/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _SYS_USB_OHCID_H #define _SYS_USB_OHCID_H #pragma ident "%Z%%M% %I% %E% SMI" #ifdef __cplusplus extern "C" { #endif /* * Open Host Controller Driver (OHCI) * * The USB Open Host Controller driver is a software driver which interfaces * to the Universal Serial Bus layer (USBA) and the USB Open Host Controller. * The interface to USB Open Host Controller is defined by the OpenHCI Host * Controller Interface. * * This header file describes the data structures required for the USB Open * Host Controller Driver to maintain state of USB Open Host Controller, to * perform different USB transfers and for the bandwidth allocations. */ #include #include /* * OpenHCI interrupt status information structure * * The Host Controller Driver (HCD) has to maintain two different sets of * Host Controller (HC) state information that includes HC registers, the * interrupt tables etc.. for the normal and polled modes. In addition, * suppose if we switched to polled mode while ohci interrupt handler is * executing in the normal mode then we need to save the interrupt status * information that includes interrupts for which ohci interrupt handler * is called and HCCA done head list in the polled mode. This infromation * will be used later in normal mode to service those missed interrupts. * This will avoid race conditions like missing of normal mode's ohci SOF * and WriteDoneHead interrupts because of this polled switch. */ typedef struct ohci_save_intr_sts { /* * The following field has set of flags & these flags will be set * in the ohci interrupt handler to indicate that currently ohci * interrupt handler is in execution and also while critical code * execution within the ohci interrupt handler. These flags will * be verified in polled mode while saving the normal mode's ohci * interrupt status information. */ uint_t ohci_intr_flag; /* Intr handler flags */ /* * The following fields will be used to save the interrupt status * and the HCCA done head list that the ohci interrupt handler is * currently handling. */ uint_t ohci_curr_intr_sts; /* Current interrupts */ ohci_td_t *ohci_curr_done_lst; /* Current done head */ /* * The following fields will be used to save the interrupt status * and the HCCA done list currently being handled by the critical * section of the ohci interrupt handler.. */ uint_t ohci_critical_intr_sts; /* Critical interrupts */ ohci_td_t *ohci_critical_done_lst; /* Critical done head */ /* * The following fields will be used to save the interrupt status * and HCCA done head list by the polled code if an interrupt is * pending when polled code is entered. These missed interrupts & * done list will be serviced either in current normal mode ohci * interrupt handler execution or during the next ohci interrupt * handler execution. */ uint_t ohci_missed_intr_sts; /* Missed interrupts */ ohci_td_t *ohci_missed_done_lst; /* Missed done head */ } ohci_save_intr_sts_t; /* * These flags will be set in the the normal mode ohci interrupt handler * to indicate that currently ohci interrupt handler is in execution and * also while critical code execution within the ohci interrupt handler. * These flags will be verified in the polled mode while saving the normal * mode's ohci interrupt status infromation. */ #define OHCI_INTR_HANDLING 0x01 /* Handling ohci intrs */ #define OHCI_INTR_CRITICAL 0x02 /* Critical intr code */ /* * OpenHCI Host Controller state structure * * The Host Controller Driver (HCD) maintains the state of Host Controller * (HC). There is an ohci_state structure per instance of the OpenHCI * host controller. */ typedef struct ohci_state { dev_info_t *ohci_dip; /* Dip of HC */ uint_t ohci_instance; usba_hcdi_ops_t *ohci_hcdi_ops; /* HCDI structure */ uint_t ohci_flags; /* Used for cleanup */ uint16_t ohci_vendor_id; /* chip vendor */ uint16_t ohci_device_id; /* chip device */ uint8_t ohci_rev_id; /* chip revison */ ohci_regs_t *ohci_regsp; /* Host ctlr regs */ ddi_acc_handle_t ohci_regs_handle; /* Reg handle */ ddi_acc_handle_t ohci_config_handle; /* Config space hndle */ uint_t ohci_frame_interval; /* Frme inter reg */ ddi_dma_attr_t ohci_dma_attr; /* DMA attributes */ ddi_intr_handle_t *ohci_htable; /* intr handle */ int ohci_intr_type; /* intr type used */ int ohci_intr_cnt; /* # of intrs inuse */ uint_t ohci_intr_pri; /* intr priority */ int ohci_intr_cap; /* intr capabilities */ kmutex_t ohci_int_mutex; /* Mutex for struct */ /* HCCA area */ ohci_hcca_t *ohci_hccap; /* Virtual HCCA ptr */ ddi_dma_cookie_t ohci_hcca_cookie; /* DMA cookie */ ddi_dma_handle_t ohci_hcca_dma_handle; /* DMA handle */ ddi_acc_handle_t ohci_hcca_mem_handle; /* Memory handle */ /* * There are two pools of memory. One pool contains the memory for * the transfer descriptors and other pool contains the memory for * the endpoint descriptors. The advantage of the pools is that it's * easy to go back and forth between the iommu and the cpu addresses. * * The pools are protected by the ohci_int_mutex because the memory * in the pools may be accessed by either the host controller or the * host controller driver. */ /* General transfer descriptor pool */ ohci_td_t *ohci_td_pool_addr; /* Start of the pool */ ddi_dma_cookie_t ohci_td_pool_cookie; /* DMA cookie */ ddi_dma_handle_t ohci_td_pool_dma_handle; /* DMA hndle */ ddi_acc_handle_t ohci_td_pool_mem_handle; /* Mem hndle */ /* Endpoint descriptor pool */ ohci_ed_t *ohci_ed_pool_addr; /* Start of the pool */ ddi_dma_cookie_t ohci_ed_pool_cookie; /* DMA cookie */ ddi_dma_handle_t ohci_ed_pool_dma_handle; /* DMA handle */ ddi_acc_handle_t ohci_ed_pool_mem_handle; /* Mem handle */ uint_t ohci_dma_addr_bind_flag; /* DMA flag */ /* Condition variables */ kcondvar_t ohci_SOF_cv; /* SOF variable */ /* Semaphore to serialize opens and closes */ ksema_t ohci_ocsem; /* * Bandwidth fields * * The ohci_bandwidth array keeps track of the allocated bandwidth * for this host controller. The total bandwidth allocated for least * allocated list out of the 32 periodic lists is represented by the * ohci_periodic_minimum_bandwidth field. */ uint_t ohci_periodic_minimum_bandwidth; uint_t ohci_periodic_bandwidth[NUM_INTR_ED_LISTS]; /* Different transfer open pipe counts */ uint_t ohci_open_pipe_count; uint_t ohci_open_ctrl_pipe_count; uint_t ohci_open_bulk_pipe_count; uint_t ohci_open_periodic_pipe_count; uint_t ohci_open_isoch_pipe_count; /* * Endpoint Reclamation List * * The interrupt or isochronous list processing cannot be stopped * when a periodic endpoint is removed from the list. The endpoints * are detached from the interrupt lattice tree and put on to the * reclaimation list. On next SOF interrupt all those endpoints, * which are on the reclaimation list will be deallocated. */ ohci_ed_t *ohci_reclaim_list; /* Reclaimation list */ ohci_root_hub_t ohci_root_hub; /* Root hub info */ /* * Global transfer timeout handling & this transfer timeout handling * will be per USB Host Controller. */ struct ohci_trans_wrapper *ohci_timeout_list; /* Timeout List */ timeout_id_t ohci_timer_id; /* Timer id */ /* Frame number overflow information */ usb_frame_number_t ohci_fno; /* For Schedule Overrun error counter */ uint_t ohci_so_error; /* For host controller error counter */ uint_t ohci_hc_error; /* For SOF interrupt event */ boolean_t ohci_sof_flag; /* Openhci Host Controller Software State information */ uint_t ohci_hc_soft_state; /* * ohci_save_intr_stats is used to save the