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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [drivers/] [usb/] [host/] [uhci.h] - Rev 1779
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#ifndef __LINUX_UHCI_H #define __LINUX_UHCI_H #include <linux/list.h> #include <linux/usb.h> /* * Universal Host Controller Interface data structures and defines */ /* Command register */ #define USBCMD 0 #define USBCMD_RS 0x0001 /* Run/Stop */ #define USBCMD_HCRESET 0x0002 /* Host reset */ #define USBCMD_GRESET 0x0004 /* Global reset */ #define USBCMD_EGSM 0x0008 /* Global Suspend Mode */ #define USBCMD_FGR 0x0010 /* Force Global Resume */ #define USBCMD_SWDBG 0x0020 /* SW Debug mode */ #define USBCMD_CF 0x0040 /* Config Flag (sw only) */ #define USBCMD_MAXP 0x0080 /* Max Packet (0 = 32, 1 = 64) */ /* Status register */ #define USBSTS 2 #define USBSTS_USBINT 0x0001 /* Interrupt due to IOC */ #define USBSTS_ERROR 0x0002 /* Interrupt due to error */ #define USBSTS_RD 0x0004 /* Resume Detect */ #define USBSTS_HSE 0x0008 /* Host System Error - basically PCI problems */ #define USBSTS_HCPE 0x0010 /* Host Controller Process Error - the scripts were buggy */ #define USBSTS_HCH 0x0020 /* HC Halted */ /* Interrupt enable register */ #define USBINTR 4 #define USBINTR_TIMEOUT 0x0001 /* Timeout/CRC error enable */ #define USBINTR_RESUME 0x0002 /* Resume interrupt enable */ #define USBINTR_IOC 0x0004 /* Interrupt On Complete enable */ #define USBINTR_SP 0x0008 /* Short packet interrupt enable */ #define USBFRNUM 6 #define USBFLBASEADD 8 #define USBSOF 12 /* USB port status and control registers */ #define USBPORTSC1 16 #define USBPORTSC2 18 #define USBPORTSC_CCS 0x0001 /* Current Connect Status ("device present") */ #define USBPORTSC_CSC 0x0002 /* Connect Status Change */ #define USBPORTSC_PE 0x0004 /* Port Enable */ #define USBPORTSC_PEC 0x0008 /* Port Enable Change */ #define USBPORTSC_LS 0x0030 /* Line Status */ #define USBPORTSC_RD 0x0040 /* Resume Detect */ #define USBPORTSC_LSDA 0x0100 /* Low Speed Device Attached */ #define USBPORTSC_PR 0x0200 /* Port Reset */ #define USBPORTSC_SUSP 0x1000 /* Suspend */ /* Legacy support register */ #define USBLEGSUP 0xc0 #define USBLEGSUP_DEFAULT 0x2000 /* only PIRQ enable set */ #define UHCI_NULL_DATA_SIZE 0x7FF /* for UHCI controller TD */ #define UHCI_PTR_BITS 0x000F #define UHCI_PTR_TERM 0x0001 #define UHCI_PTR_QH 0x0002 #define UHCI_PTR_DEPTH 0x0004 #define UHCI_NUMFRAMES 1024 /* in the frame list [array] */ #define UHCI_MAX_SOF_NUMBER 2047 /* in an SOF packet */ #define CAN_SCHEDULE_FRAMES 1000 /* how far future frames can be scheduled */ struct uhci_frame_list { __u32 frame[UHCI_NUMFRAMES]; void *frame_cpu[UHCI_NUMFRAMES]; dma_addr_t dma_handle; }; struct urb_priv; struct uhci_qh { /* Hardware fields */ __u32 link; /* Next queue */ __u32 element; /* Queue element pointer */ /* Software fields */ dma_addr_t dma_handle; struct usb_device *dev; struct urb_priv *urbp; struct list_head list; /* P: uhci->frame_list_lock */ struct list_head remove_list; /* P: uhci->remove_list_lock */ } __attribute__((aligned(16))); /* * for TD <status>: */ #define TD_CTRL_SPD (1 << 29) /* Short Packet Detect */ #define TD_CTRL_C_ERR_MASK (3 << 27) /* Error Counter bits */ #define TD_CTRL_C_ERR_SHIFT 27 #define TD_CTRL_LS (1 << 26) /* Low Speed Device */ #define TD_CTRL_IOS (1 << 25) /* Isochronous Select */ #define TD_CTRL_IOC (1 << 24) /* Interrupt on Complete */ #define TD_CTRL_ACTIVE (1 << 