/* * 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 2009 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* * USBA: Solaris USB Architecture support for the hub * including root hub * Most of the code for hubd resides in this file and * is shared between the HCD root hub support and hubd */ #define USBA_FRAMEWORK #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * External functions */ extern boolean_t consconfig_console_is_ready(void); /* * Prototypes for static functions */ static int usba_hubdi_bus_ctl( dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t op, void *arg, void *result); static int usba_hubdi_map_fault( dev_info_t *dip, dev_info_t *rdip, struct hat *hat, struct seg *seg, caddr_t addr, struct devpage *dp, pfn_t pfn, uint_t prot, uint_t lock); static int hubd_busop_get_eventcookie(dev_info_t *dip, dev_info_t *rdip, char *eventname, ddi_eventcookie_t *cookie); static int hubd_busop_add_eventcall(dev_info_t *dip, dev_info_t *rdip, ddi_eventcookie_t cookie, void (*callback)(dev_info_t *dip, ddi_eventcookie_t cookie, void *arg, void *bus_impldata), void *arg, ddi_callback_id_t *cb_id); static int hubd_busop_remove_eventcall(dev_info_t *dip, ddi_callback_id_t cb_id); static int hubd_bus_config(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg, dev_info_t **child); static int hubd_bus_unconfig(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg); static int hubd_bus_power(dev_info_t *dip, void *impl_arg, pm_bus_power_op_t op, void *arg, void *result); static usb_port_t hubd_get_port_num(hubd_t *, struct devctl_iocdata *); static dev_info_t *hubd_get_child_dip(hubd_t *, usb_port_t); static uint_t hubd_cfgadm_state(hubd_t *, usb_port_t); static int hubd_toggle_port(hubd_t *, usb_port_t); static void hubd_register_cpr_callback(hubd_t *); static void hubd_unregister_cpr_callback(hubd_t *); /* * Busops vector for USB HUB's */ struct bus_ops usba_hubdi_busops = { BUSO_REV, nullbusmap, /* bus_map */ NULL, /* bus_get_intrspec */ NULL, /* bus_add_intrspec */ NULL, /* bus_remove_intrspec */ usba_hubdi_map_fault, /* bus_map_fault */ ddi_dma_map, /* bus_dma_map */ ddi_dma_allochdl, ddi_dma_freehdl, ddi_dma_bindhdl, ddi_dma_unbindhdl, ddi_dma_flush, ddi_dma_win, ddi_dma_mctl, /* bus_dma_ctl */ usba_hubdi_bus_ctl, /* bus_ctl */ ddi_bus_prop_op, /* bus_prop_op */ hubd_busop_get_eventcookie, hubd_busop_add_eventcall, hubd_busop_remove_eventcall, NULL, /* bus_post_event */ NULL, /* bus_intr_ctl */ hubd_bus_config, /* bus_config */ hubd_bus_unconfig, /* bus_unconfig */ NULL, /* bus_fm_init */ NULL, /* bus_fm_fini */ NULL, /* bus_fm_access_enter */ NULL, /* bus_fm_access_exit */ hubd_bus_power /* bus_power */ }; /* * local variables */ static kmutex_t usba_hubdi_mutex; /* protects USBA HUB data structures */ static usba_list_entry_t usba_hubdi_list; usb_log_handle_t hubdi_log_handle; uint_t hubdi_errlevel = USB_LOG_L4; uint_t hubdi_errmask = (uint_t)-1; uint8_t hubdi_min_pm_threshold = 5; /* seconds */ uint8_t hubdi_reset_delay = 20; /* seconds */ /* * initialize private data */ void usba_hubdi_initialization() { hubdi_log_handle = usb_alloc_log_hdl(NULL, "hubdi", &hubdi_errlevel, &hubdi_errmask, NULL, 0); USB_DPRINTF_L4(DPRINT_MASK_HUBDI, hubdi_log_handle, "usba_hubdi_initialization"); mutex_init(&usba_hubdi_mutex, NULL, MUTEX_DRIVER, NULL); usba_init_list(&usba_hubdi_list, NULL, NULL); } void usba_hubdi_destroy() { USB_DPRINTF_L4(DPRINT_MASK_HUBDI, hubdi_log_handle, "usba_hubdi_destroy"); mutex_destroy(&usba_hubdi_mutex); usba_destroy_list(&usba_hubdi_list); usb_free_log_hdl(hubdi_log_handle); } /* * Called by an HUB to attach an instance of the driver * make this instance known to USBA * the HUB should initialize usba_hubdi structure prior * to calling this interface */ int usba_hubdi_register(dev_info_t *dip, uint_t flags) { usba_hubdi_t *hubdi = kmem_zalloc(sizeof (usba_hubdi_t), KM_SLEEP); usba_device_t *usba_device = usba_get_usba_device(dip); USB_DPRINTF_L4(DPRINT_MASK_HUBDI, hubdi_log_handle, "usba_hubdi_register: %s", ddi_node_name(dip)); hubdi->hubdi_dip = dip; hubdi->hubdi_flags = flags; usba_device->usb_hubdi = hubdi; /* * add this hubdi instance to the list of known hubdi's */ usba_init_list(&hubdi->hubdi_list, (usb_opaque_t)hubdi, usba_hcdi_get_hcdi(usba_device->usb_root_hub_dip)-> hcdi_iblock_cookie); mutex_enter(&usba_hubdi_mutex); usba_add_to_list(&usba_hubdi_list, &hubdi->hubdi_list); mutex_exit(&usba_hubdi_mutex); return (DDI_SUCCESS); } /* * Called by an HUB to detach an instance of the driver */ int usba_hubdi_unregister(dev_info_t *dip) { usba_device_t *usba_device = usba_get_usba_device(dip); usba_hubdi_t *hubdi = usba_device->usb_hubdi; USB_DPRINTF_L4(DPRINT_MASK_HUBDI, hubdi_log_handle, "usba_hubdi_unregister: %s", ddi_node_name(dip)); mutex_enter(&usba_hubdi_mutex); (void) usba_rm_from_list(&usba_hubdi_list, &hubdi->hubdi_list); mutex_exit(&usba_hubdi_mutex); usba_destroy_list(&hubdi->hubdi_list); kmem_free(hubdi, sizeof (usba_hubdi_t)); return (DDI_SUCCESS); } /* * misc bus routines currently not used */ /*ARGSUSED*/ static int usba_hubdi_map_fault(dev_info_t *dip, dev_info_t *rdip, struct hat *hat, struct seg *seg, caddr_t addr, struct devpage *dp, pfn_t pfn, uint_t prot, uint_t lock) { return (DDI_FAILURE); } /* * root hub support. the root hub uses the same devi as the HCD */ int usba_hubdi_bind_root_hub(dev_info_t *dip, uchar_t *root_hub_config_descriptor, size_t config_length, usb_dev_descr_t *root_hub_device_descriptor) { usba_device_t *usba_device; usba_hcdi_t *hcdi = usba_hcdi_get_hcdi(dip); hubd_t *root_hubd; usb_pipe_handle_t ph = NULL; dev_info_t *child = ddi_get_child(dip); if (ndi_prop_create_boolean(DDI_DEV_T_NONE, dip, "root-hub") != NDI_SUCCESS) { return (USB_FAILURE); } usba_add_root_hub(dip); root_hubd = kmem_zalloc(sizeof (hubd_t), KM_SLEEP); /* * create and initialize a usba_device structure */ usba_device = usba_alloc_usba_device(dip); mutex_enter(&usba_device->usb_mutex); usba_device->usb_hcdi_ops = hcdi->hcdi_ops; usba_device->usb_cfg = root_hub_config_descriptor; usba_device->usb_cfg_length = config_length; usba_device->usb_dev_descr = root_hub_device_descriptor; usba_device->usb_port = 1; usba_device->usb_addr = ROOT_HUB_ADDR; usba_device->usb_root_hubd = root_hubd; usba_device->usb_cfg_array = kmem_zalloc(sizeof (uchar_t *), KM_SLEEP); usba_device->usb_cfg_array_length = sizeof (uchar_t *); usba_device->usb_cfg_array_len = kmem_zalloc(sizeof (uint16_t), KM_SLEEP); usba_device->usb_cfg_array_len_length = sizeof (uint16_t); usba_device->usb_cfg_array[0] = root_hub_config_descriptor; usba_device->usb_cfg_array_len[0] = sizeof (root_hub_config_descriptor); usba_device->usb_cfg_str_descr = kmem_zalloc(sizeof (uchar_t *), KM_SLEEP); usba_device->usb_n_cfgs = 1; usba_device->usb_n_ifs = 1; usba_device->usb_dip = dip; usba_device->usb_client_flags = kmem_zalloc( usba_device->usb_n_ifs * USBA_CLIENT_FLAG_SIZE, KM_SLEEP); usba_device->usb_client_attach_list = kmem_zalloc( usba_device->usb_n_ifs * sizeof (*usba_device->usb_client_attach_list), KM_SLEEP); usba_device->usb_client_ev_cb_list = kmem_zalloc( usba_device->usb_n_ifs * sizeof (*usba_device->usb_client_ev_cb_list), KM_SLEEP); /* * The bDeviceProtocol field of root hub device specifies, * whether root hub is a High or Full speed usb device. */ if (root_hub_device_descriptor->bDeviceProtocol) { usba_device->usb_port_status = USBA_HIGH_SPEED_DEV; } else { usba_device->usb_port_status = USBA_FULL_SPEED_DEV; } mutex_exit(&usba_device->usb_mutex); usba_set_usba_device(dip, usba_device); /* * For the root hub the default pipe is not yet open */ if (usb_pipe_open(dip, NULL, NULL, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, &ph) != USB_SUCCESS) { goto fail; } /* * kill off all OBP children, they may not be fully * enumerated */ while (child) { dev_info_t *next = ddi_get_next_sibling(child); (void) ddi_remove_child(child, 0); child = next; } /* * "attach" the root hub driver */ if (usba_hubdi_attach(dip, DDI_ATTACH) != DDI_SUCCESS) { goto fail; } return (USB_SUCCESS); fail: (void) ndi_prop_remove(DDI_DEV_T_NONE, dip, "root-hub"); usba_rem_root_hub(dip); if (ph) { usb_pipe_close(dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); } kmem_free(usba_device->usb_cfg_array, usba_device->usb_cfg_array_length); kmem_free(usba_device->usb_cfg_array_len, usba_device->usb_cfg_array_len_length); kmem_free(usba_device->usb_cfg_str_descr, sizeof (uchar_t *)); usba_free_usba_device(usba_device); usba_set_usba_device(dip, NULL); if (root_hubd) { kmem_free(root_hubd, sizeof (hubd_t)); } return (USB_FAILURE); } int usba_hubdi_unbind_root_hub(dev_info_t *dip) { usba_device_t *usba_device; /* was root hub attached? */ if (!(usba_is_root_hub(dip))) { /* return success anyway */ return (USB_SUCCESS); } /* * usba_hubdi_detach also closes the default pipe * and removes properties so there is no need to * do it here */ if (usba_hubdi_detach(dip, DDI_DETACH) != DDI_SUCCESS) { if (DEVI_IS_ATTACHING(dip)) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "failure to unbind root hub after attach failure"); } return (USB_FAILURE); } usba_device = usba_get_usba_device(dip); kmem_free(usba_device->usb_root_hubd, sizeof (hubd_t)); kmem_free(usba_device->usb_cfg_array, usba_device->usb_cfg_array_length); kmem_free(usba_device->usb_cfg_array_len, usba_device->usb_cfg_array_len_length); kmem_free(usba_device->usb_cfg_str_descr, sizeof (uchar_t *)); usba_free_usba_device(usba_device); usba_rem_root_hub(dip); (void) ndi_prop_remove(DDI_DEV_T_NONE, dip, "root-hub"); return (USB_SUCCESS); } /* * Actual Hub Driver support code: * shared by root hub and non-root hubs */ #include /* Debugging support */ uint_t hubd_errlevel = USB_LOG_L4; uint_t hubd_errmask = (uint_t)DPRINT_MASK_ALL; uint_t hubd_instance_debug = (uint_t)-1; static uint_t hubdi_bus_config_debug = 0; _NOTE(DATA_READABLE_WITHOUT_LOCK(hubd_errlevel)) _NOTE(DATA_READABLE_WITHOUT_LOCK(hubd_errmask)) _NOTE(DATA_READABLE_WITHOUT_LOCK(hubd_instance_debug)) _NOTE(SCHEME_PROTECTS_DATA("unique", msgb)) _NOTE(SCHEME_PROTECTS_DATA("unique", dev_info)) /* * local variables: * * Amount of time to wait between resetting the port and accessing * the device. The value is in microseconds. */ static uint_t hubd_device_delay = 1000000; /* * enumeration retry */ #define HUBD_PORT_RETRY 5 static uint_t hubd_retry_enumerate = HUBD_PORT_RETRY; /* * Stale hotremoved device cleanup delay */ #define HUBD_STALE_DIP_CLEANUP_DELAY 5000000 static uint_t hubd_dip_cleanup_delay = HUBD_STALE_DIP_CLEANUP_DELAY; /* * retries for USB suspend and resume */ #define HUBD_SUS_RES_RETRY 2 void *hubd_statep; /* * prototypes */ static int hubd_cleanup(dev_info_t *dip, hubd_t *hubd); static int hubd_check_ports(hubd_t *hubd); static int hubd_open_intr_pipe(hubd_t *hubd); static void hubd_start_polling(hubd_t *hubd, int always); static void hubd_stop_polling(hubd_t *hubd); static void hubd_close_intr_pipe(hubd_t *hubd); static void hubd_read_cb(usb_pipe_handle_t pipe, usb_intr_req_t *req); static void hubd_exception_cb(usb_pipe_handle_t pipe, usb_intr_req_t *req); static void hubd_hotplug_thread(void *arg); static void hubd_reset_thread(void *arg); static int hubd_create_child(dev_info_t *dip, hubd_t *hubd, usba_device_t *usba_device, usb_port_status_t port_status, usb_port_t port, int iteration); static int hubd_delete_child(hubd_t *hubd, usb_port_t port, uint_t flag, boolean_t retry); static int hubd_get_hub_descriptor(hubd_t *hubd); static int hubd_get_hub_status_words(hubd_t *hubd, uint16_t *status); static int hubd_reset_port(hubd_t *hubd, usb_port_t port); static int hubd_get_hub_status(hubd_t *hubd); static int hubd_handle_port_connect(hubd_t *hubd, usb_port_t port); static int hubd_disable_port(hubd_t *hubd, usb_port_t port); static int hubd_enable_port(hubd_t *hubd, usb_port_t port); static int hubd_recover_disabled_port(hubd_t *hubd, usb_port_t port); static int hubd_determine_port_status(hubd_t *hubd, usb_port_t port, uint16_t *status, uint16_t *change, uint_t ack_flag); static int hubd_enable_all_port_power(hubd_t *hubd); static int hubd_disable_all_port_power(hubd_t *hubd); static int hubd_disable_port_power(hubd_t *hubd, usb_port_t port); static int hubd_enable_port_power(hubd_t *hubd, usb_port_t port); static void hubd_free_usba_device(hubd_t *hubd, usba_device_t *usba_device); static int hubd_can_suspend(hubd_t *hubd); static void hubd_restore_device_state(dev_info_t *dip, hubd_t *hubd); static int hubd_setdevaddr(hubd_t *hubd, usb_port_t port); static void hubd_setdevconfig(hubd_t *hubd, usb_port_t port); static int hubd_register_events(hubd_t *hubd); static void hubd_do_callback(hubd_t *hubd, dev_info_t *dip, ddi_eventcookie_t cookie); static void hubd_run_callbacks(hubd_t *hubd, usba_event_t type); static void hubd_post_event(hubd_t *hubd, usb_port_t port, usba_event_t type); static void hubd_create_pm_components(dev_info_t *dip, hubd_t *hubd); static int hubd_disconnect_event_cb(dev_info_t *dip); static int hubd_reconnect_event_cb(dev_info_t *dip); static int hubd_pre_suspend_event_cb(dev_info_t *dip); static int hubd_post_resume_event_cb(dev_info_t *dip); static int hubd_cpr_suspend(hubd_t *hubd); static void hubd_cpr_resume(dev_info_t *dip); static int hubd_restore_state_cb(dev_info_t *dip); static int hubd_check_same_device(hubd_t *hubd, usb_port_t port); static int hubd_init_power_budget(hubd_t *hubd); static ndi_event_definition_t hubd_ndi_event_defs[] = { {USBA_EVENT_TAG_HOT_REMOVAL, DDI_DEVI_REMOVE_EVENT, EPL_KERNEL, NDI_EVENT_POST_TO_ALL}, {USBA_EVENT_TAG_HOT_INSERTION, DDI_DEVI_INSERT_EVENT, EPL_KERNEL, NDI_EVENT_POST_TO_ALL}, {USBA_EVENT_TAG_POST_RESUME, USBA_POST_RESUME_EVENT, EPL_KERNEL, NDI_EVENT_POST_TO_ALL}, {USBA_EVENT_TAG_PRE_SUSPEND, USBA_PRE_SUSPEND_EVENT, EPL_KERNEL, NDI_EVENT_POST_TO_ALL} }; #define HUBD_N_NDI_EVENTS \ (sizeof (hubd_ndi_event_defs) / sizeof (ndi_event_definition_t)) static ndi_event_set_t hubd_ndi_events = { NDI_EVENTS_REV1, HUBD_N_NDI_EVENTS, hubd_ndi_event_defs}; /* events received from parent */ static usb_event_t hubd_events = { hubd_disconnect_event_cb, hubd_reconnect_event_cb, hubd_pre_suspend_event_cb, hubd_post_resume_event_cb }; /* * hubd_get_soft_state() returns the hubd soft state * * WUSB support extends this function to support wire adapter class * devices. The hubd soft state for the wire adapter class device * would be stored in usb_root_hubd field of the usba_device structure, * just as the USB host controller drivers do. */ hubd_t * hubd_get_soft_state(dev_info_t *dip) { if (dip == NULL) { return (NULL); } if (usba_is_root_hub(dip) || usba_is_wa(dip)) { usba_device_t *usba_device = usba_get_usba_device(dip); return (usba_device->usb_root_hubd); } else { int instance = ddi_get_instance(dip); return (ddi_get_soft_state(hubd_statep, instance)); } } /* * PM support functions: */ /*ARGSUSED*/ static void hubd_pm_busy_component(hubd_t *hubd, dev_info_t *dip, int component) { if (hubd->h_hubpm != NULL) { hubd->h_hubpm->hubp_busy_pm++; mutex_exit(HUBD_MUTEX(hubd)); if (pm_busy_component(dip, 0) != DDI_SUCCESS) { mutex_enter(HUBD_MUTEX(hubd)); hubd->h_hubpm->hubp_busy_pm--; mutex_exit(HUBD_MUTEX(hubd)); } mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_pm_busy_component: %d", hubd->h_hubpm->hubp_busy_pm); } } /*ARGSUSED*/ static void hubd_pm_idle_component(hubd_t *hubd, dev_info_t *dip, int component) { if (hubd->h_hubpm != NULL) { mutex_exit(HUBD_MUTEX(hubd)); if (pm_idle_component(dip, 0) == DDI_SUCCESS) { mutex_enter(HUBD_MUTEX(hubd)); ASSERT(hubd->h_hubpm->hubp_busy_pm > 0); hubd->h_hubpm->hubp_busy_pm--; mutex_exit(HUBD_MUTEX(hubd)); } mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_pm_idle_component: %d", hubd->h_hubpm->hubp_busy_pm); } } /* * track power level changes for children of this instance */ static void hubd_set_child_pwrlvl(hubd_t *hubd, usb_port_t port, uint8_t power) { int old_power, new_power, pwr; usb_port_t portno; hub_power_t *hubpm; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_set_child_pwrlvl: port=%d power=%d", port, power); mutex_enter(HUBD_MUTEX(hubd)); hubpm = hubd->h_hubpm; old_power = 0; for (portno = 1; portno <= hubd->h_hub_descr.bNbrPorts; portno++) { old_power += hubpm->hubp_child_pwrstate[portno]; } /* assign the port power */ pwr = hubd->h_hubpm->hubp_child_pwrstate[port]; hubd->h_hubpm->hubp_child_pwrstate[port] = power; new_power = old_power - pwr + power; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_set_child_pwrlvl: new_power=%d old_power=%d", new_power, old_power); if ((new_power > 0) && (old_power == 0)) { /* we have the first child coming out of low power */ (void) hubd_pm_busy_component(hubd, hubd->h_dip, 0); } else if ((new_power == 0) && (old_power > 0)) { /* we have the last child going to low power */ (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); } mutex_exit(HUBD_MUTEX(hubd)); } /* * given a child dip, locate its port number */ static usb_port_t hubd_child_dip2port(hubd_t *hubd, dev_info_t *dip) { usb_port_t port; mutex_enter(HUBD_MUTEX(hubd)); for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { if (hubd->h_children_dips[port] == dip) { break; } } ASSERT(port <= hubd->h_hub_descr.bNbrPorts); mutex_exit(HUBD_MUTEX(hubd)); return (port); } /* * if the hub can be put into low power mode, return success * NOTE: suspend here means going to lower power, not CPR suspend. */ static int hubd_can_suspend(hubd_t *hubd) { hub_power_t *hubpm; int total_power = 0; usb_port_t port; hubpm = hubd->h_hubpm; if (DEVI_IS_DETACHING(hubd->h_dip)) { return (USB_SUCCESS); } /* * Don't go to lower power if haven't been at full power for enough * time to let hotplug thread kickoff. */ if (ddi_get_time() < (hubpm->hubp_time_at_full_power + hubpm->hubp_min_pm_threshold)) { return (USB_FAILURE); } for (port = 1; (total_power == 0) && (port <= hubd->h_hub_descr.bNbrPorts); port++) { total_power += hubpm->hubp_child_pwrstate[port]; } USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_can_suspend: %d", total_power); return (total_power ? USB_FAILURE : USB_SUCCESS); } /* * resume port depending on current device state */ static int hubd_resume_port(hubd_t *hubd, usb_port_t port) { int rval, retry; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; uint16_t status; uint16_t change; int retval = USB_FAILURE; mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_resume_port: port=%d state=0x%x (%s)", port, hubd->h_dev_state, usb_str_dev_state(hubd->h_dev_state)); switch (hubd->h_dev_state) { case USB_DEV_HUB_CHILD_PWRLVL: /* * This could be a bus ctl for a port other than the one * that has a remote wakeup condition. So check. */ if ((hubd->h_port_state[port] & PORT_STATUS_PSS) == 0) { /* the port isn't suspended, so don't resume */ retval = USB_SUCCESS; USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_resume_port: port=%d not suspended", port); break; } /* * Device has initiated a wakeup. * Issue a ClearFeature(PortSuspend) */ mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_PORT_SUSPEND, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "ClearFeature(PortSuspend) fails " "rval=%d cr=%d cb=0x%x", rval, completion_reason, cb_flags); } mutex_enter(HUBD_MUTEX(hubd)); /* either way ack changes on the port */ (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_PSSC); retval = USB_SUCCESS; break; case USB_DEV_HUB_STATE_RECOVER: /* * When hubd's connect event callback posts a connect * event to its child, it results in this busctl call * which is valid */ /* FALLTHRU */ case USB_DEV_ONLINE: if (((hubd->h_port_state[port] & PORT_STATUS_CCS) == 0) || ((hubd->h_port_state[port] & PORT_STATUS_PSS) == 0)) { /* * the port isn't suspended, or connected * so don't resume */ retval = USB_SUCCESS; USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_resume_port: port=%d not suspended", port); break; } /* * prevent kicking off the hotplug thread */ hubd->h_hotplug_thread++; hubd_stop_polling(hubd); /* Now ClearFeature(PortSuspend) */ for (retry = 0; retry < HUBD_SUS_RES_RETRY; retry++) { mutex_exit(HUBD_MUTEX(hubd)); rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_PORT_SUSPEND, port, 0, NULL, 0, &completion_reason, &cb_flags, 0); mutex_enter(HUBD_MUTEX(hubd)); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "ClearFeature(PortSuspend) fails" "rval=%d cr=%d cb=0x%x", rval, completion_reason, cb_flags); } else { /* * As per spec section 11.9 and 7.1.7.7 * hub need to provide at least 20ms of * resume signalling, and s/w provide 10ms of * recovery time before accessing the port. */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(40000)); mutex_enter(HUBD_MUTEX(hubd)); (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_PSSC); if ((status & PORT_STATUS_PSS) == 0) { /* the port did finally resume */ retval = USB_SUCCESS; break; } } } /* allow hotplug thread again */ hubd->h_hotplug_thread--; hubd_start_polling(hubd, 0); break; case USB_DEV_DISCONNECTED: /* Ignore - NO Operation */ retval = USB_SUCCESS; break; case USB_DEV_SUSPENDED: case USB_DEV_PWRED_DOWN: default: USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "Improper state for port Resume"); break; } mutex_exit(HUBD_MUTEX(hubd)); return (retval); } /* * suspend port depending on device state */ static int hubd_suspend_port(hubd_t *hubd, usb_port_t port) { int rval, retry; int retval = USB_FAILURE; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; uint16_t status; uint16_t change; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_suspend_port: port=%d", port); mutex_enter(HUBD_MUTEX(hubd)); switch (hubd->h_dev_state) { case USB_DEV_HUB_STATE_RECOVER: /* * When hubd's connect event callback posts a connect * event to its child, it results in this busctl call * which is valid */ /* FALLTHRU */ case USB_DEV_HUB_CHILD_PWRLVL: /* * When one child is resuming, the other could timeout * and go to low power mode, which is valid */ /* FALLTHRU */ case USB_DEV_ONLINE: hubd->h_hotplug_thread++; hubd_stop_polling(hubd); /* * Some devices start an unprovoked resume. According to spec, * normal resume time for port is 10ms. Wait for double that * time, then check to be sure port is really suspended. */ for (retry = 0; retry < HUBD_SUS_RES_RETRY; retry++) { /* Now SetFeature(PortSuspend) */ mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_SET_FEATURE, CFS_PORT_SUSPEND, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "SetFeature(PortSuspend) fails" "rval=%d cr=%d cb=0x%x", rval, completion_reason, cb_flags); } /* * some devices start an unprovoked resume * wait and check port status after some time */ delay(drv_usectohz(20000)); /* either ways ack changes on the port */ mutex_enter(HUBD_MUTEX(hubd)); (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_PSSC); if (status & PORT_STATUS_PSS) { /* the port is indeed suspended */ retval = USB_SUCCESS; break; } } hubd->h_hotplug_thread--; hubd_start_polling(hubd, 0); break; case USB_DEV_DISCONNECTED: /* Ignore - No Operation */ retval = USB_SUCCESS; break; case USB_DEV_SUSPENDED: case USB_DEV_PWRED_DOWN: default: USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "Improper state for port Suspend"); break; } mutex_exit(HUBD_MUTEX(hubd)); return (retval); } /* * child post attach/detach notifications */ static void hubd_post_attach(hubd_t *hubd, usb_port_t port, struct attachspec *as) { dev_info_t *dip; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_post_attach: port=%d result=%d", port, as->result); if (as->result == DDI_SUCCESS) { /* * Check if the child created wants to be power managed. * If yes, the childs power level gets automatically tracked * by DDI_CTLOPS_POWER busctl. * If no, we set power of the new child by default * to USB_DEV_OS_FULL_PWR. Because we should never suspend. */ mutex_enter(HUBD_MUTEX(hubd)); dip = hubd->h_children_dips[port]; mutex_exit(HUBD_MUTEX(hubd)); if (DEVI(dip)->devi_pm_info == NULL) { hubd_set_child_pwrlvl(hubd, port, USB_DEV_OS_FULL_PWR); } } } static void hubd_post_detach(hubd_t *hubd, usb_port_t port, struct detachspec *ds) { USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_post_detach: port=%d result=%d", port, ds->result); /* * if the device is successfully detached and is the * last device to detach, mark component as idle */ mutex_enter(HUBD_MUTEX(hubd)); if (ds->result == DDI_SUCCESS) { usba_device_t *usba_device = hubd->h_usba_devices[port]; dev_info_t *pdip = hubd->h_dip; mutex_exit(HUBD_MUTEX(hubd)); usba_hubdi_incr_power_budget(pdip, usba_device); /* * We set power of the detached child * to 0, so that we can suspend if all * our children are gone */ hubd_set_child_pwrlvl(hubd, port, USB_DEV_OS_PWR_OFF); /* check for leaks on detaching */ if ((usba_device) && (ds->cmd == DDI_DETACH)) { usba_check_for_leaks(usba_device); } } else { mutex_exit(HUBD_MUTEX(hubd)); } } /* * hubd_post_power * After the child's power entry point has been called * we record its power level in our local struct. * If the device has powered off, we suspend port */ static int hubd_post_power(hubd_t *hubd, usb_port_t port, pm_bp_child_pwrchg_t *bpc, int result) { int retval = USB_SUCCESS; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_post_power: port=%d", port); if (result == DDI_SUCCESS) { /* record this power in our local struct */ hubd_set_child_pwrlvl(hubd, port, bpc->bpc_nlevel); if (bpc->bpc_nlevel == USB_DEV_OS_PWR_OFF) { /* now suspend the port */ retval = hubd_suspend_port(hubd, port); } else if (bpc->bpc_nlevel == USB_DEV_OS_FULL_PWR) { /* make sure the port is resumed */ retval = hubd_resume_port(hubd, port); } } else { /* record old power in our local struct */ hubd_set_child_pwrlvl(hubd, port, bpc->bpc_olevel); if (bpc->bpc_olevel == USB_DEV_OS_PWR_OFF) { /* * As this device failed to transition from * power off state, suspend the port again */ retval = hubd_suspend_port(hubd, port); } } return (retval); } /* * bus ctl notifications are handled here, the rest goes up to root hub/hcd */ static int usba_hubdi_bus_ctl(dev_info_t *dip, dev_info_t *rdip, ddi_ctl_enum_t op, void *arg, void *result) { usba_device_t *hub_usba_device = usba_get_usba_device(rdip); dev_info_t *root_hub_dip = hub_usba_device->usb_root_hub_dip; struct attachspec *as; struct detachspec *ds; hubd_t *hubd; usb_port_t port; int circ, rval; int retval = DDI_FAILURE; hubd = hubd_get_soft_state(dip); mutex_enter(HUBD_MUTEX(hubd)); /* flag that we are currently running bus_ctl */ hubd->h_bus_ctls++; mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L3(DPRINT_MASK_HUBDI, hubd->h_log_handle, "usba_hubdi_bus_ctl:\n\t" "dip=0x%p, rdip=0x%p, op=0x%x, arg=0x%p", (void *)dip, (void *)rdip, op, arg); switch (op) { case DDI_CTLOPS_ATTACH: as = (struct attachspec *)arg; port = hubd_child_dip2port(hubd, rdip); /* there is nothing to do at resume time */ if (as->cmd == DDI_RESUME) { break; } /* serialize access */ ndi_devi_enter(hubd->h_dip, &circ); switch (as->when) { case DDI_PRE: USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "DDI_PRE DDI_CTLOPS_ATTACH: dip=%p, port=%d", (void *)rdip, port); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] |= HUBD_CHILD_ATTACHING; /* Go busy here. Matching idle is DDI_POST case. */ (void) hubd_pm_busy_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); /* * if we suspended the port previously * because child went to low power state, and * someone unloaded the driver, the port would * still be suspended and needs to be resumed */ rval = hubd_resume_port(hubd, port); if (rval == USB_SUCCESS) { retval = DDI_SUCCESS; } break; case DDI_POST: USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "DDI_POST DDI_CTLOPS_ATTACH: dip=%p, port=%d", (void *)rdip, port); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] &= ~HUBD_CHILD_ATTACHING; mutex_exit(HUBD_MUTEX(hubd)); hubd_post_attach(hubd, port, (struct attachspec *)arg); retval = DDI_SUCCESS; mutex_enter(HUBD_MUTEX(hubd)); /* Matching idle call for DDI_PRE busy call. */ (void) hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); } ndi_devi_exit(hubd->h_dip, circ); break; case DDI_CTLOPS_DETACH: ds = (struct detachspec *)arg; port = hubd_child_dip2port(hubd, rdip); /* there is nothing to do at suspend time */ if (ds->cmd == DDI_SUSPEND) { break; } /* serialize access */ ndi_devi_enter(hubd->h_dip, &circ); switch (ds->when) { case DDI_PRE: USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "DDI_PRE DDI_CTLOPS_DETACH: dip=%p port=%d", (void *)rdip, port); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] |= HUBD_CHILD_DETACHING; /* Go busy here. Matching idle is DDI_POST case. */ (void) hubd_pm_busy_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); retval = DDI_SUCCESS; break; case DDI_POST: USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "DDI_POST DDI_CTLOPS_DETACH: dip=%p port=%d", (void *)rdip, port); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] &= ~HUBD_CHILD_DETACHING; mutex_exit(HUBD_MUTEX(hubd)); /* Matching idle call for DDI_PRE busy call. */ hubd_post_detach(hubd, port, (struct detachspec *)arg); retval = DDI_SUCCESS; mutex_enter(HUBD_MUTEX(hubd)); (void) hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); break; } ndi_devi_exit(hubd->h_dip, circ); break; default: retval = usba_bus_ctl(root_hub_dip, rdip, op, arg, result); } /* decrement bus_ctls count */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_bus_ctls--; ASSERT(hubd->h_bus_ctls >= 0); mutex_exit(HUBD_MUTEX(hubd)); return (retval); } /* * hubd_config_one: * enumerate one child according to 'port' */ static boolean_t hubd_config_one(hubd_t *hubd, int port) { uint16_t status, change; dev_info_t *hdip = hubd->h_dip; dev_info_t *rh_dip = hubd->h_usba_device->usb_root_hub_dip; boolean_t online_child = B_FALSE, found = B_FALSE; int prh_circ, rh_circ, circ; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_config_one: started, hubd_reset_port = 0x%x", port); ndi_hold_devi(hdip); /* so we don't race with detach */ /* * this ensures one config activity per system at a time. * we enter the parent PCI node to have this serialization. * this also excludes ioctls and deathrow thread */ ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); /* exclude other threads */ ndi_devi_enter(hdip, &circ); mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_busy_component(hubd, hubd->h_dip, 0); hubd_stop_polling(hubd); if (!hubd->h_children_dips[port]) { (void) hubd_determine_port_status(hubd, port, &status, &change, HUBD_ACK_ALL_CHANGES); if (status & PORT_STATUS_CCS) { online_child |= (hubd_handle_port_connect(hubd, port) == USB_SUCCESS); found = online_child; } } else { found = B_TRUE; } mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(hdip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); if (online_child) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_config_one: onlining child"); (void) ndi_devi_online(hubd->h_dip, 0); } mutex_enter(HUBD_MUTEX(hubd)); hubd_start_polling(hubd, 0); (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_config_one: exit"); mutex_exit(HUBD_MUTEX(hubd)); ndi_rele_devi(hdip); return (found); } /* * bus enumeration entry points */ static int hubd_bus_config(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg, dev_info_t **child) { hubd_t *hubd = hubd_get_soft_state(dip); int rval, circ; long port; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_bus_config: op=%d", op); if (hubdi_bus_config_debug) { flag |= NDI_DEVI_DEBUG; } if (op == BUS_CONFIG_ONE) { boolean_t found; char cname[80]; char *name, *addr; USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_bus_config: op=%d (BUS_CONFIG_ONE)", op); (void) snprintf(cname, 80, "%s", (char *)arg); /* split name into "name@addr" parts */ i_ddi_parse_name(cname, &name, &addr, NULL); if (addr && *addr) { (void) ddi_strtol(addr, NULL, 16, &port); } else { return (NDI_FAILURE); } found = hubd_config_one(hubd, port); if (found == 0) { return (NDI_FAILURE); } } ndi_devi_enter(hubd->h_dip, &circ); rval = ndi_busop_bus_config(dip, flag, op, arg, child, 0); ndi_devi_exit(hubd->h_dip, circ); return (rval); } static int hubd_bus_unconfig(dev_info_t *dip, uint_t flag, ddi_bus_config_op_t op, void *arg) { hubd_t *hubd = hubd_get_soft_state(dip); dev_info_t *cdip; usb_port_t port; int circ; int rval; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_bus_unconfig: op=%d", op); if (hubdi_bus_config_debug) { flag |= NDI_DEVI_DEBUG; } if ((op == BUS_UNCONFIG_ALL) && (flag & NDI_AUTODETACH) == 0) { flag |= NDI_DEVI_REMOVE; } /* serialize access */ ndi_devi_enter(dip, &circ); rval = ndi_busop_bus_unconfig(dip, flag, op, arg); /* logically zap children's list */ mutex_enter(HUBD_MUTEX(hubd)); for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { hubd->h_port_state[port] |= HUBD_CHILD_ZAP; } mutex_exit(HUBD_MUTEX(hubd)); /* fill in what's left */ for (cdip = ddi_get_child(dip); cdip; cdip = ddi_get_next_sibling(cdip)) { usba_device_t *usba_device = usba_get_usba_device(cdip); if (usba_device == NULL) { continue; } mutex_enter(HUBD_MUTEX(hubd)); port = usba_device->usb_port; hubd->h_children_dips[port] = cdip; hubd->h_port_state[port] &= ~HUBD_CHILD_ZAP; mutex_exit(HUBD_MUTEX(hubd)); } /* physically zap the children we didn't find */ mutex_enter(HUBD_MUTEX(hubd)); for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { if (hubd->h_port_state[port] & HUBD_CHILD_ZAP) { /* zap the dip and usba_device structure as well */ hubd_free_usba_device(hubd, hubd->h_usba_devices[port]); hubd->h_children_dips[port] = NULL; hubd->h_port_state[port] &= ~HUBD_CHILD_ZAP; } } mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_bus_unconfig: rval=%d", rval); return (rval); } /* bus_power entry point */ static int hubd_bus_power(dev_info_t *dip, void *impl_arg, pm_bus_power_op_t op, void *arg, void *result) { hubd_t *hubd; int rval, pwrup_res; usb_port_t port; int retval = DDI_FAILURE; pm_bp_child_pwrchg_t *bpc; pm_bp_nexus_pwrup_t bpn; hubd = hubd_get_soft_state(dip); USB_DPRINTF_L4(DPRINT_MASK_HUBDI, hubd->h_log_handle, "hubd_bus_power: dip=%p, impl_arg=%p, power_op=%d, arg=%p, " "result=%d\n", (void *)dip, impl_arg, op, arg, *(int *)result); bpc = (pm_bp_child_pwrchg_t *)arg; mutex_enter(HUBD_MUTEX(hubd)); hubd->h_bus_pwr++; mutex_exit(HUBD_MUTEX(hubd)); switch (op) { case BUS_POWER_PRE_NOTIFICATION: port = hubd_child_dip2port(hubd, bpc->bpc_dip); USB_DPRINTF_L3(DPRINT_MASK_HUBDI, hubd->h_log_handle, "hubd_bus_power: BUS_POWER_PRE_NOTIFICATION, port=%d", port); /* go to full power if we are powered down */ mutex_enter(HUBD_MUTEX(hubd)); /* * If this case completes normally, idle will be in * hubd_bus_power / BUS_POWER_POST_NOTIFICATION */ hubd_pm_busy_component(hubd, dip, 0); /* * raise power only if we have created the components * and are currently in low power */ if ((hubd->h_dev_state == USB_DEV_PWRED_DOWN) && hubd->h_hubpm->hubp_wakeup_enabled) { mutex_exit(HUBD_MUTEX(hubd)); bpn.bpn_comp = 0; bpn.bpn_dip = dip; bpn.bpn_level = USB_DEV_OS_FULL_PWR; bpn.bpn_private = bpc->bpc_private; rval = pm_busop_bus_power(dip, impl_arg, BUS_POWER_NEXUS_PWRUP, (void *)&bpn, (void *)&pwrup_res); if (rval != DDI_SUCCESS || pwrup_res != DDI_SUCCESS) { mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); break; } mutex_enter(HUBD_MUTEX(hubd)); } /* indicate that child is changing power level */ hubd->h_port_state[port] |= HUBD_CHILD_PWRLVL_CHNG; mutex_exit(HUBD_MUTEX(hubd)); if ((bpc->bpc_olevel == 0) && (bpc->bpc_nlevel > bpc->bpc_olevel)) { /* * this child is transitioning from power off * to power on state - resume port */ rval = hubd_resume_port(hubd, port); if (rval == USB_SUCCESS) { retval = DDI_SUCCESS; } else { /* reset this flag on failure */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] &= ~HUBD_CHILD_PWRLVL_CHNG; hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); } } else { retval = DDI_SUCCESS; } break; case BUS_POWER_POST_NOTIFICATION: port = hubd_child_dip2port(hubd, bpc->bpc_dip); USB_DPRINTF_L3(DPRINT_MASK_HUBDI, hubd->h_log_handle, "hubd_bus_power: BUS_POWER_POST_NOTIFICATION, port=%d", port); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] &= ~HUBD_CHILD_PWRLVL_CHNG; mutex_exit(HUBD_MUTEX(hubd)); /* record child's pwr and suspend port if required */ rval = hubd_post_power(hubd, port, bpc, *(int *)result); if (rval == USB_SUCCESS) { retval = DDI_SUCCESS; } mutex_enter(HUBD_MUTEX(hubd)); /* * Matching idle for the busy in * hubd_bus_power / BUS_POWER_PRE_NOTIFICATION */ hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); break; default: retval = pm_busop_bus_power(dip, impl_arg, op, arg, result); break; } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_bus_pwr--; mutex_exit(HUBD_MUTEX(hubd)); return (retval); } /* * functions to handle power transition for OS levels 0 -> 3 */ static int hubd_pwrlvl0(hubd_t *hubd) { hub_power_t *hubpm; /* We can't power down if hotplug thread is running */ if (hubd->h_hotplug_thread || hubd->h_hubpm->hubp_busy_pm || (hubd_can_suspend(hubd) == USB_FAILURE)) { return (USB_FAILURE); } switch (hubd->h_dev_state) { case USB_DEV_ONLINE: hubpm = hubd->h_hubpm; /* * To avoid race with bus_power pre_notify on check over * dev_state, we need to correctly set the dev state * before the mutex is dropped in stop polling. */ hubd->h_dev_state = USB_DEV_PWRED_DOWN; hubpm->hubp_current_power = USB_DEV_OS_PWR_OFF; /* * if we are the root hub, do not stop polling * otherwise, we will never see a resume */ if (usba_is_root_hub(hubd->h_dip)) { /* place holder to implement Global Suspend */ USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "Global Suspend: Not Yet Implemented"); } else { hubd_stop_polling(hubd); } /* Issue USB D3 command to the device here */ (void) usb_set_device_pwrlvl3(hubd->h_dip); break; case USB_DEV_DISCONNECTED: case USB_DEV_SUSPENDED: case USB_DEV_PWRED_DOWN: default: break; } return (USB_SUCCESS); } /* ARGSUSED */ static int hubd_pwrlvl1(hubd_t *hubd) { /* Issue USB D2 command to the device here */ (void) usb_set_device_pwrlvl2(hubd->h_dip); return (USB_FAILURE); } /* ARGSUSED */ static int hubd_pwrlvl2(hubd_t *hubd) { /* Issue USB D1 command to the device here */ (void) usb_set_device_pwrlvl1(hubd->h_dip); return (USB_FAILURE); } static int hubd_pwrlvl3(hubd_t *hubd) { hub_power_t *hubpm; int rval; USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_pwrlvl3"); hubpm = hubd->h_hubpm; switch (hubd->h_dev_state) { case USB_DEV_PWRED_DOWN: ASSERT(hubpm->hubp_current_power == USB_DEV_OS_PWR_OFF); if (usba_is_root_hub(hubd->h_dip)) { /* implement global resume here */ USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "Global Resume: Not Yet Implemented"); } /* Issue USB D0 command to the device here */ rval = usb_set_device_pwrlvl0(hubd->h_dip); ASSERT(rval == USB_SUCCESS); hubd->h_dev_state = USB_DEV_ONLINE; hubpm->hubp_current_power = USB_DEV_OS_FULL_PWR; hubpm->hubp_time_at_full_power = ddi_get_time(); hubd_start_polling(hubd, 0); /* FALLTHRU */ case USB_DEV_ONLINE: /* we are already in full power */ /* FALLTHRU */ case USB_DEV_DISCONNECTED: case USB_DEV_SUSPENDED: /* * PM framework tries to put you in full power * during system shutdown. If we are disconnected * return success. Also, we should not change state * when we are disconnected or suspended or about to * transition to that state */ return (USB_SUCCESS); default: USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_pwrlvl3: Illegal dev_state=%d", hubd->h_dev_state); return (USB_FAILURE); } } /* power entry point */ /* ARGSUSED */ int usba_hubdi_power(dev_info_t *dip, int comp, int level) { hubd_t *hubd; hub_power_t *hubpm; int retval; int circ; hubd = hubd_get_soft_state(dip); USB_DPRINTF_L3(DPRINT_MASK_HUBDI, hubd->h_log_handle, "usba_hubdi_power: level=%d", level); ndi_devi_enter(dip, &circ); mutex_enter(HUBD_MUTEX(hubd)); hubpm = hubd->h_hubpm; /* check if we are transitioning to a legal power level */ if (USB_DEV_PWRSTATE_OK(hubpm->hubp_pwr_states, level)) { USB_DPRINTF_L2(DPRINT_MASK_HUBDI, hubd->h_log_handle, "usba_hubdi_power: illegal power level=%d " "hubp_pwr_states=0x%x", level, hubpm->hubp_pwr_states); mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); return (DDI_FAILURE); } switch (level) { case USB_DEV_OS_PWR_OFF: retval = hubd_pwrlvl0(hubd); break; case USB_DEV_OS_PWR_1: retval = hubd_pwrlvl1(hubd); break; case USB_DEV_OS_PWR_2: retval = hubd_pwrlvl2(hubd); break; case USB_DEV_OS_FULL_PWR: retval = hubd_pwrlvl3(hubd); break; } mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); return ((retval == USB_SUCCESS) ? DDI_SUCCESS : DDI_FAILURE); } /* power entry point for the root hub */ int usba_hubdi_root_hub_power(dev_info_t *dip, int comp, int level) { return (usba_hubdi_power(dip, comp, level)); } /* * standard driver entry points support code */ int usba_hubdi_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { int instance = ddi_get_instance(dip); hubd_t *hubd = NULL; int i, rval; int minor; uint8_t ports_count; char *log_name = NULL; const char *root_hub_drvname; usb_ep_data_t *ep_data; usba_device_t *child_ud = NULL; usb_dev_descr_t *usb_dev_descr; usb_port_status_t parent_port_status, child_port_status; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubdi_log_handle, "hubd_attach instance %d, cmd=0x%x", instance, cmd); switch (cmd) { case DDI_ATTACH: break; case DDI_RESUME: hubd_cpr_resume(dip); return (DDI_SUCCESS); default: return (DDI_FAILURE); } /* * Allocate softc information. */ if (usba_is_root_hub(dip)) { /* soft state has already been allocated */ hubd = hubd_get_soft_state(dip); minor = HUBD_IS_ROOT_HUB; /* generate readable labels for different root hubs */ root_hub_drvname = ddi_driver_name(dip); if (strcmp(root_hub_drvname, "ehci") == 0) { log_name = "eusb"; } else if (strcmp(root_hub_drvname, "uhci") == 0) { log_name = "uusb"; } else { /* std. for ohci */ log_name = "usb"; } } else { rval = ddi_soft_state_zalloc(hubd_statep, instance); minor = 0; if (rval != DDI_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "cannot allocate soft state (%d)", instance); goto fail; } hubd = hubd_get_soft_state(dip); if (hubd == NULL) { goto fail; } } hubd->h_log_handle = usb_alloc_log_hdl(dip, log_name, &hubd_errlevel, &hubd_errmask, &hubd_instance_debug, 0); hubd->h_usba_device = child_ud = usba_get_usba_device(dip); hubd->h_dip = dip; hubd->h_instance = instance; mutex_enter(&child_ud->usb_mutex); child_port_status = child_ud->usb_port_status; usb_dev_descr = child_ud->usb_dev_descr; parent_port_status = (child_ud->usb_hs_hub_usba_dev) ? child_ud->usb_hs_hub_usba_dev->usb_port_status : 0; mutex_exit(&child_ud->usb_mutex); if ((child_port_status == USBA_FULL_SPEED_DEV) && (parent_port_status == USBA_HIGH_SPEED_DEV) && (usb_dev_descr->bcdUSB == 0x100)) { USB_DPRINTF_L0(DPRINT_MASK_ATTA, hubd->h_log_handle, "Use of a USB1.0 hub behind a high speed port may " "cause unexpected failures"); } hubd->h_pipe_policy.pp_max_async_reqs = 1; /* register with USBA as client driver */ if (usb_client_attach(dip, USBDRV_VERSION, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "client attach failed"); goto fail; } if (usb_get_dev_data(dip, &hubd->h_dev_data, USB_PARSE_LVL_IF, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "cannot get dev_data"); goto fail; } if ((ep_data = usb_lookup_ep_data(dip, hubd->h_dev_data, hubd->h_dev_data->dev_curr_if, 0, 0, (uint_t)USB_EP_ATTR_INTR, (uint_t)USB_EP_DIR_IN)) == NULL) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "no interrupt IN endpoint found"); goto fail; } hubd->h_ep1_descr = ep_data->ep_descr; hubd->h_default_pipe = hubd->h_dev_data->dev_default_ph; mutex_init(HUBD_MUTEX(hubd), NULL, MUTEX_DRIVER, hubd->h_dev_data->dev_iblock_cookie); cv_init(&hubd->h_cv_reset_port, NULL, CV_DRIVER, NULL); cv_init(&hubd->h_cv_hotplug_dev, NULL, CV_DRIVER, NULL); hubd->h_init_state |= HUBD_LOCKS_DONE; usb_free_descr_tree(dip, hubd->h_dev_data); /* * register this hub instance with usba */ rval = usba_hubdi_register(dip, 0); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_register failed"); goto fail; } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_init_state |= HUBD_HUBDI_REGISTERED; hubd->h_dev_state = USB_DEV_ONLINE; mutex_exit(HUBD_MUTEX(hubd)); /* now create components to power manage this device */ hubd_create_pm_components(dip, hubd); /* * Event handling: definition and registration * * first the definition: * get event handle */ (void) ndi_event_alloc_hdl(dip, 0, &hubd->h_ndi_event_hdl, NDI_SLEEP); /* bind event set to the handle */ if (ndi_event_bind_set(hubd->h_ndi_event_hdl, &hubd_ndi_events, NDI_SLEEP)) { USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "binding event set failed"); goto fail; } /* event registration */ if (hubd_register_events(hubd) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_register_events failed"); goto fail; } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_init_state |= HUBD_EVENTS_REGISTERED; if ((hubd_get_hub_descriptor(hubd)) != USB_SUCCESS) { mutex_exit(HUBD_MUTEX(hubd)); goto fail; } if (ddi_prop_exists(DDI_DEV_T_ANY, dip, (DDI_PROP_DONTPASS | DDI_PROP_NOTPROM), "hub-ignore-power-budget") == 1) { hubd->h_ignore_pwr_budget = B_TRUE; } else { hubd->h_ignore_pwr_budget = B_FALSE; /* initialize hub power budget variables */ if (hubd_init_power_budget(hubd) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_init_power_budget failed"); mutex_exit(HUBD_MUTEX(hubd)); goto fail; } } /* initialize and create children */ if (hubd_check_ports(hubd) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_check_ports failed"); mutex_exit(HUBD_MUTEX(hubd)); goto fail; } /* * create cfgadm nodes */ hubd->h_ancestry_str = (char *)kmem_zalloc(HUBD_APID_NAMELEN, KM_SLEEP); hubd_get_ancestry_str(hubd); USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "#ports=0x%x", hubd->h_hub_descr.bNbrPorts); for (i = 1; i <= hubd->h_hub_descr.bNbrPorts; i++) { char ap_name[HUBD_APID_NAMELEN]; (void) snprintf(ap_name, HUBD_APID_NAMELEN, "%s%d", hubd->h_ancestry_str, i); USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "ap_name=%s", ap_name); if (ddi_create_minor_node(dip, ap_name, S_IFCHR, instance, DDI_NT_USB_ATTACHMENT_POINT, 0) != DDI_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "cannot create attachment point node (%d)", instance); mutex_exit(HUBD_MUTEX(hubd)); goto fail; } } ports_count = hubd->h_hub_descr.bNbrPorts; mutex_exit(HUBD_MUTEX(hubd)); /* create minor nodes */ if (ddi_create_minor_node(dip, "hubd", S_IFCHR, instance | minor, DDI_NT_NEXUS, 0) != DDI_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "cannot create devctl minor node (%d)", instance); goto fail; } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_init_state |= HUBD_MINOR_NODE_CREATED; mutex_exit(HUBD_MUTEX(hubd)); if (ndi_prop_update_int(DDI_DEV_T_NONE, dip, "usb-port-count", ports_count) != DDI_PROP_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb-port-count update failed"); } /* * host controller driver has already reported this dev * if we are the root hub */ if (!usba_is_root_hub(dip)) { ddi_report_dev(dip); } /* enable deathrow thread */ hubd->h_cleanup_enabled = B_TRUE; mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); return (DDI_SUCCESS); fail: { char *pathname = kmem_alloc(MAXPATHLEN, KM_SLEEP); USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "cannot attach %s", ddi_pathname(dip, pathname)); kmem_free(pathname, MAXPATHLEN); } mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); if (hubd) { rval = hubd_cleanup(dip, hubd); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "failure to complete cleanup after attach failure"); } } return (DDI_FAILURE); } int usba_hubdi_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { hubd_t *hubd = hubd_get_soft_state(dip); int rval; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_detach: cmd=0x%x", cmd); switch (cmd) { case DDI_DETACH: rval = hubd_cleanup(dip, hubd); return ((rval == USB_SUCCESS) ? DDI_SUCCESS : DDI_FAILURE); case DDI_SUSPEND: rval = hubd_cpr_suspend(hubd); return ((rval == USB_SUCCESS) ? DDI_SUCCESS : DDI_FAILURE); default: return (DDI_FAILURE); } } /* * hubd_setdevaddr * set the device addrs on this port */ static int hubd_setdevaddr(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; usb_pipe_handle_t ph; dev_info_t *child_dip = NULL; uchar_t address = 0; usba_device_t *usba_device; int retry = 0; long time_delay; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_setdevaddr: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); child_dip = hubd->h_children_dips[port]; address = hubd->h_usba_devices[port]->usb_addr; usba_device = hubd->h_usba_devices[port]; /* close the default pipe with addr x */ mutex_exit(HUBD_MUTEX(hubd)); ph = usba_get_dflt_pipe_handle(child_dip); usb_pipe_close(child_dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); mutex_enter(HUBD_MUTEX(hubd)); /* * As this device has been reset, temporarily * assign the default address */ mutex_enter(&usba_device->usb_mutex); address = usba_device->usb_addr; usba_device->usb_addr = USBA_DEFAULT_ADDR; mutex_exit(&usba_device->usb_mutex); mutex_exit(HUBD_MUTEX(hubd)); time_delay = drv_usectohz(hubd_device_delay / 20); for (retry = 0; retry < hubd_retry_enumerate; retry++) { /* open child's default pipe with USBA_DEFAULT_ADDR */ if (usb_pipe_open(child_dip, NULL, NULL, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, &ph) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_setdevaddr: Unable to open default pipe"); break; } /* Set the address of the device */ if ((rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_HOST_TO_DEV, USB_REQ_SET_ADDRESS, /* bRequest */ address, /* wValue */ 0, /* wIndex */ 0, /* wLength */ NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_setdevaddr(%d): rval=%d cr=%d cb_fl=0x%x", retry, rval, completion_reason, cb_flags); } usb_pipe_close(child_dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); if (rval == USB_SUCCESS) { break; } delay(time_delay); } /* Reset to the old address */ mutex_enter(&usba_device->usb_mutex); usba_device->usb_addr = address; mutex_exit(&usba_device->usb_mutex); mutex_enter(HUBD_MUTEX(hubd)); usba_clear_data_toggle(usba_device); return (rval); } /* * hubd_setdevconfig * set the device addrs on this port */ static void hubd_setdevconfig(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; usb_pipe_handle_t ph; dev_info_t *child_dip = NULL; usba_device_t *usba_device = NULL; uint16_t config_value; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_setdevconfig: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); child_dip = hubd->h_children_dips[port]; usba_device = hubd->h_usba_devices[port]; config_value = hubd->h_usba_devices[port]->usb_cfg_value; mutex_exit(HUBD_MUTEX(hubd)); /* open the default control pipe */ if ((rval = usb_pipe_open(child_dip, NULL, NULL, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, &ph)) == USB_SUCCESS) { /* Set the default configuration of the device */ if ((rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_HOST_TO_DEV, USB_REQ_SET_CFG, /* bRequest */ config_value, /* wValue */ 0, /* wIndex */ 0, /* wLength */ NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_setdevconfig: set device config failed: " "cr=%d cb_fl=0x%x rval=%d", completion_reason, cb_flags, rval); } /* * After