1: /* 2: * Copyright (c) 1982, 1986 Regents of the University of California. 3: * All rights reserved. The Berkeley software License Agreement 4: * specifies the terms and conditions for redistribution. 5: * 6: * @(#)if_exreg.h 7.1 (Berkeley) 6/5/86 7: */ 8: 9: 10: struct exdevice { 11: char xd_porta; /* write on porta resets EXOS */ 12: char xd_pad_a; 13: char xd_portb; /* write on portb interrupts EXOS */ 14: /* read on portb returns status bits */ 15: char xd_pad_b; 16: }; 17: 18: /* EXOS I/O PORT A write definitions */ 19: #define EX_RESET 0 /* value doesn't really matter... */ 20: 21: /* EXOS I/O PORT B write definitions */ 22: #define EX_NTRUPT 0 23: 24: /* EXOS I/O PORT B read definitions */ 25: #define EX_TESTOK 1 /* set when self-diagnostics passed */ 26: #define EX_UNREADY (1<<3) /* set until EXOS ready to read from B */ 27: 28: /* message buffer status field definitions */ 29: #define MH_OWNER 1 /* mask for status bit for owner */ 30: #define MH_HOST 0 /* if 0, the host owns the buffer */ 31: #define MH_EXOS 1 /* if 1, the EXOS owns the buffer */ 32: 33: /* EXOS Link Level request codes */ 34: #define LLTRANSMIT 0xC /* send a packet */ 35: #define LLRTRANSMIT 0xE /* send a packet, and self-receive */ 36: #define LLRECEIVE 0xD /* receive a packet */ 37: #define LLNET_MODE 0x8 /* read/write mode control objects */ 38: #define LLNET_ADDRS 0x9 /* read/write receive address slots */ 39: #define LLNET_RECV 0xA /* read/alter receive slot enable bit */ 40: #define LLNET_STSTCS 0xB /* read/reset network statistics objects */ 41: 42: /* Link Level return codes common to all requests */ 43: #define LL_OK 0 /* successful completion */ 44: #define LLX_MODE 0xA1 /* EXOS not in link level mode (impossible) */ 45: 46: /* LLTRANSMIT unique return codes */ 47: #define LLXM_1RTRY 0x1 /* successful xmission, 1 retry */ 48: #define LLXM_RTRYS 0x2 /* successful xmission, more than 1 retry */ 49: #define LLXM_NSQE 0x8 /* successful xmission, no SQE TEST signal */ 50: #define LLXM_CLSN 0x10 /* xmission failed, excess retries */ 51: #define LLXM_NCS 0x20 /* xmission failed, no carrier sense */ 52: #define LLXM_LNGTH 0x40 /* xmission failed, bad packet length */ 53: #define XMIT_BITS "\7\7LENGTH\6CARRIER\5XCLSNS\4SQETST" 54: #define LLXM_ERROR (LLXM_NSQE|LLXM_CLSN|LLXM_NCS|LLXM_LNGTH) 55: 56: /* LLRECEIVE unique return codes */ 57: #define LLRC_TRUNC 0x4 /* pkt received, but truncated to fit buffer */ 58: #define LLRC_ALIGN 0x10 /* pkt received, but with alignment error */ 59: #define LLRC_CRC 0x20 /* pkt received, but with CRC error */ 60: #define LLRC_BUFLEN 0x40 /* no pkt received, buffer less than 64 bytes */ 61: /* this should never happen here */ 62: #define RECV_BITS "\7\7BUFLEN\6CRC\5ALIGN\3TRUNC" 63: 64: /* LLNET_ADDRS unique return codes */ 65: #define LLNA_BADSLOT 0xD1 /* slot doesn't exist or can't be accessed */ 66: #define LLNA_BADADDR 0xD3 /* invalid address for designated slot */ 67: 68: /* LLNET_RECV unique return codes */ 69: #define LLNR_BADSLOT 0xD1 /* slot doesn't exist or can't be accessed */ 70: #define LLNR_BADADDR 0xD2 /* designated slot was empty */ 71: 72: /* address slot object indices */ 73: #define NULLSLOT 0 /* the null slot */ 74: #define MINMCSLOT 1 /* minimum multicast slot index */ 75: #define MAXMCSLOT 8 /* default maximum multicast slot index */ 76: #define PHYSSLOT 253 /* physical slot index */ 77: #define UNVRSSLOT 254 /* universal slot index */ 78: #define BROADSLOT 255 /* broadcast slot index */ 79: 80: /* request mask bit definitions */ 81: #define WRITE_OBJ 1 /* write the object */ 82: #define READ_OBJ 2 /* read the object */ 83: #define ENABLE_RCV 4 /* enable reception on designated slot */ 84: 85: /* NET_MODE options mask bit definitions */ 86: #define OPT_ALIGN 0x10 /* receive packets with alignment errors */ 87: #define OPT_CRC 0x20 /* receive packets with CRC errors */ 88: #define OPT_DSABLE 0x80 /* disconnect controller hardware */ 89: 90: /* NET_MODE mode field value