23) /* TD Active */ #define TD_CTRL_STALLED (1 << 22) /* TD Stalled */ #define TD_CTRL_DBUFERR (1 << 21) /* Data Buffer Error */ #define TD_CTRL_BABBLE (1 << 20) /* Babble Detected */ #define TD_CTRL_NAK (1 << 19) /* NAK Received */ #define TD_CTRL_CRCTIMEO (1 << 18) /* CRC/Time Out Error */ #define TD_CTRL_BITSTUFF (1 << 17) /* Bit Stuff Error */ #define TD_CTRL_ACTLEN_MASK 0x7FF /* actual length, encoded as n - 1 */ #define TD_CTRL_ANY_ERROR (TD_CTRL_STALLED | TD_CTRL_DBUFERR | \ TD_CTRL_BABBLE | TD_CTRL_CRCTIME | TD_CTRL_BITSTUFF) #define uhci_status_bits(ctrl_sts) (ctrl_sts & 0xFE0000) #define uhci_actual_length(ctrl_sts) ((ctrl_sts + 1) & TD_CTRL_ACTLEN_MASK) /* 1-based */ /* * for TD <info>: (a.k.a. Token) */ #define TD_TOKEN_TOGGLE_SHIFT 19 #define TD_TOKEN_TOGGLE (1 << 19) #define TD_TOKEN_PID_MASK 0xFF #define TD_TOKEN_EXPLEN_MASK 0x7FF /* expected length, encoded as n - 1 */ #define uhci_maxlen(token) ((token) >> 21) #define uhci_expected_length(info) (((info >> 21) + 1) & TD_TOKEN_EXPLEN_MASK) /* 1-based */ #define uhci_toggle(token) (((token) >> TD_TOKEN_TOGGLE_SHIFT) & 1) #define uhci_endpoint(token) (((token) >> 15) & 0xf) #define uhci_devaddr(token) (((token) >> 8) & 0x7f) #define uhci_devep(token) (((token) >> 8) & 0x7ff) #define uhci_packetid(token) ((token) & TD_TOKEN_PID_MASK) #define uhci_packetout(token) (uhci_packetid(token) != USB_PID_IN) #define uhci_packetin(token) (uhci_packetid(token) == USB_PID_IN) /* * The documentation says "4 words for hardware, 4 words for software". * * That's silly, the hardware doesn't care. The hardware only cares that * the hardware words are 16-byte aligned, and we can have any amount of * sw space after the TD entry as far as I can tell. * * But let's just go with the documentation, at least for 32-bit machines. * On 64-bit machines we probably want to take advantage of the fact that * hw doesn't really care about the size of the sw-only area. * * Alas, not anymore, we have more than 4 words for software, woops. * Everything still works tho, surprise! -jerdfelt */ struct uhci_td { /* Hardware fields */ __u32 link; __u32 status; __u32 info; __u32 buffer; /* Software fields */ dma_addr_t dma_handle; struct usb_device *dev; struct urb *urb; struct list_head list; /* P: urb->lock */ int frame; struct list_head fl_list; /* P: uhci->frame_list_lock */ } __attribute__((aligned(16))); /* * There are various standard queues. We set up several different * queues for each of the three basic queue types: interrupt, * control, and bulk. * * - There are various different interrupt latencies: ranging from * every other USB frame (2 ms apart) to every 256 USB frames (ie * 256 ms apart). Make your choice according to how obnoxious you * want to be on the wire, vs how critical latency is for you. * - The control list is done every frame. * - There are 4 bulk lists, so that up to four devices can have a * bulk list of their own and when run concurrently all four lists * will be be serviced. * * This is a bit misleading, there are various interrupt latencies, but they * vary a bit, interrupt2 isn't exactly 2ms, it can vary up to 4ms since the * other queues can "override" it. interrupt4 can vary up to 8ms, etc. Minor * problem * * In the case of the root hub, these QH's are just head's of qh's. Don't * be scared, it kinda makes sense. Look at this wonderful picture care of * Linus: * * generic- -> dev1- -> generic- -> dev1- -> control- -> bulk- -> ... * iso-QH iso-QH irq-QH irq-QH