setting the configuration, we make this default * control pipe persistent, so that it gets re-opened * on posting a connect event */ usba_persistent_pipe_close(usba_device); } else { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "pipe open fails: rval=%d", rval); } mutex_enter(HUBD_MUTEX(hubd)); } /*ARGSUSED*/ static int hubd_check_disconnected_ports(dev_info_t *dip, void *arg) { int circ; usb_port_t port; hubd_t *hubd; major_t hub_major = ddi_name_to_major("hubd"); major_t hwahc_major = ddi_name_to_major("hwahc"); major_t usbmid_major = ddi_name_to_major("usb_mid"); /* * make sure dip is a usb hub, major of root hub is HCD * major */ if (!usba_is_root_hub(dip)) { if (ddi_driver_major(dip) == usbmid_major) { /* * need to walk the children since it might be a * HWA device */ return (DDI_WALK_CONTINUE); } /* TODO: DWA device may also need special handling */ if (((ddi_driver_major(dip) != hub_major) && (ddi_driver_major(dip) != hwahc_major)) || !i_ddi_devi_attached(dip)) { return (DDI_WALK_PRUNECHILD); } } hubd = hubd_get_soft_state(dip); if (hubd == NULL) { return (DDI_WALK_PRUNECHILD); } /* walk child list and remove nodes with flag DEVI_DEVICE_REMOVED */ ndi_devi_enter(dip, &circ); if (ddi_driver_major(dip) != hwahc_major) { /* for normal usb hub or root hub */ mutex_enter(HUBD_MUTEX(hubd)); for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { dev_info_t *cdip = hubd->h_children_dips[port]; if (cdip == NULL || DEVI_IS_DEVICE_REMOVED(cdip) == 0) { continue; } (void) hubd_delete_child(hubd, port, NDI_DEVI_REMOVE, B_TRUE); } mutex_exit(HUBD_MUTEX(hubd)); } else { /* for HWA */ if (hubd->h_cleanup_child != NULL) { if (hubd->h_cleanup_child(dip) != USB_SUCCESS) { ndi_devi_exit(dip, circ); return (DDI_WALK_PRUNECHILD); } } else { ndi_devi_exit(dip, circ); return (DDI_WALK_PRUNECHILD); } } ndi_devi_exit(dip, circ); /* skip siblings of root hub */ if (usba_is_root_hub(dip)) { return (DDI_WALK_PRUNESIB); } return (DDI_WALK_CONTINUE); } /* * this thread will walk all children under the root hub for this * USB bus instance and attempt to remove them */ static void hubd_root_hub_cleanup_thread(void *arg) { int circ; hubd_t *root_hubd = (hubd_t *)arg; dev_info_t *rh_dip = root_hubd->h_dip; #ifndef __lock_lint callb_cpr_t cprinfo; CALLB_CPR_INIT(&cprinfo, HUBD_MUTEX(root_hubd), callb_generic_cpr, "USB root hub"); #endif for (;;) { /* don't race with detach */ ndi_hold_devi(rh_dip); mutex_enter(HUBD_MUTEX(root_hubd)); root_hubd->h_cleanup_needed = 0; mutex_exit(HUBD_MUTEX(root_hubd)); (void) devfs_clean(rh_dip, NULL, 0); ndi_devi_enter(ddi_get_parent(rh_dip), &circ); ddi_walk_devs(rh_dip, hubd_check_disconnected_ports, NULL); #ifdef __lock_lint (void) hubd_check_disconnected_ports(rh_dip, NULL); #endif ndi_devi_exit(ddi_get_parent(rh_dip), circ); /* quit if we are not enabled anymore */ mutex_enter(HUBD_MUTEX(root_hubd)); if ((root_hubd->h_cleanup_enabled == B_FALSE) || (root_hubd->h_cleanup_needed == B_FALSE)) { root_hubd->h_cleanup_active = B_FALSE; mutex_exit(HUBD_MUTEX(root_hubd)); ndi_rele_devi(rh_dip); break; } mutex_exit(HUBD_MUTEX(root_hubd)); ndi_rele_devi(rh_dip); #ifndef __lock_lint mutex_enter(HUBD_MUTEX(root_hubd)); CALLB_CPR_SAFE_BEGIN(&cprinfo); mutex_exit(HUBD_MUTEX(root_hubd)); delay(drv_usectohz(hubd_dip_cleanup_delay)); mutex_enter(HUBD_MUTEX(root_hubd)); CALLB_CPR_SAFE_END(&cprinfo, HUBD_MUTEX(root_hubd)); mutex_exit(HUBD_MUTEX(root_hubd)); #endif } #ifndef __lock_lint mutex_enter(HUBD_MUTEX(root_hubd)); CALLB_CPR_EXIT(&cprinfo); #endif } void hubd_schedule_cleanup(dev_info_t *rh_dip) { hubd_t *root_hubd; /* * The usb_root_hub_dip pointer for the child hub of the WUSB * wire adapter class device points to the wire adapter, not * the root hub. Need to find the real root hub dip so that * the cleanup thread only starts from the root hub. */ while (!usba_is_root_hub(rh_dip)) { root_hubd = hubd_get_soft_state(rh_dip); if (root_hubd != NULL) { rh_dip = root_hubd->h_usba_device->usb_root_hub_dip; if (rh_dip == NULL) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, root_hubd->h_log_handle, "hubd_schedule_cleanup: null rh dip"); return; } } else { USB_DPRINTF_L2(DPRINT_MASK_ATTA, root_hubd->h_log_handle, "hubd_schedule_cleanup: cannot find root hub"); return; } } root_hubd = hubd_get_soft_state(rh_dip); mutex_enter(HUBD_MUTEX(root_hubd)); root_hubd->h_cleanup_needed = B_TRUE; if (root_hubd->h_cleanup_enabled && !(root_hubd->h_cleanup_active)) { root_hubd->h_cleanup_active = B_TRUE; mutex_exit(HUBD_MUTEX(root_hubd)); (void) thread_create(NULL, 0, hubd_root_hub_cleanup_thread, (void *)root_hubd, 0, &p0, TS_RUN, minclsyspri); } else { mutex_exit(HUBD_MUTEX(root_hubd)); } } /* * hubd_restore_device_state: * - set config for the hub * - power cycle all the ports * - for each port that was connected * - reset port * - assign addrs to the device on this port * - restart polling * - reset suspend flag */ static void hubd_restore_device_state(dev_info_t *dip, hubd_t *hubd) { int rval; int retry; uint_t hub_prev_state; usb_port_t port; uint16_t status; uint16_t change; dev_info_t *ch_dip; boolean_t ehci_root_hub; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state:"); mutex_enter(HUBD_MUTEX(hubd)); hub_prev_state = hubd->h_dev_state; ASSERT(hub_prev_state != USB_DEV_PWRED_DOWN); /* First bring the device to full power */ (void) hubd_pm_busy_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); (void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR); if (!usba_is_root_hub(dip) && (usb_check_same_device(dip, hubd->h_log_handle, USB_LOG_L0, DPRINT_MASK_HOTPLUG, USB_CHK_BASIC|USB_CHK_CFG, NULL) != USB_SUCCESS)) { /* change the device state to disconnected */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_dev_state = USB_DEV_DISCONNECTED; (void) hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); return; } ehci_root_hub = (strcmp(ddi_driver_name(dip), "ehci") == 0); mutex_enter(HUBD_MUTEX(hubd)); /* First turn off all port power */ rval = hubd_disable_all_port_power(hubd); if (rval != USB_SUCCESS) { USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state:" "turning off port power failed"); } /* Settling time before turning on again */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(hubd_device_delay / 100)); mutex_enter(HUBD_MUTEX(hubd)); /* enable power on all ports so we can see connects */ if (hubd_enable_all_port_power(hubd) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state: turn on port power failed"); /* disable whatever was enabled */ (void) hubd_disable_all_port_power(hubd); (void) hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); return; } /* * wait at least 3 frames before accessing devices * (note that delay's minimal time is one clock tick which * is 10ms unless hires_tick has been changed) */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(10000)); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_dev_state = USB_DEV_HUB_STATE_RECOVER; for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state: port=%d", port); /* * the childen_dips list may have dips that have been * already deallocated. we only get a post_detach notification * but not a destroy notification */ ch_dip = hubd->h_children_dips[port]; if (ch_dip) { /* get port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_CSC); /* check if it is truly connected */ if (status & PORT_STATUS_CCS) { /* * Now reset port and assign the device * its original address */ retry = 0; do { (void) hubd_reset_port(hubd, port); /* required for ppx */ (void) hubd_enable_port(hubd, port); if (retry) { mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz( hubd_device_delay/2)); mutex_enter(HUBD_MUTEX(hubd)); } rval = hubd_setdevaddr(hubd, port); retry++; } while ((rval != USB_SUCCESS) && (retry < hubd_retry_enumerate)); hubd_setdevconfig(hubd, port); if (hub_prev_state == USB_DEV_DISCONNECTED) { /* post a connect event */ mutex_exit(HUBD_MUTEX(hubd)); hubd_post_event(hubd, port, USBA_EVENT_TAG_HOT_INSERTION); mutex_enter(HUBD_MUTEX(hubd)); } else { /* * Since we have this device connected * mark it reinserted to prevent * cleanup thread from stepping in. */ mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&(DEVI(ch_dip)->devi_lock)); DEVI_SET_DEVICE_REINSERTED(ch_dip); mutex_exit(&(DEVI(ch_dip)->devi_lock)); /* * reopen pipes for children for * their DDI_RESUME */ rval = usba_persistent_pipe_open( usba_get_usba_device(ch_dip)); mutex_enter(HUBD_MUTEX(hubd)); ASSERT(rval == USB_SUCCESS); } } else { /* * Mark this dip for deletion as the device * is not physically present, and schedule * cleanup thread upon post resume */ mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state: " "dip=%p on port=%d marked for cleanup", (void *)ch_dip, port); mutex_enter(&(DEVI(ch_dip)->devi_lock)); DEVI_SET_DEVICE_REMOVED(ch_dip); mutex_exit(&(DEVI(ch_dip)->devi_lock)); mutex_enter(HUBD_MUTEX(hubd)); } } else if (ehci_root_hub) { /* get port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_CSC); /* check if it is truly connected */ if (status & PORT_STATUS_CCS) { /* * reset the port to find out if we have * 2.0 device connected or 1.X. A 2.0 * device will still be seen as connected, * while a 1.X device will switch over to * the companion controller. */ (void) hubd_reset_port(hubd, port); (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_CSC); if (status & (PORT_STATUS_CCS | PORT_STATUS_HSDA)) { /* * We have a USB 2.0 device * connected. Power cycle this port * so that hotplug thread can * enumerate this device. */ (void) hubd_toggle_port(hubd, port); } else { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_restore_device_state: " "device on port %d switched over", port); } } } } /* if the device had remote wakeup earlier, enable it again */ if (hubd->h_hubpm->hubp_wakeup_enabled) { mutex_exit(HUBD_MUTEX(hubd)); (void) usb_handle_remote_wakeup(hubd->h_dip, USB_REMOTE_WAKEUP_ENABLE); mutex_enter(HUBD_MUTEX(hubd)); } hubd->h_dev_state = USB_DEV_ONLINE; hubd_start_polling(hubd, 0); (void) hubd_pm_idle_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); } /* * hubd_cleanup: * cleanup hubd and deallocate. this function is called for * handling attach failures and detaching including dynamic * reconfiguration. If called from attaching, it must clean * up the whole thing and return success. */ /*ARGSUSED*/ static int hubd_cleanup(dev_info_t *dip, hubd_t *hubd) { int circ, rval, old_dev_state; hub_power_t *hubpm; #ifdef DEBUG usb_port_t port; #endif USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_cleanup:"); if ((hubd->h_init_state & HUBD_LOCKS_DONE) == 0) { goto done; } /* ensure we are the only one active */ ndi_devi_enter(dip, &circ); mutex_enter(HUBD_MUTEX(hubd)); /* Cleanup failure is only allowed if called from detach */ if (DEVI_IS_DETACHING(dip)) { dev_info_t *rh_dip = hubd->h_usba_device->usb_root_hub_dip; /* * We are being called from detach. * Fail immediately if the hotplug thread is running * else set the dev_state to disconnected so that * hotplug thread just exits without doing anything. */ if (hubd->h_bus_ctls || hubd->h_bus_pwr || hubd->h_hotplug_thread) { mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_cleanup: hotplug thread/bus ctl active " "- failing detach"); return (USB_FAILURE); } /* * if the deathrow thread is still active or about * to become active, fail detach * the roothup can only be detached if nexus drivers * are unloaded or explicitly offlined */ if (rh_dip == dip) { if (hubd->h_cleanup_needed || hubd->h_cleanup_active) { mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_cleanup: deathrow still active?" "- failing detach"); return (USB_FAILURE); } } } old_dev_state = hubd->h_dev_state; hubd->h_dev_state = USB_DEV_DISCONNECTED; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_cleanup: stop polling"); hubd_close_intr_pipe(hubd); ASSERT((hubd->h_bus_ctls || hubd->h_bus_pwr || hubd->h_hotplug_thread) == 0); mutex_exit(HUBD_MUTEX(hubd)); /* * deallocate events, if events are still registered * (ie. children still attached) then we have to fail the detach */ if (hubd->h_ndi_event_hdl) { rval = ndi_event_free_hdl(hubd->h_ndi_event_hdl); if (DEVI_IS_ATTACHING(dip)) { /* It must return success if attaching. */ ASSERT(rval == NDI_SUCCESS); } else if (rval != NDI_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ALL, hubd->h_log_handle, "hubd_cleanup: ndi_event_free_hdl failed"); ndi_devi_exit(dip, circ); return (USB_FAILURE); } } mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_init_state & HUBD_CHILDREN_CREATED) { #ifdef DEBUG for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { ASSERT(hubd->h_usba_devices[port] == NULL); ASSERT(hubd->h_children_dips[port] == NULL); } #endif kmem_free(hubd->h_children_dips, hubd->h_cd_list_length); kmem_free(hubd->h_usba_devices, hubd->h_cd_list_length); } /* * 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. * Note that cleanup can't fail after deregistration of events. */ if (hubd->h_init_state & HUBD_EVENTS_REGISTERED) { mutex_exit(HUBD_MUTEX(hubd)); usb_unregister_event_cbs(dip, &hubd_events); hubd_unregister_cpr_callback(hubd); mutex_enter(HUBD_MUTEX(hubd)); } /* restore the old dev state so that device can be put into low power */ hubd->h_dev_state = old_dev_state; hubpm = hubd->h_hubpm; if ((hubpm) && (hubd->h_dev_state != USB_DEV_DISCONNECTED)) { (void) hubd_pm_busy_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); if (hubd->h_hubpm->hubp_wakeup_enabled) { /* * Bring the hub to full power before * issuing the disable remote wakeup command */ (void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR); if ((rval = usb_handle_remote_wakeup(hubd->h_dip, USB_REMOTE_WAKEUP_DISABLE)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_cleanup: disable remote wakeup " "fails=%d", rval); } } (void) pm_lower_power(hubd->h_dip, 0, USB_DEV_OS_PWR_OFF); mutex_enter(HUBD_MUTEX(hubd)); (void) hubd_pm_idle_component(hubd, dip, 0); } if (hubpm) { if (hubpm->hubp_child_pwrstate) { kmem_free(hubpm->hubp_child_pwrstate, MAX_PORTS + 1); } kmem_free(hubpm, sizeof (hub_power_t)); } mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_cleanup: freeing space"); if (hubd->h_init_state & HUBD_HUBDI_REGISTERED) { rval = usba_hubdi_unregister(dip); ASSERT(rval == USB_SUCCESS); } if (hubd->h_init_state & HUBD_LOCKS_DONE) { mutex_destroy(HUBD_MUTEX(hubd)); cv_destroy(&hubd->h_cv_reset_port); cv_destroy(&hubd->h_cv_hotplug_dev); } ndi_devi_exit(dip, circ); if (hubd->h_init_state & HUBD_MINOR_NODE_CREATED) { ddi_remove_minor_node(dip, NULL); } if (usba_is_root_hub(dip)) { usb_pipe_close(dip, hubd->h_default_pipe, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); } done: if (hubd->h_ancestry_str) { kmem_free(hubd->h_ancestry_str, HUBD_APID_NAMELEN); } usb_client_detach(dip, hubd->h_dev_data); usb_free_log_hdl(hubd->h_log_handle); if (!usba_is_root_hub(dip)) { ddi_soft_state_free(hubd_statep, ddi_get_instance(dip)); } ddi_prop_remove_all(dip); return (USB_SUCCESS); } /* * hubd_determine_port_connection: * Determine which port is in connect status but does not * have connect status change bit set, and mark port change * bit accordingly. * This function is applied during hub attach time. */ static usb_port_mask_t hubd_determine_port_connection(hubd_t *hubd) { usb_port_t port; usb_hub_descr_t *hub_descr; uint16_t status; uint16_t change; usb_port_mask_t port_change = 0; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); hub_descr = &hubd->h_hub_descr; for (port = 1; port <= hub_descr->bNbrPorts; port++) { (void) hubd_determine_port_status(hubd, port, &status, &change, 0); /* Check if port is in connect status */ if (!(status & PORT_STATUS_CCS)) { continue; } /* * Check if port Connect Status Change bit has been set. * If already set, the connection will be handled by * intr polling callback, not during attach. */ if (change & PORT_CHANGE_CSC) { continue; } port_change |= 1 << port; } return (port_change); } /* * hubd_check_ports: * - get hub descriptor * - check initial port status * - enable power on all ports * - enable polling on ep1 */ static int hubd_check_ports(hubd_t *hubd) { int rval; usb_port_mask_t port_change = 0; hubd_hotplug_arg_t *arg; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_check_ports: addr=0x%x", usb_get_addr(hubd->h_dip)); /* * First turn off all port power */ if ((rval = hubd_disable_all_port_power(hubd)) != USB_SUCCESS) { /* disable whatever was enabled */ (void) hubd_disable_all_port_power(hubd); return (rval); } /* * do not switch on immediately (instantly on root hub) * and allow time to settle */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(10000)); mutex_enter(HUBD_MUTEX(hubd)); /* * enable power on all ports so we can see connects */ if ((rval = hubd_enable_all_port_power(hubd)) != USB_SUCCESS) { /* disable whatever was enabled */ (void) hubd_disable_all_port_power(hubd); return (rval); } /* wait at least 3 frames before accessing devices */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(10000)); mutex_enter(HUBD_MUTEX(hubd)); /* * allocate arrays for saving the dips of each child per port * * ports go from 1 - n, allocate 1 more entry */ hubd->h_cd_list_length = (sizeof (dev_info_t **)) * (hubd->h_hub_descr.bNbrPorts + 1); hubd->h_children_dips = (dev_info_t **)kmem_zalloc( hubd->h_cd_list_length, KM_SLEEP); hubd->h_usba_devices = (usba_device_t **)kmem_zalloc( hubd->h_cd_list_length, KM_SLEEP); hubd->h_init_state |= HUBD_CHILDREN_CREATED; mutex_exit(HUBD_MUTEX(hubd)); arg = (hubd_hotplug_arg_t *)kmem_zalloc( sizeof (hubd_hotplug_arg_t), KM_SLEEP); mutex_enter(HUBD_MUTEX(hubd)); if ((rval = hubd_open_intr_pipe(hubd)) != USB_SUCCESS) { kmem_free(arg, sizeof (hubd_hotplug_arg_t)); return (rval); } hubd_start_polling(hubd, 0); /* * Some hub devices, like the embedded hub in the CKS ErgoMagic * keyboard, may only have connection status bit set, but not * have connect status change bit set when a device has been * connected to its downstream port before the hub is enumerated. * Then when the hub is in enumeration, the devices connected to * it cannot be detected by the intr pipe and won't be enumerated. * We need to check such situation here and enumerate the downstream * devices for such hubs. */ port_change = hubd_determine_port_connection(hubd); if (port_change) { hubd_pm_busy_component(hubd, hubd->h_dip, 0); arg->hubd = hubd; arg->hotplug_during_attach = B_TRUE; hubd->h_port_change |= port_change; USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_check_ports: port change=0x%x, need to connect", hubd->h_port_change); if (usb_async_req(hubd->h_dip, hubd_hotplug_thread, (void *)arg, 0) == USB_SUCCESS) { hubd->h_hotplug_thread++; } else { /* mark this device as idle */ hubd_pm_idle_component(hubd, hubd->h_dip, 0); kmem_free(arg, sizeof (hubd_hotplug_arg_t)); } } else { kmem_free(arg, sizeof (hubd_hotplug_arg_t)); } USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_check_ports done"); return (USB_SUCCESS); } /* * hubd_get_hub_descriptor: */ static int hubd_get_hub_descriptor(hubd_t *hubd) { usb_hub_descr_t *hub_descr = &hubd->h_hub_descr; mblk_t *data = NULL; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; uint16_t length; int rval; USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd_get_hub_descriptor:"); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); ASSERT(hubd->h_default_pipe != 0); /* get hub descriptor length first by requesting 8 bytes only */ mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_CLASS_REQ_TYPE, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_HUB, /* wValue */ 0, /* wIndex */ 8, /* wLength */ &data, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "get hub descriptor failed: cr=%d cb_fl=0x%x rval=%d", completion_reason, cb_flags, rval); freemsg(data); mutex_enter(HUBD_MUTEX(hubd)); return (rval); } length = *(data->b_rptr); if (length > 8) { freemsg(data); data = NULL; /* get complete hub descriptor */ if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_CLASS_REQ_TYPE, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_HUB, /* wValue */ 0, /* wIndex */ length, /* wLength */ &data, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "get hub descriptor failed: " "cr=%d cb_fl=0x%x rval=%d", completion_reason, cb_flags, rval); freemsg(data); mutex_enter(HUBD_MUTEX(hubd)); return (rval); } } mutex_enter(HUBD_MUTEX(hubd)); /* parse the hub descriptor */ /* only 32 ports are supported at present */ ASSERT(*(data->b_rptr + 2) <= 32); if (usb_parse_CV_descr("cccscccccc", data->b_rptr, MBLKL(data), (void *)hub_descr, sizeof (usb_hub_descr_t)) == 0) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "parsing hub descriptor failed"); freemsg(data); return (USB_FAILURE); } freemsg(data); USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "rval=0x%x bNbrPorts=0x%x wHubChars=0x%x " "PwrOn2PwrGood=0x%x HubContrCurrent=%dmA", rval, hub_descr->bNbrPorts, hub_descr->wHubCharacteristics, hub_descr->bPwrOn2PwrGood, hub_descr->bHubContrCurrent); if (hub_descr->bNbrPorts > MAX_PORTS) { USB_DPRINTF_L0(DPRINT_MASK_ATTA, hubd->h_log_handle, "Hub driver supports max of %d ports on hub. " "Hence using the first %d port of %d ports available", MAX_PORTS, MAX_PORTS, hub_descr->bNbrPorts); hub_descr->bNbrPorts = MAX_PORTS; } return (USB_SUCCESS); } /* * hubd_get_hub_status_words: */ static int hubd_get_hub_status_words(hubd_t *hubd, uint16_t *status) { usb_cr_t completion_reason; usb_cb_flags_t cb_flags; mblk_t *data = NULL; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); if (usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_CLASS_REQ_TYPE, USB_REQ_GET_STATUS, 0, 0, GET_STATUS_LENGTH, &data, 0, &completion_reason, &cb_flags, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HUB, hubd->h_log_handle, "get hub status failed: cr=%d cb=0x%x", completion_reason, cb_flags); if (data) { freemsg(data); } mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } mutex_enter(HUBD_MUTEX(hubd)); status[0] = (*(data->b_rptr + 1) << 8) | *(data->b_rptr); status[1] = (*(data->b_rptr + 3) << 8) | *(data->b_rptr + 2); USB_DPRINTF_L3(DPRINT_MASK_HUB, hubd->h_log_handle, "hub status=0x%x change=0x%x", status[0], status[1]); freemsg(data); return (USB_SUCCESS); } /* * hubd_open_intr_pipe: * we read all descriptors first for curiosity and then simply * open the pipe */ static int hubd_open_intr_pipe(hubd_t *hubd) { int rval; USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd_open_intr_pipe:"); ASSERT(hubd->h_intr_pipe_state == HUBD_INTR_PIPE_IDLE); hubd->h_intr_pipe_state = HUBD_INTR_PIPE_OPENING; mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_open(hubd->h_dip, &hubd->h_ep1_descr, &hubd->h_pipe_policy, 0, &hubd->h_ep1_ph)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HUB, hubd->h_log_handle, "open intr pipe failed (%d)", rval); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_intr_pipe_state = HUBD_INTR_PIPE_IDLE; return (rval); } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_intr_pipe_state = HUBD_INTR_PIPE_ACTIVE; USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "open intr pipe succeeded, ph=0x%p", (void *)hubd->h_ep1_ph); return (USB_SUCCESS); } /* * hubd_start_polling: * start or restart the polling */ static void hubd_start_polling(hubd_t *hubd, int always) { usb_intr_req_t *reqp; int rval; usb_pipe_state_t pipe_state; USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "start polling: always=%d dev_state=%d pipe_state=%d\n\t" "thread=%d ep1_ph=0x%p", always, hubd->h_dev_state, hubd->h_intr_pipe_state, hubd->h_hotplug_thread, (void *)hubd->h_ep1_ph); /* * start or restart polling on the intr pipe * only if hotplug thread is not running */ if ((always == HUBD_ALWAYS_START_POLLING) || ((hubd->h_dev_state == USB_DEV_ONLINE) && (hubd->h_intr_pipe_state == HUBD_INTR_PIPE_ACTIVE) && (hubd->h_hotplug_thread == 0) && hubd->h_ep1_ph)) { USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "start polling requested"); reqp = usb_alloc_intr_req(hubd->h_dip, 0, USB_FLAGS_SLEEP); reqp->intr_client_private = (usb_opaque_t)hubd; reqp->intr_attributes = USB_ATTRS_SHORT_XFER_OK | USB_ATTRS_AUTOCLEARING; reqp->intr_len = hubd->h_ep1_descr.wMaxPacketSize; reqp->intr_cb = hubd_read_cb; reqp->intr_exc_cb = hubd_exception_cb; mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_intr_xfer(hubd->h_ep1_ph, reqp, USB_FLAGS_SLEEP)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HUB, hubd->h_log_handle, "start polling failed, rval=%d", rval); usb_free_intr_req(reqp); } rval = usb_pipe_get_state(hubd->h_ep1_ph, &pipe_state, USB_FLAGS_SLEEP); if (pipe_state != USB_PIPE_STATE_ACTIVE) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "intr pipe state=%d, rval=%d", pipe_state, rval); } USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "start polling request 0x%p", (void *)reqp); mutex_enter(HUBD_MUTEX(hubd)); } } /* * hubd_stop_polling * stop polling but do not close the pipe */ static void hubd_stop_polling(hubd_t *hubd) { int rval; usb_pipe_state_t pipe_state; if (hubd->h_ep1_ph) { USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_stop_polling:"); hubd->h_intr_pipe_state = HUBD_INTR_PIPE_STOPPED; mutex_exit(HUBD_MUTEX(hubd)); usb_pipe_stop_intr_polling(hubd->h_ep1_ph, USB_FLAGS_SLEEP); rval = usb_pipe_get_state(hubd->h_ep1_ph, &pipe_state, USB_FLAGS_SLEEP); if (pipe_state != USB_PIPE_STATE_IDLE) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "intr pipe state=%d, rval=%d", pipe_state, rval); } mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_intr_pipe_state == HUBD_INTR_PIPE_STOPPED) { hubd->h_intr_pipe_state = HUBD_INTR_PIPE_ACTIVE; } } } /* * hubd_close_intr_pipe: * close the pipe (which also stops the polling * and wait for the hotplug thread to exit */ static void hubd_close_intr_pipe(hubd_t *hubd) { USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd_close_intr_pipe:"); /* * Now that no async operation is outstanding on pipe, * we can change the state to HUBD_INTR_PIPE_CLOSING */ hubd->h_intr_pipe_state = HUBD_INTR_PIPE_CLOSING; ASSERT(hubd->h_hotplug_thread == 0); if (hubd->h_ep1_ph) { mutex_exit(HUBD_MUTEX(hubd)); usb_pipe_close(hubd->h_dip, hubd->h_ep1_ph, USB_FLAGS_SLEEP, NULL, NULL); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_ep1_ph = NULL; } hubd->h_intr_pipe_state = HUBD_INTR_PIPE_IDLE; } /* * hubd_exception_cb * interrupt ep1 exception callback function. * this callback executes in taskq thread context and assumes * autoclearing */ /*ARGSUSED*/ static void hubd_exception_cb(usb_pipe_handle_t pipe, usb_intr_req_t *reqp) { hubd_t *hubd = (hubd_t *)(reqp->intr_client_private); USB_DPRINTF_L2(DPRINT_MASK_CALLBACK, hubd->h_log_handle, "hubd_exception_cb: " "req=0x%p cr=%d data=0x%p cb_flags=0x%x", (void *)reqp, reqp->intr_completion_reason, (void *)reqp->intr_data, reqp->intr_cb_flags); ASSERT((reqp->intr_cb_flags & USB_CB_INTR_CONTEXT) == 0); mutex_enter(HUBD_MUTEX(hubd)); (void) hubd_pm_busy_component(hubd, hubd->h_dip, 0); switch (reqp->intr_completion_reason) { case USB_CR_PIPE_RESET: /* only restart polling after autoclearing */ if ((hubd->h_intr_pipe_state == HUBD_INTR_PIPE_ACTIVE) && (hubd->h_port_reset_wait == 0)) { hubd_start_polling(hubd, 0); } break; case USB_CR_DEV_NOT_RESP: case USB_CR_STOPPED_POLLING: case USB_CR_PIPE_CLOSING: case USB_CR_UNSPECIFIED_ERR: /* never restart polling on these conditions */ default: /* for all others, wait for the autoclearing PIPE_RESET cb */ break; } usb_free_intr_req(reqp); (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); } /* * helper function to convert LE bytes to a portmask */ static usb_port_mask_t hubd_mblk2portmask(mblk_t *data) { int len = min(MBLKL(data), sizeof (usb_port_mask_t)); usb_port_mask_t rval = 0; int i; for (i = 0; i < len; i++) { rval |= data->b_rptr[i] << (i * 8); } return (rval); } /* * hubd_read_cb: * interrupt ep1 callback function * * the status indicates just a change on the pipe with no indication * of what the change was * * known conditions: * - reset port completion * - connect * - disconnect * * for handling the hotplugging, create a new thread that can do * synchronous usba calls */ static void hubd_read_cb(usb_pipe_handle_t pipe, usb_intr_req_t *reqp) { hubd_t *hubd = (hubd_t *)(reqp->intr_client_private); size_t length; mblk_t *data = reqp->intr_data; int mem_flag = 0; hubd_hotplug_arg_t *arg; USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd_read_cb: ph=0x%p req=0x%p", (void *)pipe, (void *)reqp); ASSERT((reqp->intr_cb_flags & USB_CB_INTR_CONTEXT) == 0); /* * At present, we are not handling notification for completion of * asynchronous pipe reset, for which this data ptr could be NULL */ if (data == NULL) { usb_free_intr_req(reqp); return; } arg = (hubd_hotplug_arg_t *)kmem_zalloc( sizeof (hubd_hotplug_arg_t), KM_SLEEP); mem_flag = 1; mutex_enter(HUBD_MUTEX(hubd)); if ((hubd->h_dev_state == USB_DEV_SUSPENDED) || (hubd->h_intr_pipe_state != HUBD_INTR_PIPE_ACTIVE)) { mutex_exit(HUBD_MUTEX(hubd)); usb_free_intr_req(reqp); kmem_free(arg, sizeof (hubd_hotplug_arg_t)); return; } ASSERT(hubd->h_ep1_ph == pipe); length = MBLKL(data); /* * Only look at the data and startup the hotplug thread if * there actually is data. */ if (length != 0) { usb_port_mask_t port_change = hubd_mblk2portmask(data); /* * if a port change was already reported and we are waiting for * reset port completion then wake up the hotplug thread which * should be waiting on reset port completion * * if there is disconnect event instead of reset completion, let * the hotplug thread figure this out */ /* remove the reset wait bits from the status */ hubd->h_port_change |= port_change & ~hubd->h_port_reset_wait; USB_DPRINTF_L3(DPRINT_MASK_CALLBACK, hubd->h_log_handle, "port change=0x%x port_reset_wait=0x%x", hubd->h_port_change, hubd->h_port_reset_wait); /* there should be only one reset bit active at the time */ if (hubd->h_port_reset_wait & port_change) { hubd->h_port_reset_wait = 0; cv_signal(&hubd->h_cv_reset_port); } /* * kick off the thread only if device is ONLINE and it is not * during attaching or detaching */ if ((hubd->h_dev_state == USB_DEV_ONLINE) && (!DEVI_IS_ATTACHING(hubd->h_dip)) && (!DEVI_IS_DETACHING(hubd->h_dip)) && (hubd->h_port_change) && (hubd->h_hotplug_thread == 0)) { USB_DPRINTF_L3(DPRINT_MASK_CALLBACK, hubd->h_log_handle, "creating hotplug thread: " "dev_state=%d", hubd->h_dev_state); /* * Mark this device as busy. The will be marked idle * if the async req fails or at the exit of hotplug * thread */ (void) hubd_pm_busy_component(hubd, hubd->h_dip, 0); arg->hubd = hubd; arg->hotplug_during_attach = B_FALSE; if (usb_async_req(hubd->h_dip, hubd_hotplug_thread, (void *)arg, 0) == USB_SUCCESS) { hubd->h_hotplug_thread++; mem_flag = 0; } else { /* mark this device as idle */ (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); } } } mutex_exit(HUBD_MUTEX(hubd)); if (mem_flag == 1) { kmem_free(arg, sizeof (hubd_hotplug_arg_t)); } usb_free_intr_req(reqp); } /* * hubd_hotplug_thread: * handles resetting of port, and creating children * * the ports to check are indicated in h_port_change bit mask * XXX note that one time poll doesn't work on the root hub */ static void hubd_hotplug_thread(void *arg) { hubd_hotplug_arg_t *hd_arg = (hubd_hotplug_arg_t *)arg; hubd_t *hubd = hd_arg->hubd; boolean_t attach_flg = hd_arg->hotplug_during_attach; usb_port_t port; uint16_t nports; uint16_t status, change; hub_power_t *hubpm; dev_info_t *hdip = hubd->h_dip; dev_info_t *rh_dip = hubd->h_usba_device->usb_root_hub_dip; dev_info_t *child_dip; boolean_t online_child = B_FALSE; boolean_t offline_child = B_FALSE; boolean_t pwrup_child = B_FALSE; int prh_circ, rh_circ, chld_circ, circ, old_state; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: started"); /* * Before console is init'd, we temporarily block the hotplug * threads so that BUS_CONFIG_ONE through hubd_bus_config() can be * processed quickly. This reduces the time needed for vfs_mountroot() * to mount the root FS from a USB disk. */ while (!consconfig_console_is_ready()) { delay(drv_usectohz(10000)); } kmem_free(arg, sizeof (hubd_hotplug_arg_t)); /* * if our bus power entry point is active, process the change * on the next notification of interrupt pipe */ mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_bus_pwr || (hubd->h_hotplug_thread > 1)) { hubd->h_hotplug_thread--; /* mark this device as idle */ hubd_pm_idle_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: " "bus_power in progress/hotplugging undesirable - quit"); return; } mutex_exit(HUBD_MUTEX(hubd)); ndi_hold_devi(hdip); /* so we don't race with detach */ mutex_enter(HUBD_MUTEX(hubd)); /* is this the root hub? */ if (hdip == rh_dip) { if (hubd->h_dev_state == USB_DEV_PWRED_DOWN) { hubpm = hubd->h_hubpm; /* mark the root hub as full power */ hubpm->hubp_current_power = USB_DEV_OS_FULL_PWR; hubpm->hubp_time_at_full_power = ddi_get_time(); mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: call pm_power_has_changed"); (void) pm_power_has_changed(hdip, 0, USB_DEV_OS_FULL_PWR); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_dev_state = USB_DEV_ONLINE; } } else { USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: not root hub"); } mutex_exit(HUBD_MUTEX(hubd)); /* * this ensures one hotplug activity per system at a time. * we enter the parent PCI node to have this serialization. * this also excludes ioctls and deathrow thread * (a bit crude but easier to debug) */ ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); /* exclude other threads */ ndi_devi_enter(hdip, &circ); mutex_enter(HUBD_MUTEX(hubd)); ASSERT(hubd->h_intr_pipe_state == HUBD_INTR_PIPE_ACTIVE); nports = hubd->h_hub_descr.bNbrPorts; hubd_stop_polling(hubd); while ((hubd->h_dev_state == USB_DEV_ONLINE) && (hubd->h_port_change)) { /* * The 0th bit is the hub status change bit. * handle loss of local power here */ if (hubd->h_port_change & HUB_CHANGE_STATUS) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: hub status change!"); /* * This should be handled properly. For now, * mask off the bit. */ hubd->h_port_change &= ~HUB_CHANGE_STATUS; /* * check and ack hub status * this causes stall conditions * when local power is removed */ (void) hubd_get_hub_status(hubd); } for (port = 1; port <= nports; port++) { usb_port_mask_t port_mask; boolean_t was_connected; port_mask = 1 << port; was_connected = (hubd->h_port_state[port] & PORT_STATUS_CCS) && (hubd->h_children_dips[port]); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: " "port %d mask=0x%x change=0x%x connected=0x%x", port, port_mask, hubd->h_port_change, was_connected); /* * is this a port connection that changed? */ if ((hubd->h_port_change & port_mask) == 0) { continue; } hubd->h_port_change &= ~port_mask; /* ack all changes */ (void) hubd_determine_port_status(hubd, port, &status, &change, HUBD_ACK_ALL_CHANGES); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "handle port %d:\n\t" "new status=0x%x change=0x%x was_conn=0x%x ", port, status, change, was_connected); /* Recover a disabled port */ if (change & PORT_CHANGE_PESC) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "port%d Disabled - " "status=0x%x, change=0x%x", port, status, change); /* * if the port was connected and is still * connected, recover the port */ if (was_connected && (status & PORT_STATUS_CCS)) { online_child |= (hubd_recover_disabled_port(hubd, port) == USB_SUCCESS); } } /* * Now check what changed on the port */ if ((change & PORT_CHANGE_CSC) || attach_flg) { if ((status & PORT_STATUS_CCS) && (!was_connected)) { /* new device plugged in */ online_child |= (hubd_handle_port_connect(hubd, port) == USB_SUCCESS); } else if ((status & PORT_STATUS_CCS) && was_connected) { /* * In this case we can never be sure * if the device indeed got hotplugged * or the hub is falsely reporting the * change. */ child_dip = hubd->h_children_dips[port]; mutex_exit(HUBD_MUTEX(hubd)); /* * this ensures we do not race with * other threads which are detaching * the child driver at the same time. */ ndi_devi_enter(child_dip, &chld_circ); /* * Now check if the driver remains * attached. */ if (i_ddi_devi_attached(child_dip)) { /* * first post a disconnect event * to the child. */ hubd_post_event(hubd, port, USBA_EVENT_TAG_HOT_REMOVAL); mutex_enter(HUBD_MUTEX(hubd)); /* * then reset the port and * recover the device */ online_child |= (hubd_handle_port_connect( hubd, port) == USB_SUCCESS); mutex_exit(HUBD_MUTEX(hubd)); } ndi_devi_exit(child_dip, chld_circ); mutex_enter(HUBD_MUTEX(hubd)); } else if (was_connected) { /* this is a disconnect */ mutex_exit(HUBD_MUTEX(hubd)); hubd_post_event(hubd, port, USBA_EVENT_TAG_HOT_REMOVAL); mutex_enter(HUBD_MUTEX(hubd)); offline_child = B_TRUE; } } /* * Check if any port is coming out of suspend */ if (change & PORT_CHANGE_PSSC) { /* a resuming device could have disconnected */ if (was_connected && hubd->h_children_dips[port]) { /* device on this port resuming */ dev_info_t *dip; dip = hubd->h_children_dips[port]; /* * Don't raise power on detaching child */ if (!DEVI_IS_DETACHING(dip)) { /* * As this child is not * detaching, we set this * flag, causing bus_ctls * to stall detach till * pm_raise_power returns * and flag it for a deferred * raise_power. * * pm_raise_power is deferred * because we need to release * the locks first. */ hubd->h_port_state[port] |= HUBD_CHILD_RAISE_POWER; pwrup_child = B_TRUE; mutex_exit(HUBD_MUTEX(hubd)); /* * make sure that child * doesn't disappear */ ndi_hold_devi(dip); mutex_enter(HUBD_MUTEX(hubd)); } } } /* * Check if the port is over-current */ if (change & PORT_CHANGE_OCIC) { USB_DPRINTF_L1(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Port%d in over current condition, " "please check the attached device to " "clear the condition. The system will " "try to recover the port, but if not " "successful, you need to re-connect " "the hub or reboot the system to bring " "the port back to work", port); if (!(status & PORT_STATUS_PPS)) { /* * Try to enable port power, but * possibly fail. Ignore failure */ (void) hubd_enable_port_power(hubd, port); /* * Delay some time to avoid * over-current event to happen * too frequently in some cases */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(500000)); mutex_enter(HUBD_MUTEX(hubd)); } } } } /* release locks so we can do a devfs_clean */ mutex_exit(HUBD_MUTEX(hubd)); /* delete cached dv_node's but drop locks first */ ndi_devi_exit(hdip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); (void) devfs_clean(rh_dip, NULL, 0); /* now check if any children need onlining */ if (online_child) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: onlining children"); (void) ndi_devi_online(hubd->h_dip, 0); } /* now check if any disconnected devices need to be cleaned up */ if (offline_child) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: scheduling cleanup"); hubd_schedule_cleanup(hubd->h_usba_device->usb_root_hub_dip); } mutex_enter(HUBD_MUTEX(hubd)); /* now raise power on the children that have woken up */ if (pwrup_child) { old_state = hubd->h_dev_state; hubd->h_dev_state = USB_DEV_HUB_CHILD_PWRLVL; for (port = 1; port <= nports; port++) { if (hubd->h_port_state[port] & HUBD_CHILD_RAISE_POWER) { dev_info_t *dip = hubd->h_children_dips[port]; mutex_exit(HUBD_MUTEX(hubd)); /* Get the device to full power */ (void) pm_busy_component(dip, 0); (void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR); (void) pm_idle_component(dip, 0); /* release the hold on the child */ ndi_rele_devi(dip); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] &= ~HUBD_CHILD_RAISE_POWER; } } /* * make sure that we don't accidentally * over write the disconnect state */ if (hubd->h_dev_state == USB_DEV_HUB_CHILD_PWRLVL) { hubd->h_dev_state = old_state; } } /* * start polling can immediately kick off read callback * we need to set the h_hotplug_thread to 0 so that * the callback is not dropped * * if there is device during reset, still stop polling to avoid the * read callback interrupting the reset, the polling will be started * in hubd_reset_thread. */ for (port = 1; port <= MAX_PORTS; port++) { if (hubd->h_reset_port[port]) { break; } } if (port > MAX_PORTS) { hubd_start_polling(hubd, HUBD_ALWAYS_START_POLLING); } /* * Earlier we would set the h_hotplug_thread = 0 before * polling was restarted so that * if there is any root hub status change interrupt, we can still kick * off the hotplug thread. This was valid when this interrupt was * delivered in hardware, and only ONE interrupt would be delivered. * Now that we poll on the root hub looking for status change in * software, this assignment is no longer required. */ hubd->h_hotplug_thread--; /* mark this device as idle */ (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); cv_broadcast(&hubd->h_cv_hotplug_dev); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_hotplug_thread: exit"); mutex_exit(HUBD_MUTEX(hubd)); ndi_rele_devi(hdip); } /* * hubd_handle_port_connect: * Transition a port from Disabled to Enabled. Ensure that the * port is in the correct state before attempting to * access the device. */ static int hubd_handle_port_connect(hubd_t *hubd, usb_port_t port) { int rval; int retry; long time_delay; long settling_time; uint16_t status; uint16_t change; usb_addr_t hubd_usb_addr; usba_device_t *usba_device; usb_port_status_t port_status = 0; usb_port_status_t hub_port_status = 0; /* Get the hub address and port status */ usba_device = hubd->h_usba_device; mutex_enter(&usba_device->usb_mutex); hubd_usb_addr = usba_device->usb_addr; hub_port_status = usba_device->usb_port_status; mutex_exit(&usba_device->usb_mutex); /* * If a device is connected, transition the * port from Disabled to the Enabled state. * The device will receive downstream packets * in the Enabled state. * * reset port and wait for the hub to report * completion */ change = status = 0; /* * According to section 9.1.2 of USB 2.0 spec, the host should * wait for atleast 100ms to allow completion of an insertion * process and for power at the device to become stable. * We wait for 200 ms */ settling_time = drv_usectohz(hubd_device_delay / 5); mutex_exit(HUBD_MUTEX(hubd)); delay(settling_time); mutex_enter(HUBD_MUTEX(hubd)); /* calculate 600 ms delay time */ time_delay = (6 * drv_usectohz(hubd_device_delay)) / 10; for (retry = 0; (hubd->h_dev_state == USB_DEV_ONLINE) && (retry < hubd_retry_enumerate); retry++) { USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "resetting port%d, retry=%d", port, retry); if ((rval = hubd_reset_port(hubd, port)) != USB_SUCCESS) { (void) hubd_determine_port_status(hubd, port, &status, &change, 0); /* continue only if port is still connected */ if (status & PORT_STATUS_CCS) { continue; } /* carry on regardless */ } /* * according to USB 2.0 spec section 11.24.2.7.1.2 * at the end of port reset, the hub enables the port. * But for some strange reasons, uhci port remains disabled. * And because the port remains disabled for the settling * time below, the device connected to the port gets wedged * - fails to enumerate (device not responding) * Hence, we enable it here immediately and later again after * the delay */ (void) hubd_enable_port(hubd, port); /* we skip this delay in the first iteration */ if (retry) { /* * delay for device to signal disconnect/connect so * that hub properly recognizes the speed of the device */ mutex_exit(HUBD_MUTEX(hubd)); delay(settling_time); mutex_enter(HUBD_MUTEX(hubd)); /* * When a low speed device is connected to any port of * PPX it has to be explicitly enabled * Also, if device intentionally signals * disconnect/connect, it will disable the port. * So enable it again. */ (void) hubd_enable_port(hubd, port); } if ((rval = hubd_determine_port_status(hubd, port, &status, &change, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "getting status failed (%d)", rval); (void) hubd_disable_port(hubd, port); continue; } if (status & PORT_STATUS_POCI) { USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "port %d overcurrent", port); (void) hubd_disable_port(hubd, port); /* ack changes */ (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_OCIC); continue; } /* is status really OK? */ if ((status & PORT_STATUS_OK) != PORT_STATUS_OK) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "port %d status (0x%x) not OK on retry %d", port, status, retry); /* check if we still have the connection */ if (!(status & PORT_STATUS_CCS)) { /* lost connection, set exit condition */ retry = hubd_retry_enumerate; break; } } else { /* * Determine if the device is high or full * or low speed. */ if (status & PORT_STATUS_LSDA) { port_status = USBA_LOW_SPEED_DEV; } else if (status & PORT_STATUS_HSDA) { port_status = USBA_HIGH_SPEED_DEV; } else { port_status = USBA_FULL_SPEED_DEV; } USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "creating child port%d, status=0x%x " "port status=0x%x", port, status, port_status); /* * if the child already exists, set addrs and config * to the device post connect event to the child */ if (hubd->h_children_dips[port]) { /* set addrs to this device */ rval = hubd_setdevaddr(hubd, port); /* * This delay is important for the CATC hub * to enumerate. But, avoid delay in the first * iteration */ if (retry) { mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz( hubd_device_delay/100)); mutex_enter(HUBD_MUTEX(hubd)); } if (rval == USB_SUCCESS) { /* * if the port is resetting, check if * device's descriptors have changed. */ if ((hubd->h_reset_port[port]) && (hubd_check_same_device(hubd, port) != USB_SUCCESS)) { retry = hubd_retry_enumerate; break; } /* * set the default config for * this device */ hubd_setdevconfig(hubd, port); /* * if we are doing Default reset, do * not post reconnect event since we * don't know where reset function is * called. */ if (hubd->h_reset_port[port]) { return (USB_SUCCESS); } /* * indicate to the child that * it is online again */ mutex_exit(HUBD_MUTEX(hubd)); hubd_post_event(hubd, port, USBA_EVENT_TAG_HOT_INSERTION); mutex_enter(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } } else { /* * We need to release access here * so that busctls on other ports can * continue and don't cause a deadlock * when busctl and removal of prom node * takes concurrently. This also ensures * busctls for attach of successfully * enumerated devices on other ports can * continue concurrently with the process * of enumerating the new devices. This * reduces the overall boot time of the system. */ rval = hubd_create_child(hubd->h_dip, hubd, hubd->h_usba_device, port_status, port, retry); if (rval == USB_SUCCESS) { usba_update_hotplug_stats(hubd->h_dip, USBA_TOTAL_HOTPLUG_SUCCESS| USBA_HOTPLUG_SUCCESS); hubd->h_total_hotplug_success++; if (retry > 0) { USB_DPRINTF_L2( DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device on port %d " "enumerated after %d %s", port, retry, (retry > 1) ? "retries" : "retry"); } return (USB_SUCCESS); } } } /* wait a while until it settles? */ USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "disabling port %d again", port); (void) hubd_disable_port(hubd, port); if (retry) { mutex_exit(HUBD_MUTEX(hubd)); delay(time_delay); mutex_enter(HUBD_MUTEX(hubd)); } USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "retrying on port %d", port); } if (retry >= hubd_retry_enumerate) { /* * If it is a High Speed Root Hub and connected device * Is a Low/Full Speed, it will be handled by USB 1.1 * Host Controller. In this case, USB 2.0 Host Controller * will transfer the ownership of this port to USB 1.1 * Host Controller. So don't display any error message on * the console. */ if ((hubd_usb_addr == ROOT_HUB_ADDR) && (hub_port_status == USBA_HIGH_SPEED_DEV) && (port_status != USBA_HIGH_SPEED_DEV)) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_handle_port_connect: Low/Full speed " "device is connected to High Speed root hub"); } else { USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Connecting device on port %d failed", port); } (void) hubd_disable_port(hubd, port); usba_update_hotplug_stats(hubd->h_dip, USBA_TOTAL_HOTPLUG_FAILURE|USBA_HOTPLUG_FAILURE); hubd->h_total_hotplug_failure++; /* * the port should be automagically * disabled but just in case, we do * it here */ (void) hubd_disable_port(hubd, port); /* ack all changes because we disabled this port */ (void) hubd_determine_port_status(hubd, port, &status, &change, HUBD_ACK_ALL_CHANGES); } return (USB_FAILURE); } /* * hubd_get_hub_status: */ static int hubd_get_hub_status(hubd_t *hubd) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; uint16_t stword[2]; uint16_t status; uint16_t change; usb_cfg_descr_t cfg_descr; size_t cfg_length; uchar_t *usb_cfg; uint8_t MaxPower; usb_hub_descr_t *hub_descr; usb_port_t port; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_get_hub_status:"); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); if ((hubd_get_hub_status_words(hubd, stword)) != USB_SUCCESS) { return (USB_FAILURE); } status = stword[0]; change = stword[1]; mutex_exit(HUBD_MUTEX(hubd)); /* Obtain the raw configuration descriptor */ usb_cfg = usb_get_raw_cfg_data(hubd->h_dip, &cfg_length); /* get configuration descriptor */ rval = usb_parse_cfg_descr(usb_cfg, cfg_length, &cfg_descr, USB_CFG_DESCR_SIZE); if (rval != USB_CFG_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "get hub configuration descriptor failed."); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } else { MaxPower = cfg_descr.bMaxPower; } /* check if local power status changed. */ if (change & C_HUB_LOCAL_POWER_STATUS) { /* * local power has been lost, check the maximum * power consumption of current configuration. * see USB2.0 spec Table 11-12. */ if (status & HUB_LOCAL_POWER_STATUS) { if (MaxPower == 0) { /* * Self-powered only hub. Because it could * not draw any power from USB bus. * It can't work well on this condition. */ USB_DPRINTF_L1(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "local power has been lost, " "please disconnect hub"); } else { /* * Bus-powered only or self/bus-powered hub. */ USB_DPRINTF_L1(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "local power has been lost," "the hub could draw %d" " mA power from the USB bus.", 2*MaxPower); } } USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "clearing feature C_HUB_LOCAL_POWER "); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_HUB_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_HUB_LOCAL_POWER, 0, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "clear feature C_HUB_LOCAL_POWER " "failed (%d 0x%x %d)", rval, completion_reason, cb_flags); } } if (change & C_HUB_OVER_CURRENT) { if (status & HUB_OVER_CURRENT) { if (usba_is_root_hub(hubd->h_dip)) { /* * The root hub should be automatically * recovered when over-current condition is * cleared. But there might be exception and * need user interaction to recover. */ USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Root hub over current condition, " "please check your system to clear the " "condition as soon as possible. And you " "may need to reboot the system to bring " "the root hub back to work if it cannot " "recover automatically"); } else { /* * The driver would try to recover port power * on over current condition. When the recovery * fails, the user may still need to offline * this hub in order to recover. * The port power is automatically disabled, * so we won't see disconnects. */ USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Hub global over current condition, " "please disconnect the devices connected " "to the hub to clear the condition. And " "you may need to re-connect the hub if " "the ports do not work"); } } USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "clearing feature C_HUB_OVER_CURRENT"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_HUB_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_HUB_OVER_CURRENT, 0, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "clear feature C_HUB_OVER_CURRENT " "failed (%d 0x%x %d)", rval, completion_reason, cb_flags); } /* * Try to recover all port power if they are turned off. * Don't do this for root hub, but rely on the root hub * to recover itself. */ if (!usba_is_root_hub(hubd->h_dip)) { mutex_enter(HUBD_MUTEX(hubd)); /* * Only check the power status of the 1st port * since all port power status should be the same. */ (void) hubd_determine_port_status(hubd, 1, &status, &change, 0); if (status & PORT_STATUS_PPS) { return (USB_SUCCESS); } hub_descr = &hubd->h_hub_descr; for (port = 1; port <= hub_descr->bNbrPorts; port++) { (void) hubd_enable_port_power(hubd, port); } mutex_exit(HUBD_MUTEX(hubd)); /* * Delay some time to avoid over-current event * to happen too frequently in some cases */ delay(drv_usectohz(500000)); } } mutex_enter(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } /* * hubd_reset_port: */ static int hubd_reset_port(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; usb_port_mask_t port_mask = 1 << port; mblk_t *data; uint16_t status; uint16_t change; int i; clock_t delta; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_reset_port: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); hubd->h_port_reset_wait |= port_mask; mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_SET_FEATURE, CFS_PORT_RESET, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "reset port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "waiting on cv for reset completion"); /* * wait for port status change event */ delta = drv_usectohz(hubd_device_delay / 10); for (i = 0; i < hubd_retry_enumerate; i++) { /* * start polling ep1 for receiving notification on * reset completion */ hubd_start_polling(hubd, HUBD_ALWAYS_START_POLLING); /* * sleep a max of 100ms for reset completion * notification to be received */ if (hubd->h_port_reset_wait & port_mask) { rval = cv_reltimedwait(&hubd->h_cv_reset_port, &hubd->h_mutex, delta, TR_CLOCK_TICK); if ((rval <= 0) && (hubd->h_port_reset_wait & port_mask)) { /* we got woken up because of a timeout */ USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "timeout: reset port=%d failed", port); hubd->h_port_reset_wait &= ~port_mask; hubd_stop_polling(hubd); return (USB_FAILURE); } } USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "reset completion received"); hubd_stop_polling(hubd); data = NULL; /* check status to determine whether reset completed */ mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_GET_PORT_STATUS_TYPE, USB_REQ_GET_STATUS, 0, port, GET_STATUS_LENGTH, &data, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "get status port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); if (data) { freemsg(data); data = NULL; } mutex_enter(HUBD_MUTEX(hubd)); continue; } status = (*(data->b_rptr + 1) << 8) | *(data->b_rptr); change = (*(data->b_rptr + 3) << 8) | *(data->b_rptr + 2); freemsg(data); /* continue only if port is still connected */ if (!