definitions */ 91: #define MODE_OFF 0 /* stop transmission and reception */ 92: #define MODE_PERF 1 /* perfect multicast address filtering */ 93: #define MODE_HW 2 /* hardware-only multicast address filtering */ 94: #define MODE_PROM 3 /* promiscuous reception */ 95: 96: #define NFRAGMENTS 1 /* number fragments that the EXOS will scatter/gather */ 97: #define EXMAXRBUF 1520 /* per EXOS 101 manual 5.3.7 (maybe 1518 would do) */ 98: 99: /* 100: * N.B. Structures below are carefully constructed so that 101: * they correspond to the message formats that NX firmware 102: * defines. None of them should contain any compiler-instigated 103: * padding. Be especially careful about VAX C longword alignment! 104: */ 105: 106: struct stat_array { 107: u_long sa_fsent; /* frames sent without errors */ 108: u_long sa_xsclsn; /* frames aborted excess collisions */ 109: u_long sa_nsqe; /* frames subject to heartbeat failure */ 110: u_long sa_undef; /* undefined (TDR on EXOS 101) */ 111: u_long sa_frcvd; /* frames received no errors */ 112: u_long sa_align; /* frames received alignment error */ 113: u_long sa_crc; /* frames received crc error */ 114: u_long sa_flost; /* frames lost */ 115: }; 116: 117: struct buf_blk { /* packet/buffer block descriptor */ 118: u_short bb_len; /* length of block, in bytes */ 119: u_short bb_addr[2]; /* address of block */ 120: /* 121: * Array above is really a single u_long field. 122: * We kludge its definition to defeat word-alignment. 123: * Access would look like: 124: * longaddr = *(u_long *)bp->.mb_er.er_blks[0].bb_addr; 125: */ 126: }; 127: 128: struct net_mode { /* read/write mode control objects */ 129: /*12*/ u_char nm_rqst; /* request code */ 130: /*13*/ u_char nm_rply; /* reply code */ 131: /*14*/ u_char nm_mask; /* bit-wise switches for read, write */ 132: /*15*/ u_char nm_optn; /* acceptable packet reception errors */ 133: /*16*/ u_char nm_mode; /* EXOS filtering mode */ 134: /*17*/ 135: }; 136: 137: struct net_addrs { /* read/write receive address slots */ 138: /*12*/ u_char na_rqst; /* request code */ 139: /*13*/ u_char na_rply; /* reply code */ 140: /*14*/ u_char na_mask; /* bit-wise switches for read, write */ 141: /*15*/ u_char na_slot; /* index of address slot */ 142: /*16*/ u_char na_addrs[6]; /* address read and/or written */ 143: /*22*/ 144: }; 145: 146: struct net_recv { /* read/alter receive slot enable bit */ 147: /*12*/ u_char nr_rqst; /* request code */ 148: /*13*/ u_char nr_rply; /* reply code */ 149: /*14*/ u_char nr_mask; /* bit-wise switches for read, write */ 150: /*15*/ u_char nr_slot; /* index of address slot */ 151: /*16*/ 152: }; 153: 154: struct net_ststcs { /* read/reset network statistics objects */ 155: /*12*/ u_char ns_rqst; /* request code */ 156: /*13*/ u_char ns_rply; /* reply code */ 157: /*14*/ u_char ns_mask; /* bit-wise switches for read, write */ 158: /*15*/ u_char ns_rsrv; /* reserved for EXOS */ 159: /*16*/ u_short ns_nobj; /* number of objects to work on */ 160: /*18*/ u_short ns_xobj; /* index of first object to work on */ 161: /*20*/ u_long ns_bufp; /* pointer to statistics buffer */ 162: /*24*/ 163: }; 164: 165: struct enet_xmit { /* send a packet on the Ethernet */ 166: /*12*/ u_char et_rqst; /* request code */ 167: /*13*/ u_char et_rply; /* reply code */ 168: /*14*/ u_char et_slot; /* address slot matching dest address */ 169: /*15*/ u_char et_nblock; /* number of blocks composing packet */ 170: /*16*/ struct buf_blk et_blks[NFRAGMENTS]; /* array of block descriptors */ 171: /*22-64*/ 172: }; 173: 174: struct enet_recv { /* receive a packet on the Ethernet */ 175: /*12*/ u_char er_rqst; /* request code */ 176: /*13*/ u_char er_rply; /* reply code */ 177: /*14*/ u_char er_slot; /* address slot matching dest address */ 178: /*15*/ u_char er_nblock; /* number of blocks composing buffer */ 179: /*16*/ struct buf_blk er_blks[NFRAGMENTS]; /* array of block descriptors */ 180: /*22-64*/ 181: }; 182: 183: /* we send requests and receive