QH QH * | | | | | | * End dev1-iso-TD1 End dev1-irq-TD1 ... ... * | * dev1-iso-TD2 * | * .... * * This may vary a bit (the UHCI docs don't explicitly say you can put iso * transfers in QH's and all of their pictures don't have that either) but * other than that, that is what we're doing now * * And now we don't put Iso transfers in QH's, so we don't waste one on it * --jerdfelt * * To keep with Linus' nomenclature, this is called the QH skeleton. These * labels (below) are only signficant to the root hub's QH's */ #define UHCI_NUM_SKELTD 10 #define skel_int1_td skeltd[0] #define skel_int2_td skeltd[1] #define skel_int4_td skeltd[2] #define skel_int8_td skeltd[3] #define skel_int16_td skeltd[4] #define skel_int32_td skeltd[5] #define skel_int64_td skeltd[6] #define skel_int128_td skeltd[7] #define skel_int256_td skeltd[8] #define skel_term_td skeltd[9] /* To work around PIIX UHCI bug */ #define UHCI_NUM_SKELQH 4 #define skel_ls_control_qh skelqh[0] #define skel_hs_control_qh skelqh[1] #define skel_bulk_qh skelqh[2] #define skel_term_qh skelqh[3] /* * Search tree for determining where <interval> fits in the * skelqh[] skeleton. * * An interrupt request should be placed into the slowest skelqh[] * which meets the interval/period/frequency requirement. * An interrupt request is allowed to be faster than <interval> but not slower. * * For a given <interval>, this function returns the appropriate/matching * skelqh[] index value. * * NOTE: For UHCI, we don't really need int256_qh since the maximum interval * is 255 ms. However, we do need an int1_qh since 1 is a valid interval * and we should meet that frequency when requested to do so. * This will require some change(s) to the UHCI skeleton. */ static inline int __interval_to_skel(int interval) { if (interval < 16) { if (interval < 4) { if (interval < 2) return 0; /* int1 for 0-1 ms */ return 1; /* int2 for 2-3 ms */ } if (interval < 8) return 2; /* int4 for 4-7 ms */ return 3; /* int8 for 8-15 ms */ } if (interval < 64) { if (interval < 32) return 4; /* int16 for 16-31 ms */ return 5; /* int32 for 32-63 ms */ } if (interval < 128) return 6; /* int64 for 64-127 ms */ return 7; /* int128 for 128-255 ms (Max.) */ } struct virt_root_hub { struct usb_device *dev; int devnum; /* Address of Root Hub endpoint */ struct urb *urb; void *int_addr; int send; int interval; int numports; int c_p_r[8]; struct timer_list rh_int_timer; }; /* * This describes the full uhci information. * * Note how the "proper" USB information is just * a subset of what the full implementation needs. */ struct uhci { struct pci_dev *dev; #ifdef CONFIG_PROC_FS /* procfs */ int num; struct proc_dir_entry *proc_entry; #endif /* Grabbed from PCI */ int irq; unsigned int io_addr; unsigned int io_size; struct pci_pool *qh_pool; struct pci_pool *td_pool; struct usb_bus *bus; struct uhci_td *skeltd[UHCI_NUM_SKELTD]; /* Skeleton TD's */ struct uhci_qh *skelqh[UHCI_NUM_SKELQH]; /* Skeleton QH's */ spinlock_t frame_list_lock; struct uhci_frame_list *fl; /* P: uhci->frame_list_lock */ int fsbr; /* Full speed bandwidth reclamation */ unsigned long fsbrtimeout; /* FSBR delay */ int is_suspended; /* Main list of URB's currently controlled by this HC */ spinlock_t urb_list_lock; struct list_head urb_list; /* P: uhci->urb_list_lock */ /* List of QH's that are done, but waiting to be unlinked (race) */ spinlock_t qh_remove_list_lock; struct list_head qh_remove_list; /* P: uhci->qh_remove_list_lock */ /* List of asynchronously