(status & PORT_STATUS_CCS)) { /* lost connection, set exit condition */ i = hubd_retry_enumerate; mutex_enter(HUBD_MUTEX(hubd)); break; } if (status & PORT_STATUS_PRS) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d reset active", port); mutex_enter(HUBD_MUTEX(hubd)); continue; } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d reset inactive", port); } if (change & PORT_CHANGE_PRSC) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_RESET"); if (usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_RESET, port, 0, NULL, 0, &completion_reason, &cb_flags, 0) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_RESET" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } mutex_enter(HUBD_MUTEX(hubd)); break; } if (i >= hubd_retry_enumerate) { /* port reset has failed */ rval = USB_FAILURE; } return (rval); } /* * hubd_enable_port: * this may fail if the hub as been disconnected */ static int hubd_enable_port(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_port: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); /* Do not issue a SetFeature(PORT_ENABLE) on external hubs */ if (!usba_is_root_hub(hubd->h_dip)) { mutex_enter(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_SET_FEATURE, CFS_PORT_ENABLE, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "enable port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "enabling port done"); return (rval); } /* * hubd_disable_port */ static int hubd_disable_port(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_disable_port: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_PORT_ENABLE, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "disable port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_ENABLE"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_ENABLE, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_ENABLE port%d failed " "(%d 0x%x %d)", port, completion_reason, cb_flags, rval); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } mutex_enter(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } /* * hubd_determine_port_status: */ static int hubd_determine_port_status(hubd_t *hubd, usb_port_t port, uint16_t *status, uint16_t *change, uint_t ack_flag) { int rval; mblk_t *data = NULL; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_determine_port_status: port=%d, state=0x%x ack=0x%x", port, hubd->h_port_state[port], ack_flag); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_GET_PORT_STATUS_TYPE, USB_REQ_GET_STATUS, 0, port, GET_STATUS_LENGTH, &data, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "port=%d get status failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); if (data) { freemsg(data); } *status = *change = 0; mutex_enter(HUBD_MUTEX(hubd)); return (rval); } mutex_enter(HUBD_MUTEX(hubd)); if (MBLKL(data) != GET_STATUS_LENGTH) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "port %d: length incorrect %ld", port, MBLKL(data)); freemsg(data); *status = *change = 0; return (rval); } *status = (*(data->b_rptr + 1) << 8) | *(data->b_rptr); *change = (*(data->b_rptr + 3) << 8) | *(data->b_rptr + 2); USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d status=0x%x, change=0x%x", port, *status, *change); freemsg(data); if (*status & PORT_STATUS_CCS) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d connected", port); hubd->h_port_state[port] |= (PORT_STATUS_CCS & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d disconnected", port); hubd->h_port_state[port] &= ~(PORT_STATUS_CCS & ack_flag); } if (*status & PORT_STATUS_PES) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d enabled", port); hubd->h_port_state[port] |= (PORT_STATUS_PES & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d disabled", port); hubd->h_port_state[port] &= ~(PORT_STATUS_PES & ack_flag); } if (*status & PORT_STATUS_PSS) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d suspended", port); hubd->h_port_state[port] |= (PORT_STATUS_PSS & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d not suspended", port); hubd->h_port_state[port] &= ~(PORT_STATUS_PSS & ack_flag); } if (*change & PORT_CHANGE_PRSC) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d reset completed", port); hubd->h_port_state[port] |= (PORT_CHANGE_PRSC & ack_flag); } else { hubd->h_port_state[port] &= ~(PORT_CHANGE_PRSC & ack_flag); } if (*status & PORT_STATUS_POCI) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d overcurrent!", port); hubd->h_port_state[port] |= (PORT_STATUS_POCI & ack_flag); } else { hubd->h_port_state[port] &= ~(PORT_STATUS_POCI & ack_flag); } if (*status & PORT_STATUS_PRS) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d reset active", port); hubd->h_port_state[port] |= (PORT_STATUS_PRS & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d reset inactive", port); hubd->h_port_state[port] &= ~(PORT_STATUS_PRS & ack_flag); } if (*status & PORT_STATUS_PPS) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d power on", port); hubd->h_port_state[port] |= (PORT_STATUS_PPS & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d power off", port); hubd->h_port_state[port] &= ~(PORT_STATUS_PPS & ack_flag); } if (*status & PORT_STATUS_LSDA) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d low speed", port); hubd->h_port_state[port] |= (PORT_STATUS_LSDA & ack_flag); } else { hubd->h_port_state[port] &= ~(PORT_STATUS_LSDA & ack_flag); if (*status & PORT_STATUS_HSDA) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d " "high speed", port); hubd->h_port_state[port] |= (PORT_STATUS_HSDA & ack_flag); } else { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "port%d " "full speed", port); hubd->h_port_state[port] &= ~(PORT_STATUS_HSDA & ack_flag); } } /* * Acknowledge connection, enable, reset status */ if (ack_flag) { mutex_exit(HUBD_MUTEX(hubd)); if (*change & PORT_CHANGE_CSC & ack_flag) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_CONNECTION"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_CONNECTION, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_CONNECTION" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } if (*change & PORT_CHANGE_PESC & ack_flag) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_ENABLE"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_ENABLE, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_ENABLE" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } if (*change & PORT_CHANGE_PSSC & ack_flag) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_SUSPEND"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_SUSPEND, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_SUSPEND" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } if (*change & PORT_CHANGE_OCIC & ack_flag) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_OVER_CURRENT"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_OVER_CURRENT, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_OVER_CURRENT" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } if (*change & PORT_CHANGE_PRSC & ack_flag) { USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing feature CFS_C_PORT_RESET"); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_C_PORT_RESET, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clear feature CFS_C_PORT_RESET" " port%d failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); } } mutex_enter(HUBD_MUTEX(hubd)); } USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "new port%d state 0x%x", port, hubd->h_port_state[port]); return (USB_SUCCESS); } /* * hubd_recover_disabled_port * if the port got disabled because of an error * enable it. If hub doesn't suport enable port, * reset the port to bring the device to life again */ static int hubd_recover_disabled_port(hubd_t *hubd, usb_port_t port) { uint16_t status; uint16_t change; int rval = USB_FAILURE; /* first try enabling the port */ (void) hubd_enable_port(hubd, port); /* read the port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, PORT_CHANGE_PESC); if (status & PORT_STATUS_PES) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Port%d now Enabled", port); } else if (status & PORT_STATUS_CCS) { /* first post a disconnect event to the child */ mutex_exit(HUBD_MUTEX(hubd)); hubd_post_event(hubd, port, USBA_EVENT_TAG_HOT_REMOVAL); mutex_enter(HUBD_MUTEX(hubd)); /* then reset the port and recover the device */ rval = hubd_handle_port_connect(hubd, port); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Port%d now Enabled by force", port); } return (rval); } /* * hubd_enable_all_port_power: */ static int hubd_enable_all_port_power(hubd_t *hubd) { usb_hub_descr_t *hub_descr; int wait; usb_port_t port; uint_t retry; uint16_t status; uint16_t change; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_all_port_power"); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); hub_descr = &hubd->h_hub_descr; /* * According to section 11.11 of USB, for hubs with no power * switches, bPwrOn2PwrGood is zero. But we wait for some * arbitrary time to enable power to become stable. * * If an hub supports port power switching, we need to wait * at least 20ms before accessing corresponding usb port. */ if ((hub_descr->wHubCharacteristics & HUB_CHARS_NO_POWER_SWITCHING) || (!hub_descr->bPwrOn2PwrGood)) { wait = hubd_device_delay / 10; } else { wait = max(HUB_DEFAULT_POPG, hub_descr->bPwrOn2PwrGood) * 2 * 1000; } USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_all_port_power: popg=%d wait=%d", hub_descr->bPwrOn2PwrGood, wait); /* * Enable power per port. we ignore gang power and power mask * and always enable all ports one by one. */ for (port = 1; port <= hub_descr->bNbrPorts; port++) { /* * Transition the port from the Powered Off to the * Disconnected state by supplying power to the port. */ USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_all_port_power: power port=%d", port); (void) hubd_enable_port_power(hubd, port); } mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(wait)); mutex_enter(HUBD_MUTEX(hubd)); /* For retry if any, use some extra delay */ wait = max(wait, hubd_device_delay / 10); /* Check each port power status for a given usb hub */ for (port = 1; port <= hub_descr->bNbrPorts; port++) { /* Get port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, 0); for (retry = 0; ((!(status & PORT_STATUS_PPS)) && (retry < HUBD_PORT_RETRY)); retry++) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "Retry is in progress %d: port %d status %d", retry, port, status); (void) hubd_enable_port_power(hubd, port); mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(wait)); mutex_enter(HUBD_MUTEX(hubd)); /* Get port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, 0); } /* Print warning message if port has no power */ if (!(status & PORT_STATUS_PPS)) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_all_port_power: port %d power-on " "failed, port status 0x%x", port, status); } } return (USB_SUCCESS); } /* * hubd_enable_port_power: * enable individual port power */ static int hubd_enable_port_power(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_enable_port_power: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); ASSERT(hubd->h_default_pipe != 0); mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_SET_FEATURE, CFS_PORT_POWER, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "set port power failed (%d 0x%x %d)", completion_reason, cb_flags, rval); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } else { mutex_enter(HUBD_MUTEX(hubd)); hubd->h_port_state[port] |= PORT_STATUS_PPS; return (USB_SUCCESS); } } /* * hubd_disable_all_port_power: */ static int hubd_disable_all_port_power(hubd_t *hubd) { usb_port_t port; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_disable_all_port_power"); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); /* * disable power per port, ignore gang power and power mask */ for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { (void) hubd_disable_port_power(hubd, port); } return (USB_SUCCESS); } /* * hubd_disable_port_power: * disable individual port power */ static int hubd_disable_port_power(hubd_t *hubd, usb_port_t port) { int rval; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; USB_DPRINTF_L4(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_disable_port_power: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); if ((rval = usb_pipe_sync_ctrl_xfer(hubd->h_dip, hubd->h_default_pipe, HUB_HANDLE_PORT_FEATURE_TYPE, USB_REQ_CLEAR_FEATURE, CFS_PORT_POWER, port, 0, NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "clearing port%d power failed (%d 0x%x %d)", port, completion_reason, cb_flags, rval); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } else { mutex_enter(HUBD_MUTEX(hubd)); ASSERT(completion_reason == 0); hubd->h_port_state[port] &= ~PORT_STATUS_PPS; return (USB_SUCCESS); } } /* * Search the database of user preferences and find out the preferred * configuration for this new device */ int hubd_select_device_configuration(hubd_t *hubd, usb_port_t port, dev_info_t *child_dip, usba_device_t *child_ud) { char *pathname = NULL; char *tmp_path = NULL; int user_conf; int pathlen; usb_dev_descr_t *usbdev_ptr; usba_configrec_t *user_pref; mutex_enter(&child_ud->usb_mutex); usbdev_ptr = child_ud->usb_dev_descr; mutex_exit(&child_ud->usb_mutex); /* try to get pathname for this device */ tmp_path = kmem_zalloc(MAXPATHLEN, KM_SLEEP); (void) ddi_pathname(child_dip, tmp_path); pathlen = strlen(tmp_path) + 32; pathname = kmem_zalloc(pathlen, KM_SLEEP); /* * We haven't initialized the node and it doesn't have an address * yet. Append port number to the physical pathname */ (void) sprintf(pathname, "%s@%d", tmp_path, port); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_select_device_configuration: Device=%s\n\t" "Child path=%s", usba_get_mfg_prod_sn_str(child_dip, tmp_path, MAXPATHLEN), pathname); kmem_free(tmp_path, MAXPATHLEN); /* database search for user preferences */ user_pref = usba_devdb_get_user_preferences(usbdev_ptr->idVendor, usbdev_ptr->idProduct, child_ud->usb_serialno_str, pathname); if (user_pref) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_select_device_configuration: " "usba_devdb_get_user_preferences " "return user_conf=%d\npreferred driver=%s path=%s", user_pref->cfg_index, user_pref->driver, user_pref->pathname); user_conf = user_pref->cfg_index; if (user_pref->driver) { mutex_enter(&child_ud->usb_mutex); child_ud->usb_preferred_driver = user_pref->driver; mutex_exit(&child_ud->usb_mutex); } } else { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_select_device_configuration: No match found"); /* select default configuration for this device */ user_conf = USBA_DEV_CONFIG_INDEX_UNDEFINED; } kmem_free(pathname, pathlen); /* if the device has just one configuration, set default value */ if (usbdev_ptr->bNumConfigurations == 1) { user_conf = USB_DEV_DEFAULT_CONFIG_INDEX; } return (user_conf); } /* * Retrieves config cloud for this configuration */ int hubd_get_this_config_cloud(hubd_t *hubd, dev_info_t *dip, usba_device_t *child_ud, uint16_t conf_index) { usb_cfg_descr_t *confdescr; mblk_t *pdata = NULL; int rval; size_t size; char *tmpbuf; usb_cr_t completion_reason; usb_cb_flags_t cb_flags; usb_pipe_handle_t def_ph; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_get_this_config_cloud: conf_index=%d", conf_index); /* alloc temporary space for config descriptor */ confdescr = (usb_cfg_descr_t *)kmem_zalloc(USB_CFG_DESCR_SIZE, KM_SLEEP); /* alloc temporary space for string descriptor */ tmpbuf = kmem_zalloc(USB_MAXSTRINGLEN, KM_SLEEP); def_ph = usba_get_dflt_pipe_handle(dip); if ((rval = usb_pipe_sync_ctrl_xfer(dip, def_ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, USB_DESCR_TYPE_SETUP_CFG | conf_index, 0, USB_CFG_DESCR_SIZE, &pdata, 0, &completion_reason, &cb_flags, 0)) == USB_SUCCESS) { /* this must be true since we didn't allow data underruns */ if (MBLKL(pdata) != USB_CFG_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device returned incorrect configuration " "descriptor size."); rval = USB_FAILURE; goto done; } /* * Parse the configuration descriptor */ size = usb_parse_cfg_descr(pdata->b_rptr, MBLKL(pdata), confdescr, USB_CFG_DESCR_SIZE); /* if parse cfg descr error, it should return failure */ if (size == USB_PARSE_ERROR) { if (pdata->b_rptr[1] != USB_DESCR_TYPE_CFG) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device returned incorrect " "configuration descriptor type."); } rval = USB_FAILURE; goto done; } if (confdescr->wTotalLength < USB_CFG_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device returned incorrect " "configuration descriptor size."); rval = USB_FAILURE; goto done; } freemsg(pdata); pdata = NULL; /* Now fetch the complete config cloud */ if ((rval = usb_pipe_sync_ctrl_xfer(dip, def_ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, USB_DESCR_TYPE_SETUP_CFG | conf_index, 0, confdescr->wTotalLength, &pdata, 0, &completion_reason, &cb_flags, 0)) == USB_SUCCESS) { if (MBLKL(pdata) != confdescr->wTotalLength) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device returned incorrect " "configuration descriptor."); rval = USB_FAILURE; goto done; } /* * copy config descriptor into usba_device */ mutex_enter(&child_ud->usb_mutex); child_ud->usb_cfg_array[conf_index] = kmem_alloc(confdescr->wTotalLength, KM_SLEEP); child_ud->usb_cfg_array_len[conf_index] = confdescr->wTotalLength; bcopy((caddr_t)pdata->b_rptr, (caddr_t)child_ud->usb_cfg_array[conf_index], confdescr->wTotalLength); mutex_exit(&child_ud->usb_mutex); /* * retrieve string descriptor describing this * configuration */ if (confdescr->iConfiguration) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Get conf str descr for config_index=%d", conf_index); /* * Now fetch the string descriptor describing * this configuration */ if ((rval = usb_get_string_descr(dip, USB_LANG_ID, confdescr->iConfiguration, tmpbuf, USB_MAXSTRINGLEN)) == USB_SUCCESS) { size = strlen(tmpbuf); if (size > 0) { child_ud->usb_cfg_str_descr [conf_index] = (char *) kmem_zalloc(size + 1, KM_SLEEP); (void) strcpy( child_ud->usb_cfg_str_descr [conf_index], tmpbuf); } } else { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_get_this_config_cloud: " "getting config string (%d) " "failed", confdescr->iConfiguration); /* ignore this error */ rval = USB_SUCCESS; } } } } done: if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_get_this_config_cloud: " "error in retrieving config descriptor for " "config index=%d rval=%d cr=%d", conf_index, rval, completion_reason); } if (pdata) { freemsg(pdata); pdata = NULL; } kmem_free(confdescr, USB_CFG_DESCR_SIZE); kmem_free(tmpbuf, USB_MAXSTRINGLEN); return (rval); } /* * Retrieves the entire config cloud for all configurations of the device */ int hubd_get_all_device_config_cloud(hubd_t *hubd, dev_info_t *dip, usba_device_t *child_ud) { int rval = USB_SUCCESS; int ncfgs; uint16_t size; uint16_t conf_index; uchar_t **cfg_array; uint16_t *cfg_array_len; char **str_descr; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_get_all_device_config_cloud: Start"); /* alloc pointer array for conf. descriptors */ mutex_enter(&child_ud->usb_mutex); ncfgs = child_ud->usb_n_cfgs; mutex_exit(&child_ud->usb_mutex); size = sizeof (uchar_t *) * ncfgs; cfg_array = kmem_zalloc(size, KM_SLEEP); cfg_array_len = kmem_zalloc(ncfgs * sizeof (uint16_t), KM_SLEEP); str_descr = kmem_zalloc(size, KM_SLEEP); mutex_enter(&child_ud->usb_mutex); child_ud->usb_cfg_array = cfg_array; child_ud->usb_cfg_array_len = cfg_array_len; child_ud->usb_cfg_array_length = size; child_ud->usb_cfg_array_len_length = ncfgs * sizeof (uint16_t); child_ud->usb_cfg_str_descr = str_descr; mutex_exit(&child_ud->usb_mutex); /* Get configuration descriptor for each configuration */ for (conf_index = 0; (conf_index < ncfgs) && (rval == USB_SUCCESS); conf_index++) { rval = hubd_get_this_config_cloud(hubd, dip, child_ud, conf_index); } return (rval); } /* * hubd_ready_device: * Update the usba_device structure * Set the given configuration * Prepares the device node for driver to online. If an existing * OBP node is found, it will switch to the OBP node. */ dev_info_t * hubd_ready_device(hubd_t *hubd, dev_info_t *child_dip, usba_device_t *child_ud, uint_t config_index) { usb_cr_t completion_reason; usb_cb_flags_t cb_flags; size_t size; usb_cfg_descr_t config_descriptor; usb_pipe_handle_t def_ph; usba_pipe_handle_data_t *ph; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_ready_device: dip=0x%p, user_conf_index=%d", (void *)child_dip, config_index); size = usb_parse_cfg_descr( child_ud->usb_cfg_array[config_index], USB_CFG_DESCR_SIZE, &config_descriptor, USB_CFG_DESCR_SIZE); ASSERT(size == USB_CFG_DESCR_SIZE); def_ph = usba_get_dflt_pipe_handle(child_dip); /* Set the configuration */ (void) usb_pipe_sync_ctrl_xfer(child_dip, def_ph, USB_DEV_REQ_HOST_TO_DEV, USB_REQ_SET_CFG, /* bRequest */ config_descriptor.bConfigurationValue, /* wValue */ 0, /* wIndex */ 0, /* wLength */ NULL, 0, &completion_reason, &cb_flags, 0); mutex_enter(&child_ud->usb_mutex); child_ud->usb_active_cfg_ndx = config_index; child_ud->usb_cfg = child_ud->usb_cfg_array[config_index]; child_ud->usb_cfg_length = config_descriptor.wTotalLength; child_ud->usb_cfg_value = config_descriptor.bConfigurationValue; child_ud->usb_n_ifs = config_descriptor.bNumInterfaces; child_ud->usb_dip = child_dip; child_ud->usb_client_flags = kmem_zalloc( child_ud->usb_n_ifs * USBA_CLIENT_FLAG_SIZE, KM_SLEEP); child_ud->usb_client_attach_list = kmem_zalloc( child_ud->usb_n_ifs * sizeof (*child_ud->usb_client_attach_list), KM_SLEEP); child_ud->usb_client_ev_cb_list = kmem_zalloc( child_ud->usb_n_ifs * sizeof (*child_ud->usb_client_ev_cb_list), KM_SLEEP); mutex_exit(&child_ud->usb_mutex); /* ready the device node */ child_dip = usba_ready_device_node(child_dip); /* set owner of default pipe to child dip */ ph = usba_get_ph_data(def_ph); mutex_enter(&ph->p_mutex); mutex_enter(&ph->p_ph_impl->usba_ph_mutex); ph->p_ph_impl->usba_ph_dip = ph->p_dip = child_dip; mutex_exit(&ph->p_ph_impl->usba_ph_mutex); mutex_exit(&ph->p_mutex); return (child_dip); } /* * hubd_create_child * - create child dip * - open default pipe * - get device descriptor * - set the address * - get device string descriptors * - get the entire config cloud (all configurations) of the device * - set user preferred configuration * - close default pipe * - load appropriate driver(s) */ static int hubd_create_child(dev_info_t *dip, hubd_t *hubd, usba_device_t *hubd_ud, usb_port_status_t port_status, usb_port_t port, int iteration) { dev_info_t *child_dip = NULL; usb_dev_descr_t usb_dev_descr; int rval; usba_device_t *child_ud = NULL; usba_device_t *parent_ud = NULL; usb_pipe_handle_t ph = NULL; /* default pipe handle */ mblk_t *pdata = NULL; usb_cr_t completion_reason; int user_conf_index; uint_t config_index; usb_cb_flags_t cb_flags; uchar_t address = 0; uint16_t length; size_t size; usb_addr_t parent_usb_addr; usb_port_t parent_usb_port; usba_device_t *parent_usba_dev; usb_port_status_t parent_port_status; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: port=%d", port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); ASSERT(hubd->h_usba_devices[port] == NULL); mutex_exit(HUBD_MUTEX(hubd)); /* * create a dip which can be used to open the pipe. we set * the name after getting the descriptors from the device */ rval = usba_create_child_devi(dip, "device", /* driver name */ hubd_ud->usb_hcdi_ops, /* usba_hcdi ops */ hubd_ud->usb_root_hub_dip, port_status, /* low speed device */ child_ud, &child_dip); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usb_create_child_devi failed (%d)", rval); goto fail_cleanup; } child_ud = usba_get_usba_device(child_dip); ASSERT(child_ud != NULL); parent_ud = hubd->h_usba_device; mutex_enter(&parent_ud->usb_mutex); parent_port_status = parent_ud->usb_port_status; /* * To support split transactions, update address and port * of high speed hub to which given device is connected. */ if (parent_port_status == USBA_HIGH_SPEED_DEV) { parent_usba_dev = parent_ud; parent_usb_addr = parent_ud->usb_addr; parent_usb_port = port; } else { parent_usba_dev = parent_ud->usb_hs_hub_usba_dev; parent_usb_addr = parent_ud->usb_hs_hub_addr; parent_usb_port = parent_ud->usb_hs_hub_port; } mutex_exit(&parent_ud->usb_mutex); mutex_enter(&child_ud->usb_mutex); address = child_ud->usb_addr; child_ud->usb_addr = 0; child_ud->usb_dev_descr = kmem_alloc(sizeof (usb_dev_descr_t), KM_SLEEP); bzero(&usb_dev_descr, sizeof (usb_dev_descr_t)); usb_dev_descr.bMaxPacketSize0 = (port_status == USBA_LOW_SPEED_DEV) ? 