well */ /* * see usb_bulkonly.c for comments on the next set of commands */ case SCMD_READ: case SCMD_WRITE: case SCMD_READ_G1: case SCMD_WRITE_G1: case SCMD_READ_G5: case SCMD_WRITE_G5: case SCMD_READ_LONG: case SCMD_WRITE_LONG: case SCMD_READ_CD: return (scsa2usb_rw_transport(scsa2usbp, pkt)); case SCMD_TEST_UNIT_READY: /* * Some CB/CBI devices may not support TUR. */ bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); break; case SCMD_READ_FORMAT_CAP: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_dir = USB_EP_DIR_IN; cmd->cmd_actual_len = CDB_GROUP1; cmd->cmd_xfercount = (pkt->pkt_cdbp[7] << 8) | pkt->pkt_cdbp[8]; break; case SCMD_WRITE_VERIFY: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); cmd->cmd_dir = USB_EP_DIR_OUT; cmd->cmd_actual_len = CDB_GROUP1; cmd->cmd_xfercount = (pkt->pkt_cdbp[7] << 8) | pkt->pkt_cdbp[8]; break; case SCMD_START_STOP: /* A larger timeout is needed for 'flaky' CD-RW devices */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_BIG_TIMEOUT)) { cmd->cmd_timeout = max(cmd->cmd_timeout, 20 * SCSA2USB_BULK_PIPE_TIMEOUT); } /* FALLTHRU */ default: /* * all other commands don't need special mapping */ bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); if (cmd->cmd_bp) { cmd->cmd_dir = (cmd->cmd_bp->b_flags & B_READ) ? CBW_DIR_IN : CBW_DIR_OUT; cmd->cmd_xfercount = cmd->cmd_bp->b_bcount; } break; } /* end of switch */ USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_ufi_subclass_cmd: opcode = 0x%x count = 0x%lx", opcode, cmd->cmd_xfercount); cmd->cmd_total_xfercount = cmd->cmd_xfercount; return (SCSA2USB_TRANSPORT); } /* * scsa2usb_rw_transport: * Handle splitting READ and WRITE requests to the * device to a size that the host controller allows. * * returns TRAN_* values and not USB_SUCCESS/FAILURE * * To support CD-R/CD-RW/DVD media, we need to support a * variety of block sizes for the different types of CD * data (audio, data, video, CD-XA, yellowbook, redbook etc.) * * Some of the block sizes used are:- 512, 1k, 2k, 2056, 2336 * 2340, 2352, 2368, 2448, 2646, 2647 etc. * * NOTE: the driver could be entertaining a SCSI CDB that uses * any of the above listed block sizes at a given time, and a * totally different block size at any other given time for a * different CDB. * * We need to compute block size every time and figure out * matching LBA and LEN accordingly. * * Also UHCI has a limitation that it can only xfer 32k at a * given time. So, with "odd" sized blocks and a limitation of * how much we can xfer per shot, we need to compute xfer_count * as well each time. * * The same computation is also done in the function * scsa2usb_setup_next_xfer(). To save computing block_size in * this function, I am saving block_size in "cmd" now. */ int scsa2usb_rw_transport(scsa2usb_state_t *scsa2usbp, struct scsi_pkt *pkt) { scsa2usb_cmd_t *cmd = PKT2CMD(pkt); int lba, dir, opcode; struct buf *bp = cmd->cmd_bp; size_t len, xfer_count; size_t blk_size; /* calculate the block size to be used */ int sz; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_rw_transport:"); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); opcode = pkt->pkt_cdbp[0]; blk_size = scsa2usbp->scsa2usb_lbasize[pkt->pkt_address.a_lun]; /* set to default */ switch (opcode) { case SCMD_READ: /* * Note that READ/WRITE(6) are not supported by the drive. * convert it into a 10 byte read/write. */ lba = SCSA2USB_LBA_6BYTE(pkt); len = SCSA2USB_LEN_6BYTE(pkt); opcode = SCMD_READ_G1; /* Overwrite it w/ byte 10 cmd val */ dir = USB_EP_DIR_IN; break; case SCMD_WRITE: lba = SCSA2USB_LBA_6BYTE(pkt); len = SCSA2USB_LEN_6BYTE(pkt); opcode = SCMD_WRITE_G1; /* Overwrite it w/ byte 10 cmd val */ dir = USB_EP_DIR_OUT; break; case SCMD_READ_G1: case SCMD_READ_LONG: lba = SCSA2USB_LBA_10BYTE(pkt); len = SCSA2USB_LEN_10BYTE(pkt); dir = USB_EP_DIR_IN; break; case SCMD_WRITE_G1: case SCMD_WRITE_LONG: lba = SCSA2USB_LBA_10BYTE(pkt); len = SCSA2USB_LEN_10BYTE(pkt); dir = USB_EP_DIR_OUT; if (len) { sz = SCSA2USB_CDRW_BLKSZ(bp ? bp->b_bcount : 0, len); if (SCSA2USB_VALID_CDRW_BLKSZ(sz)) { blk_size = sz; /* change it accordingly */ } } break; case SCMD_READ_CD: lba = SCSA2USB_LBA_10BYTE(pkt); len = SCSA2USB_LEN_READ_CD(pkt); dir = USB_EP_DIR_IN; /* Figure out the block size */ blk_size = scsa2usb_read_cd_blk_size(pkt->pkt_cdbp[1] >> 2); break; case SCMD_READ_G5: lba = SCSA2USB_LBA_12BYTE(pkt); len = SCSA2USB_LEN_12BYTE(pkt); dir = USB_EP_DIR_IN; break; case SCMD_WRITE_G5: lba = SCSA2USB_LBA_12BYTE(pkt); len = SCSA2USB_LEN_12BYTE(pkt); dir = USB_EP_DIR_OUT; break; } cmd->cmd_total_xfercount = xfer_count = len * blk_size; /* reduce xfer count if necessary */ if (blk_size && (xfer_count > scsa2usbp->scsa2usb_max_bulk_xfer_size)) { /* * For CD-RW devices reduce the xfer count based * on the block size used by these devices. The * block size could change for READ_CD and WRITE * opcodes. * * Also as UHCI allows a max xfer of 32k at a time; * compute the xfer_count based on the new block_size. * * The len part of the cdb changes as a result of that. */ if (SCSA2USB_VALID_CDRW_BLKSZ(blk_size)) { xfer_count = ((scsa2usbp->scsa2usb_max_bulk_xfer_size/ blk_size) * blk_size); len = xfer_count/blk_size; xfer_count = blk_size * len; } else { xfer_count = scsa2usbp->scsa2usb_max_bulk_xfer_size; len = xfer_count/blk_size; } } cmd->cmd_xfercount = xfer_count; cmd->cmd_dir = (uchar_t)dir; cmd->cmd_blksize = blk_size; /* * Having figure out the 'partial' xfer len based on he * block size; fill it in to the cmd->cmd_cdb */ cmd->cmd_cdb[SCSA2USB_OPCODE] = (uchar_t)opcode; switch (opcode) { case SCMD_READ_CD: bcopy(pkt->pkt_cdbp, &cmd->cmd_cdb, cmd->cmd_cdblen); scsa2usb_fill_up_ReadCD_cdb_len(cmd, len, CDB_GROUP5); break; case SCMD_WRITE_G5: case SCMD_READ_G5: scsa2usb_fill_up_12byte_cdb_len(cmd, len, CDB_GROUP5); break; default: scsa2usb_fill_up_cdb_len(cmd, len); cmd->cmd_actual_len = CDB_GROUP1; break; } scsa2usb_fill_up_cdb_lba(cmd, lba); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "bcount=0x%lx lba=0x%x len=0x%lx xfercount=0x%lx total=0x%lx", bp ? bp->b_bcount : 0, lba, len, cmd->cmd_xfercount, cmd->cmd_total_xfercount); /* Set the timeout value as per command request */ if ((opcode == SCMD_WRITE_G1) && SCSA2USB_VALID_CDRW_BLKSZ(blk_size)) { /* * We increase the time as CD-RW writes have two things * to do. After writing out the data to the media, a * TOC needs to be filled up at the beginning of