unlinked URB's */ spinlock_t urb_remove_list_lock; struct list_head urb_remove_list; /* P: uhci->urb_remove_list_lock */ /* List of URB's awaiting completion callback */ spinlock_t complete_list_lock; struct list_head complete_list; /* P: uhci->complete_list_lock */ struct virt_root_hub rh; /* private data of the virtual root hub */ }; struct urb_priv { struct urb *urb; struct usb_device *dev; dma_addr_t setup_packet_dma_handle; dma_addr_t transfer_buffer_dma_handle; struct uhci_qh *qh; /* QH for this URB */ struct list_head td_list; /* P: urb->lock */ int fsbr : 1; /* URB turned on FSBR */ int fsbr_timeout : 1; /* URB timed out on FSBR */ int queued : 1; /* QH was queued (not linked in) */ int short_control_packet : 1; /* If we get a short packet during */ /* a control transfer, retrigger */ /* the status phase */ int status; /* Final status */ unsigned long inserttime; /* In jiffies */ unsigned long fsbrtime; /* In jiffies */ struct list_head queue_list; /* P: uhci->frame_list_lock */ struct list_head complete_list; /* P: uhci->complete_list_lock */ }; /* * Locking in uhci.c * * spinlocks are used extensively to protect the many lists and data * structures we have. It's not that pretty, but it's necessary. We * need to be done with all of the locks (except complete_list_lock) when * we call urb->complete. I've tried to make it simple enough so I don't * have to spend hours racking my brain trying to figure out if the * locking is safe. * * Here's the safe locking order to prevent deadlocks: * * #1 uhci->urb_list_lock * #2 urb->lock * #3 uhci->urb_remove_list_lock, uhci->frame_list_lock, * uhci->qh_remove_list_lock * #4 uhci->complete_list_lock * * If you're going to grab 2 or more locks at once, ALWAYS grab the lock * at the lowest level FIRST and NEVER grab locks at the same level at the * same time. * * So, if you need uhci->urb_list_lock, grab it before you grab urb->lock */ /* ------------------------------------------------------------------------- Virtual Root HUB ------------------------------------------------------------------------- */ /* destination of request */ #define RH_DEVICE 0x00 #define RH_INTERFACE 0x01 #define RH_ENDPOINT 0x02 #define RH_OTHER 0x03 #define RH_CLASS 0x20 #define RH_VENDOR 0x40 /* Requests: bRequest << 8 | bmRequestType */ #define RH_GET_STATUS 0x0080 #define RH_CLEAR_FEATURE 0x0100 #define RH_SET_FEATURE 0x0300 #define RH_SET_ADDRESS 0x0500 #define RH_GET_DESCRIPTOR 0x0680 #define RH_SET_DESCRIPTOR 0x0700 #define RH_GET_CONFIGURATION 0x0880 #define RH_SET_CONFIGURATION 0x0900 #define RH_GET_STATE 0x0280 #define RH_GET_INTERFACE 0x0A80 #define RH_SET_INTERFACE 0x0B00 #define RH_SYNC_FRAME 0x0C80 /* Our Vendor Specific Request */ #define RH_SET_EP 0x2000 /* Hub port features */ #define RH_PORT_CONNECTION 0x00 #define RH_PORT_ENABLE 0x01 #define RH_PORT_SUSPEND 0x02 #define RH_PORT_OVER_CURRENT 0x03 #define RH_PORT_RESET 0x04 #define RH_PORT_POWER 0x08 #define RH_PORT_LOW_SPEED 0x09 #define RH_C_PORT_CONNECTION 0x10 #define RH_C_PORT_ENABLE 0x11 #define RH_C_PORT_SUSPEND 0x12 #define RH_C_PORT_OVER_CURRENT 0x13 #define RH_C_PORT_RESET 0x14 /* Hub features */ #define RH_C_HUB_LOCAL_POWER 0x00 #define RH_C_HUB_OVER_CURRENT 0x01 #define RH_DEVICE_REMOTE_WAKEUP 0x00 #define RH_ENDPOINT_STALL 0x01 /* Our Vendor Specific feature */ #define RH_REMOVE_EP 0x00 #define RH_ACK 0x01 #define RH_REQ_ERR -1 #define RH_NACK 0x00 #endif
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