replys with the EXOS using this structure */ 184: struct ex_msg { 185: /*00*/ u_short mb_link; /* address of next message buffer */ 186: /*02*/ u_char mb_rsrv; /* reserved for use by EXOS */ 187: /*03*/ u_char mb_status; /* used bit-wise for message protocol */ 188: /*04*/ u_short mb_length; /* length, in bytes, of the rest */ 189: /*06*/ short mb_1rsrv; /* reserved for used by EXOS */ 190: /*08*/ long mb_mid; /* available to user */ 191: /*12*/ union mb_all { 192: struct net_mode mb_net_mode; 193: struct net_addrs mb_net_addrs; 194: struct net_recv mb_net_recv; 195: struct net_ststcs mb_net_ststcs; 196: struct enet_xmit mb_enet_xmit; 197: struct enet_recv mb_enet_recv; 198: } mb_all; 199: /* following field is used only by host, not read by board */ 200: struct ex_msg *mb_next; /* host's pointer to next message */ 201: }; 202: #define mb_nm mb_all.mb_net_mode 203: #define mb_na mb_all.mb_net_addrs 204: #define mb_nr mb_all.mb_net_recv 205: #define mb_ns mb_all.mb_net_ststcs 206: #define mb_et mb_all.mb_enet_xmit 207: #define mb_er mb_all.mb_enet_recv 208: #define mb_rqst mb_nm.nm_rqst 209: #define mb_rply mb_nm.nm_rply 210: #define MBDATALEN (sizeof(union mb_all)+6) 211: 212: struct confmsg { 213: /*00*/ u_short cm_1rsrv; /* reserved, must be 1 */ 214: /*02*/ char cm_vc[4]; /* returns ASCII version code */ 215: /*06*/ u_char cm_cc; /* returns config completion code */ 216: /*07*/ u_char cm_opmode; /* specifies operation mode */ 217: /*08*/ u_short cm_dfo; /* specifies host data format option */ 218: /*10*/ u_char cm_dcn1; /* reserved, must be 1 */ 219: /*11*/ u_char cm_2rsrv[2]; /* reserved, must be 0 */ 220: /*13*/ u_char cm_ham; /* specifies host address mode */ 221: /*14*/ u_char cm_3rsrv; /* reserved, must be 0 */ 222: /*15*/ u_char cm_mapsiz; /* reserved, must be 0 */ 223: /*16*/ u_char cm_byteptrn[4]; /* host data format option test pattern */ 224: /*20*/ u_short cm_wordptrn[2]; 225: /*24*/ u_long cm_lwordptrn; 226: /*28*/ u_char cm_rsrvd[20]; 227: /*48*/ u_long cm_mba; /* use 0xFFFFFFFF in link level mode */ 228: /*52*/ u_char cm_nproc; /* use 0xFF in link level mode */ 229: /*53*/ u_char cm_nmbox; /* use 0xFF in link level mode */ 230: /*54*/ u_char cm_nmcast; /* use 0xFF in link level mode */ 231: /*55*/ u_char cm_nhost; /* use 1 in link level mode */ 232: 233: /* the next five parameters define the request message queue */ 234: /*56*/ u_long cm_h2xba; /* base address of message queue */ 235: /*60*/ u_short cm_h2xhdr; /* address offset of msg Q header */ 236: /*62*/ u_char cm_h2xtyp; /* interrupt type */ 237: /*63*/ u_char cm_h2xval; /* interrupt value (not used) */ 238: /*64*/ u_short cm_h2xaddr; /* interrupt vector */ 239: /*66*/ u_short cm_h2xpad; /* pad out unused portion of vector */ 240: 241: /* the next five parameters define the reply message queue */ 242: /*68*/ u_long cm_x2hba; /* base address of message queue */ 243: /*72*/ u_short cm_x2hhdr; /* address offset of msg Q header */ 244: /*74*/ u_char cm_x2htyp; /* interrupt type */ 245: /*75*/ u_char cm_x2hval; /* interrupt value (not used) */ 246: /*76*/ u_short cm_x2haddr; /* interrupt vector */ 247: /*78*/ u_short cm_x2hpad; /* pad out unused portion of vector */ 248: /*80*/ 249: };
Defined struct's
Defined union's
Defined macros
LLNA_BADADDR
defined in line 66; never used
LLNA_BADSLOT
defined in line 65; never used
LLNR_BADADDR
defined in line 70; never used
LLNR_BADSLOT
defined in line 69; never used
LLRC_ALIGN
defined in line 58; never used
LLRC_BUFLEN
defined in line 60; never used
LLRC_TRUNC
defined in line 57; never used
LLTRANSMIT
defined in line 34; never used
OPT_DSABLE
defined in line 88; never used
mb_nm
defined in line 202; used 5 times
- in line 208-209(2)
- in /usr/src/sys/vaxif/if_ex.c line 278-280(3)
Usage of this include
if_exreg.h
used 1 times
- in /usr/src/sys/vaxif/if_ex.c line 51
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Last modified: 1986-06-05
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