normal mode interrupt * status information while executing interrupt handler & also by * the polled code if an interrupt is pending for the normal mode * when polled code is entered. */ ohci_save_intr_sts_t ohci_save_intr_sts; /* * Saved copy of the ohci registers of the normal mode & change * required ohci registers values for the polled mode operation. * Before returning from the polled mode to normal mode replace * the required current registers with this saved ohci registers * copy. */ ohci_regs_t ohci_polled_save_regs; /* * Saved copy of the interrupt table used in normal ohci mode and * replace this table by another interrupt table that used in the * POLLED mode. */ ohci_ed_t *ohci_polled_save_IntTble[NUM_INTR_ED_LISTS]; /* ohci polled mode enter counter for the input devices */ uint_t ohci_polled_enter_count; /* * Counter for polled mode and used in suspend mode to see if * there is a input device connected. */ uint_t ohci_polled_kbd_count; /* Done list for the Polled mode */ ohci_td_t *ohci_polled_done_list; /* Log handle for debug, console, log messages */ usb_log_handle_t ohci_log_hdl; /* Kstat structures */ kstat_t *ohci_intrs_stats; kstat_t *ohci_total_stats; kstat_t *ohci_count_stats[USB_N_COUNT_KSTATS]; } ohci_state_t; typedef struct ohci_intrs_stats { struct kstat_named ohci_hcr_intr_so; struct kstat_named ohci_hcr_intr_wdh; struct kstat_named ohci_hcr_intr_sof; struct kstat_named ohci_hcr_intr_rd; struct kstat_named ohci_hcr_intr_ue; struct kstat_named ohci_hcr_intr_fno; struct kstat_named ohci_hcr_intr_rhsc; struct kstat_named ohci_hcr_intr_oc; struct kstat_named ohci_hcr_intr_not_claimed; struct kstat_named ohci_hcr_intr_total; } ohci_intrs_stats_t; /* * ohci kstat defines */ #define OHCI_INTRS_STATS(ohci) ((ohci)->ohci_intrs_stats) #define OHCI_INTRS_STATS_DATA(ohci) \ ((ohci_intrs_stats_t *)OHCI_INTRS_STATS((ohci))->ks_data) #define OHCI_TOTAL_STATS(ohci) ((ohci)->ohci_total_stats) #define OHCI_TOTAL_STATS_DATA(ohci) (KSTAT_IO_PTR((ohci)->ohci_total_stats)) #define OHCI_CTRL_STATS(ohci) \ (KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_CONTROL])) #define OHCI_BULK_STATS(ohci) \ (KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_BULK])) #define OHCI_INTR_STATS(ohci) \ (KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_INTR])) #define OHCI_ISOC_STATS(ohci) \ (KSTAT_IO_PTR((ohci)->ohci_count_stats[USB_EP_ATTR_ISOCH])) /* warlock directives, stable data */ _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_state_t)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_intr_pri)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_dip)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_regsp)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_instance)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_vendor_id)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_device_id)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_rev_id)) /* this may not be stable data in the future */ _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_addr)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_mem_handle)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_addr)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_mem_handle)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_td_pool_cookie)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_ed_pool_cookie)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_hcca_mem_handle)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_hccap)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_dma_addr_bind_flag)) _NOTE(DATA_READABLE_WITHOUT_LOCK(ohci_state_t::ohci_log_hdl)) _NOTE(LOCK_ORDER(ohci_state::ohci_int_mutex \ usba_pipe_handle_data::p_mutex \ usba_device::usb_mutex \ usba_ph_impl::usba_ph_mutex)) /* * Host Contoller Software States * * OHCI_CTLR_INIT_STATE: * The host controller soft state will be set to this during the * ohci_attach. * * OHCI_CTLR_SUSPEND_STATE: * The host controller soft state will be set to this during the * ohci_cpr_suspend. * * OHCI_CTLR_OPERATIONAL_STATE: * The host controller soft state will be set to this after moving * host controller to operational state and host controller start * generating SOF successfully. * * OHCI_CTLR_ERROR_STATE: * The host controller soft state will be set to this during the * no SOF or UE error conditions. * * Under this state or condition, only pipe stop polling, pipe reset * and pipe close are allowed. But all other entry points like pipe * open, get/set pipe policy, cotrol send/receive, bulk send/receive * isoch send/receive, start polling etc. will fail. * * State Diagram for the host controller software state * * * ohci_attach->[INIT_STATE] * | * | -------->----[ERROR_STATE]--<-----------<--- * | | Failure (UE/no SOF condition) | * | ^ ^ * V | Success | * ohci_init_ctlr--->--------[OPERATIONAL_STATE]------>-ohci_send/recv/polling * ^ | * | | * | V * -<-ohci_cpr_resume--[SUSPEND_STATE]-<-ohci_cpr_suspend */ #define OHCI_CTLR_INIT_STATE 0 /* Initilization state */ #define OHCI_CTLR_SUSPEND_STATE 1 /* Suspend state */ #define OHCI_CTLR_OPERATIONAL_STATE 2 /* Operational state */ #define OHCI_CTLR_ERROR_STATE 3 /* Ue error or no sof state */ /* * Define all ohci's Vendor-id and Device-id Here */ #define RIO_VENDOR 0x108e #define RIO_DEVICE 0x1103 #define OHCI_IS_RIO(ohcip) (ohcip->ohci_vendor_id == RIO_VENDOR) /* * Periodic and non-periodic macros */ #define OHCI_PERIODIC_ENDPOINT(endpoint) (((endpoint->bmAttributes &\ USB_EP_ATTR_MASK) == USB_EP_ATTR_INTR) ||\ ((endpoint->bmAttributes &\ USB_EP_ATTR_MASK) == USB_EP_ATTR_ISOCH)) #define OHCI_NON_PERIODIC_ENDPOINT(endpoint) (((endpoint->bmAttributes &\ USB_EP_ATTR_MASK) == USB_EP_ATTR_CONTROL) ||\ ((endpoint->bmAttributes &\ USB_EP_ATTR_MASK) == USB_EP_ATTR_BULK)) /* * OHCI ED and TD Pool sizes. */ #define OHCI_ED_POOL_SIZE 100 #define OHCI_TD_POOL_SIZE 200 /* * ohci_dma_addr_bind_flag values * * This flag indicates if the various DMA addresses allocated by the OHCI * have been bound to their respective handles. This is needed to recover * without errors from ohci_cleanup when it calls ddi_dma_unbind_handle() */ #define OHCI_TD_POOL_BOUND 0x01 /* For TD pools */ #define OHCI_ED_POOL_BOUND 0x02 /* For ED pools */ #define OHCI_HCCA_DMA_BOUND 0x04 /* For HCCA area */ /* * Maximum SOF wait count */ #define MAX_SOF_WAIT_COUNT 2 /* Wait for maximum SOF frames */ /* * Pipe private structure * * There is an instance of this structure per pipe. This structure holds * HCD specific pipe information. A pointer to this structure is kept in * the USBA pipe handle (usba_pipe_handle_data_t). */ typedef struct ohci_pipe_private { usba_pipe_handle_data_t *pp_pipe_handle; /* Back ptr to handle */ ohci_ed_t *pp_ept; /* Pipe's ept */ /* State of the pipe */ uint_t pp_state; /* See below */ /* Local copy of the pipe policy */ usb_pipe_policy_t pp_policy; /* For Periodic Pipes Only */ uint_t pp_node; /* Node in lattice */ uint_t pp_cur_periodic_req_cnt; /* Curr req count */ uint_t pp_max_periodic_req_cnt; /* Max req count */ /* For isochronous pipe only */ usb_frame_number_t pp_next_frame_number; /* Next frame no */ /* * Each pipe may have multiple transfer wrappers. Each transfer * wrapper represents a USB transfer on the bus. A transfer is * made up of one or more transactions. */ struct ohci_trans_wrapper *pp_tw_head; /* Head of the list */ struct ohci_trans_wrapper *pp_tw_tail; /* Tail of the list */ /* Done td count */ uint_t pp_count_done_tds; /* Done