ref: a6ccb66d9c0748d44cd622d6a700d1ad6447cada
dir: /sys/src/9/port/ethermii.h/
typedef struct Mii Mii; typedef struct MiiPhy MiiPhy; enum { /* registers */ Bmcr = 0x00, /* Basic Mode Control */ Bmsr = 0x01, /* Basic Mode Status */ Phyidr1 = 0x02, /* PHY Identifier #1 */ Phyidr2 = 0x03, /* PHY Identifier #2 */ Anar = 0x04, /* Auto-Negotiation Advertisement */ Anlpar = 0x05, /* AN Link Partner Ability */ Aner = 0x06, /* AN Expansion */ Annptr = 0x07, /* AN Next Page TX */ Annprr = 0x08, /* AN Next Page RX */ Mscr = 0x09, /* MASTER-SLAVE Control */ Mssr = 0x0A, /* MASTER-SLAVE Status */ Mmdctrl = 0x0D, /* MMD Access Control */ Mmddata = 0x0E, /* MMD Access Data Register */ Esr = 0x0F, /* Extended Status */ NMiiPhyr = 32, NMiiPhy = 32, }; enum { /* Bmcr */ BmcrSs1 = 0x0040, /* Speed Select[1] */ BmcrCte = 0x0080, /* Collision Test Enable */ BmcrDm = 0x0100, /* Duplex Mode */ BmcrRan = 0x0200, /* Restart Auto-Negotiation */ BmcrI = 0x0400, /* Isolate */ BmcrPd = 0x0800, /* Power Down */ BmcrAne = 0x1000, /* Auto-Negotiation Enable */ BmcrSs0 = 0x2000, /* Speed Select[0] */ BmcrLe = 0x4000, /* Loopback Enable */ BmcrR = 0x8000, /* Reset */ }; enum { /* Bmsr */ BmsrEc = 0x0001, /* Extended Capability */ BmsrJd = 0x0002, /* Jabber Detect */ BmsrLs = 0x0004, /* Link Status */ BmsrAna = 0x0008, /* Auto-Negotiation Ability */ BmsrRf = 0x0010, /* Remote Fault */ BmsrAnc = 0x0020, /* Auto-Negotiation Complete */ BmsrPs = 0x0040, /* Preamble Suppression Capable */ BmsrEs = 0x0100, /* Extended Status */ Bmsr100T2HD = 0x0200, /* 100BASE-T2 HD Capable */ Bmsr100T2FD = 0x0400, /* 100BASE-T2 FD Capable */ Bmsr10THD = 0x0800, /* 10BASE-T HD Capable */ Bmsr10TFD = 0x1000, /* 10BASE-T FD Capable */ Bmsr100TXHD = 0x2000, /* 100BASE-TX HD Capable */ Bmsr100TXFD = 0x4000, /* 100BASE-TX FD Capable */ Bmsr100T4 = 0x8000, /* 100BASE-T4 Capable */ }; enum { /* Anar/Anlpar */ Ana10HD = 0x0020, /* Advertise 10BASE-T */ Ana10FD = 0x0040, /* Advertise 10BASE-T FD */ AnaTXHD = 0x0080, /* Advertise 100BASE-TX */ AnaTXFD = 0x0100, /* Advertise 100BASE-TX FD */ AnaT4 = 0x0200, /* Advertise 100BASE-T4 */ AnaP = 0x0400, /* Pause */ AnaAP = 0x0800, /* Asymmetrical Pause */ AnaRf = 0x2000, /* Remote Fault */ AnaAck = 0x4000, /* Acknowledge */ AnaNp = 0x8000, /* Next Page Indication */ }; enum { /* Mscr */ Mscr1000THD = 0x0100, /* Advertise 1000BASE-T HD */ Mscr1000TFD = 0x0200, /* Advertise 1000BASE-T FD */ }; enum { /* Mssr */ Mssr1000THD = 0x0400, /* Link Partner 1000BASE-T HD able */ Mssr1000TFD = 0x0800, /* Link Partner 1000BASE-T FD able */ }; enum { /* Esr */ Esr1000THD = 0x1000, /* 1000BASE-T HD Capable */ Esr1000TFD = 0x2000, /* 1000BASE-T FD Capable */ Esr1000XHD = 0x4000, /* 1000BASE-X HD Capable */ Esr1000XFD = 0x8000, /* 1000BASE-X FD Capable */ }; typedef struct Mii { Lock; int nphy; int mask; MiiPhy* phy[NMiiPhy]; MiiPhy* curphy; void* ctlr; int (*mir)(Mii*, int, int); int (*miw)(Mii*, int, int, int); } Mii; typedef struct MiiPhy { Mii* mii; u32int id; int oui; int phyno; int anar; int fc; int mscr; int link; int speed; int fd; int rfc; int tfc; }; extern int mii(Mii*, int); extern int miiane(Mii*, int, int, int); extern int miimir(Mii*, int); extern int miimiw(Mii*, int, int); extern int miireset(Mii*); extern int miistatus(Mii*); extern int miimmdr(Mii*, int, int); extern int miimmdw(Mii*, int, int, int);