8 : 64; bcopy(&usb_dev_descr, child_ud->usb_dev_descr, sizeof (usb_dev_descr_t)); child_ud->usb_port = port; child_ud->usb_hs_hub_usba_dev = parent_usba_dev; child_ud->usb_hs_hub_addr = parent_usb_addr; child_ud->usb_hs_hub_port = parent_usb_port; mutex_exit(&child_ud->usb_mutex); /* Open the default pipe */ if ((rval = usb_pipe_open(child_dip, NULL, NULL, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, &ph)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usb_pipe_open failed (%d)", rval); goto fail_cleanup; } /* * get device descriptor */ USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: get device descriptor: 64 bytes"); rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_DEV, /* wValue */ 0, /* wIndex */ 64, /* wLength */ &pdata, USB_ATTRS_SHORT_XFER_OK, &completion_reason, &cb_flags, 0); if ((rval != USB_SUCCESS) && (!((completion_reason == USB_CR_DATA_OVERRUN) && pdata))) { /* * rval != USB_SUCCESS AND * completion_reason != USB_CR_DATA_OVERRUN * pdata could be != NULL. * Free pdata now to prevent memory leak. */ freemsg(pdata); pdata = NULL; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: get device descriptor: 8 bytes"); rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_DEV, /* wValue */ 0, /* wIndex */ 8, /* wLength */ &pdata, USB_ATTRS_NONE, &completion_reason, &cb_flags, 0); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "getting device descriptor failed (%s 0x%x %d)", usb_str_cr(completion_reason), cb_flags, rval); goto fail_cleanup; } } else { ASSERT(completion_reason == USB_CR_OK); } ASSERT(pdata != NULL); size = usb_parse_dev_descr( pdata->b_rptr, MBLKL(pdata), &usb_dev_descr, sizeof (usb_dev_descr_t)); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "parsing device descriptor returned %lu", size); length = *(pdata->b_rptr); freemsg(pdata); pdata = NULL; if (size < 8) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "get device descriptor returned %lu bytes", size); goto fail_cleanup; } if (length < 8) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "fail enumeration: bLength=%d", length); goto fail_cleanup; } /* Set the address of the device */ if ((rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_HOST_TO_DEV, USB_REQ_SET_ADDRESS, /* bRequest */ address, /* wValue */ 0, /* wIndex */ 0, /* wLength */ NULL, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { char buffer[64]; USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "setting address failed (cr=%s cb_flags=%s rval=%d)", usb_str_cr(completion_reason), usb_str_cb_flags(cb_flags, buffer, sizeof (buffer)), rval); goto fail_cleanup; } USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "set address 0x%x done", address); /* now close the pipe for addr 0 */ usb_pipe_close(child_dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); /* * This delay is important for the CATC hub to enumerate * But, avoid delay in the first iteration */ if (iteration) { delay(drv_usectohz(hubd_device_delay/100)); } /* assign the address in the usba_device structure */ mutex_enter(&child_ud->usb_mutex); child_ud->usb_addr = address; child_ud->usb_no_cpr = 0; child_ud->usb_port_status = port_status; /* save this device descriptor */ bcopy(&usb_dev_descr, child_ud->usb_dev_descr, sizeof (usb_dev_descr_t)); child_ud->usb_n_cfgs = usb_dev_descr.bNumConfigurations; mutex_exit(&child_ud->usb_mutex); /* re-open the pipe for the device with the new address */ if ((rval = usb_pipe_open(child_dip, NULL, NULL, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, &ph)) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usb_pipe_open failed (%d)", rval); goto fail_cleanup; } /* * Get full device descriptor only if we have not received full * device descriptor earlier. */ if (size < length) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: get full device descriptor: " "%d bytes", length); if ((rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_DEV, /* wValue */ 0, /* wIndex */ length, /* wLength */ &pdata, 0, &completion_reason, &cb_flags, 0)) != USB_SUCCESS) { freemsg(pdata); pdata = NULL; USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: get full device descriptor: " "64 bytes"); rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_DEV, /* wValue */ 0, /* wIndex */ 64, /* wLength */ &pdata, USB_ATTRS_SHORT_XFER_OK, &completion_reason, &cb_flags, 0); /* we have to trust the data now */ if (pdata) { int len = *(pdata->b_rptr); length = MBLKL(pdata); if (length < len) { goto fail_cleanup; } } else if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "getting device descriptor failed " "(%d 0x%x %d)", completion_reason, cb_flags, rval); goto fail_cleanup; } } size = usb_parse_dev_descr( pdata->b_rptr, MBLKL(pdata), &usb_dev_descr, sizeof (usb_dev_descr_t)); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "parsing device descriptor returned %lu", size); /* * For now, free the data * eventually, each configuration may need to be looked at */ freemsg(pdata); pdata = NULL; if (size != USB_DEV_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "fail enumeration: descriptor size=%lu " "expected size=%u", size, USB_DEV_DESCR_SIZE); goto fail_cleanup; } /* * save the device descriptor in usba_device since it is needed * later on again */ mutex_enter(&child_ud->usb_mutex); bcopy(&usb_dev_descr, child_ud->usb_dev_descr, sizeof (usb_dev_descr_t)); child_ud->usb_n_cfgs = usb_dev_descr.bNumConfigurations; mutex_exit(&child_ud->usb_mutex); } if (usb_dev_descr.bNumConfigurations == 0) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "device descriptor:\n\t" "l=0x%x type=0x%x USB=0x%x class=0x%x subclass=0x%x\n\t" "protocol=0x%x maxpktsize=0x%x " "Vid=0x%x Pid=0x%x rel=0x%x\n\t" "Mfg=0x%x P=0x%x sn=0x%x #config=0x%x", usb_dev_descr.bLength, usb_dev_descr.bDescriptorType, usb_dev_descr.bcdUSB, usb_dev_descr.bDeviceClass, usb_dev_descr.bDeviceSubClass, usb_dev_descr.bDeviceProtocol, usb_dev_descr.bMaxPacketSize0, usb_dev_descr.idVendor, usb_dev_descr.idProduct, usb_dev_descr.bcdDevice, usb_dev_descr.iManufacturer, usb_dev_descr.iProduct, usb_dev_descr.iSerialNumber, usb_dev_descr.bNumConfigurations); goto fail_cleanup; } /* get the device string descriptor(s) */ usba_get_dev_string_descrs(child_dip, child_ud); /* retrieve config cloud for all configurations */ rval = hubd_get_all_device_config_cloud(hubd, child_dip, child_ud); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "failed to get configuration descriptor(s)"); goto fail_cleanup; } /* get the preferred configuration for this device */ user_conf_index = hubd_select_device_configuration(hubd, port, child_dip, child_ud); /* Check if the user selected configuration index is in range */ if ((user_conf_index >= usb_dev_descr.bNumConfigurations) || (user_conf_index < 0)) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Configuration index for device idVendor=%d " "idProduct=%d is=%d, and is out of range[0..%d]", usb_dev_descr.idVendor, usb_dev_descr.idProduct, user_conf_index, usb_dev_descr.bNumConfigurations - 1); /* treat this as user didn't specify configuration */ user_conf_index = USBA_DEV_CONFIG_INDEX_UNDEFINED; } /* * Warn users of a performance hit if connecting a * High Speed behind a 1.1 hub, which is behind a * 2.0 port. */ if ((parent_port_status != USBA_HIGH_SPEED_DEV) && !(usba_is_root_hub(parent_ud->usb_dip)) && (parent_usb_addr)) { /* * Now that we know the root port is a high speed port * and that the parent port is not a high speed port, * let's find out if the device itself is a high speed * device. If it is a high speed device, * USB_DESCR_TYPE_SETUP_DEV_QLF should return a value, * otherwise the command will fail. */ rval = usb_pipe_sync_ctrl_xfer(child_dip, ph, USB_DEV_REQ_DEV_TO_HOST | USB_DEV_REQ_TYPE_STANDARD, USB_REQ_GET_DESCR, /* bRequest */ USB_DESCR_TYPE_SETUP_DEV_QLF, /* wValue */ 0, /* wIndex */ 10, /* wLength */ &pdata, USB_ATTRS_SHORT_XFER_OK, &completion_reason, &cb_flags, 0); if (pdata) { freemsg(pdata); pdata = NULL; } /* * USB_DESCR_TYPE_SETUP_DEV_QLF query was successful * that means this is a high speed device behind a * high speed root hub, but running at full speed * because there is a full speed hub in the middle. */ if (rval == USB_SUCCESS) { USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Connecting a high speed device to a " "non high speed hub (port %d) will result " "in a loss of performance. Please connect " "the device to a high speed hub to get " "the maximum performance.", port); } } /* * Now we try to online the device by attaching a driver * The following truth table illustrates the logic:- * Cfgndx Driver Action * 0 0 loop all configs for driver with full * compatible properties. * 0 1 set first configuration, * compatible prop = drivername. * 1 0 Set config, full compatible prop * 1 1 Set config, compatible prop = drivername. * * Note: * cfgndx = user_conf_index * Driver = usb_preferred_driver */ if (user_conf_index == USBA_DEV_CONFIG_INDEX_UNDEFINED) { if (child_ud->usb_preferred_driver) { /* * It is the job of the "preferred driver" to put the * device in the desired configuration. Till then * put the device in config index 0. */ if ((rval = usba_hubdi_check_power_budget(dip, child_ud, USB_DEV_DEFAULT_CONFIG_INDEX)) != USB_SUCCESS) { goto fail_cleanup; } child_dip = hubd_ready_device(hubd, child_dip, child_ud, USB_DEV_DEFAULT_CONFIG_INDEX); /* * Assign the dip before onlining to avoid race * with busctl */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_children_dips[port] = child_dip; mutex_exit(HUBD_MUTEX(hubd)); (void) usba_bind_driver(child_dip); } else { /* * loop through all the configurations to see if we * can find a driver for any one config. If not, set * the device in config_index 0 */ rval = USB_FAILURE; for (config_index = 0; (config_index < usb_dev_descr.bNumConfigurations) && (rval != USB_SUCCESS); config_index++) { child_dip = hubd_ready_device(hubd, child_dip, child_ud, config_index); /* * Assign the dip before onlining to avoid race * with busctl */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_children_dips[port] = child_dip; mutex_exit(HUBD_MUTEX(hubd)); rval = usba_bind_driver(child_dip); /* * Normally power budget should be checked * before device is configured. A failure in * power budget checking will stop the device * from being configured with current * config_index and may enable the device to * be configured in another configuration. * This may break the user experience that a * device which previously worked in config * A now works in config B after power budget * control is enabled. To avoid such situation, * power budget checking is moved here and will * fail the child creation directly if config * A exceeds the power available. */ if (rval == USB_SUCCESS) { if ((usba_hubdi_check_power_budget(dip, child_ud, config_index)) != USB_SUCCESS) { goto fail_cleanup; } } } if (rval != USB_SUCCESS) { if ((usba_hubdi_check_power_budget(dip, child_ud, 0)) != USB_SUCCESS) { goto fail_cleanup; } child_dip = hubd_ready_device(hubd, child_dip, child_ud, 0); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_children_dips[port] = child_dip; mutex_exit(HUBD_MUTEX(hubd)); } } /* end else loop all configs */ } else { if ((usba_hubdi_check_power_budget(dip, child_ud, (uint_t)user_conf_index)) != USB_SUCCESS) { goto fail_cleanup; } child_dip = hubd_ready_device(hubd, child_dip, child_ud, (uint_t)user_conf_index); /* * Assign the dip before onlining to avoid race * with busctl */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_children_dips[port] = child_dip; mutex_exit(HUBD_MUTEX(hubd)); (void) usba_bind_driver(child_dip); } usba_hubdi_decr_power_budget(dip, child_ud); mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_usba_devices[port] == NULL) { hubd->h_usba_devices[port] = usba_get_usba_device(child_dip); } else { ASSERT(hubd->h_usba_devices[port] == usba_get_usba_device(child_dip)); } return (USB_SUCCESS); fail_cleanup: USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_create_child: fail_cleanup"); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_children_dips[port] = NULL; mutex_exit(HUBD_MUTEX(hubd)); if (pdata) { freemsg(pdata); } if (ph) { usb_pipe_close(child_dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); } if (child_dip) { int rval = usba_destroy_child_devi(child_dip, NDI_DEVI_REMOVE); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "failure to remove child node"); } } if (child_ud) { /* to make sure we free the address */ mutex_enter(&child_ud->usb_mutex); child_ud->usb_addr = address; ASSERT(child_ud->usb_ref_count == 0); mutex_exit(&child_ud->usb_mutex); mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_usba_devices[port] == NULL) { mutex_exit(HUBD_MUTEX(hubd)); usba_free_usba_device(child_ud); } else { hubd_free_usba_device(hubd, hubd->h_usba_devices[port]); mutex_exit(HUBD_MUTEX(hubd)); } } mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } /* * hubd_delete_child: * - free usb address * - lookup child dips, there may be multiple on this port * - offline each child devi */ static int hubd_delete_child(hubd_t *hubd, usb_port_t port, uint_t flag, boolean_t retry) { dev_info_t *child_dip; usba_device_t *usba_device; int rval = USB_SUCCESS; child_dip = hubd->h_children_dips[port]; usba_device = hubd->h_usba_devices[port]; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_delete_child: port=%d, dip=0x%p usba_device=0x%p", port, (void *)child_dip, (void *)usba_device); mutex_exit(HUBD_MUTEX(hubd)); if (child_dip) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_delete_child:\n\t" "dip = 0x%p (%s) at port %d", (void *)child_dip, ddi_node_name(child_dip), port); if (usba_device) { usba_hubdi_incr_power_budget(hubd->h_dip, usba_device); } rval = usba_destroy_child_devi(child_dip, flag); if ((rval != USB_SUCCESS) && usba_is_hwa(child_dip)) { /* * This is only useful for HWA device node. * Since hwahc interface must hold hwarc interface * open until hwahc is detached, the first call to * ndi_devi_unconfig_one() can only offline hwahc * driver but not hwarc driver. Need to make a second * call to ndi_devi_unconfig_one() to make the hwarc * driver detach. */ rval = usba_destroy_child_devi(child_dip, flag); } if ((rval == USB_SUCCESS) && (flag & NDI_DEVI_REMOVE)) { /* * if the child was still < DS_INITIALIZED * then our bus_unconfig was not called and * we have to zap the child here */ mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_children_dips[port] == child_dip) { usba_device_t *ud = hubd->h_usba_devices[port]; hubd->h_children_dips[port] = NULL; if (ud) { mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&ud->usb_mutex); ud->usb_ref_count = 0; mutex_exit(&ud->usb_mutex); usba_free_usba_device(ud); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_usba_devices[port] = NULL; } } mutex_exit(HUBD_MUTEX(hubd)); } } if ((rval != USB_SUCCESS) && retry) { hubd_schedule_cleanup(usba_device->usb_root_hub_dip); } mutex_enter(HUBD_MUTEX(hubd)); return (rval); } /* * hubd_free_usba_device: * free usb device structure unless it is associated with * the root hub which is handled differently */ static void hubd_free_usba_device(hubd_t *hubd, usba_device_t *usba_device) { USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_free_usba_device: hubd=0x%p, usba_device=0x%p", (void *)hubd, (void *)usba_device); if (usba_device && (usba_device->usb_addr != ROOT_HUB_ADDR)) { usb_port_t port = usba_device->usb_port; dev_info_t *dip = hubd->h_children_dips[port]; #ifdef DEBUG if (dip) { ASSERT(i_ddi_node_state(dip) < DS_INITIALIZED); } #endif port = usba_device->usb_port; hubd->h_usba_devices[port] = NULL; mutex_exit(HUBD_MUTEX(hubd)); usba_free_usba_device(usba_device); mutex_enter(HUBD_MUTEX(hubd)); } } /* * event support * * busctl event support */ static int hubd_busop_get_eventcookie(dev_info_t *dip, dev_info_t *rdip, char *eventname, ddi_eventcookie_t *cookie) { hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_busop_get_eventcookie: dip=0x%p, rdip=0x%p, " "event=%s", (void *)dip, (void *)rdip, eventname); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "(dip=%s%d, rdip=%s%d)", ddi_driver_name(dip), ddi_get_instance(dip), ddi_driver_name(rdip), ddi_get_instance(rdip)); /* return event cookie, iblock cookie, and level */ return (ndi_event_retrieve_cookie(hubd->h_ndi_event_hdl, rdip, eventname, cookie, NDI_EVENT_NOPASS)); } static int hubd_busop_add_eventcall(dev_info_t *dip, dev_info_t *rdip, ddi_eventcookie_t cookie, void (*callback)(dev_info_t *dip, ddi_eventcookie_t cookie, void *arg, void *bus_impldata), void *arg, ddi_callback_id_t *cb_id) { hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); usb_port_t port = hubd_child_dip2port(hubd, rdip); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_busop_add_eventcall: dip=0x%p, rdip=0x%p " "cookie=0x%p, cb=0x%p, arg=0x%p", (void *)dip, (void *)rdip, (void *)cookie, (void *)callback, arg); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "(dip=%s%d, rdip=%s%d, event=%s)", ddi_driver_name(dip), ddi_get_instance(dip), ddi_driver_name(rdip), ddi_get_instance(rdip), ndi_event_cookie_to_name(hubd->h_ndi_event_hdl, cookie)); /* Set flag on children registering events */ switch (ndi_event_cookie_to_tag(hubd->h_ndi_event_hdl, cookie)) { case USBA_EVENT_TAG_HOT_REMOVAL: mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] |= HUBD_CHILD_EVENT_DISCONNECT; mutex_exit(HUBD_MUTEX(hubd)); break; case USBA_EVENT_TAG_PRE_SUSPEND: mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] |= HUBD_CHILD_EVENT_PRESUSPEND; mutex_exit(HUBD_MUTEX(hubd)); break; default: break; } /* add callback to our event set */ return (ndi_event_add_callback(hubd->h_ndi_event_hdl, rdip, cookie, callback, arg, NDI_SLEEP, cb_id)); } static int hubd_busop_remove_eventcall(dev_info_t *dip, ddi_callback_id_t cb_id) { hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); ndi_event_callbacks_t *id = (ndi_event_callbacks_t *)cb_id; USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_busop_remove_eventcall: dip=0x%p, rdip=0x%p " "cookie=0x%p", (void *)dip, (void *)id->ndi_evtcb_dip, (void *)id->ndi_evtcb_cookie); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "(dip=%s%d, rdip=%s%d, event=%s)", ddi_driver_name(dip), ddi_get_instance(dip), ddi_driver_name(id->ndi_evtcb_dip), ddi_get_instance(id->ndi_evtcb_dip), ndi_event_cookie_to_name(hubd->h_ndi_event_hdl, id->ndi_evtcb_cookie)); /* remove event registration from our event set */ return (ndi_event_remove_callback(hubd->h_ndi_event_hdl, cb_id)); } /* * event distribution * * hubd_do_callback: * Post this event to the specified child */ static void hubd_do_callback(hubd_t *hubd, dev_info_t *cdip, ddi_eventcookie_t cookie) { USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_do_callback"); (void) ndi_event_do_callback(hubd->h_ndi_event_hdl, cdip, cookie, NULL); } /* * hubd_run_callbacks: * Send this event to all children */ static void hubd_run_callbacks(hubd_t *hubd, usba_event_t type) { usb_port_t port; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_run_callbacks"); mutex_enter(HUBD_MUTEX(hubd)); for (port = 1; port <= hubd->h_hub_descr.bNbrPorts; port++) { /* * the childen_dips list may have dips that have been * already deallocated. we only get a post_detach notification * but not a destroy notification */ if (hubd->h_children_dips[port]) { mutex_exit(HUBD_MUTEX(hubd)); hubd_post_event(hubd, port, type); mutex_enter(HUBD_MUTEX(hubd)); } } mutex_exit(HUBD_MUTEX(hubd)); } /* * hubd_post_event * post event to a child on the port depending on the type */ static void hubd_post_event(hubd_t *hubd, usb_port_t port, usba_event_t type) { int rval; dev_info_t *dip; usba_device_t *usba_device; ddi_eventcookie_t cookie, rm_cookie, suspend_cookie; USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_post_event: port=%d event=%s", port, ndi_event_tag_to_name(hubd->h_ndi_event_hdl, type)); cookie = ndi_event_tag_to_cookie(hubd->h_ndi_event_hdl, type); rm_cookie = ndi_event_tag_to_cookie(hubd->h_ndi_event_hdl, USBA_EVENT_TAG_HOT_REMOVAL); suspend_cookie = ndi_event_tag_to_cookie(hubd->h_ndi_event_hdl, USBA_EVENT_TAG_PRE_SUSPEND); /* * Hotplug daemon may be attaching a driver that may be registering * event callbacks. So it already has got the device tree lock and * event handle mutex. So to prevent a deadlock while posting events, * we grab and release the locks in the same order. */ mutex_enter(HUBD_MUTEX(hubd)); dip = hubd->h_children_dips[port]; usba_device = hubd->h_usba_devices[port]; mutex_exit(HUBD_MUTEX(hubd)); switch (type) { case USBA_EVENT_TAG_HOT_REMOVAL: /* Clear the registered event flag */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] &= ~HUBD_CHILD_EVENT_DISCONNECT; mutex_exit(HUBD_MUTEX(hubd)); hubd_do_callback(hubd, dip, cookie); usba_persistent_pipe_close(usba_device); /* * Mark the dip for deletion only after the driver has * seen the disconnect event to prevent cleanup thread * from stepping in between. */ mutex_enter(&(DEVI(dip)->devi_lock)); DEVI_SET_DEVICE_REMOVED(dip); mutex_exit(&(DEVI(dip)->devi_lock)); break; case USBA_EVENT_TAG_PRE_SUSPEND: mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] &= ~HUBD_CHILD_EVENT_PRESUSPEND; mutex_exit(HUBD_MUTEX(hubd)); hubd_do_callback(hubd, dip, cookie); /* * persistent pipe close for this event is taken care by the * caller after verfying that all children can suspend */ break; case USBA_EVENT_TAG_HOT_INSERTION: /* * Check if this child has missed the disconnect event before * it registered for event callbacks */ mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_child_events[port] & HUBD_CHILD_EVENT_DISCONNECT) { /* clear the flag and post disconnect event */ hubd->h_child_events[port] &= ~HUBD_CHILD_EVENT_DISCONNECT; mutex_exit(HUBD_MUTEX(hubd)); hubd_do_callback(hubd, dip, rm_cookie); usba_persistent_pipe_close(usba_device); mutex_enter(HUBD_MUTEX(hubd)); } mutex_exit(HUBD_MUTEX(hubd)); /* * Mark the dip as reinserted to prevent cleanup thread * from stepping in. */ mutex_enter(&(DEVI(dip)->devi_lock)); DEVI_SET_DEVICE_REINSERTED(dip); mutex_exit(&(DEVI(dip)->devi_lock)); rval = usba_persistent_pipe_open(usba_device); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "failed to reopen all pipes on reconnect"); } hubd_do_callback(hubd, dip, cookie); /* * We might see a connect event only if hotplug thread for * disconnect event don't run in time. * Set the flag again, so we don't miss posting a * disconnect event. */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] |= HUBD_CHILD_EVENT_DISCONNECT; mutex_exit(HUBD_MUTEX(hubd)); break; case USBA_EVENT_TAG_POST_RESUME: /* * Check if this child has missed the pre-suspend event before * it registered for event callbacks */ mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_child_events[port] & HUBD_CHILD_EVENT_PRESUSPEND) { /* clear the flag and post pre_suspend event */ hubd->h_port_state[port] &= ~HUBD_CHILD_EVENT_PRESUSPEND; mutex_exit(HUBD_MUTEX(hubd)); hubd_do_callback(hubd, dip, suspend_cookie); mutex_enter(HUBD_MUTEX(hubd)); } mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&usba_device->usb_mutex); usba_device->usb_no_cpr = 0; mutex_exit(&usba_device->usb_mutex); /* * Since the pipe has already been opened by hub * at DDI_RESUME time, there is no need for a * persistent pipe open */ hubd_do_callback(hubd, dip, cookie); /* * Set the flag again, so we don't miss posting a * pre-suspend event. This enforces a tighter * dev_state model. */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_child_events[port] |= HUBD_CHILD_EVENT_PRESUSPEND; mutex_exit(HUBD_MUTEX(hubd)); break; } } /* * handling of events coming from above */ static int hubd_disconnect_event_cb(dev_info_t *dip) { hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); usb_port_t port, nports; usba_device_t *usba_dev; usba_event_t tag = USBA_EVENT_TAG_HOT_REMOVAL; int circ; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_disconnect_event_cb: tag=%d", tag); ndi_devi_enter(dip, &circ); mutex_enter(HUBD_MUTEX(hubd)); switch (hubd->h_dev_state) { case USB_DEV_ONLINE: case USB_DEV_PWRED_DOWN: hubd->h_dev_state = USB_DEV_DISCONNECTED; /* stop polling on the interrupt pipe */ hubd_stop_polling(hubd); /* FALLTHROUGH */ case USB_DEV_SUSPENDED: /* we remain in this state */ mutex_exit(HUBD_MUTEX(hubd)); hubd_run_callbacks(hubd, tag); mutex_enter(HUBD_MUTEX(hubd)); /* close all the open pipes of our children */ nports = hubd->h_hub_descr.bNbrPorts; for (port = 1; port <= nports; port++) { usba_dev = hubd->h_usba_devices[port]; if (usba_dev != NULL) { mutex_exit(HUBD_MUTEX(hubd)); usba_persistent_pipe_close(usba_dev); mutex_enter(HUBD_MUTEX(hubd)); } } break; case USB_DEV_DISCONNECTED: /* avoid passing multiple disconnects to children */ USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_disconnect_event_cb: Already disconnected"); break; default: USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_disconnect_event_cb: Illegal devstate=%d", hubd->h_dev_state); break; } mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(dip, circ); return (USB_SUCCESS); } static int hubd_reconnect_event_cb(dev_info_t *dip) { int rval, circ; ndi_devi_enter(dip, &circ); rval = hubd_restore_state_cb(dip); ndi_devi_exit(dip, circ); return (rval); } /* * hubd_pre_suspend_event_cb * propogate event for binary compatibility of old drivers */ static int hubd_pre_suspend_event_cb(dev_info_t *dip) { int circ; hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); USB_DPRINTF_L4(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_pre_suspend_event_cb"); /* disable hotplug thread */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_hotplug_thread++; hubd_stop_polling(hubd); /* keep PM out till we see a cpr resume */ (void) hubd_pm_busy_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_enter(dip, &circ); hubd_run_callbacks(hubd, USBA_EVENT_TAG_PRE_SUSPEND); ndi_devi_exit(dip, circ); return (USB_SUCCESS); } /* * hubd_post_resume_event_cb * propogate event for binary compatibility of old drivers */ static int hubd_post_resume_event_cb(dev_info_t *dip) { int circ; hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); USB_DPRINTF_L4(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_post_resume_event_cb"); ndi_devi_enter(dip, &circ); hubd_run_callbacks(hubd, USBA_EVENT_TAG_POST_RESUME); ndi_devi_exit(dip, circ); mutex_enter(HUBD_MUTEX(hubd)); /* enable PM */ (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); /* allow hotplug thread */ hubd->h_hotplug_thread--; /* start polling */ hubd_start_polling(hubd, 0); mutex_exit(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } /* * hubd_cpr_suspend * save the current state of the driver/device */ static int hubd_cpr_suspend(hubd_t *hubd) { usb_port_t port, nports; usba_device_t *usba_dev; uchar_t no_cpr = 0; int rval = USB_FAILURE; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_cpr_suspend: Begin"); /* Make sure device is powered up to save state. */ mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_busy_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); /* bring the device to full power */ (void) pm_raise_power(hubd->h_dip, 0, USB_DEV_OS_FULL_PWR); mutex_enter(HUBD_MUTEX(hubd)); switch (hubd->h_dev_state) { case USB_DEV_ONLINE: case USB_DEV_PWRED_DOWN: case USB_DEV_DISCONNECTED: /* find out if all our children have been quiesced */ nports = hubd->h_hub_descr.bNbrPorts; for (port = 1; (no_cpr == 0) && (port <= nports); port++) { usba_dev = hubd->h_usba_devices[port]; if (usba_dev != NULL) { mutex_enter(&usba_dev->usb_mutex); no_cpr += usba_dev->usb_no_cpr; mutex_exit(&usba_dev->usb_mutex); } } if (no_cpr > 0) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Children busy - can't checkpoint"); /* remain in same state to fail checkpoint */ break; } else { /* * do not suspend if our hotplug thread * or the deathrow thread is active */ if ((hubd->h_hotplug_thread > 1) || (hubd->h_cleanup_active == B_TRUE)) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hotplug thread active - can't cpr"); /* remain in same state to fail checkpoint */ break; } /* quiesce ourselves now */ hubd->h_dev_state = USB_DEV_SUSPENDED; hubd_stop_polling(hubd); /* close all the open pipes of our children */ for (port = 1; port <= nports; port++) { usba_dev = hubd->h_usba_devices[port]; if (usba_dev != NULL) { mutex_exit(HUBD_MUTEX(hubd)); usba_persistent_pipe_close(usba_dev); mutex_enter(HUBD_MUTEX(hubd)); } } /* * turn off power to all the ports so that we * don't see any spurious activity */ (void) hubd_disable_all_port_power(hubd); /* * if we are the root hub, we close our pipes * ourselves. */ if (usba_is_root_hub(hubd->h_dip)) { mutex_exit(HUBD_MUTEX(hubd)); usba_persistent_pipe_close( usba_get_usba_device(hubd->h_dip)); mutex_enter(HUBD_MUTEX(hubd)); } rval = USB_SUCCESS; break; } case USB_DEV_SUSPENDED: default: USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_cpr_suspend: Illegal dev state=%d", hubd->h_dev_state); break; } hubd_pm_idle_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); return (rval); } static void hubd_cpr_resume(dev_info_t *dip) { int rval, circ; ndi_devi_enter(dip, &circ); /* * if we are the root hub, we open our pipes * ourselves. */ if (usba_is_root_hub(dip)) { rval = usba_persistent_pipe_open( usba_get_usba_device(dip)); ASSERT(rval == USB_SUCCESS); } (void) hubd_restore_state_cb(dip); ndi_devi_exit(dip, circ); } /* * hubd_restore_state_cb * Event callback to restore device state */ static int hubd_restore_state_cb(dev_info_t *dip) { hubd_t *hubd = (hubd_t *)hubd_get_soft_state(dip); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_restore_state_cb: Begin"); /* restore the state of this device */ hubd_restore_device_state(dip, hubd); return (USB_SUCCESS); } /* * registering for events */ static int hubd_register_events(hubd_t *hubd) { int rval = USB_SUCCESS; if (usba_is_root_hub(hubd->h_dip)) { hubd_register_cpr_callback(hubd); } else { rval = usb_register_event_cbs(hubd->h_dip, &hubd_events, 0); } return (rval); } /* * hubd cpr callback related functions * * hubd_cpr_post_user_callb: * This function is called during checkpoint & resume - * 1. after user threads are stopped during checkpoint * 2. after kernel threads are resumed during resume */ /* ARGSUSED */ static boolean_t hubd_cpr_post_user_callb(void *arg, int code) { hubd_cpr_t *cpr_cb = (hubd_cpr_t *)arg; hubd_t *hubd = cpr_cb->statep; int retry = 0; USB_DPRINTF_L4(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_cpr_post_user_callb"); switch (code) { case CB_CODE_CPR_CHKPT: USB_DPRINTF_L3(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_cpr_post_user_callb: CB_CODE_CPR_CHKPT"); mutex_enter(HUBD_MUTEX(hubd)); /* turn off deathrow thread */ hubd->h_cleanup_enabled = B_FALSE; /* give up if deathrow thread doesn't exit */ while ((hubd->h_cleanup_active == B_TRUE) && (retry++ < 3)) { mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(hubd_dip_cleanup_delay)); USB_DPRINTF_L2(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_cpr_post_user_callb, waiting for " "deathrow thread to exit"); mutex_enter(HUBD_MUTEX(hubd)); } mutex_exit(HUBD_MUTEX(hubd)); /* save the state of the device */ (void) hubd_pre_suspend_event_cb(hubd->h_dip); return (B_TRUE); case CB_CODE_CPR_RESUME: USB_DPRINTF_L3(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_cpr_post_user_callb: CB_CODE_CPR_RESUME"); /* restore the state of the device */ (void) hubd_post_resume_event_cb(hubd->h_dip); /* turn on deathrow thread */ mutex_enter(HUBD_MUTEX(hubd)); hubd->h_cleanup_enabled = B_TRUE; mutex_exit(HUBD_MUTEX(hubd)); hubd_schedule_cleanup(hubd->h_usba_device->usb_root_hub_dip); return (B_TRUE); default: return (B_FALSE); } } /* register callback with cpr framework */ void hubd_register_cpr_callback(hubd_t *hubd) { USB_DPRINTF_L4(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_register_cpr_callback"); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_cpr_cb = (hubd_cpr_t *)kmem_zalloc(sizeof (hubd_cpr_t), KM_SLEEP); mutex_exit(HUBD_MUTEX(hubd)); mutex_init(&hubd->h_cpr_cb->lockp, NULL, MUTEX_DRIVER, hubd->h_dev_data->dev_iblock_cookie); hubd->h_cpr_cb->statep = hubd; hubd->h_cpr_cb->cpr.cc_lockp = &hubd->h_cpr_cb->lockp; hubd->h_cpr_cb->cpr.cc_id = callb_add(hubd_cpr_post_user_callb, (void *)hubd->h_cpr_cb, CB_CL_CPR_POST_USER, "hubd"); } /* unregister callback with cpr framework */ void hubd_unregister_cpr_callback(hubd_t *hubd) { USB_DPRINTF_L4(DPRINT_MASK_EVENTS, hubd->h_log_handle, "hubd_unregister_cpr_callback"); if (hubd->h_cpr_cb) { (void) callb_delete(hubd->h_cpr_cb->cpr.cc_id); mutex_destroy(&hubd->h_cpr_cb->lockp); mutex_enter(HUBD_MUTEX(hubd)); kmem_free(hubd->h_cpr_cb, sizeof (hubd_cpr_t)); mutex_exit(HUBD_MUTEX(hubd)); } } /* * Power management * * create the pm components required for power management */ static void hubd_create_pm_components(dev_info_t *dip, hubd_t *hubd) { hub_power_t *hubpm; USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_create_pm_components: Begin"); /* Allocate the state structure */ hubpm = kmem_zalloc(sizeof (hub_power_t), KM_SLEEP); hubd->h_hubpm = hubpm; hubpm->hubp_hubd = hubd; hubpm->hubp_pm_capabilities = 0; hubpm->hubp_current_power = USB_DEV_OS_FULL_PWR; hubpm->hubp_time_at_full_power = ddi_get_time(); hubpm->hubp_min_pm_threshold = hubdi_min_pm_threshold; /* alloc memory to save power states of children */ hubpm->hubp_child_pwrstate = (uint8_t *) kmem_zalloc(MAX_PORTS + 1, KM_SLEEP); /* * if the enable remote wakeup fails * we still want to enable * parent notification so we can PM the children */ usb_enable_parent_notification(dip); if (usb_handle_remote_wakeup(dip, USB_REMOTE_WAKEUP_ENABLE) == USB_SUCCESS) { uint_t pwr_states; USB_DPRINTF_L2(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_create_pm_components: " "Remote Wakeup Enabled"); if (usb_create_pm_components(dip, &pwr_states) == USB_SUCCESS) { mutex_enter(HUBD_MUTEX(hubd)); hubpm->hubp_wakeup_enabled = 1; hubpm->hubp_pwr_states = (uint8_t)pwr_states; /* we are busy now till end of the attach */ hubd_pm_busy_component(hubd, dip, 0); mutex_exit(HUBD_MUTEX(hubd)); /* bring the device to full power */ (void) pm_raise_power(dip, 0, USB_DEV_OS_FULL_PWR); } } USB_DPRINTF_L4(DPRINT_MASK_PM, hubd->h_log_handle, "hubd_create_pm_components: END"); } /* * Attachment point management */ /* ARGSUSED */ int usba_hubdi_open(dev_info_t *dip, dev_t *devp, int flags, int otyp, cred_t *credp) { hubd_t *hubd; if (otyp != OTYP_CHR) return (EINVAL); hubd = hubd_get_soft_state(dip); if (hubd == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_open:"); mutex_enter(HUBD_MUTEX(hubd)); if ((flags & FEXCL) && (hubd->h_softstate & HUBD_SS_ISOPEN)) { mutex_exit(HUBD_MUTEX(hubd)); return (EBUSY); } hubd->h_softstate |= HUBD_SS_ISOPEN; mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "opened"); return (0); } /* ARGSUSED */ int usba_hubdi_close(dev_info_t *dip, dev_t dev, int flag, int otyp, cred_t *credp) { hubd_t *hubd; if (otyp != OTYP_CHR) { return (EINVAL); } hubd = hubd_get_soft_state(dip); if (hubd == NULL) { return (ENXIO); } USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_close:"); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_softstate &= ~HUBD_SS_ISOPEN; mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "closed"); return (0); } /* * hubd_ioctl: cfgadm controls */ /* ARGSUSED */ int usba_hubdi_ioctl(dev_info_t *self, dev_t dev, int cmd, intptr_t arg, int mode, cred_t *credp, int *rvalp) { int rv = 0; char *msg; /* for messages */ hubd_t *hubd; usb_port_t port = 0; dev_info_t *child_dip = NULL; dev_info_t *rh_dip; devctl_ap_state_t ap_state; struct devctl_iocdata *dcp = NULL; usb_pipe_state_t prev_pipe_state = 0; int circ, rh_circ, prh_circ; if ((hubd = hubd_get_soft_state(self)) == NULL) { return (ENXIO); } rh_dip = hubd->h_usba_device->usb_root_hub_dip; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "usba_hubdi_ioctl: " "cmd=%x, arg=%lx, mode=%x, cred=%p, rval=%p dev=0x%lx", cmd, arg, mode, (void *)credp, (void *)rvalp, dev); /* read devctl ioctl data */ if ((cmd != DEVCTL_AP_CONTROL) && (ndi_dc_allochdl((void *)arg, &dcp) != NDI_SUCCESS)) { return (EFAULT); } /* * make sure the hub is connected before trying any * of the following operations: * configure, connect, disconnect */ mutex_enter(HUBD_MUTEX(hubd)); switch (cmd) { case DEVCTL_AP_DISCONNECT: case DEVCTL_AP_UNCONFIGURE: case DEVCTL_AP_CONFIGURE: if (hubd->h_dev_state == USB_DEV_DISCONNECTED) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd: already gone"); mutex_exit(HUBD_MUTEX(hubd)); if (dcp) { ndi_dc_freehdl(dcp); } return (EIO); } /* FALLTHROUGH */ case DEVCTL_AP_GETSTATE: if ((port = hubd_get_port_num(hubd, dcp)) == 0) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd: bad port"); mutex_exit(HUBD_MUTEX(hubd)); if (dcp) { ndi_dc_freehdl(dcp); } return (EINVAL); } break; case DEVCTL_AP_CONTROL: break; default: mutex_exit(HUBD_MUTEX(hubd)); if (dcp) { ndi_dc_freehdl(dcp); } return (ENOTTY); } /* should not happen, just in case */ if (hubd->h_dev_state == USB_DEV_SUSPENDED) { mutex_exit(HUBD_MUTEX(hubd)); if (dcp) { ndi_dc_freehdl(dcp); } return (EIO); } if (hubd->h_reset_port[port]) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "This port is resetting, just return"); mutex_exit(HUBD_MUTEX(hubd)); if (dcp) { ndi_dc_freehdl(dcp); } return (EIO); } hubd_pm_busy_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); /* go full power */ (void) pm_raise_power(hubd->h_dip, 0, USB_DEV_OS_FULL_PWR); ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); ndi_devi_enter(hubd->h_dip, &circ); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_hotplug_thread++; /* stop polling if it was active */ if (hubd->h_ep1_ph) { mutex_exit(HUBD_MUTEX(hubd)); (void) usb_pipe_get_state(hubd->h_ep1_ph, &prev_pipe_state, USB_FLAGS_SLEEP); mutex_enter(HUBD_MUTEX(hubd)); if (prev_pipe_state == USB_PIPE_STATE_ACTIVE) { hubd_stop_polling(hubd); } } switch (cmd) { case DEVCTL_AP_DISCONNECT: if (hubd_delete_child(hubd, port, NDI_DEVI_REMOVE, B_FALSE) != USB_SUCCESS) { rv = EIO; } break; case DEVCTL_AP_UNCONFIGURE: if (hubd_delete_child(hubd, port, NDI_UNCONFIG, B_FALSE) != USB_SUCCESS) { rv = EIO; } break; case DEVCTL_AP_CONFIGURE: /* toggle port */ if (hubd_toggle_port(hubd, port) != USB_SUCCESS) { rv = EIO; break; } (void) hubd_handle_port_connect(hubd, port); child_dip = hubd_get_child_dip(hubd, port); mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(hubd->h_dip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); if (child_dip == NULL) { rv = EIO; } else { ndi_hold_devi(child_dip); if (ndi_devi_online(child_dip, 0) != NDI_SUCCESS) rv = EIO; ndi_rele_devi(child_dip); } ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); ndi_devi_enter(hubd->h_dip, &circ); mutex_enter(HUBD_MUTEX(hubd)); break; case DEVCTL_AP_GETSTATE: switch (hubd_cfgadm_state(hubd, port)) { case HUBD_CFGADM_DISCONNECTED: /* port previously 'disconnected' by cfgadm */ ap_state.ap_rstate = AP_RSTATE_DISCONNECTED; ap_state.ap_ostate = AP_OSTATE_UNCONFIGURED; ap_state.ap_condition = AP_COND_OK; break; case HUBD_CFGADM_UNCONFIGURED: ap_state.ap_rstate = AP_RSTATE_CONNECTED; ap_state.ap_ostate = AP_OSTATE_UNCONFIGURED; ap_state.ap_condition = AP_COND_OK; break; case HUBD_CFGADM_CONFIGURED: ap_state.ap_rstate = AP_RSTATE_CONNECTED; ap_state.ap_ostate = AP_OSTATE_CONFIGURED; ap_state.ap_condition = AP_COND_OK; break; case HUBD_CFGADM_STILL_REFERENCED: ap_state.ap_rstate = AP_RSTATE_EMPTY; ap_state.ap_ostate = AP_OSTATE_CONFIGURED; ap_state.ap_condition = AP_COND_UNUSABLE; break; case HUBD_CFGADM_EMPTY: default: ap_state.ap_rstate = AP_RSTATE_EMPTY; ap_state.ap_ostate = AP_OSTATE_UNCONFIGURED; ap_state.ap_condition = AP_COND_OK; break; } ap_state.ap_last_change = (time_t)-1; ap_state.ap_error_code = 0; ap_state.ap_in_transition = 0; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "DEVCTL_AP_GETSTATE: " "ostate=0x%x, rstate=0x%x, condition=0x%x", ap_state.ap_ostate, ap_state.ap_rstate, ap_state.ap_condition); /* copy the return-AP-state information to the user space */ if (ndi_dc_return_ap_state(&ap_state, dcp) != NDI_SUCCESS) { rv = EFAULT; } break; case DEVCTL_AP_CONTROL: { /* * Generic devctl for hardware-specific functionality. * For list of sub-commands see hubd_impl.h */ hubd_ioctl_data_t ioc; /* for 64 byte copies */ /* copy user ioctl data in first */ #ifdef _MULTI_DATAMODEL if (ddi_model_convert_from(mode & FMODELS) == DDI_MODEL_ILP32) { hubd_ioctl_data_32_t ioc32; if (ddi_copyin((void *)arg, (void *)&ioc32, sizeof (ioc32), mode) != 0) { rv = EFAULT; break; } ioc.cmd = (uint_t)ioc32.cmd; ioc.port = (uint_t)ioc32.port; ioc.get_size = (uint_t)ioc32.get_size; ioc.buf = (caddr_t)(uintptr_t)ioc32.buf; ioc.bufsiz = (uint_t)ioc32.bufsiz; ioc.misc_arg = (uint_t)ioc32.misc_arg; } else #endif /* _MULTI_DATAMODEL */ if (ddi_copyin((void *)arg, (void *)&ioc, sizeof (ioc), mode) != 0) { rv = EFAULT; break; } USB_DPRINTF_L3(DPRINT_MASK_CBOPS, hubd->h_log_handle, "DEVCTL_AP_CONTROL: ioc: cmd=0x%x port=%d get_size=%d" "\n\tbuf=0x%p, bufsiz=%d, misc_arg=%d", ioc.cmd, ioc.port, ioc.get_size, (void *)ioc.buf, ioc.bufsiz, ioc.misc_arg); /* * To avoid BE/LE and 32/64 issues, a get_size always * returns a 32-bit number. */ if (ioc.get_size != 0 && ioc.bufsiz != (sizeof (uint32_t))) { rv = EINVAL; break; } switch (ioc.cmd) { case USB_DESCR_TYPE_DEV: msg = "DEVCTL_AP_CONTROL: GET_DEVICE_DESC"; if (ioc.get_size) { /* uint32 so this works 32/64 */ uint32_t size = sizeof (usb_dev_descr_t); if (ddi_copyout((void *)&size, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: get_size copyout failed", msg); rv = EIO; break; } } else { /* send out the actual descr */ usb_dev_descr_t *dev_descrp; /* check child_dip */ if ((child_dip = hubd_get_child_dip(hubd, ioc.port)) == NULL) { rv = EINVAL; break; } dev_descrp = usb_get_dev_descr(child_dip); if (ioc.bufsiz != sizeof (*dev_descrp)) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: bufsize passed (%d) != sizeof " "usba_device_descr_t (%d)", msg, ioc.bufsiz, dev_descrp->bLength); rv = EINVAL; break; } if (ddi_copyout((void *)dev_descrp, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout failed.", msg); rv = EIO; break; } } break; case USB_DESCR_TYPE_STRING: { char *str; uint32_t size; usba_device_t *usba_device; msg = "DEVCTL_AP_CONTROL: GET_STRING_DESCR"; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: string request: %d", msg, ioc.misc_arg); /* recheck */ if ((child_dip = hubd_get_child_dip(hubd, ioc.port)) == NULL) { rv = EINVAL; break; } usba_device = usba_get_usba_device(child_dip); switch (ioc.misc_arg) { case HUBD_MFG_STR: str = usba_device->usb_mfg_str; break; case HUBD_PRODUCT_STR: str = usba_device->usb_product_str; break; case HUBD_SERIALNO_STR: str = usba_device->usb_serialno_str; break; case HUBD_CFG_DESCR_STR: mutex_enter(&usba_device->usb_mutex); str = usba_device->usb_cfg_str_descr[ usba_device->usb_active_cfg_ndx]; mutex_exit(&usba_device->usb_mutex); break; default: USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: Invalid string request", msg); rv = EINVAL; break; } /* end of switch */ if (rv != 0) { break; } size = (str != NULL) ? strlen(str) + 1 : 0; if (ioc.get_size) { if (ddi_copyout((void *)&size, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout of size failed.", msg); rv = EIO; break; } } else { if (size == 0) { USB_DPRINTF_L3(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: String is NULL", msg); rv = EINVAL; break; } if (ioc.bufsiz != size) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: string buf size wrong", msg); rv = EINVAL; break; } if (ddi_copyout((void *)str, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout failed.", msg); rv = EIO; break; } } break; } case HUBD_GET_CFGADM_NAME: { uint32_t name_len; const char *name; /* recheck */ if ((child_dip = hubd_get_child_dip(hubd, ioc.port)) == NULL) { rv = EINVAL; break; } name = ddi_node_name(child_dip); if (name == NULL) { name = "unsupported"; } name_len = strlen(name) + 1; msg = "DEVCTL_AP_CONTROL: HUBD_GET_CFGADM_NAME"; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: name=%s name_len=%d", msg, name, name_len); if (ioc.get_size) { if (ddi_copyout((void *)&name_len, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout of size failed", msg); rv = EIO; break; } } else { if (ioc.bufsiz != name_len) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: string buf length wrong", msg); rv = EINVAL; break; } if (ddi_copyout((void *)name, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout failed.", msg); rv = EIO; break; } } break; } /* * Return the config index for the currently-configured * configuration. */ case HUBD_GET_CURRENT_CONFIG: { uint_t config_index; uint32_t size = sizeof (config_index); usba_device_t *usba_device; msg = "DEVCTL_AP_CONTROL: GET_CURRENT_CONFIG"; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s", msg); /* * Return the config index for the configuration * currently in use. * Recheck if child_dip exists */ if ((child_dip = hubd_get_child_dip(hubd, ioc.port)) == NULL) { rv = EINVAL; break; } usba_device = usba_get_usba_device(child_dip); mutex_enter(&usba_device->usb_mutex); config_index = usba_device->usb_active_cfg_ndx; mutex_exit(&usba_device->usb_mutex); if (ioc.get_size) { if (ddi_copyout((void *)&size, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout of size failed.", msg); rv = EIO; break; } } else { if (ioc.bufsiz != size) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: buffer size wrong", msg); rv = EINVAL; break; } if (ddi_copyout((void *)&config_index, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout failed", msg); rv = EIO; } } break; } case HUBD_GET_DEVICE_PATH: { char *path; uint32_t size; msg = "DEVCTL_AP_CONTROL: GET_DEVICE_PATH"; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s", msg); /* Recheck if child_dip exists */ if ((child_dip = hubd_get_child_dip(hubd, ioc.port)) == NULL) { rv = EINVAL; break; } /* ddi_pathname doesn't supply /devices, so we do. */ path = kmem_alloc(MAXPATHLEN, KM_SLEEP); (void) strcpy(path, "/devices"); (void) ddi_pathname(child_dip, path + strlen(path)); size = strlen(path) + 1; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: device path=%s size=%d", msg, path, size); if (ioc.get_size) { if (ddi_copyout((void *)&size, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout of size failed.", msg); rv = EIO; } } else { if (ioc.bufsiz != size) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: buffer wrong size.", msg); rv = EINVAL; } else if (ddi_copyout((void *)path, ioc.buf, ioc.bufsiz, mode) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: copyout failed.", msg); rv = EIO; } } kmem_free(path, MAXPATHLEN); break; } case HUBD_REFRESH_DEVDB: msg = "DEVCTL_AP_CONTROL: HUBD_REFRESH_DEVDB"; USB_DPRINTF_L3(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s", msg); if ((rv = usba_devdb_refresh()) != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "%s: Failed: %d", msg, rv); rv = EIO; } break; default: rv = ENOTSUP; } /* end switch */ break; } default: rv = ENOTTY; } if (dcp) { ndi_dc_freehdl(dcp); } /* allow hotplug thread now */ hubd->h_hotplug_thread--; if ((hubd->h_dev_state == USB_DEV_ONLINE) && hubd->h_ep1_ph && (prev_pipe_state == USB_PIPE_STATE_ACTIVE)) { hubd_start_polling(hubd, 0); } mutex_exit(HUBD_MUTEX(hubd)); ndi_devi_exit(hubd->h_dip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_idle_component(hubd, hubd->h_dip, 0); mutex_exit(HUBD_MUTEX(hubd)); return (rv); } /* * Helper func used only to help construct the names for the attachment point * minor nodes. Used only in usba_hubdi_attach. * Returns whether it found ancestry or not (USB_SUCCESS if yes). * ports between the root hub and the device represented by dip. * E.g., "2.4.3.1" means this device is * plugged into port 1 of a hub that is * plugged into port 3 of a hub that is * plugged into port 4 of a hub that is * plugged into port 2 of the root hub. * NOTE: Max ap_id path len is HUBD_APID_NAMELEN (32 chars), which is * more than sufficient (as hubs are a max 6 levels deep, port needs 3 * chars plus NULL each) */ void hubd_get_ancestry_str(hubd_t *hubd) { char ap_name[HUBD_APID_NAMELEN]; dev_info_t *pdip; hubd_t *phubd; usb_port_t port; USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "hubd_get_ancestry_str: hubd=0x%p", (void *)hubd); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); /* * The function is extended to support wire adapter class * devices introduced by WUSB spec. The node name is no * longer "hub" only. * Generate the ap_id str based on the parent and child * relationship instead of retrieving it from the hub * device path, which simplifies the algorithm. */ if (usba_is_root_hub(hubd->h_dip)) { hubd->h_ancestry_str[0] = '\0'; } else { port = hubd->h_usba_device->usb_port; mutex_exit(HUBD_MUTEX(hubd)); pdip = ddi_get_parent(hubd->h_dip); /* * The parent of wire adapter device might be usb_mid. * Need to look further up for hub device */ if (strcmp(ddi_driver_name(pdip), "usb_mid") == 0) { pdip = ddi_get_parent(pdip); ASSERT(pdip != NULL); } phubd = hubd_get_soft_state(pdip); mutex_enter(HUBD_MUTEX(phubd)); (void) snprintf(ap_name, HUBD_APID_NAMELEN, "%s%d", phubd->h_ancestry_str, port); mutex_exit(HUBD_MUTEX(phubd)); mutex_enter(HUBD_MUTEX(hubd)); (void) strcpy(hubd->h_ancestry_str, ap_name); (void) strcat(hubd->h_ancestry_str, "."); } } /* Get which port to operate on. */ static usb_port_t hubd_get_port_num(hubd_t *hubd, struct devctl_iocdata *dcp) { int32_t port; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); /* Get which port to operate on. */ if (nvlist_lookup_int32(ndi_dc_get_ap_data(dcp), "port", &port) != 0) { USB_DPRINTF_L2(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_get_port_num: port lookup failed"); port = 0; } USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_get_port_num: hubd=0x%p, port=%d", (void *)hubd, port); return ((usb_port_t)port); } /* check if child still exists */ static dev_info_t * hubd_get_child_dip(hubd_t *hubd, usb_port_t port) { dev_info_t *child_dip = hubd->h_children_dips[port]; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_get_child_dip: hubd=0x%p, port=%d", (void *)hubd, port); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); return (child_dip); } /* * hubd_cfgadm_state: * * child_dip list port_state cfgadm_state * -------------- ---------- ------------ * != NULL connected configured or * unconfigured * != NULL not connected disconnect but * busy/still referenced * NULL connected logically disconnected * NULL not connected empty */ static uint_t hubd_cfgadm_state(hubd_t *hubd, usb_port_t port) { uint_t state; dev_info_t *child_dip = hubd_get_child_dip(hubd, port); if (child_dip) { if (hubd->h_port_state[port] & PORT_STATUS_CCS) { /* * connected, now check if driver exists */ if (DEVI_IS_DEVICE_OFFLINE(child_dip) || !i_ddi_devi_attached(child_dip)) { state = HUBD_CFGADM_UNCONFIGURED; } else { state = HUBD_CFGADM_CONFIGURED; } } else { /* * this means that the dip is around for * a device that is still referenced but * has been yanked out. So the cfgadm info * for this state should be EMPTY (port empty) * and CONFIGURED (dip still valid). */ state = HUBD_CFGADM_STILL_REFERENCED; } } else { /* connected but no child dip */ if (hubd->h_port_state[port] & PORT_STATUS_CCS) { /* logically disconnected */ state = HUBD_CFGADM_DISCONNECTED; } else { /* physically disconnected */ state = HUBD_CFGADM_EMPTY; } } USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_cfgadm_state: hubd=0x%p, port=%d state=0x%x", (void *)hubd, port, state); return (state); } /* * hubd_toggle_port: */ static int hubd_toggle_port(hubd_t *hubd, usb_port_t port) { usb_hub_descr_t *hub_descr; int wait; uint_t retry; uint16_t status; uint16_t change; USB_DPRINTF_L4(DPRINT_MASK_CBOPS, hubd->h_log_handle, "hubd_toggle_port: hubd=0x%p, port=%d", (void *)hubd, port); if ((hubd_disable_port_power(hubd, port)) != USB_SUCCESS) { return (USB_FAILURE); } /* * see hubd_enable_all_port_power() which * requires longer delay for hubs. */ mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(hubd_device_delay / 10)); mutex_enter(HUBD_MUTEX(hubd)); hub_descr = &hubd->h_hub_descr; /* * According to section 11.11 of USB, for hubs with no power * switches, bPwrOn2PwrGood is zero. But we wait for some * arbitrary time to enable power to become stable. * * If an hub supports port power swicthing, we need to wait * at least 20ms before accesing corresonding usb port. */ if ((hub_descr->wHubCharacteristics & HUB_CHARS_NO_POWER_SWITCHING) || (!hub_descr->bPwrOn2PwrGood)) { wait = hubd_device_delay / 10; } else { wait = max(HUB_DEFAULT_POPG, hub_descr->bPwrOn2PwrGood) * 2 * 1000; } USB_DPRINTF_L3(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_toggle_port: popg=%d wait=%d", hub_descr->bPwrOn2PwrGood, wait); retry = 0; do { (void) hubd_enable_port_power(hubd, port); mutex_exit(HUBD_MUTEX(hubd)); delay(drv_usectohz(wait)); mutex_enter(HUBD_MUTEX(hubd)); /* Get port status */ (void) hubd_determine_port_status(hubd, port, &status, &change, 0); /* For retry if any, use some extra delay */ wait = max(wait, hubd_device_delay / 10); retry++; } while ((!(status & PORT_STATUS_PPS)) && (retry < HUBD_PORT_RETRY)); /* Print warning message if port has no power */ if (!(status & PORT_STATUS_PPS)) { USB_DPRINTF_L2(DPRINT_MASK_PORT, hubd->h_log_handle, "hubd_toggle_port: port %d power-on failed, " "port status 0x%x", port, status); return (USB_FAILURE); } return (USB_SUCCESS); } /* * hubd_init_power_budget: * Init power budget variables in hubd structure. According * to USB spec, the power budget rules are: * 1. local-powered hubs including root-hubs can supply * 500mA to each port at maximum * 2. two bus-powered hubs are not allowed to concatenate * 3. bus-powered hubs can supply 100mA to each port at * maximum, and the power consumed by all downstream * ports and the hub itself cannot exceed the max power * supplied by the upstream port, i.e., 500mA * The routine is only called during hub attach time */ static int hubd_init_power_budget(hubd_t *hubd) { uint16_t status = 0; usba_device_t *hubd_ud = NULL; size_t size; usb_cfg_descr_t cfg_descr; dev_info_t *pdip = NULL; hubd_t *phubd = NULL; if (hubd->h_ignore_pwr_budget) { return (USB_SUCCESS); } USB_DPRINTF_L4(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd_init_power_budget:"); ASSERT(mutex_owned(HUBD_MUTEX(hubd))); ASSERT(hubd->h_default_pipe != 0); mutex_exit(HUBD_MUTEX(hubd)); /* get device status */ if ((usb_get_status(hubd->h_dip, hubd->h_default_pipe, HUB_GET_DEVICE_STATUS_TYPE, 0, &status, 0)) != USB_SUCCESS) { mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } hubd_ud = usba_get_usba_device(hubd->h_dip); size = usb_parse_cfg_descr(hubd_ud->usb_cfg, hubd_ud->usb_cfg_length, &cfg_descr, USB_CFG_DESCR_SIZE); if (size != USB_CFG_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HUB, hubd->h_log_handle, "get hub configuration descriptor failed"); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } mutex_enter(HUBD_MUTEX(hubd)); hubd->h_local_pwr_capable = (cfg_descr.bmAttributes & USB_CFG_ATTR_SELFPWR); if (hubd->h_local_pwr_capable) { USB_DPRINTF_L3(DPRINT_MASK_HUB, hubd->h_log_handle, "hub is capable of local power"); } hubd->h_local_pwr_on = (status & USB_DEV_SLF_PWRD_STATUS) && hubd->h_local_pwr_capable; if (hubd->h_local_pwr_on) { USB_DPRINTF_L3(DPRINT_MASK_HUB, hubd->h_log_handle, "hub is local-powered"); hubd->h_pwr_limit = (USB_PWR_UNIT_LOAD * USB_HIGH_PWR_VALUE) / USB_CFG_DESCR_PWR_UNIT; } else { hubd->h_pwr_limit = (USB_PWR_UNIT_LOAD * USB_LOW_PWR_VALUE) / USB_CFG_DESCR_PWR_UNIT; hubd->h_pwr_left = (USB_PWR_UNIT_LOAD * USB_HIGH_PWR_VALUE) / USB_CFG_DESCR_PWR_UNIT; ASSERT(!usba_is_root_hub(hubd->h_dip)); if (!usba_is_root_hub(hubd->h_dip)) { /* * two bus-powered hubs are not * allowed to be concatenated */ mutex_exit(HUBD_MUTEX(hubd)); pdip = ddi_get_parent(hubd->h_dip); phubd = hubd_get_soft_state(pdip); ASSERT(phubd != NULL); if (!phubd->h_ignore_pwr_budget) { mutex_enter(HUBD_MUTEX(phubd)); if (phubd->h_local_pwr_on == B_FALSE) { USB_DPRINTF_L1(DPRINT_MASK_HUB, hubd->h_log_handle, "two bus-powered hubs cannot " "be concatenated"); mutex_exit(HUBD_MUTEX(phubd)); mutex_enter(HUBD_MUTEX(hubd)); return (USB_FAILURE); } mutex_exit(HUBD_MUTEX(phubd)); } mutex_enter(HUBD_MUTEX(hubd)); USB_DPRINTF_L3(DPRINT_MASK_HUB, hubd->h_log_handle, "hub is bus-powered"); } else { USB_DPRINTF_L3(DPRINT_MASK_HUB, hubd->h_log_handle, "root-hub must be local-powered"); } /* * Subtract the power consumed by the hub itself * and get the power that can be supplied to * downstream ports */ hubd->h_pwr_left -= hubd->h_hub_descr.bHubContrCurrent / USB_CFG_DESCR_PWR_UNIT; if (hubd->h_pwr_left < 0) { USB_DPRINTF_L2(DPRINT_MASK_HUB, hubd->h_log_handle, "hubd->h_pwr_left is less than bHubContrCurrent, " "should fail"); return (USB_FAILURE); } } return (USB_SUCCESS); } /* * usba_hubdi_check_power_budget: * Check if the hub has enough power budget to allow a * child device to select a configuration of config_index. */ int usba_hubdi_check_power_budget(dev_info_t *dip, usba_device_t *child_ud, uint_t config_index) { int16_t pwr_left, pwr_limit, pwr_required; size_t size; usb_cfg_descr_t cfg_descr; hubd_t *hubd; if ((hubd = hubd_get_soft_state(dip)) == NULL) { return (USB_FAILURE); } if (hubd->h_ignore_pwr_budget) { return (USB_SUCCESS); } USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usba_hubdi_check_power_budget: " "dip=0x%p child_ud=0x%p conf_index=%d", (void *)dip, (void *)child_ud, config_index); mutex_enter(HUBD_MUTEX(hubd)); pwr_limit = hubd->h_pwr_limit; if (hubd->h_local_pwr_on == B_FALSE) { pwr_left = hubd->h_pwr_left; pwr_limit = (pwr_limit <= pwr_left) ? pwr_limit : pwr_left; } mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usba_hubdi_check_power_budget: " "available power is %dmA", pwr_limit * USB_CFG_DESCR_PWR_UNIT); size = usb_parse_cfg_descr( child_ud->usb_cfg_array[config_index], USB_CFG_DESCR_SIZE, &cfg_descr, USB_CFG_DESCR_SIZE); if (size != USB_CFG_DESCR_SIZE) { USB_DPRINTF_L2(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "get hub configuration descriptor failed"); return (USB_FAILURE); } pwr_required = cfg_descr.bMaxPower; USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "usba_hubdi_check_power_budget: " "child bmAttributes=0x%x bMaxPower=%d " "with config_index=%d", cfg_descr.bmAttributes, pwr_required, config_index); if (pwr_required > pwr_limit) { USB_DPRINTF_L1(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "configuration %d for device %s %s at port %d " "exceeds power available for this port, please " "re-insert your device into another hub port which " "has enough power", config_index, child_ud->usb_mfg_str, child_ud->usb_product_str, child_ud->usb_port); return (USB_FAILURE); } return (USB_SUCCESS); } /* * usba_hubdi_incr_power_budget: * Increase the hub power budget value when a child device * is removed from a bus-powered hub port. */ void usba_hubdi_incr_power_budget(dev_info_t *dip, usba_device_t *child_ud) { uint16_t pwr_value; hubd_t *hubd = hubd_get_soft_state(dip); ASSERT(hubd != NULL); if (hubd->h_ignore_pwr_budget) { return; } USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_incr_power_budget: " "dip=0x%p child_ud=0x%p", (void *)dip, (void *)child_ud); mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_local_pwr_on == B_TRUE) { USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_incr_power_budget: " "hub is local powered"); mutex_exit(HUBD_MUTEX(hubd)); return; } mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&child_ud->usb_mutex); if (child_ud->usb_pwr_from_hub == 0) { mutex_exit(&child_ud->usb_mutex); return; } pwr_value = child_ud->usb_pwr_from_hub; mutex_exit(&child_ud->usb_mutex); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_pwr_left += pwr_value; USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_incr_power_budget: " "available power is %dmA, increased by %dmA", hubd->h_pwr_left * USB_CFG_DESCR_PWR_UNIT, pwr_value * USB_CFG_DESCR_PWR_UNIT); mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&child_ud->usb_mutex); child_ud->usb_pwr_from_hub = 0; mutex_exit(&child_ud->usb_mutex); } /* * usba_hubdi_decr_power_budget: * Decrease the hub power budget value when a child device * is inserted to a bus-powered hub port. */ void usba_hubdi_decr_power_budget(dev_info_t *dip, usba_device_t *child_ud) { uint16_t pwr_value; size_t size; usb_cfg_descr_t cfg_descr; hubd_t *hubd = hubd_get_soft_state(dip); ASSERT(hubd != NULL); if (hubd->h_ignore_pwr_budget) { return; } USB_DPRINTF_L4(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_decr_power_budget: " "dip=0x%p child_ud=0x%p", (void *)dip, (void *)child_ud); mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_local_pwr_on == B_TRUE) { USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_decr_power_budget: " "hub is local powered"); mutex_exit(HUBD_MUTEX(hubd)); return; } mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&child_ud->usb_mutex); if (child_ud->usb_pwr_from_hub > 0) { mutex_exit(&child_ud->usb_mutex); return; } mutex_exit(&child_ud->usb_mutex); size = usb_parse_cfg_descr( child_ud->usb_cfg, child_ud->usb_cfg_length, &cfg_descr, USB_CFG_DESCR_SIZE); ASSERT(size == USB_CFG_DESCR_SIZE); mutex_enter(HUBD_MUTEX(hubd)); pwr_value = cfg_descr.bMaxPower; hubd->h_pwr_left -= pwr_value; ASSERT(hubd->h_pwr_left >= 0); USB_DPRINTF_L3(DPRINT_MASK_ATTA, hubd->h_log_handle, "usba_hubdi_decr_power_budget: " "available power is %dmA, decreased by %dmA", hubd->h_pwr_left * USB_CFG_DESCR_PWR_UNIT, pwr_value * USB_CFG_DESCR_PWR_UNIT); mutex_exit(HUBD_MUTEX(hubd)); mutex_enter(&child_ud->usb_mutex); child_ud->usb_pwr_from_hub = pwr_value; mutex_exit(&child_ud->usb_mutex); } /* * hubd_wait_for_hotplug_exit: * Waiting for the exit of the running hotplug thread or ioctl thread. */ static int hubd_wait_for_hotplug_exit(hubd_t *hubd) { clock_t until = drv_usectohz(1000000); int rval; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); if (hubd->h_hotplug_thread) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "waiting for hubd hotplug thread exit"); rval = cv_reltimedwait(&hubd->h_cv_hotplug_dev, &hubd->h_mutex, until, TR_CLOCK_TICK); if ((rval <= 0) && (hubd->h_hotplug_thread)) { return (USB_FAILURE); } } return (USB_SUCCESS); } /* * hubd_reset_thread: * handles the "USB_RESET_LVL_REATTACH" reset of usb device. * * - delete the child (force detaching the device and its children) * - reset the corresponding parent hub port * - create the child (force re-attaching the device and its children) */ static void hubd_reset_thread(void *arg) { hubd_reset_arg_t *hd_arg = (hubd_reset_arg_t *)arg; hubd_t *hubd = hd_arg->hubd; uint16_t reset_port = hd_arg->reset_port; uint16_t status, change; hub_power_t *hubpm; dev_info_t *hdip = hubd->h_dip; dev_info_t *rh_dip = hubd->h_usba_device->usb_root_hub_dip; dev_info_t *child_dip; boolean_t online_child = B_FALSE; int prh_circ, rh_circ, circ, devinst; char *devname; int i = 0; int rval = USB_FAILURE; USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_reset_thread: started, hubd_reset_port = 0x%x", reset_port); kmem_free(arg, sizeof (hubd_reset_arg_t)); mutex_enter(HUBD_MUTEX(hubd)); child_dip = hubd->h_children_dips[reset_port]; ASSERT(child_dip != NULL); devname = (char *)ddi_driver_name(child_dip); devinst = ddi_get_instance(child_dip); /* if our bus power entry point is active, quit the reset */ if (hubd->h_bus_pwr) { USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "%s%d is under bus power management, cannot be reset. " "Please disconnect and reconnect this device.", devname, devinst); goto Fail; } if (hubd_wait_for_hotplug_exit(hubd) == USB_FAILURE) { /* we got woken up because of a timeout */ USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "Time out when resetting the device" " %s%d. Please disconnect and reconnect this device.", devname, devinst); goto Fail; } hubd->h_hotplug_thread++; /* is this the root hub? */ if ((hdip == rh_dip) && (hubd->h_dev_state == USB_DEV_PWRED_DOWN)) { hubpm = hubd->h_hubpm; /* mark the root hub as full power */ hubpm->hubp_current_power = USB_DEV_OS_FULL_PWR; hubpm->hubp_time_at_full_power = ddi_get_time(); mutex_exit(HUBD_MUTEX(hubd)); USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_reset_thread: call pm_power_has_changed"); (void) pm_power_has_changed(hdip, 0, USB_DEV_OS_FULL_PWR); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_dev_state = USB_DEV_ONLINE; } mutex_exit(HUBD_MUTEX(hubd)); /* * this ensures one reset activity per system at a time. * we enter the parent PCI node to have this serialization. * this also excludes ioctls and deathrow thread */ ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); /* exclude other threads */ ndi_devi_enter(hdip, &circ); mutex_enter(HUBD_MUTEX(hubd)); /* * We need to make sure that the child is still online for a hotplug * thread could have inserted which detached the child. */ if (hubd->h_children_dips[reset_port]) { mutex_exit(HUBD_MUTEX(hubd)); /* First disconnect the device */ hubd_post_event(hubd, reset_port, USBA_EVENT_TAG_HOT_REMOVAL); /* delete cached dv_node's but drop locks first */ ndi_devi_exit(hdip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); (void) devfs_clean(rh_dip, NULL, DV_CLEAN_FORCE); /* * workaround only for storage device. When it's able to force * detach a driver, this code can be removed safely. * * If we're to reset storage device and the device is used, we * will wait at most extra 20s for applications to exit and * close the device. This is especially useful for HAL-based * applications. */ if ((strcmp(devname, "scsa2usb") == 0) && DEVI(child_dip)->devi_ref != 0) { while (i++ < hubdi_reset_delay) { mutex_enter(HUBD_MUTEX(hubd)); rval = hubd_delete_child(hubd, reset_port, NDI_DEVI_REMOVE, B_FALSE); mutex_exit(HUBD_MUTEX(hubd)); if (rval == USB_SUCCESS) break; delay(drv_usectohz(1000000)); /* 1s */ } } ndi_devi_enter(ddi_get_parent(rh_dip), &prh_circ); ndi_devi_enter(rh_dip, &rh_circ); ndi_devi_enter(hdip, &circ); mutex_enter(HUBD_MUTEX(hubd)); /* Then force detaching the device */ if ((rval != USB_SUCCESS) && (hubd_delete_child(hubd, reset_port, NDI_DEVI_REMOVE, B_FALSE) != USB_SUCCESS)) { USB_DPRINTF_L0(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "%s%d cannot be reset due to other applications " "are using it, please first close these " "applications, then disconnect and reconnect" "the device.", devname, devinst); mutex_exit(HUBD_MUTEX(hubd)); /* post a re-connect event */ hubd_post_event(hubd, reset_port, USBA_EVENT_TAG_HOT_INSERTION); mutex_enter(HUBD_MUTEX(hubd)); } else { (void) hubd_determine_port_status(hubd, reset_port, &status, &change, HUBD_ACK_ALL_CHANGES); /* Reset the parent hubd port and create new child */ if (status & PORT_STATUS_CCS) { online_child |= (hubd_handle_port_connect(hubd, reset_port) == USB_SUCCESS); } } } /* release locks so we can do a devfs_clean */ mutex_exit(HUBD_MUTEX(hubd)); /* delete cached dv_node's but drop locks first */ ndi_devi_exit(hdip, circ); ndi_devi_exit(rh_dip, rh_circ); ndi_devi_exit(ddi_get_parent(rh_dip), prh_circ); (void) devfs_clean(rh_dip, NULL, 0); /* now check if any children need onlining */ if (online_child) { USB_DPRINTF_L3(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_reset_thread: onlining children"); (void) ndi_devi_online(hubd->h_dip, 0); } mutex_enter(HUBD_MUTEX(hubd)); /* allow hotplug thread now */ hubd->h_hotplug_thread--; Fail: hubd_start_polling(hubd, 0); /* mark this device as idle */ (void) hubd_pm_idle_component(hubd, hubd->h_dip, 0); USB_DPRINTF_L4(DPRINT_MASK_HOTPLUG, hubd->h_log_handle, "hubd_reset_thread: exit, %d", hubd->h_hotplug_thread); hubd->h_reset_port[reset_port] = B_FALSE; mutex_exit(HUBD_MUTEX(hubd)); ndi_rele_devi(hdip); } /* * hubd_check_same_device: * - open the default pipe of the device. * - compare the old and new descriptors of the device. * - close the default pipe. */ static int hubd_check_same_device(hubd_t *hubd, usb_port_t port) { dev_info_t *dip = hubd->h_children_dips[port]; usb_pipe_handle_t ph; int rval = USB_FAILURE; ASSERT(mutex_owned(HUBD_MUTEX(hubd))); mutex_exit(HUBD_MUTEX(hubd)); /* Open the default pipe to operate the device */ if (usb_pipe_open(dip, NULL, NULL, USB_FLAGS_SLEEP| USBA_FLAGS_PRIVILEGED, &ph) == USB_SUCCESS) { /* * Check that if the device's descriptors are different * from the values saved before the port reset. */ rval = usb_check_same_device(dip, hubd->h_log_handle, USB_LOG_L0, DPRINT_MASK_ALL, USB_CHK_ALL, NULL); usb_pipe_close(dip, ph, USB_FLAGS_SLEEP | USBA_FLAGS_PRIVILEGED, NULL, NULL); } mutex_enter(HUBD_MUTEX(hubd)); return (rval); } /* * usba_hubdi_reset_device * Called by usb_reset_device to handle usb device reset. */ int usba_hubdi_reset_device(dev_info_t *dip, usb_dev_reset_lvl_t reset_level) { hubd_t *hubd; usb_port_t port = 0; dev_info_t *hdip; usb_pipe_state_t prev_pipe_state = 0; usba_device_t *usba_device; hubd_reset_arg_t *arg; int i, ph_open_cnt; int rval = USB_FAILURE; if ((!dip) || usba_is_root_hub(dip)) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "usba_hubdi_reset_device: NULL dip or root hub"); return (USB_INVALID_ARGS); } if (!usb_owns_device(dip)) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "usba_hubdi_reset_device: Not owns the device"); return (USB_INVALID_PERM); } if ((reset_level != USB_RESET_LVL_REATTACH) && (reset_level != USB_RESET_LVL_DEFAULT)) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "usba_hubdi_reset_device: Unknown flags"); return (USB_INVALID_ARGS); } if ((hdip = ddi_get_parent(dip)) == NULL) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "usba_hubdi_reset_device: fail to get parent hub"); return (USB_INVALID_ARGS); } if ((hubd = hubd_get_soft_state(hdip)) == NULL) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubdi_log_handle, "usba_hubdi_reset_device: fail to get hub softstate"); return (USB_INVALID_ARGS); } mutex_enter(HUBD_MUTEX(hubd)); /* make sure the hub is connected before trying any kinds of reset. */ if ((hubd->h_dev_state == USB_DEV_DISCONNECTED) || (hubd->h_dev_state == USB_DEV_SUSPENDED)) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb_reset_device: the state %d of the hub/roothub " "associated to the device 0x%p is incorrect", hubd->h_dev_state, (void *)dip); mutex_exit(HUBD_MUTEX(hubd)); return (USB_INVALID_ARGS); } mutex_exit(HUBD_MUTEX(hubd)); port = hubd_child_dip2port(hubd, dip); mutex_enter(HUBD_MUTEX(hubd)); if (hubd->h_reset_port[port]) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb_reset_device: the corresponding port is resetting"); mutex_exit(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } /* * For Default reset, client drivers should first close all the pipes * except default pipe before calling the function, also should not * call the function during interrupt context. */ if (reset_level == USB_RESET_LVL_DEFAULT) { usba_device = hubd->h_usba_devices[port]; mutex_exit(HUBD_MUTEX(hubd)); if (servicing_interrupt()) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb_reset_device: during interrput context, quit"); return (USB_INVALID_CONTEXT); } /* Check if all the pipes have been closed */ for (ph_open_cnt = 0, i = 1; i < USBA_N_ENDPOINTS; i++) { if (usba_device->usb_ph_list[i].usba_ph_data) { ph_open_cnt++; break; } } if (ph_open_cnt) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb_reset_device: %d pipes are still open", ph_open_cnt); return (USB_BUSY); } mutex_enter(HUBD_MUTEX(hubd)); } /* Don't perform reset while the device is detaching */ if (hubd->h_port_state[port] & HUBD_CHILD_DETACHING) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "usb_reset_device: the device is detaching, " "cannot be reset"); mutex_exit(HUBD_MUTEX(hubd)); return (USB_FAILURE); } hubd->h_reset_port[port] = B_TRUE; hdip = hubd->h_dip; mutex_exit(HUBD_MUTEX(hubd)); /* Don't allow hub detached during the reset */ ndi_hold_devi(hdip); mutex_enter(HUBD_MUTEX(hubd)); hubd_pm_busy_component(hubd, hdip, 0); mutex_exit(HUBD_MUTEX(hubd)); /* go full power */ (void) pm_raise_power(hdip, 0, USB_DEV_OS_FULL_PWR); mutex_enter(HUBD_MUTEX(hubd)); hubd->h_hotplug_thread++; /* stop polling if it was active */ if (hubd->h_ep1_ph) { mutex_exit(HUBD_MUTEX(hubd)); (void) usb_pipe_get_state(hubd->h_ep1_ph, &prev_pipe_state, USB_FLAGS_SLEEP); mutex_enter(HUBD_MUTEX(hubd)); if (prev_pipe_state == USB_PIPE_STATE_ACTIVE) { hubd_stop_polling(hubd); } } switch (reset_level) { case USB_RESET_LVL_REATTACH: mutex_exit(HUBD_MUTEX(hubd)); arg = (hubd_reset_arg_t *)kmem_zalloc( sizeof (hubd_reset_arg_t), KM_SLEEP); arg->hubd = hubd; arg->reset_port = port; mutex_enter(HUBD_MUTEX(hubd)); if ((rval = usb_async_req(hdip, hubd_reset_thread, (void *)arg, 0)) == USB_SUCCESS) { hubd->h_hotplug_thread--; mutex_exit(HUBD_MUTEX(hubd)); return (USB_SUCCESS); } else { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "Cannot create reset thread, the device %s%d failed" " to reset", ddi_driver_name(dip), ddi_get_instance(dip)); kmem_free(arg, sizeof (hubd_reset_arg_t)); } break; case USB_RESET_LVL_DEFAULT: /* * Reset hub port and then recover device's address, set back * device's configuration, hubd_handle_port_connect() will * handle errors happened during this process. */ if ((rval = hubd_handle_port_connect(hubd, port)) == USB_SUCCESS) { mutex_exit(HUBD_MUTEX(hubd)); /* re-open the default pipe */ rval = usba_persistent_pipe_open(usba_device); mutex_enter(HUBD_MUTEX(hubd)); if (rval != USB_SUCCESS) { USB_DPRINTF_L2(DPRINT_MASK_ATTA, hubd->h_log_handle, "failed to reopen " "default pipe after reset, disable hub" "port for %s%d", ddi_driver_name(dip), ddi_get_instance(dip)); /* * Disable port to set out a hotplug thread * which will handle errors. */ (void) hubd_disable_port(hubd, port); } } break; default: break; } /* allow hotplug thread now */ hubd->h_hotplug_thread--; if ((hubd->h_dev_state == USB_DEV_ONLINE) && hubd->h_ep1_ph && (prev_pipe_state == USB_PIPE_STATE_ACTIVE)) { hubd_start_polling(hubd, 0); } hubd_pm_idle_component(hubd, hdip, 0); /* Clear reset mark for the port. */ hubd->h_reset_port[port] = B_FALSE; mutex_exit(HUBD_MUTEX(hubd)); ndi_rele_devi(hdip); return (rval); }