the media * This is when the write gets "finalized". * Hence the actual write could take longer than the * value specified in cmd->cmd_timeout. */ cmd->cmd_timeout *= 4; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "new timeout value = 0x%x", cmd->cmd_timeout); } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "lba 0x%x len 0x%lx xfercount 0x%lx total 0x%lx", lba, len, cmd->cmd_xfercount, cmd->cmd_total_xfercount); return (SCSA2USB_TRANSPORT); } /* * scsa2usb_setup_next_xfer: * For READs and WRITEs we split up the transfer in terms of * HCD understood units. This function handles the split transfers. * * See comments in the previous function scsa2usb_rw_transport * * The lba computation was being done based on scsa2usb_max_bulk_xfer_size * earlier. With CD-RW devices, the xfer_count and the block_size may * no longer be a multiple of scsa2usb_max_bulk_xfer_size. So compute * xfer_count all over again. Adjust lba, based on the previous requests' * len. Find out the len and add it to cmd->cmd_lba to get the new lba */ void scsa2usb_setup_next_xfer(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd) { int xfer_len = min(scsa2usbp->scsa2usb_max_bulk_xfer_size, cmd->cmd_total_xfercount); int cdb_len; size_t blk_size; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_setup_next_xfer: opcode = 0x%x lba = 0x%x " "total count = 0x%lx", cmd->cmd_cdb[SCSA2USB_OPCODE], cmd->cmd_lba, cmd->cmd_total_xfercount); ASSERT(cmd->cmd_total_xfercount > 0); cmd->cmd_xfercount = xfer_len; blk_size = scsa2usbp->scsa2usb_lbasize[ cmd->cmd_pkt->pkt_address.a_lun]; /* * For CD-RW devices reduce the xfer count based on the * block_size used by these devices. See changes below * where xfer_count is being adjusted. * * Also adjust len/lba based on the block_size and xfer_count. * NOTE: Always calculate lba first, as it based on previous * commands' values. */ switch (cmd->cmd_cdb[SCSA2USB_OPCODE]) { case SCMD_READ_CD: /* calculate lba = current_lba + len_of_prev_cmd */ cmd->cmd_lba += (cmd->cmd_cdb[6] << 16) + (cmd->cmd_cdb[7] << 8) + cmd->cmd_cdb[8]; cdb_len = xfer_len/cmd->cmd_blksize; cmd->cmd_cdb[SCSA2USB_READ_CD_LEN_2] = (uchar_t)cdb_len; /* re-adjust xfer count */ cmd->cmd_xfercount = cdb_len * cmd->cmd_blksize; break; case SCMD_WRITE_G5: case SCMD_READ_G5: /* calculate lba = current_lba + len_of_prev_cmd */ cmd->cmd_lba += (cmd->cmd_cdb[6] << 24) + (cmd->cmd_cdb[7] << 16) + (cmd->cmd_cdb[8] << 8) + cmd->cmd_cdb[9]; if (blk_size) { xfer_len /= blk_size; } scsa2usb_fill_up_12byte_cdb_len(cmd, xfer_len, CDB_GROUP5); break; case SCMD_WRITE_G1: case SCMD_WRITE_LONG: /* calculate lba = current_lba + len_of_prev_cmd */ cmd->cmd_lba += (cmd->cmd_cdb[7] << 8) + cmd->cmd_cdb[8]; if (SCSA2USB_VALID_CDRW_BLKSZ(cmd->cmd_blksize)) { blk_size = cmd->cmd_blksize; } cdb_len = xfer_len/blk_size; scsa2usb_fill_up_cdb_len(cmd, cdb_len); /* re-adjust xfer count */ cmd->cmd_xfercount = cdb_len * blk_size; break; default: if (blk_size) { xfer_len /= blk_size; } scsa2usb_fill_up_cdb_len(cmd, xfer_len); cmd->cmd_lba += scsa2usbp->scsa2usb_max_bulk_xfer_size/blk_size; } /* fill in the lba */ scsa2usb_fill_up_cdb_lba(cmd, cmd->cmd_lba); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_setup_next_xfer:\n\tlba = 0x%x xfer_len = 0x%x " "xfercount = 0x%lx total = 0x%lx", cmd->cmd_lba, xfer_len, cmd->cmd_xfercount, cmd->cmd_total_xfercount); } /* * take one request from the lun's waitQ and transport it */ static void scsa2usb_transport_request(scsa2usb_state_t *scsa2usbp, uint_t lun) { int rval; struct scsi_pkt *pkt; struct scsa2usb_cmd *cmd, *arqcmd; if ((cmd = (scsa2usb_cmd_t *) usba_rm_first_pvt_from_list( &scsa2usbp->scsa2usb_waitQ[lun])) == NULL) { return; } pkt = cmd->cmd_pkt; /* * if device has been disconnected, just complete it */ if (scsa2usbp->scsa2usb_dev_state == USB_DEV_DISCONNECTED) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "device not accessible"); pkt->pkt_reason = CMD_DEV_GONE; SCSA2USB_SET_PKT_DO_COMP_STATE(scsa2usbp); scsa2usb_pkt_completion(scsa2usbp, pkt); return; } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_transport_request: cmd=0x%p bp=0x%p addr=0x%p", cmd, cmd->cmd_bp, (cmd->cmd_bp ? cmd->cmd_bp->b_un.b_addr : NULL)); rval = scsa2usb_cmd_transport(scsa2usbp, cmd); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_transport_request: transport rval = %d", rval); if (scsa2usbp->scsa2usb_cur_pkt == NULL) { return; } ASSERT(pkt == scsa2usbp->scsa2usb_cur_pkt); if (ddi_in_panic()) { pkt->pkt_reason = CMD_CMPLT; scsa2usb_pkt_completion(scsa2usbp, pkt); return; } /* * start an auto-request sense iff * there was a check condition, we have enough * space in the status block, and we have not * faked an auto request sense */ if ((*(pkt->pkt_scbp) == STATUS_CHECK) && (cmd->cmd_scblen >= sizeof (struct scsi_arq_status)) && ((pkt->pkt_state & STATE_ARQ_DONE) == 0) && (scsa2usb_create_arq_pkt(scsa2usbp, &pkt->pkt_address) == USB_SUCCESS)) { arqcmd = scsa2usbp->scsa2usb_arq_cmd; /* * copy the timeout from the * original packet * for lack of a better value */ arqcmd->cmd_pkt->pkt_time = pkt->pkt_time; scsa2usb_prepare_pkt(scsa2usbp, arqcmd->cmd_pkt); scsa2usbp->scsa2usb_cur_pkt = NULL; if (scsa2usb_cmd_transport( scsa2usbp, arqcmd) == TRAN_ACCEPT) { /* finish w/ this packet */ scsa2usb_complete_arq_pkt( scsa2usbp, arqcmd->cmd_pkt, cmd, scsa2usbp->scsa2usb_arq_bp); /* * we have valid request sense * data so clear the pkt_reason */ pkt->pkt_reason = CMD_CMPLT; } scsa2usbp->scsa2usb_cur_pkt = pkt; scsa2usb_delete_arq_pkt(scsa2usbp); } if ((rval != TRAN_ACCEPT) && (pkt->pkt_reason == CMD_CMPLT)) { pkt->pkt_reason = CMD_TRAN_ERR; } SCSA2USB_SET_PKT_DO_COMP_STATE(scsa2usbp); scsa2usb_pkt_completion(scsa2usbp, pkt); ASSERT(scsa2usbp->scsa2usb_cur_pkt == NULL); } /* * scsa2usb_work_thread: * The taskq thread that kicks off the transport (BO and CB/CBI) */ static void scsa2usb_work_thread(void *arg) { scsa2usb_state_t *scsa2usbp = (scsa2usb_state_t *)arg; uint_t lun; uint_t count; mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_work_thread start: thread_id=0x%x", scsa2usbp->scsa2usb_work_thread_id); ASSERT(scsa2usbp->scsa2usb_work_thread_id == (kthread_t *)1); scsa2usbp->scsa2usb_work_thread_id = curthread; /* exclude ugen accesses */ while (scsa2usbp->scsa2usb_transport_busy) { cv_wait(&scsa2usbp->scsa2usb_transport_busy_cv, &scsa2usbp->scsa2usb_mutex); } ASSERT(scsa2usbp->scsa2usb_ugen_open_count == 0); scsa2usbp->scsa2usb_transport_busy++; scsa2usbp->scsa2usb_busy_thread = curthread; scsa2usb_raise_power(scsa2usbp); /* reopen the pipes if necessary */ (void) scsa2usb_open_usb_pipes(scsa2usbp); for (;;) { ASSERT(scsa2usbp->scsa2usb_ugen_open_count == 0); for (lun = 0; lun < scsa2usbp->scsa2usb_n_luns; lun++) { scsa2usb_transport_request(scsa2usbp, lun); } count = 0; for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { count += usba_list_entry_count( &scsa2usbp->scsa2usb_waitQ[lun]); } if (count == 0) { break; } } scsa2usbp->scsa2usb_work_thread_id = 0; ASSERT(scsa2usbp->scsa2usb_ugen_open_count == 0); scsa2usbp->scsa2usb_transport_busy--; scsa2usbp->scsa2usb_busy_thread = NULL; cv_signal(&scsa2usbp->scsa2usb_transport_busy_cv); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_work_thread: exit"); mutex_exit(&scsa2usbp->scsa2usb_mutex); scsa2usb_pm_idle_component(scsa2usbp); } /* * scsa2usb_flush_waitQ: * empties the entire waitQ with errors asap. * * It is called from scsa2usb_scsi_reset and scsa2usb_panic_callb. * If the device is reset; we should empty the waitQ right away. * If the system has paniced; we should empty the waitQ right away. * * CPR suspend will only succeed if device is idle. No need to call * this function for CPR suspend case. */ static void scsa2usb_flush_waitQ(scsa2usb_state_t *scsa2usbp, uint_t lun, uchar_t error) { struct scsi_pkt *pkt; struct scsa2usb_cmd *cmd; usba_list_entry_t head; mutex_enter(&scsa2usbp->scsa2usb_mutex); usba_move_list(&scsa2usbp->scsa2usb_waitQ[lun], &head, scsa2usbp->scsa2usb_dev_data->dev_iblock_cookie); mutex_exit(&scsa2usbp->scsa2usb_mutex); while ((cmd = (scsa2usb_cmd_t *)usba_rm_first_pvt_from_list(&head)) != NULL) { pkt = cmd->cmd_pkt; pkt->pkt_reason = error; /* set error */ mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_pkt_state = SCSA2USB_PKT_DO_COMP; scsa2usb_pkt_completion(scsa2usbp, pkt); mutex_exit(&scsa2usbp->scsa2usb_mutex); } /* end of while */ } /* * scsa2usb_do_inquiry is performed before INIT CHILD and we have * to fake a few things normally done by SCSA */ static void scsa2usb_do_inquiry(scsa2usb_state_t *scsa2usbp, uint_t target, uint_t lun) { struct buf *bp; struct scsi_pkt *pkt; struct scsi_address ap; int len = SCSA2USB_MAX_INQ_LEN; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_inquiry: %d bytes", len); /* is it inquiry-challenged? */ if (!(scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_INQUIRY)) { (void) scsa2usb_fake_inquiry(scsa2usbp, NULL, lun); return; } ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); bzero(&ap, sizeof (struct scsi_address)); ap.a_hba_tran = scsa2usbp->scsa2usb_tran; ap.a_target = target; ap.a_lun = lun; /* limit inquiry to 36 bytes */ mutex_exit(&scsa2usbp->scsa2usb_mutex); if ((bp = scsi_alloc_consistent_buf(&ap, (struct buf *)NULL, len, B_READ, SLEEP_FUNC, NULL)) == NULL) { mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_inquiry: failed"); return; } pkt = scsi_init_pkt(&ap, NULL, bp, CDB_GROUP0, 1, PKT_PRIV_LEN, PKT_CONSISTENT, SLEEP_FUNC, NULL); RQ_MAKECOM_G0(pkt, FLAG_NOINTR, (char)SCMD_INQUIRY, 0, len); pkt->pkt_comp = NULL; pkt->pkt_time = 5; bzero(bp->b_un.b_addr, len); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_do_inquiry:INQUIRY"); (void) scsi_transport(pkt); if (pkt->pkt_reason) { USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "INQUIRY failed, cannot determine device type, " "pkt_reason=0x%x", pkt->pkt_reason); /* not much hope for other cmds, reduce */ mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_attrs &= ~SCSA2USB_ATTRS_REDUCED_CMD; (void) scsa2usb_fake_inquiry(scsa2usbp, NULL, lun); mutex_exit(&scsa2usbp->scsa2usb_mutex); } scsi_destroy_pkt(pkt); scsi_free_consistent_buf(bp); mutex_enter(&scsa2usbp->scsa2usb_mutex); } /* * scsa2usb_fake_inquiry: * build an inquiry for a given device that doesnt like inquiry * commands. */ static int scsa2usb_fake_inquiry(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, uint_t lun) { usb_client_dev_data_t *dev_data = scsa2usbp->scsa2usb_dev_data; struct scsi_inquiry *inqp; int len; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_fake_inquiry:"); if (cmd) { inqp = (struct scsi_inquiry *)cmd->cmd_bp->b_un.b_addr; } else { inqp = &scsa2usbp->scsa2usb_lun_inquiry[lun]; } bzero(inqp, sizeof (struct scsi_inquiry)); for (len = 0; len < sizeof (inqp->inq_vid); len++) { *(inqp->inq_vid + len) = ' '; } for (len = 0; len < sizeof (inqp->inq_pid); len++) { *(inqp->inq_pid + len) = ' '; } inqp->inq_dtype = DTYPE_DIRECT; inqp->inq_rmb = 1; inqp->inq_ansi = 2; inqp->inq_rdf = RDF_SCSI2; inqp->inq_len = sizeof (struct scsi_inquiry)-4; /* Fill in the Vendor id/Product id strings */ if (dev_data->dev_mfg) { if ((len = strlen(dev_data->dev_mfg)) > sizeof (inqp->inq_vid)) { len = sizeof (inqp->inq_vid); } bcopy(dev_data->dev_mfg, inqp->inq_vid, len); } if (dev_data->dev_product) { if ((len = strlen(dev_data->dev_product)) > sizeof (inqp->inq_pid)) { len = sizeof (inqp->inq_pid); } bcopy(dev_data->dev_product, inqp->inq_pid, len); } /* Set the Revision to the Device */ inqp->inq_revision[0] = 0x30 + ((dev_data->dev_descr->bcdDevice>>12) & 0xF); inqp->inq_revision[1] = 0x30 + ((dev_data->dev_descr->bcdDevice>>8) & 0xF); inqp->inq_revision[2] = 0x30 + ((dev_data->dev_descr->bcdDevice>>4) & 0xF); inqp->inq_revision[3] = 0x30 + ((dev_data->dev_descr->bcdDevice) & 0xF); /* Copy inquiry data in to soft state */ bcopy(inqp, &scsa2usbp->scsa2usb_lun_inquiry[lun], sizeof (struct scsi_inquiry)); return (sizeof (struct scsi_inquiry)); } /* * scsa2usb_create_arq_pkt: * Create and ARQ packet to get request sense data */ static int scsa2usb_create_arq_pkt(scsa2usb_state_t *scsa2usbp, struct scsi_address *ap) { struct buf *bp; scsa2usb_cmd_t *arq_cmd; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_create_arq_pkt: scsa2usbp: %p, ap: %p", scsa2usbp, ap); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); mutex_exit(&scsa2usbp->scsa2usb_mutex); if ((bp = scsi_alloc_consistent_buf(ap, (struct buf *)NULL, SENSE_LENGTH, B_READ, SLEEP_FUNC, NULL)) == NULL) { mutex_enter(&scsa2usbp->scsa2usb_mutex); return (USB_FAILURE); } arq_cmd = PKT2CMD(scsi_init_pkt(ap, NULL, bp, CDB_GROUP0, 1, PKT_PRIV_LEN, PKT_CONSISTENT, SLEEP_FUNC, NULL)); mutex_enter(&scsa2usbp->scsa2usb_mutex); RQ_MAKECOM_G0(arq_cmd->cmd_pkt, FLAG_SENSING | FLAG_HEAD | FLAG_NODISCON, (char)SCMD_REQUEST_SENSE, 