td count */ /* Errors */ usb_cr_t pp_error; /* Pipe error */ /* Flags */ uint_t pp_flag; /* Flags */ /* Condition variable for transfers completion event */ kcondvar_t pp_xfer_cmpl_cv; /* Xfer completion */ /* * HCD gets Interrupt/Isochronous IN polling request only once and * it has to insert next polling requests after completion of first * request until either stop polling/pipe close is called. So HCD * has to take copy of the original Interrupt/Isochronous IN request. */ usb_opaque_t pp_client_periodic_in_reqp; } ohci_pipe_private_t; /* warlock directives, stable data */ _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_pipe_private_t)) /* * Pipe states * * ohci pipe states will be similar to usba. Refer usbai.h. */ #define OHCI_PIPE_STATE_IDLE 1 /* Pipe is in ready state */ #define OHCI_PIPE_STATE_ACTIVE 2 /* Pipe is in busy state */ #define OHCI_PIPE_STATE_ERROR 3 /* Pipe is in error state */ /* Additional ohci pipe states for the ohci_pipe_cleanup */ #define OHCI_PIPE_STATE_CLOSE 4 /* Pipe close */ #define OHCI_PIPE_STATE_RESET 5 /* Pipe reset */ #define OHCI_PIPE_STATE_STOP_POLLING 6 /* Pipe stop polling */ /* * Pipe specific Flags */ #define OHCI_ISOC_XFER_CONTINUE 1 /* For isoc transfers */ /* * The maximum allowable usb isochronous data transfer size or maximum * number of isochronous data packets. * * Each usb isochronous request must not exceed multiples of isochronous * endpoint packet size and OHCI_MAX_ISOC_PKTS_PER_XFER. * * Ex: usb isochronous endpoint maximum packet size is 64 bytes * maximum usb isochronous request will be OHCI_MAX_ISOC_PKTS_PER_XFER * * 64 bytes */ #define OHCI_MAX_ISOC_PKTS_PER_XFER 256 /* Max pkts per req */ /* * The ohci supports maximum of eight isochronous data packets per transfer * descriptor. */ #define OHCI_ISOC_PKTS_PER_TD 8 /* Packets per TD */ /* * USB frame offset * * Add appropriate frame offset to the current usb frame number and use it * as a starting frame number for a given usb isochronous request. */ #define OHCI_FRAME_OFFSET 2 /* Frame offset */ /* * Default usb isochronous receive packets per request before ohci will do * callback. */ #define OHCI_DEFAULT_ISOC_RCV_PKTS 1 /* isoc pkts per req */ /* * Different interrupt polling intervals supported */ #define INTR_1MS_POLL 1 #define INTR_2MS_POLL 2 #define INTR_4MS_POLL 4 #define INTR_8MS_POLL 8 #define INTR_16MS_POLL 16 #define INTR_32MS_POLL 32 /* * Number of interrupt/isochronous transfer requests that should * be maintained on the interrupt/isochronous endpoint corresponding * to different polling intervals supported. */ #define INTR_1MS_REQS 4 /* 1ms polling interval */ #define INTR_2MS_REQS 2 /* 2ms polling interval */ #define INTR_XMS_REQS 1 /* Between 4ms and 32ms */ /* Function prototype */ typedef void (*ohci_handler_function_t)( ohci_state_t *ohcip, ohci_pipe_private_t *pp, struct ohci_trans_wrapper *tw, ohci_td_t *td, void *ohci_handle_callback_value); /* * Transfer wrapper * * The transfer wrapper represents a USB transfer on the bus and there * is one instance per USB transfer. A transfer is made up of one or * more transactions. * * Control and bulk pipes will have one transfer wrapper per transfer * and where as Isochronous and Interrupt pipes will only have one * transfer wrapper. The transfers wrapper are continually reused for * the Interrupt and Isochronous pipes as those pipes are polled. */ typedef struct ohci_trans_wrapper { struct ohci_trans_wrapper *tw_next; /* Next wrapper */ ohci_pipe_private_t *tw_pipe_private; /* Back ptr */ ddi_dma_handle_t tw_dmahandle; /* DMA handle */ ddi_acc_handle_t tw_accesshandle; /* Acc hndle */ ddi_dma_cookie_t tw_cookie; /* DMA cookie */ uint32_t tw_id; /* 32bit ID */ size_t tw_length; /* Txfer