ref: dc96f164a2b72ccb209ae98ce50a11087cbe44f8
dir: /sys/src/9/port/usb.h/
/* * common USB definitions. */ #define dprint if(debug)print #define ddprint if(debug>1)print #define deprint if(debug || ep->debug)print #define ddeprint if(debug>1 || ep->debug>1)print #define GET2(p) ((((p)[1]&0xFF)<<8)|((p)[0]&0xFF)) #define PUT2(p,v) {((p)[0] = (v)); ((p)[1] = (v)>>8);} typedef struct Udev Udev; /* USB device */ typedef struct Ep Ep; /* Endpoint */ typedef struct Hci Hci; /* Host Controller Interface */ typedef struct Hciimpl Hciimpl; /* Link to the controller impl. */ enum { /* fundamental constants */ Ndeveps = 32, /* max nb. of endpoints per device (16 in + 16 out) */ /* tunable parameters */ Nhcis = 16, /* max nb. of HCIs */ Neps = 64, /* max nb. of endpoints */ Maxctllen = 32*1024, /* max allowed sized for ctl. xfers; see Maxdevconf */ Xfertmout = 2000, /* default request time out (ms) */ /* transfer types. keep this order */ Tnone = 0, /* no tranfer type configured */ Tctl, /* wr req + rd/wr data + wr/rd sts */ Tiso, /* stream rd or wr (real time) */ Tbulk, /* stream rd or wr */ Tintr, /* msg rd or wr */ Nttypes, /* number of transfer types */ Epmax = 0xF, /* max ep. addr */ Devmax = 0x7F, /* max dev. addr */ /* Speeds */ Fullspeed = 0, Lowspeed, Highspeed, Nospeed, /* request type */ Rh2d = 0<<7, Rd2h = 1<<7, Rstd = 0<<5, Rclass = 1<<5, Rdev = 0, Rep = 2, Rother = 3, /* req offsets */ Rtype = 0, Rreq = 1, Rvalue = 2, Rindex = 4, Rcount = 6, Rsetuplen = 8, /* standard requests */ Rgetstatus = 0, Rclearfeature = 1, Rsetfeature = 3, Rsetaddr = 5, Rgetdesc = 6, /* device states */ Dconfig = 0, /* configuration in progress */ Denabled, /* address assigned */ Ddetach, /* device is detached */ Dreset, /* its port is being reset */ /* (root) Hub reply to port status (reported to usbd) */ HPpresent = 0x1, HPenable = 0x2, HPsuspend = 0x4, HPovercurrent = 0x8, HPreset = 0x10, HPpower = 0x100, HPslow = 0x200, HPhigh = 0x400, HPstatuschg = 0x10000, HPchange = 0x20000, }; /* * Services provided by the driver. * epopen allocates hardware structures to prepare the endpoint * for I/O. This happens when the user opens the data file. * epclose releases them. This happens when the data file is closed. * epwrite tries to write the given bytes, waiting until all of them * have been written (or failed) before returning; but not for Iso. * epread does the same for reading. * It can be assumed that endpoints are DMEXCL but concurrent * read/writes may be issued and the controller must take care. * For control endpoints, device-to-host requests must be followed by * a read of the expected length if needed. * The port requests are called when usbd issues commands for root * hubs. Port status must return bits as a hub request would do. * Toggle handling and other details are left for the controller driver * to avoid mixing too much the controller and the comon device. * While an endpoint is closed, its toggles are saved in the Ep struct. */ struct Hciimpl { void *aux; /* for controller info */ void (*init)(Hci*); /* init. controller */ void (*dump)(Hci*); /* debug */ void (*interrupt)(Ureg*, void*); /* service interrupt */ void (*epopen)(Ep*); /* prepare ep. for I/O */ void (*epclose)(Ep*); /* terminate I/O on ep. */ long (*epread)(Ep*,void*,long); /* transmit data for ep */ long (*epwrite)(Ep*,void*,long); /* receive data for ep */ char* (*seprintep)(char*,char*,Ep*); /* debug */ int (*portenable)(Hci*, int, int); /* enable/disable port */ int (*portreset)(Hci*, int, int); /* set/clear port reset */ int (*portstatus)(Hci*, int); /* get port status */ void (*shutdown)(Hci*); /* shutdown for reboot */ void (*debug)(Hci*, int); /* set/clear debug flag */ }; struct Hci { ISAConf; /* hardware info */ int tbdf; /* type+busno+devno+funcno */ int ctlrno; /* controller number */ int nports; /* number of ports in hub */ int highspeed; Hciimpl; /* HCI driver */ }; /* * USB endpoint. * All endpoints are kept in a global array. The first * block of fields is constant after endpoint creation. * The rest is configuration information given to all controllers. * The first endpoint for a device (known as ep0) represents the * device and is used to configure it and create other endpoints. * Its QLock also protects per-device data in dev. * See Hciimpl for clues regarding how this is used by controllers. */ struct Ep { Ref; /* one per fid (and per dev ep for ep0s) */ /* const once inited. */ int idx; /* index in global eps array */ int nb; /* endpoint number in device */ Hci* hp; /* HCI it belongs to */ Udev* dev; /* device for the endpoint */ Ep* ep0; /* control endpoint for its device */ QLock; /* protect fields below */ char* name; /* for ep file names at #u/ */ int inuse; /* endpoint is open */ int mode; /* OREAD, OWRITE, or ORDWR */ int clrhalt; /* true if halt was cleared on ep. */ int debug; /* per endpoint debug flag */ char* info; /* for humans to read */ long maxpkt; /* maximum packet size */ int ttype; /* tranfer type */ ulong load; /* in µs, for a fransfer of maxpkt bytes */ void* aux; /* for controller specific info */ int rhrepl; /* fake root hub replies */ int toggle[2]; /* saved toggles (while ep is not in use) */ long pollival; /* poll interval ([µ]frames; intr/iso) */ long hz; /* poll frequency (iso) */ long samplesz; /* sample size (iso) */ int ntds; /* nb. of Tds per µframe */ int tmout; /* 0 or timeout for transfers (ms) */ int sampledelay; /* maximum delay introduced by buffering (iso) */ }; /* * Per-device configuration and cached list of endpoints. * eps[0]->QLock protects it. */ struct Udev { int nb; /* USB device number */ int state; /* state for the device */ int ishub; /* hubs can allocate devices */ int isroot; /* is a root hub */ int speed; /* Full/Low/High/No -speed */ int hub; /* dev number for the parent hub */ int port; /* port number in the parent hub */ Ep* eps[Ndeveps]; /* end points for this device (cached) */ }; void addhcitype(char *type, int (*reset)(Hci*)); extern char *usbmodename[]; extern char Estalled[]; extern char *seprintdata(char*,char*,uchar*,int);