0, (char)SENSE_LENGTH); arq_cmd->cmd_pkt->pkt_ha_private = arq_cmd; scsa2usbp->scsa2usb_arq_cmd = arq_cmd; scsa2usbp->scsa2usb_arq_bp = bp; arq_cmd->cmd_pkt->pkt_comp = NULL; bzero(bp->b_un.b_addr, SENSE_LENGTH); return (USB_SUCCESS); } /* * scsa2usb_delete_arq_pkt: * Destroy the ARQ packet */ static void scsa2usb_delete_arq_pkt(scsa2usb_state_t *scsa2usbp) { USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_delete_arq_pkt: cmd: 0x%p", scsa2usbp->scsa2usb_arq_cmd); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); if (scsa2usbp->scsa2usb_arq_cmd != NULL) { scsi_destroy_pkt(scsa2usbp->scsa2usb_arq_cmd->cmd_pkt); scsi_free_consistent_buf(scsa2usbp->scsa2usb_arq_bp); } scsa2usbp->scsa2usb_arq_cmd = NULL; scsa2usbp->scsa2usb_arq_bp = NULL; } /* * scsa2usb_complete_arq_pkt: * finish processing the arq packet */ static void scsa2usb_complete_arq_pkt(scsa2usb_state_t *scsa2usbp, struct scsi_pkt *pkt, scsa2usb_cmd_t *ssp, struct buf *bp) { scsa2usb_cmd_t *sp = pkt->pkt_ha_private; struct scsi_arq_status *arqp; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); arqp = (struct scsi_arq_status *)(ssp->cmd_pkt->pkt_scbp); arqp->sts_rqpkt_status = *((struct scsi_status *) (sp->cmd_pkt->pkt_scbp)); arqp->sts_rqpkt_reason = CMD_CMPLT; arqp->sts_rqpkt_state |= STATE_XFERRED_DATA; arqp->sts_rqpkt_statistics = arqp->sts_rqpkt_resid = 0; /* is this meaningful sense data */ if (*(bp->b_un.b_addr) != 0) { bcopy(bp->b_un.b_addr, &arqp->sts_sensedata, sp->cmd_scblen); ssp->cmd_pkt->pkt_state |= STATE_ARQ_DONE; } /* we will not sense start cmd until we receive a NOT READY */ if (arqp->sts_sensedata.es_key == KEY_NOT_READY) { scsa2usbp->scsa2usb_rcvd_not_ready = B_TRUE; } } /* * Miscellaneous functions for any command/transport */ /* * scsa2usb_open_usb_pipes: * set up a pipe policy * open usb bulk pipes (BO and CB/CBI) * open usb interrupt pipe (CBI) */ static int scsa2usb_open_usb_pipes(scsa2usb_state_t *scsa2usbp) { int rval; usb_pipe_policy_t policy; /* bulk pipe policy */ size_t sz; ASSERT(scsa2usbp); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: dip = 0x%p flag = 0x%x", scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_flags); if (!(scsa2usbp->scsa2usb_flags & SCSA2USB_FLAGS_PIPES_OPENED)) { /* * one pipe policy for all bulk pipes */ bzero(&policy, sizeof (usb_pipe_policy_t)); /* at least 2, for the normal and exceptional callbacks */ policy.pp_max_async_reqs = 1; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: opening bulk pipes"); mutex_exit(&scsa2usbp->scsa2usb_mutex); /* Open the USB bulk-in pipe */ if ((rval = usb_pipe_open(scsa2usbp->scsa2usb_dip, &scsa2usbp->scsa2usb_bulkin_ept, &policy, USB_FLAGS_SLEEP, &scsa2usbp->scsa2usb_bulkin_pipe)) != USB_SUCCESS) { mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: bulk/in pipe open " " failed rval = %d", rval); return (USB_FAILURE); } /* Open the bulk-out pipe using the same policy */ if ((rval = usb_pipe_open(scsa2usbp->scsa2usb_dip, &scsa2usbp->scsa2usb_bulkout_ept, &policy, USB_FLAGS_SLEEP, &scsa2usbp->scsa2usb_bulkout_pipe)) != USB_SUCCESS) { usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_bulkin_pipe, USB_FLAGS_SLEEP, NULL, NULL); mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_bulkin_pipe = NULL; USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: bulk/out pipe open" " failed rval = %d", rval); return (USB_FAILURE); } mutex_enter(&scsa2usbp->scsa2usb_mutex); /* open interrupt pipe for CBI protocol */ if (SCSA2USB_IS_CBI(scsa2usbp)) { mutex_exit(&scsa2usbp->scsa2usb_mutex); if ((rval = usb_pipe_open(scsa2usbp->scsa2usb_dip, &scsa2usbp->scsa2usb_intr_ept, &policy, USB_FLAGS_SLEEP, &scsa2usbp->scsa2usb_intr_pipe)) != USB_SUCCESS) { usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_bulkin_pipe, USB_FLAGS_SLEEP, NULL, NULL); usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_bulkout_pipe, USB_FLAGS_SLEEP, NULL, NULL); mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_bulkin_pipe = NULL; scsa2usbp->scsa2usb_bulkout_pipe = NULL; USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: intr pipe open" " failed rval = %d", rval); return (USB_FAILURE); } mutex_enter(&scsa2usbp->scsa2usb_mutex); } mutex_exit(&scsa2usbp->scsa2usb_mutex); /* get the max transfer size of the bulk pipe */ if (usb_pipe_get_max_bulk_transfer_size(scsa2usbp->scsa2usb_dip, &sz) == USB_SUCCESS) { mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_max_bulk_xfer_size = sz; } else { mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_max_bulk_xfer_size = DEV_BSIZE; } /* limit the xfer size */ scsa2usbp->scsa2usb_max_bulk_xfer_size = min( scsa2usbp->scsa2usb_max_bulk_xfer_size, scsa2usb_max_bulk_xfer_size); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_open_usb_pipes: max bulk transfer size = %lx", scsa2usbp->scsa2usb_max_bulk_xfer_size); /* Set the pipes opened flag */ scsa2usbp->scsa2usb_flags |= SCSA2USB_FLAGS_PIPES_OPENED; scsa2usbp->scsa2usb_pipe_state = SCSA2USB_PIPE_NORMAL; /* Set the state to NONE */ scsa2usbp->scsa2usb_pkt_state = SCSA2USB_PKT_NONE; } return (USB_SUCCESS); } /* * scsa2usb_close_usb_pipes: * close all pipes synchronously */ void scsa2usb_close_usb_pipes(scsa2usb_state_t *scsa2usbp) { usb_flags_t flags = USB_FLAGS_SLEEP; USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_close_usb_pipes: scsa2usb_state = 0x%p", scsa2usbp); ASSERT(scsa2usbp); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); if ((scsa2usbp->scsa2usb_flags & SCSA2USB_FLAGS_PIPES_OPENED) == 0) { return; } scsa2usbp->scsa2usb_pipe_state = SCSA2USB_PIPE_CLOSING; /* to avoid races, reset the flag first */ scsa2usbp->scsa2usb_flags &= ~SCSA2USB_FLAGS_PIPES_OPENED; mutex_exit(&scsa2usbp->scsa2usb_mutex); usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_bulkout_pipe, flags, NULL, NULL); usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_bulkin_pipe, flags, NULL, NULL); mutex_enter(&scsa2usbp->scsa2usb_mutex); if (SCSA2USB_IS_CBI(scsa2usbp)) { mutex_exit(&scsa2usbp->scsa2usb_mutex); usb_pipe_close(scsa2usbp->scsa2usb_dip, scsa2usbp->scsa2usb_intr_pipe, flags, NULL, NULL); mutex_enter(&scsa2usbp->scsa2usb_mutex); } scsa2usbp->scsa2usb_bulkout_pipe = NULL; scsa2usbp->scsa2usb_bulkin_pipe = NULL; scsa2usbp->scsa2usb_intr_pipe = NULL; scsa2usbp->scsa2usb_pipe_state = SCSA2USB_PIPE_NORMAL; } /* * scsa2usb_fill_up_cdb_lba: * fill up command CDBs' LBA part */ static void scsa2usb_fill_up_cdb_lba(scsa2usb_cmd_t *cmd, int lba) { /* zero cdb1, lba bits so they won't get copied in the new cdb */ cmd->cmd_cdb[SCSA2USB_LUN] &= 0xE0; cmd->cmd_cdb[SCSA2USB_LBA_0] = lba >> 24; cmd->cmd_cdb[SCSA2USB_LBA_1] = lba >> 16; cmd->cmd_cdb[SCSA2USB_LBA_2] = lba >> 8; cmd->cmd_cdb[SCSA2USB_LBA_3] = (uchar_t)lba; cmd->cmd_lba = lba; } /* * scsa2usb_fill_up_ReadCD_cdb_len: * fill up READ_CD command CDBs' len part */ static void scsa2usb_fill_up_ReadCD_cdb_len(scsa2usb_cmd_t *cmd, int len, int actual_len) { cmd->cmd_cdb[SCSA2USB_READ_CD_LEN_0] = len >> 16; cmd->cmd_cdb[SCSA2USB_READ_CD_LEN_1] = len >> 8; cmd->cmd_cdb[SCSA2USB_READ_CD_LEN_2] = (uchar_t)len; cmd->cmd_actual_len = (uchar_t)actual_len; } /* * scsa2usb_fill_up_12byte_cdb_len: * fill up generic 12-byte command CDBs' len part */ static void scsa2usb_fill_up_12byte_cdb_len(scsa2usb_cmd_t *cmd, int len, int actual_len) { cmd->cmd_cdb[6] = len >> 24; cmd->cmd_cdb[7] = len >> 16; cmd->cmd_cdb[8] = len >> 8; cmd->cmd_cdb[9] = (uchar_t)len; cmd->cmd_actual_len = (uchar_t)actual_len; } /* * scsa2usb_fill_up_cdb_len: * fill up generic 10-byte command CDBs' len part */ static void scsa2usb_fill_up_cdb_len(scsa2usb_cmd_t *cmd, int len) { cmd->cmd_cdb[SCSA2USB_LEN_0] = len >> 8; cmd->cmd_cdb[SCSA2USB_LEN_1] = (uchar_t)len; } /* * scsa2usb_read_cd_blk_size: * For SCMD_READ_CD opcode (0xbe). Figure out the * block size based on expected sector type field * definition. See MMC SCSI Specs section 6.1.15 * * Based on the value of the "expected_sector_type" * field, the block size could be different. */ static int scsa2usb_read_cd_blk_size(uchar_t expected_sector_type) { int blk_size; switch (expected_sector_type) { case READ_CD_EST_CDDA: blk_size = CDROM_BLK_2352; break; case READ_CD_EST_MODE2: blk_size = CDROM_BLK_2336; break; case READ_CD_EST_MODE2FORM2: blk_size = CDROM_BLK_2324; break; case READ_CD_EST_MODE2FORM1: case READ_CD_EST_ALLTYPE: case READ_CD_EST_MODE1: default: blk_size = CDROM_BLK_2048; } USB_DPRINTF_L4(DPRINT_MASK_SCSA, NULL, "scsa2usb_read_cd_blk_size: " "est = 0x%x blk_size = %d", expected_sector_type, blk_size); return (blk_size); } /* needed for esballoc_wait() */ /*ARGSUSED*/ static void scsa2usb_null_free(char *arg) { } static frtn_t fr = { scsa2usb_null_free, NULL }; /* * scsa2usb_bp_to_mblk: * Convert a bp to mblk_t. USBA framework understands mblk_t. */ static mblk_t * scsa2usb_bp_to_mblk(scsa2usb_state_t *scsa2usbp) { size_t size; mblk_t *mp; struct buf *bp; scsa2usb_cmd_t *cmd = PKT2CMD(scsa2usbp->scsa2usb_cur_pkt); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_bp_to_mblk: "); ASSERT(scsa2usbp->scsa2usb_cur_pkt); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); bp = cmd->cmd_bp; if (bp && (bp->b_bcount > 0)) { size = ((bp->b_bcount > cmd->cmd_xfercount) ? cmd->cmd_xfercount : bp->b_bcount); } else { return (NULL); } mp = esballoc_wait((uchar_t *)bp->b_un.b_addr + cmd->cmd_offset, size, BPRI_LO, &fr); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_bp_to_mblk: " "mp=0x%p bp=0x%p pkt=0x%p off=0x%lx sz=%lu add=0x%p", mp, (void *)bp, scsa2usbp->scsa2usb_cur_pkt, cmd->cmd_offset, bp->b_bcount - cmd->cmd_offset, bp->b_un.b_addr); mp->b_wptr += size; cmd->cmd_offset += size; return (mp); } /* * scsa2usb_handle_data_start: * Initiate the data xfer. It could be IN/OUT direction. * * Data IN: * Send out the bulk-xfer request * if rval implies STALL * clear endpoint stall and reset bulk-in pipe * handle data read in so far; set cmd->cmd_done * also adjust data xfer length accordingly * else other error * report back to transport * typically transport will call reset recovery * else (no error) * return success * * Data OUT: * Send out the bulk-xfer request * if rval implies STALL * clear endpoint stall and reset bulk-in pipe * adjust data xfer length * else other error * report back to transport * typically transport will call reset recovery * else (no error) * return success * * NOTE: We call this function only if there is xfercount. */ int scsa2usb_handle_data_start(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, usb_bulk_req_t *req) { int rval = USB_SUCCESS; uint_t ept_addr; usb_flags_t flags = USB_FLAGS_SLEEP; #ifdef SCSA2USB_BULK_ONLY_TEST usb_req_attrs_t attrs = 0; #else usb_req_attrs_t attrs = USB_ATTRS_SHORT_XFER_OK; #endif USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_data_start: BEGIN cmd = %p, req = %p", cmd, req); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); switch (cmd->cmd_dir) { case USB_EP_DIR_IN: #ifdef SCSA2USB_BULK_ONLY_TEST /* * This case occurs when the host expects to receive * more data than the device actually transfers. Hi > Di */ if (scsa2usb_test_case_5) { usb_bulk_req_t *req2; req->bulk_len = cmd->cmd_xfercount - 1; req->bulk_attributes = 0; mutex_exit(&scsa2usbp->scsa2usb_mutex); SCSA2USB_FREE_MSG(req->bulk_data); req->bulk_data = allocb_wait(req->bulk_len, BPRI_LO, STR_NOSIG, NULL); ASSERT(req->bulk_timeout); rval = usb_pipe_bulk_xfer( scsa2usbp->scsa2usb_bulkin_pipe, req, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "rval = %x", rval); req2 = scsa2usb_init_bulk_req(scsa2usbp, cmd->cmd_xfercount + 2, cmd->cmd_timeout, 0, flags); req2->bulk_len = cmd->cmd_xfercount + 2; mutex_exit(&scsa2usbp->scsa2usb_mutex); ASSERT(req2->bulk_timeout); rval = usb_pipe_bulk_xfer( scsa2usbp->scsa2usb_bulkin_pipe, req2, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "TEST 5: Hi > Di: rval = 0x%x", rval); scsa2usb_test_case_5 = 0; usb_free_bulk_req(req2); return (rval); } /* * This happens when the host expects to send data to the * device while the device intends to send data to the host. */ if (scsa2usb_test_case_8 && (cmd->cmd_cdb[0] == SCMD_READ_G1)) { USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "TEST 8: Hi <> Do: Step 2"); scsa2usb_test_mblk(scsa2usbp, B_TRUE); scsa2usb_test_case_8 = 0; return (rval); } #endif /* SCSA2USB_BULK_ONLY_TEST */ ept_addr = scsa2usbp->scsa2usb_bulkin_ept.bEndpointAddress; req->bulk_len = cmd->cmd_xfercount; req->bulk_attributes = attrs; SCSA2USB_FREE_MSG(req->bulk_data); mutex_exit(&scsa2usbp->scsa2usb_mutex); req->bulk_data = esballoc_wait( (uchar_t *)cmd->cmd_bp->b_un.b_addr + cmd->cmd_offset, req->bulk_len, BPRI_LO, &fr); ASSERT(req->bulk_timeout); rval = usb_pipe_bulk_xfer(scsa2usbp->scsa2usb_bulkin_pipe, req, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); break; case USB_EP_DIR_OUT: #ifdef SCSA2USB_BULK_ONLY_TEST /* * This happens