length */ char *tw_buf; /* Buffer for Xfer */ usb_flags_t tw_flags; /* Flags */ uint_t tw_num_tds; /* Number of TDs */ ohci_td_t *tw_hctd_head; /* Head TD */ ohci_td_t *tw_hctd_tail; /* Tail TD */ uint_t tw_direction; /* Direction of TD */ /* We preallocate all the td's for each tw and place them here */ ohci_td_t *tw_hctd_free_list; /* Current transfer request pointer */ usb_opaque_t tw_curr_xfer_reqp; /* Current isochronous packet descriptor pointer */ usb_isoc_pkt_descr_t *tw_curr_isoc_pktp; /* Transfer timeout information */ uint_t tw_timeout; /* Timeout value */ struct ohci_trans_wrapper *tw_timeout_next; /* Xfer Timeout Q */ /* * This is the function to call when this td is done. This way * we don't have to look in the td to figure out what kind it is. */ ohci_handler_function_t tw_handle_td; /* * This is the callback value used when processing a done td. */ usb_opaque_t tw_handle_callback_value; } ohci_trans_wrapper_t; _NOTE(MUTEX_PROTECTS_DATA(ohci_state_t::ohci_int_mutex, ohci_trans_wrapper)) /* * Time waits for the different OHCI specific operations. * These timeout values are specified in terms of microseconds. */ #define OHCI_RESET_TIMEWAIT 10000 /* HC reset waiting time */ #define OHCI_RESUME_TIMEWAIT 40000 /* HC resume waiting time */ #define OHCI_TIMEWAIT 10000 /* HC any other waiting time */ /* These timeout values are specified in seconds */ #define OHCI_DEFAULT_XFER_TIMEOUT 5 /* Default transfer timeout */ #define OHCI_MAX_SOF_TIMEWAIT 3 /* Maximum SOF waiting time */ #define OHCI_XFER_CMPL_TIMEWAIT 3 /* Xfers completion timewait */ /* OHCI flags for general use */ #define OHCI_FLAGS_NOSLEEP 0x000 /* Don't wait for SOF */ #define OHCI_FLAGS_SLEEP 0x100 /* Wait for SOF */ #define OHCI_FLAGS_DMA_SYNC 0x200 /* Call ddi_dma_sync */ /* * Maximum allowable data transfer size per transaction as supported * by OHCI is 8k. (See Open Host Controller Interface Spec rev 1.0a) */ #define OHCI_MAX_TD_XFER_SIZE 0x2000 /* Maxmum data per transaction */ /* * The maximum allowable bulk data transfer size. It can be different * from OHCI_MAX_TD_XFER_SIZE and if it is more then ohci driver will * take care of breaking a bulk data request into multiples of ohci * OHCI_MAX_TD_XFER_SIZE until request is satisfied. Currently this * value is set to 256k bytes. */ #define OHCI_MAX_BULK_XFER_SIZE 0x40000 /* Maximum bulk transfer size */ /* * Timeout flags * * These flags will be used to stop the timer before timeout handler * gets executed. */ #define OHCI_REMOVE_XFER_IFLAST 1 /* Stop the timer if it is last TD */ #define OHCI_REMOVE_XFER_ALWAYS 2 /* Stop the timer without condition */ /* * Bandwidth allocation * * The following definitions are used during bandwidth calculations * for a given endpoint maximum packet size. */ #define MAX_USB_BUS_BANDWIDTH 1500 /* Up to 1500 bytes per frame */ #define MAX_POLL_INTERVAL 255 /* Maximum polling interval */ #define MIN_POLL_INTERVAL 1 /* Minimum polling interval */ #define SOF 6 /* Length in bytes of SOF */ #define EOF 4 /* Length in bytes of EOF */ #define TREE_HEIGHT 5 /* Log base 2 of 32 */ /* * Minimum polling interval for low speed endpoint * * According USB Specifications, a full-speed endpoint can specify * a desired polling interval 1ms to 255ms and a low speed endpoints * are limited to specifying only 10ms to 255ms. But some old keyboards * and mice uses polling interval of 8ms. For compatibility purpose, * we are using polling interval between 8ms and 255ms for low speed * endpoints. But ohci driver will reject any low speed endpoints which * request polling interval less than 8ms. */ #define MIN_LOW_SPEED_POLL_INTERVAL 8 /* * For non-periodic transfers, reserve atleast for one low-speed device * transaction. According