when the host expects to receive data * from the device while the device intends to receive * data from the host. */ if (scsa2usb_test_case_10 && (cmd->cmd_cdb[0] == SCMD_WRITE_G1)) { req->bulk_len = CSW_LEN; mutex_exit(&scsa2usbp->scsa2usb_mutex); ASSERT(req->bulk_timeout); rval = usb_pipe_bulk_xfer( scsa2usbp->scsa2usb_bulkin_pipe, req, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "TEST 10: Ho <> Di: done rval = 0x%x", rval); scsa2usb_test_case_10 = 0; return (rval); } #endif /* SCSA2USB_BULK_ONLY_TEST */ req->bulk_data = scsa2usb_bp_to_mblk(scsa2usbp); if (req->bulk_data == NULL) { return (USB_FAILURE); } #ifdef SCSA2USB_BULK_ONLY_TEST if (scsa2usb_test_case_11) { /* * Host expects to send data to the device and * device doesn't expect to receive any data */ USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "TEST 11: Ho > Do"); scsa2usb_test_mblk(scsa2usbp, B_FALSE); scsa2usb_test_case_11 = 0; } #endif /* SCSA2USB_BULK_ONLY_TEST */ ept_addr = scsa2usbp->scsa2usb_bulkout_ept.bEndpointAddress; req->bulk_len = req->bulk_data->b_wptr - req->bulk_data->b_rptr; req->bulk_timeout = scsa2usb_bulk_timeout(cmd->cmd_timeout); mutex_exit(&scsa2usbp->scsa2usb_mutex); ASSERT(req->bulk_timeout); rval = usb_pipe_bulk_xfer(scsa2usbp->scsa2usb_bulkout_pipe, req, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); break; } USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_data_start: rval=%d cr=%d", rval, req->bulk_completion_reason); if (rval != USB_SUCCESS) { /* Handle Errors now */ if (req->bulk_completion_reason == USB_CR_STALL) { if (cmd->cmd_dir == USB_EP_DIR_IN) { (void) scsa2usb_clear_ept_stall( scsa2usbp, ept_addr, scsa2usbp-> scsa2usb_bulkin_pipe, "bulk-in"); } else { (void) scsa2usb_clear_ept_stall( scsa2usbp, ept_addr, scsa2usbp-> scsa2usb_bulkout_pipe, "bulk-out"); } } /* no more data to transfer after this */ cmd->cmd_done = 1; } USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_data_start: END %s data rval = %d", (cmd->cmd_dir == USB_EP_DIR_IN) ? "bulk-in" : "bulk-out", rval); return (rval); } /* * scsa2usb_handle_data_done: * This function handles the completion of the data xfer. * It also massages the inquiry data. This function may * also be called after a stall. */ void scsa2usb_handle_data_done(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd, usb_bulk_req_t *req) { struct buf *bp = cmd->cmd_bp; struct scsi_pkt *pkt = scsa2usbp->scsa2usb_cur_pkt; mblk_t *data = req->bulk_data; int len = data ? (data->b_wptr - data->b_rptr) : 0; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_handle_data_done:\n\tcmd = 0x%p data = 0x%p len = 0x%x", cmd, data, len); cmd->cmd_resid_xfercount = cmd->cmd_xfercount - len; if (len) { uchar_t *p; scsa2usb_read_cap_t *cap; switch (cmd->cmd_cdb[SCSA2USB_OPCODE]) { case SCMD_INQUIRY: /* * cache a copy of the inquiry data for our own use * but ensure that we have at least up to * inq_revision, inq_serial is not required. * ignore inquiry data returned for inquiry commands * with SCSI-3 EVPD, CmdDt bits set. */ if (((cmd->cmd_cdb[SCSA2USB_LUN] & 0x1f) == 0) && (len >= SCSA2USB_MAX_INQ_LEN)) { bzero(&scsa2usbp->scsa2usb_lun_inquiry [pkt->pkt_address.a_lun], sizeof (struct scsi_inquiry)); bcopy(data->b_rptr, &scsa2usbp->scsa2usb_lun_inquiry [pkt->pkt_address.a_lun], len); } USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsi inquiry type = 0x%x", scsa2usbp->scsa2usb_lun_inquiry [pkt->pkt_address.a_lun].inq_dtype); cmd->cmd_done = 1; goto handle_data; case SCMD_READ_CAPACITY: cap = (scsa2usb_read_cap_t *)data->b_rptr; /* Figure out the logical block size */ if ((len >= sizeof (struct scsa2usb_read_cap)) && (req->bulk_completion_reason == USB_CR_OK)) { scsa2usbp-> scsa2usb_lbasize[pkt->pkt_address.a_lun] = SCSA2USB_MK_32BIT( cap->scsa2usb_read_cap_blen3, cap->scsa2usb_read_cap_blen2, cap->scsa2usb_read_cap_blen1, cap->scsa2usb_read_cap_blen0); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "lbasize=%d", scsa2usbp-> scsa2usb_lbasize[pkt->pkt_address.a_lun]); } cmd->cmd_done = 1; goto handle_data; case SCMD_REQUEST_SENSE: p = data->b_rptr; USB_DPRINTF_L2(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "cdb: %x rqsense: " "%x %x %x %x %x %x %x %x %x %x\n\t" "%x %x %x %x %x %x %x %x %x %x", cmd->cmd_cdb[0], p[0], p[1], p[2], p[3], p[4], p[5], p[6], p[7], p[8], p[9], p[10], p[11], p[12], p[13], p[14], p[15], p[16], p[17], p[18], p[19]); scsa2usbp->scsa2usb_last_cmd.status = p[2]; cmd->cmd_done = 1; /* FALLTHROUGH */ default: handle_data: if (bp && len && (cmd->cmd_dir == USB_EP_DIR_IN)) { /* * we don't have to copy the data, the * data pointers for the mblk_t for * the bulk-in xfer points to the * struct buf * data. */ cmd->cmd_offset += len; } USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "len = 0x%x total = 0x%lx", len, cmd->cmd_total_xfercount); /* * update total_xfercount now but it may be * adjusted after receiving the residue */ cmd->cmd_total_xfercount -= len; if ((req->bulk_completion_reason != USB_CR_OK) || (cmd->cmd_resid_xfercount != 0) || (cmd->cmd_total_xfercount == 0)) { /* set pkt_resid to total to be sure */ pkt->pkt_resid = cmd->cmd_total_xfercount; cmd->cmd_done = 1; } break; } } else { if (cmd->cmd_dir == USB_EP_DIR_OUT) { if (cmd->cmd_total_xfercount == 0) { cmd->cmd_done = 1; } } } } /* * scsa2usb_init_bulk_req: * Allocate (synchronously) and fill in a bulk-request */ usb_bulk_req_t * scsa2usb_init_bulk_req(scsa2usb_state_t *scsa2usbp, size_t length, uint_t timeout, usb_req_attrs_t attrs, usb_flags_t flags) { usb_bulk_req_t *req; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); req = usb_alloc_bulk_req(scsa2usbp->scsa2usb_dip, length, flags | USB_FLAGS_SLEEP); req->bulk_len = length; /* xfer length */ req->bulk_timeout = scsa2usb_bulk_timeout(timeout); /* xfer timeout */ req->bulk_attributes = attrs; /* xfer attrs */ req->bulk_client_private = (usb_opaque_t)scsa2usbp; /* statep */ return (req); } /* * scsa2usb_bulk_timeout: * ensure that bulk requests do not have infinite timeout values */ int scsa2usb_bulk_timeout(int timeout) { return ((timeout == 0) ? scsa2usb_long_timeout : timeout); } /* * scsa2usb_clear_ept_stall: * clear endpoint stall and reset pipes */ int scsa2usb_clear_ept_stall(scsa2usb_state_t *scsa2usbp, uint_t ept_addr, usb_pipe_handle_t ph, char *what) { int rval; dev_info_t *dip = scsa2usbp->scsa2usb_dip; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); if (!(SCSA2USB_DEVICE_ACCESS_OK(scsa2usbp))) { return (USB_FAILURE); } mutex_exit(&scsa2usbp->scsa2usb_mutex); rval = usb_clr_feature(dip, USB_DEV_REQ_RCPT_EP, 0, ept_addr, USB_FLAGS_SLEEP, NULL, NULL); usb_pipe_reset(dip, ph, USB_FLAGS_SLEEP, NULL, NULL); mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_clear_ept_stall: on %s: ept = 0x%x rval = %d", what, ept_addr, rval); return (rval); } /* * scsa2usb_pkt_completion: * Handle pkt completion. */ static void scsa2usb_pkt_completion(scsa2usb_state_t *scsa2usbp, struct scsi_pkt *pkt) { scsa2usb_cmd_t *cmd = PKT2CMD(pkt); ASSERT(pkt); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_pkt_completion:\n\tscsa2usbp = 0x%p " "reason=%d, status=%d state=0x%x stats=0x%x resid=0x%lx", scsa2usbp, pkt->pkt_reason, *(pkt->pkt_scbp), pkt->pkt_state, pkt->pkt_statistics, pkt->pkt_resid); if (pkt->pkt_reason == CMD_CMPLT) { pkt->pkt_state |= STATE_GOT_BUS | STATE_GOT_TARGET | STATE_SENT_CMD | STATE_GOT_STATUS; if (cmd->cmd_xfercount) { pkt->pkt_state |= STATE_XFERRED_DATA; } } else { pkt->pkt_state |= STATE_GOT_BUS | STATE_GOT_TARGET | STATE_SENT_CMD; } /* * don't zap the current state when in panic as this will * make debugging harder */ if ((scsa2usbp->scsa2usb_cur_pkt == pkt) && !ddi_in_panic()) { SCSA2USB_RESET_CUR_PKT(scsa2usbp); /* save the last command */ bcopy(pkt->pkt_cdbp, scsa2usbp->scsa2usb_last_cmd.cdb, sizeof (scsa2usbp->scsa2usb_last_cmd.cdb)); /* reset the scsa2usb_last_cmd.status value */ if ((pkt->pkt_cdbp[0] != SCMD_REQUEST_SENSE) && (pkt->pkt_cdbp[0] != SCMD_INQUIRY)) { scsa2usbp->scsa2usb_last_cmd.status = 0; } /* * set pkt state to NONE *before* calling back as the target * driver will immediately submit the next packet */ scsa2usbp->scsa2usb_pkt_state = SCSA2USB_PKT_NONE; } if (pkt->pkt_comp) { mutex_exit(&scsa2usbp->scsa2usb_mutex); pkt->pkt_comp(pkt); mutex_enter(&scsa2usbp->scsa2usb_mutex); } } /* * Even handling functions: * * scsa2usb_reconnect_event_cb: * event handling */ static int scsa2usb_reconnect_event_cb(dev_info_t *dip) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); dev_info_t *cdip; int circ; int rval = USB_SUCCESS; ASSERT(scsa2usbp != NULL); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_reconnect_event_cb: dip = 0x%p", dip); scsa2usb_restore_device_state(dip, scsa2usbp); USB_DPRINTF_L0(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "Reinserted device is accessible again."); ndi_devi_enter(dip, &circ); for (cdip = ddi_get_child(dip); cdip; ) { dev_info_t *next = ddi_get_next_sibling(cdip); mutex_enter(&DEVI(cdip)->devi_lock); DEVI_SET_DEVICE_REINSERTED(cdip); mutex_exit(&DEVI(cdip)->devi_lock); cdip = next; } ndi_devi_exit(dip, circ); /* stop suppressing warnings */ mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_warning_given = B_FALSE; mutex_exit(&scsa2usbp->scsa2usb_mutex); if (scsa2usbp->scsa2usb_ugen_hdl) { rval = usb_ugen_reconnect_ev_cb( scsa2usbp->scsa2usb_ugen_hdl); } return (rval); } /* * scsa2usb_all_waitQs_empty: * check if all waitQs empty */ static int scsa2usb_all_waitQs_empty(scsa2usb_state_t *scsa2usbp) { uint_t lun; for (lun = 0; lun < SCSA2USB_MAX_LUNS; lun++) { if (usba_list_entry_count( &scsa2usbp->scsa2usb_waitQ[lun])) { return (USB_FAILURE); } } return (USB_SUCCESS); } /* * scsa2usb_disconnect_event_cb: * callback for disconnect events */ static int scsa2usb_disconnect_event_cb(dev_info_t *dip) { scsa2usb_state_t *scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); dev_info_t *cdip; int circ, i; int rval = USB_SUCCESS; ASSERT(scsa2usbp != NULL); USB_DPRINTF_L4(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_disconnect_event_cb: dip = 0x%p", dip); mutex_enter(&scsa2usbp->scsa2usb_mutex); scsa2usbp->scsa2usb_dev_state = USB_DEV_DISCONNECTED; /* * wait till the work thread is done, carry on regardless * if not. */ for (i = 0; i < SCSA2USB_DRAIN_TIMEOUT; i++) { if ((scsa2usbp->scsa2usb_work_thread_id == NULL) && (scsa2usbp->scsa2usb_cur_pkt == NULL) && (scsa2usb_all_waitQs_empty(scsa2usbp) == USB_SUCCESS)) { break; } mutex_exit(&scsa2usbp->scsa2usb_mutex); delay(drv_usectohz(1000000)); mutex_enter(&scsa2usbp->scsa2usb_mutex); } mutex_exit(&scsa2usbp->scsa2usb_mutex); ndi_devi_enter(dip, &circ); for (cdip = ddi_get_child(dip); cdip; ) { dev_info_t *next = ddi_get_next_sibling(cdip); mutex_enter(&DEVI(cdip)->devi_lock); DEVI_SET_DEVICE_REMOVED(cdip); mutex_exit(&DEVI(cdip)->devi_lock); cdip = next; } ndi_devi_exit(dip, circ); if (scsa2usbp->scsa2usb_ugen_hdl) { rval = usb_ugen_disconnect_ev_cb( scsa2usbp->scsa2usb_ugen_hdl); } return (rval); } /* * PM support * * scsa2usb_create_pm_components: * create the pm components required for power management * no mutex is need when calling USBA interfaces */ static void scsa2usb_create_pm_components(dev_info_t *dip, scsa2usb_state_t *scsa2usbp) { scsa2usb_power_t *pm; uint_t pwr_states; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); USB_DPRINTF_L4(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_create_pm_components: dip = 0x%p, scsa2usbp = 0x%p", dip, scsa2usbp); /* * determine if this device is on the blacklist * or if a conf file entry has disabled PM */ if ((scsa2usbp->scsa2usb_attrs & SCSA2USB_ATTRS_PM) == 0) { USB_DPRINTF_L2(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "device cannot be power managed"); return; } /* Allocate the PM state structure */ pm = kmem_zalloc(sizeof (scsa2usb_power_t), KM_SLEEP); scsa2usbp->scsa2usb_pm = pm; pm->scsa2usb_current_power = USB_DEV_OS_FULL_PWR; mutex_exit(&scsa2usbp->scsa2usb_mutex); if (usb_create_pm_components(dip, &pwr_states) == USB_SUCCESS) { if (usb_handle_remote_wakeup(dip, USB_REMOTE_WAKEUP_ENABLE) == USB_SUCCESS) { pm->scsa2usb_wakeup_enabled = 1; } mutex_enter(&scsa2usbp->scsa2usb_mutex); pm->scsa2usb_pwr_states = (uint8_t)pwr_states; scsa2usb_raise_power(scsa2usbp); mutex_exit(&scsa2usbp->scsa2usb_mutex); } mutex_enter(&scsa2usbp->scsa2usb_mutex); } /* * scsa2usb_raise_power: * check if the device is using full power or not */ static void scsa2usb_raise_power(scsa2usb_state_t *scsa2usbp) { USB_DPRINTF_L4(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_raise_power:"); ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); if (scsa2usbp->scsa2usb_pm) { scsa2usb_pm_busy_component(scsa2usbp); if (scsa2usbp->scsa2usb_pm->scsa2usb_current_power != USB_DEV_OS_FULL_PWR) { mutex_exit(&scsa2usbp->scsa2usb_mutex); (void) pm_raise_power(scsa2usbp->scsa2usb_dip, 