to USB Bandwidth Analysis white paper and also * as per OHCI Specification 1.0a, section 7.3.5, page 123, one low-speed * transaction takes 0x628h full speed bits (197 bytes), which comes to * around 13% of USB frame time. * * The periodic transfers will get around 87% of USB frame time. */ #define MAX_NON_PERIODIC_BANDWIDTH 197 #define MAX_PERIODIC_BANDWIDTH (MAX_USB_BUS_BANDWIDTH - SOF - \ EOF - MAX_NON_PERIODIC_BANDWIDTH) /* * The USB periodic transfers like interrupt and isochronous transfers * after completion of SOF and USB non-periodic transfers. */ #define PERIODIC_XFER_STARTS (MAX_USB_BUS_BANDWIDTH - \ SOF - MAX_NON_PERIODIC_BANDWIDTH) /* Number of Bits Per Byte */ #define BITS_PER_BYTE 8 /* * The following are the protocol overheads in terms of Bytes for the * different transfer types. All these protocol overhead values are * derived from the 5.9.3 section of USB Specification and with the * help of Bandwidth Analysis white paper which is posted on the USB * developer forum. */ #define FS_NON_ISOC_PROTO_OVERHEAD 14 #define FS_ISOC_INPUT_PROTO_OVERHEAD 11 #define FS_ISOC_OUTPUT_PROTO_OVERHEAD 10 #define LOW_SPEED_PROTO_OVERHEAD 97 #define HUB_LOW_SPEED_PROTO_OVERHEAD 01 /* * The Host Controller (HC) delays are the USB host controller specific * delays. The value shown below is the host controller delay for the * RIO USB host controller. This value was calculated and given by the * Sun USB hardware people. */ #define HOST_CONTROLLER_DELAY 18 /* * The low speed clock below represents that to transmit one low-speed * bit takes eight times more than one full speed bit time. */ #define LOW_SPEED_CLOCK 8 /* * Macros for setting/getting information */ #define Get_ED(addr) ddi_get32(ohcip->ohci_ed_pool_mem_handle, \ (uint32_t *)&addr) #define Set_ED(addr, val) ddi_put32(ohcip->ohci_ed_pool_mem_handle, \ ((uint32_t *)&addr), \ ((int32_t)(val))) #define Get_TD(addr) ddi_get32(ohcip->ohci_td_pool_mem_handle, \ (uint32_t *)&addr) #define Set_TD(addr, val) ddi_put32(ohcip->ohci_td_pool_mem_handle, \ ((uint32_t *)&addr), \ ((uint32_t)(uintptr_t)(val))) #define Get_HCCA(addr) ddi_get32(ohcip->ohci_hcca_mem_handle, \ (uint32_t *)&addr) #define Set_HCCA(addr, val) ddi_put32(ohcip->ohci_hcca_mem_handle, \ ((uint32_t *)&addr), \ ((int32_t)(val))) #define Get_OpReg(addr) ddi_get32(ohcip->ohci_regs_handle, \ (uint32_t *)&ohcip->ohci_regsp->addr) #define Set_OpReg(addr, val) ddi_put32(ohcip->ohci_regs_handle, \ ((uint32_t *)&ohcip->ohci_regsp->addr), \ ((int32_t)(val))) #define Sync_HCCA(ohcip) (void) ddi_dma_sync( \ ohcip->ohci_hcca_dma_handle, \ 0, sizeof (ohci_hcca_t), \ DDI_DMA_SYNC_FORCPU); #define Sync_ED_TD_Pool(ohcip) (void) ddi_dma_sync( \ ohcip->ohci_ed_pool_dma_handle, \ 0, OHCI_ED_POOL_SIZE * sizeof (ohci_ed_t), \ DDI_DMA_SYNC_FORCPU); \ (void) ddi_dma_sync( \ ohcip->ohci_td_pool_dma_handle, \ 0, OHCI_TD_POOL_SIZE * sizeof (ohci_td_t), \ DDI_DMA_SYNC_FORCPU); #define Sync_IO_Buffer(dma_handle, length) \ (void) ddi_dma_sync(dma_handle, \ 0, length, DDI_DMA_SYNC_FORCPU); /* * Macros to speed handling of 32bit IDs */ #define OHCI_GET_ID(x) id32_alloc((void *)(x), KM_SLEEP) #define OHCI_LOOKUP_ID(x) id32_lookup((x)) #define OHCI_FREE_ID(x) id32_free((x)) /* * Miscellaneous definitions. */ /* Data toggle bits */ #define DATA0 0 #define DATA1 1 /* sKip bit actions */ #define CLEAR_sKip 0 #define SET_sKip 1 typedef uint_t skip_bit_t; /* * Setup Packet */ typedef struct setup_pkt { uchar_t bmRequestType; uchar_t bRequest; ushort_t wValue; ushort_t wIndex; ushort_t wLength; }setup_pkt_t; #define SETUP_SIZE 8 /* Setup packet is always 8 bytes */ #define REQUEST_TYPE_OFFSET 0 #define REQUEST_OFFSET 1 #define VALUE_OFFSET 2 #define INDEX_OFFSET 4 #define LENGTH_OFFSET 6 #define TYPE_DEV_TO_HOST 0x80000000 #define DEVICE 0x00000001 #define CONFIGURATION 0x00000002 /* * The following are used in attach to indicate * what has been succesfully allocated, so detach * can remove them. */ #define OHCI_ATTACH 0x01 /* ohci driver initilization */ #define OHCI_ZALLOC 0x02 /* Memory for ohci state structure */ #define OHCI_INTR 0x04 /* Interrupt handler registered */ #define OHCI_USBAREG 0x08 /* USBA registered */ #define OHCI_RHREG 0x10 /* Root hub driver loaded */ #define OHCI_UNIT(dev) (getminor((dev)) & ~HUBD_IS_ROOT_HUB) /* * Debug printing * Masks */ #define PRINT_MASK_ATTA 0x00000001 /* Attach time */ #define PRINT_MASK_LISTS 0x00000002 /* List management */ #define PRINT_MASK_ROOT_HUB 0x00000004 /* Root hub stuff */ #define PRINT_MASK_ALLOC 0x00000008 /* Alloc/dealloc descr */ #define PRINT_MASK_INTR 0x00000010 /* Interrupt handling */ #define PRINT_MASK_BW 0x00000020 /* Bandwidth */ #define PRINT_MASK_CBOPS 0x00000040 /* CB-OPS */ #define PRINT_MASK_HCDI 0x00000080 /* HCDI entry points */ #define PRINT_MASK_DUMPING 0x00000100 /* Dump ohci info */ #define PRINT_MASK_ALL 0xFFFFFFFF /* Polling support */ int ohci_hcdi_polled_input_init( usba_pipe_handle_data_t *ph, uchar_t **polled_buf, usb_console_info_impl_t *info); int ohci_hcdi_polled_input_enter( usb_console_info_impl_t *info); int ohci_hcdi_polled_read( usb_console_info_impl_t *info, uint_t *num_characters); int ohci_hcdi_polled_input_exit( usb_console_info_impl_t *info); int ohci_hcdi_polled_input_fini( usb_console_info_impl_t *info); /* Root hub related functions */ int ohci_init_root_hub( ohci_state_t *ohcip); int ohci_load_root_hub_driver( ohci_state_t *ohcip); int ohci_unload_root_hub_driver( ohci_state_t *ohcip); int ohci_handle_root_hub_pipe_open( usba_pipe_handle_data_t *ph, usb_flags_t flags); int ohci_handle_root_hub_pipe_close( usba_pipe_handle_data_t *ph); int ohci_handle_root_hub_pipe_reset( usba_pipe_handle_data_t *ph, usb_flags_t flags); int ohci_handle_root_hub_request( ohci_state_t *ohcip, usba_pipe_handle_data_t *ph, usb_ctrl_req_t *ctrl_reqp); int ohci_handle_root_hub_pipe_start_intr_polling( usba_pipe_handle_data_t *ph, usb_intr_req_t *intr_reqp, usb_flags_t flags); void ohci_handle_root_hub_pipe_stop_intr_polling( usba_pipe_handle_data_t *ph, usb_flags_t flags); void ohci_handle_root_hub_status_change(void *arg); /* Endpoint Descriptor (ED) related functions */ ohci_ed_t *ohci_alloc_hc_ed( ohci_state_t *ohcip, usba_pipe_handle_data_t *ph); void ohci_deallocate_ed( ohci_state_t *ohcip, ohci_ed_t *old_ed); uint32_t ohci_ed_cpu_to_iommu( ohci_state_t *ohcip, ohci_ed_t *addr); /* Transfer Descriptor (TD) related functions */ int ohci_start_periodic_pipe_polling( ohci_state_t *ohcip, usba_pipe_handle_data_t *ph, usb_opaque_t periodic_in_reqp, usb_flags_t flags); void ohci_traverse_tds( ohci_state_t *ohcip, usba_pipe_handle_data_t *ph); void ohci_deallocate_td( ohci_state_t *ohcip, ohci_td_t *old_td); uint32_t ohci_td_cpu_to_iommu( ohci_state_t *ohcip, ohci_td_t *addr); ohci_td_t *ohci_td_iommu_to_cpu( ohci_state_t *ohcip, uintptr_t addr); /* Transfer Wrapper (TW) functions */ void ohci_deallocate_tw_resources( ohci_state_t *ohcip, ohci_pipe_private_t *pp, ohci_trans_wrapper_t *tw); /* Interrupt Handling functions */ void ohci_handle_frame_number_overflow( ohci_state_t *ohcip); /* Miscillaneous functions */ ohci_state_t *ohci_obtain_state( dev_info_t *dip); int ohci_state_is_operational( ohci_state_t *ohcip); int ohci_do_soft_reset( ohci_state_t *ohcip); usb_frame_number_t ohci_get_current_frame_number( ohci_state_t *ohcip); void ohci_handle_outstanding_requests( ohci_state_t *ohcip, ohci_pipe_private_t *pp); #ifdef __cplusplus } #endif #endif /* _SYS_USB_OHCID_H */