0, USB_DEV_OS_FULL_PWR); mutex_enter(&scsa2usbp->scsa2usb_mutex); } } } /* * functions to handle power transition for OS levels 0 -> 3 */ static int scsa2usb_pwrlvl0(scsa2usb_state_t *scsa2usbp) { int rval; switch (scsa2usbp->scsa2usb_dev_state) { case USB_DEV_ONLINE: /* Deny the powerdown request if the device is busy */ if (scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy != 0) { return (USB_FAILURE); } /* * stop polling on interrupt pipe */ scsa2usb_cbi_stop_intr_polling(scsa2usbp); /* Issue USB D3 command to the device here */ rval = usb_set_device_pwrlvl3(scsa2usbp->scsa2usb_dip); ASSERT(rval == USB_SUCCESS); scsa2usbp->scsa2usb_dev_state = USB_DEV_PWRED_DOWN; /* FALLTHRU */ case USB_DEV_DISCONNECTED: case USB_DEV_SUSPENDED: case USB_DEV_PWRED_DOWN: default: scsa2usbp->scsa2usb_pm->scsa2usb_current_power = USB_DEV_OS_PWR_OFF; return (USB_SUCCESS); } } static int scsa2usb_pwrlvl1(scsa2usb_state_t *scsa2usbp) { int rval; /* Issue USB D2 command to the device here */ rval = usb_set_device_pwrlvl2(scsa2usbp->scsa2usb_dip); ASSERT(rval == USB_SUCCESS); return (DDI_FAILURE); } static int scsa2usb_pwrlvl2(scsa2usb_state_t *scsa2usbp) { int rval; /* Issue USB D1 command to the device here */ rval = usb_set_device_pwrlvl1(scsa2usbp->scsa2usb_dip); ASSERT(rval == USB_SUCCESS); return (DDI_FAILURE); } static int scsa2usb_pwrlvl3(scsa2usb_state_t *scsa2usbp) { int rval; /* * PM framework tries to put us in full power * during system shutdown. If we are disconnected * return success anyways */ if (scsa2usbp->scsa2usb_dev_state != USB_DEV_DISCONNECTED) { /* Issue USB D0 command to the device here */ rval = usb_set_device_pwrlvl0(scsa2usbp->scsa2usb_dip); ASSERT(rval == USB_SUCCESS); scsa2usbp->scsa2usb_dev_state = USB_DEV_ONLINE; } scsa2usbp->scsa2usb_pm->scsa2usb_current_power = USB_DEV_OS_FULL_PWR; return (DDI_SUCCESS); } /* * scsa2usb_power: * power entry point */ /* ARGSUSED */ static int scsa2usb_power(dev_info_t *dip, int comp, int level) { scsa2usb_state_t *scsa2usbp; scsa2usb_power_t *pm; int rval = DDI_FAILURE; scsa2usbp = ddi_get_soft_state(scsa2usb_statep, ddi_get_instance(dip)); USB_DPRINTF_L3(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_power: Begin scsa2usbp (%p): level = %d", scsa2usbp, level); mutex_enter(&scsa2usbp->scsa2usb_mutex); if (SCSA2USB_BUSY(scsa2usbp)) { USB_DPRINTF_L2(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_power: busy"); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } pm = scsa2usbp->scsa2usb_pm; if (pm == NULL) { USB_DPRINTF_L2(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_power: pm NULL"); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } /* check if we are transitioning to a legal power level */ if (USB_DEV_PWRSTATE_OK(pm->scsa2usb_pwr_states, level)) { USB_DPRINTF_L2(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_power: illegal power level = %d " "pwr_states: %x", level, pm->scsa2usb_pwr_states); mutex_exit(&scsa2usbp->scsa2usb_mutex); return (rval); } switch (level) { case USB_DEV_OS_PWR_OFF : rval = scsa2usb_pwrlvl0(scsa2usbp); break; case USB_DEV_OS_PWR_1 : rval = scsa2usb_pwrlvl1(scsa2usbp); break; case USB_DEV_OS_PWR_2 : rval = scsa2usb_pwrlvl2(scsa2usbp); break; case USB_DEV_OS_FULL_PWR : rval = scsa2usb_pwrlvl3(scsa2usbp); break; } mutex_exit(&scsa2usbp->scsa2usb_mutex); return ((rval == USB_SUCCESS) ? DDI_SUCCESS : DDI_FAILURE); } static void scsa2usb_pm_busy_component(scsa2usb_state_t *scsa2usbp) { ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); if (scsa2usbp->scsa2usb_pm) { scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy++; USB_DPRINTF_L4(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_pm_busy_component: %d", scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy); mutex_exit(&scsa2usbp->scsa2usb_mutex); if (pm_busy_component(scsa2usbp->scsa2usb_dip, 0) != DDI_SUCCESS) { mutex_enter(&scsa2usbp->scsa2usb_mutex); ASSERT(scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy > 0); scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy--; USB_DPRINTF_L2(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_pm_busy_component failed: %d", scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy); return; } mutex_enter(&scsa2usbp->scsa2usb_mutex); } } /* * scsa2usb_pm_idle_component: * idles the device */ static void scsa2usb_pm_idle_component(scsa2usb_state_t *scsa2usbp) { ASSERT(!mutex_owned(&scsa2usbp->scsa2usb_mutex)); if (scsa2usbp->scsa2usb_pm) { if (pm_idle_component(scsa2usbp->scsa2usb_dip, 0) == DDI_SUCCESS) { mutex_enter(&scsa2usbp->scsa2usb_mutex); ASSERT(scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy > 0); scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy--; USB_DPRINTF_L4(DPRINT_MASK_PM, scsa2usbp->scsa2usb_log_handle, "scsa2usb_pm_idle_component: %d", scsa2usbp->scsa2usb_pm->scsa2usb_pm_busy); mutex_exit(&scsa2usbp->scsa2usb_mutex); } } } #ifdef DEBUG /* * scsa2usb_print_cdb: * prints CDB */ void scsa2usb_print_cdb(scsa2usb_state_t *scsa2usbp, scsa2usb_cmd_t *cmd) { uchar_t *c = (uchar_t *)&cmd->cmd_cdb; USB_DPRINTF_L3(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "cmd = 0x%p opcode=%s " "cdb: %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x", cmd, scsi_cname(cmd->cmd_cdb[SCSA2USB_OPCODE], scsa2usb_cmds), c[0], c[1], c[2], c[3], c[4], c[5], c[6], c[7], c[8], c[9], c[10], c[11], c[12], c[13], c[14], c[15]); } #endif /* DEBUG */ #ifdef SCSA2USB_BULK_ONLY_TEST /* * scsa2usb_test_mblk: * This function sends a dummy data mblk_t to simulate * the following test cases: 5 and 11. */ static void scsa2usb_test_mblk(scsa2usb_state_t *scsa2usbp, boolean_t large) { int i, rval; size_t len; usb_flags_t flags = USB_FLAGS_SLEEP; usb_bulk_req_t *req; ASSERT(mutex_owned(&scsa2usbp->scsa2usb_mutex)); /* should we create a larger mblk? */ len = (large == B_TRUE) ? DEV_BSIZE : USB_BULK_CBWCMD_LEN; req = scsa2usb_init_bulk_req(scsa2usbp, len, SCSA2USB_BULK_PIPE_TIMEOUT, 0, flags); /* fill up the data mblk */ for (i = 0; i < len; i++) { *req->bulk_data->b_wptr++ = (uchar_t)i; } mutex_exit(&scsa2usbp->scsa2usb_mutex); ASSERT(req->bulk_timeout); rval = usb_pipe_bulk_xfer(scsa2usbp->scsa2usb_bulkout_pipe, req, flags); mutex_enter(&scsa2usbp->scsa2usb_mutex); USB_DPRINTF_L1(DPRINT_MASK_SCSA, scsa2usbp->scsa2usb_log_handle, "scsa2usb_test_mblk: Sent Data Out rval = 0x%x", rval); usb_free_bulk_req(req); } #endif /* SCSA2USB_BULK_ONLY_TEST */